JP4397595B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus, and more particularly, to an image forming apparatus such as a copying machine, a printer, a facsimile machine, or a complex machine thereof, which forms an image by transferring a toner image formed by an electrophotographic method onto a transfer target. About.
[0002]
[Prior art]
As a conventional image forming apparatus, for example, a plurality of photosensitive members are opposed to a transfer member that conveys paper, and toner images of each color of the plurality of photosensitive members are transferred to the paper within one rotation of the transfer member. In a quadruple tandem type image forming apparatus for forming an image, when a toner image formed by an electrophotographic method is transferred to a transfer target body to form an image, the surface speed of the transfer body and a plurality of photoconductors A transfer device of an image output device that gives a difference in speed to each surface speed is known (see Japanese Patent No. 2743359).
In the transfer device of this image output device, the speed of the transfer body is 0.1% to 1.0% higher than the speed of the photoconductor, and writing at the time of writing caused by the diameter difference or eccentricity of the drum-shaped photoconductor drum is performed. A method is used that can maintain the paper speed regardless of the expansion or misalignment of the image.
A method for improving transferability by giving a speed difference between a transfer belt having a paper conveyance function and a photoconductor is a method that has been used frequently since the black-and-white copier era, and is a known technique.
Furthermore, an image forming apparatus is also known that changes the transfer current and paper attracting current conditions according to the environment, thereby increasing the electrostatic attracting force of the paper and improving the transportability of the paper and thus preventing the misregistration of each color. (See Japanese Laid-Open Patent Publication No. 2001-109325).
[0003]
Conventionally, in a four-tandem configuration, a transfer sheet is conveyed by a transfer conveyance belt, and a bias applying member is disposed at a position facing the photosensitive drum via the transfer conveyance belt. A color image forming apparatus having a configuration in which a toner image on a photosensitive drum is sequentially transferred onto a transfer sheet by applying a bias is known.
In this quadruple tandem type image forming apparatus, the conveyance speed of the paper is attracted to the transfer conveyance belt and is conveyed, so that it is generally the same speed as the surface of the transfer conveyance belt.
With respect to the speed of the transfer conveyance belt and the surface of the photosensitive drum, transfer is performed only by electrostatic force when the speed is the same, but when the speed difference is given, the electrostatic force is increased. In addition, since mechanical stripping force is added, it is possible to prevent image quality deterioration due to poor transfer.
By providing a speed difference between the surface speeds of the transfer conveying belt and the photosensitive drum, particularly good transferability can be obtained when two or more colors are superimposed.
When there is no color superimposition such as a single color, the toner layer is relatively easily held on the surface of the transfer paper, and a transfer property of a certain level or more can be easily secured. Since there is already a toner layer transferred onto the transfer paper, the transferability of new toner has deteriorated.
Therefore, a method of giving a speed difference between the surface speeds of the transfer conveyance belt and the photosensitive drum is effective.
In this way, by providing a speed difference between the photosensitive drum and the transfer / conveying belt, it is possible to prevent the occurrence of white spots at the center of the characters, that is, so-called abnormal images called worm-eaten images, and transfer of two colors. I can do it.
However, if there is a speed difference between the photosensitive drum and the transfer conveyance belt, the transfer paper that should normally be attracted to the transfer conveyance belt is different from the transfer conveyance belt due to the surface speed difference with the photosensitive drum. The transfer sheet attracting force is weakened, the transfer sheet conveyance speed does not become equal to the transfer conveyance belt conveyance speed, and becomes unstable, which causes deterioration of color misregistration in the sub-scanning direction.
More specifically, when a speed difference is provided between the photosensitive drum and the transfer conveyance belt, the electrostatic attraction force of the transfer paper to the transfer conveyance belt, which causes color misregistration in the sub-scanning direction, is Since it varies depending on the resistance of the transfer paper, such as the type of paper and humidity control conditions, delicate and troublesome adjustments are required depending on the use environment, the transfer paper used, the front and back surfaces of the transfer paper, and the like.
Therefore, by varying the transfer current condition and the transfer sheet adsorption current condition, even if it is attempted to achieve stable transfer sheet transfer, a speed difference between the photosensitive drum and the transfer transfer belt is required to obtain a good image. In the apparatus provided with, the color shift in the sub-scanning direction could not be completely suppressed.
Therefore, in order to obtain a good image by providing a speed difference between the photosensitive drum and the transfer conveyance belt, the conventional image forming apparatus is used in the usage environment, the type of transfer paper used, the front and back surfaces of the transfer paper, and the like. Accordingly, there is a problem that not only the delicate and troublesome adjustment is necessary, but also the occurrence of toner image shift in the sub-scanning direction cannot be suppressed.
[Patent Document 1]
Japanese Patent No. 2743359
[Patent Document 2]
JP 2001-109325 A
[0004]
[Problems to be solved by the invention]
Conventional image forming apparatuses are sensitive to the use environment, the type of transfer paper used, the front and back surfaces of the transfer paper, etc. in order to obtain a good image by giving a speed difference between the photosensitive drum and the transfer conveyance belt. Therefore, there is a problem that not only troublesome adjustment is necessary, but also the occurrence of toner image shift in the sub-scanning direction cannot be suppressed.
Therefore, an object of the present invention is to solve such problems. That is, without making subtle and troublesome adjustments according to the usage environment and the like, a simple device can easily suppress the occurrence of toner image deviation in the sub-scanning direction and form a high-quality image by improving transferability. An object is to provide a low-cost image forming apparatus.
[0005]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention of claim 1 is directed to a toner that is rotatably held in an image forming apparatus that forms an image by transferring a toner image formed by an electrophotographic method to a transfer target. A plurality of photoconductors (first image carriers) for carrying an image, and transfer conveyance for moving a toner image on the photoconductorbeltUpAdsorbed by adsorption meansTransfer means for transferring to a transfer sheet (second image carrier) of the transfer target, the transfer sheet surface expressed by the above (surface speed of transfer sheet surface) / (surface speed of photoreceptor surface), and the photoreceptor The surface velocity ratio of the surface,While detecting the temperature and humidity of the environment by the detection means, the environmental current / voltage detection means detects the environmental current / voltage of the adsorption means section,Most importantly, the image forming apparatus is composed of a surface speed ratio changing unit that changes in a direction approaching 1.0 in a high-temperature and high-humidity environment and in a direction away from 1.0 in a low-temperature and low-humidity environment.SpecialIt is a sign.
[0006]
  Claim2The present invention isA toner image formed by an electrophotographic method is transferred to a transfer medium to form an image.In the image forming apparatus,A plurality of photoconductors (first image carriers) that are rotatably held and carry a color toner image, and a transfer body on a transfer conveyance belt that moves the toner image on the photoconductor. Transfer means for transferring to the transfer paper (second image carrier) and the surface speed ratio between the transfer paper surface and the photoconductor surface expressed by (surface speed of transfer paper surface) / (surface speed of photoconductor surface) The environmental temperature and humidity are detected by the detecting means, and the surface velocity measuring means are used.Measure the surface speed of the photoreceptor surface or the surface speed of the transfer paper surfaceAnd a surface speed ratio changing means for changing in a direction approaching 1.0 in a high temperature and high humidity environment and in a direction away from 1.0 in a low temperature and low humidity environment;The main feature is that the image forming apparatus comprises:
According to a third aspect of the present invention, in the image forming apparatus according to the second aspect, the surface velocity measuring means detects the detection mark formed on the surface position of the photosensitive member or the surface position of the transfer paper, and the detection mark. The main feature is that the image forming apparatus comprises a sensor that performs the above-described process.
According to a fourth aspect of the present invention, in the image forming apparatus according to the third aspect, the detection mark is an image forming apparatus having a lattice pattern formed by exposure.
[0007]
  Claim5The present invention isA toner image formed by an electrophotographic method is transferred to a transfer medium to form an image.In the image forming apparatus,A plurality of photoconductors (first image carriers) that are rotatably held and carry a color toner image, and a transfer body on a transfer conveyance belt that moves the toner image on the photoconductor. Transfer means for transferring to transfer paper (second image carrier);The surface speed ratio between the surface of the transfer paper and the surface of the photoconductor expressed as (surface speed of the surface of the transfer paper) / (surface speed of the surface of the photoconductor)The temperature and humidity of the environment are detected by the detecting means, and the surface speed ratio is changed depending on the type of the transfer paper on the transfer conveyance belt so as to approach 1.0 in a high temperature and high humidity environment. In the environment, it comprises surface speed ratio changing means for changing in a direction away from 1.0.The main feature is that it is an image forming apparatus.
Claim6The invention of claim5In the image forming apparatus described above, when the transfer paper on the transfer conveyance belt is higher resistance paper, the surface speed ratio changing unit is expressed by (surface speed of transfer paper surface) / (surface speed of photoreceptor surface). The main feature is that the image forming apparatus changes the surface speed ratio between the surface of the transfer sheet and the surface of the photosensitive member in a direction away from 1.0.
Claim7The invention of claim5Or6In the image forming apparatus described above, when the transfer paper is a low-resistance paper, the surface speed ratio changing unit includes the transfer paper surface expressed by (surface speed of transfer paper surface) / (surface speed of photoconductor surface) and the surface of the transfer paper. The main feature is that the image forming apparatus changes the surface speed ratio of the surface of the photoreceptor to a direction closer to 1.0.
[0008]
  Claim8The present invention isA toner image formed by an electrophotographic method is transferred to a transfer medium to form an image.In the image forming apparatus,A plurality of photoconductors (first image carriers) that are rotatably held and carry a color toner image, and a transfer body on a transfer conveyance belt that moves the toner image on the photoconductor. Transfer means for transferring to the transfer paper (second image carrier) and the surface speed ratio between the transfer paper surface and the photoconductor surface expressed by (surface speed of transfer paper surface) / (surface speed of photoconductor surface) Detecting the environmental temperature and humidity by the detecting means, andThe environment in which the toner image on the surface of the photosensitive member is transferred onto the surface of the transfer paper by the transfer means is classified into three types: a normal atmosphere, a high temperature and high humidity atmosphere, and a low temperature and low humidity atmosphere.The surface speed ratio is changed to change in a direction approaching 1.0 in a high-temperature and high-humidity environment, and in a direction away from 1.0 in a low-temperature and low-humidity environment.Surface speed ratio changing means is a hot and humid atmosphereAbove inThe main feature is that the image forming apparatus changes the surface speed ratio to 1.001 to 1.004 or 0.996 to 0.999.
Claim9The present invention isA toner image formed by an electrophotographic method is transferred to a transfer medium to form an image.In the image forming apparatus,A plurality of photoconductors (first image carriers) that are rotatably held and carry a color toner image, and a transfer body on a transfer conveyance belt that moves the toner image on the photoconductor. Transfer means for transferring to the transfer paper (second image carrier) and the surface speed ratio between the transfer paper surface and the photoconductor surface expressed by (surface speed of transfer paper surface) / (surface speed of photoconductor surface) The environmental temperature and humidity are detected by the detection means, and the environment in which the transfer means is transferred onto the surface of the transfer paper on which the toner image on the surface of the photosensitive member is transferred is a normal atmosphere, a high-temperature and high-humidity atmosphere, Surface speed ratio changing means for changing the surface speed ratio according to three types of low temperature and low humidity atmospheres, changing the surface speed ratio in a direction close to 1.0 in a high temperature and high humidity environment, and changing in a direction away from 1.0 in a low temperature and low humidity environment; Consisting of the aboveThe surface speed ratio changing means is a low temperature and low humidity atmosphere.Above inThe main feature is that the image forming apparatus changes the surface speed ratio to 1.003 to 1.008 or 0.992 to 0.997.
[0010]
[Action]
  According to a first aspect of the present invention, there is provided an image forming apparatus comprising: a plurality of toners on a plurality of photosensitive members (first image carriers) that are rotatably held and carry a color toner image; Images are transferred on the moving transfer conveyor belt.Adsorbed by adsorption meansTransfer means for transferring the transfer material to the transfer paper (second image carrier) and the surface speed ratio between the transfer paper surface and the photoreceptor surface expressed by the surface speed of the transfer paper surface / the surface speed of the photoreceptor surface,The detection means detects the environmental temperature and humidity, and the environmental current / voltage detection means detects the environmental current and voltage of the adsorption means.Use environment by means of changing the surface speed ratioStrangeChange.
[0013]
  Claim2In, TimesTransfer means for transferring a toner image on a photosensitive member movably held and carrying a toner image onto a moving transfer paper, and a transfer paper surface expressed by a surface speed of the transfer paper surface / a surface speed of the surface of the photoconductor And the surface speed ratio of the photoreceptor surface,The temperature and humidity of the environment are detected by the detecting means, and the surface velocity measuring means is used.Measure the surface speed of the photoconductor surface or the surface speed of the transfer paper surface.TableChange in the usage environment by means of changing the surface speed ratio.
Claim3Is expressed by a transfer means for transferring a toner image on a photosensitive member that is rotatably held and carries a toner image onto a moving transfer paper, and a surface speed of the surface of the transfer paper / a surface speed of the surface of the photosensitive material. The surface speed ratio between the surface of the transfer paper and the surface of the photoconductor is changed in the usage environment by the surface speed ratio changing means comprising the surface speed of the photoconductor surface or the surface speed measuring means for measuring the surface speed of the surface of the transfer paper. The surface speed measuring means includes a detection mark formed on the surface position of the photosensitive member or the surface position of the transfer sheet and a sensor for detecting the detection mark.
5. The transfer means for transferring the toner image on the photosensitive member, which is rotatably held and carrying the toner image, onto the moving transfer paper, and the surface speed of the transfer paper surface / the surface of the photoconductor surface. The surface speed ratio between the surface of the transfer paper and the surface of the photoconductor expressed in terms of speed can be determined by the surface speed ratio change means comprising the surface speed of the photoconductor surface or the surface speed measurement means for measuring the surface speed of the surface of the transfer paper. The surface velocity measuring means is changed from a sensor that detects the lattice pattern formed by exposing the detection mark formed on the surface position of the photosensitive member or the surface position of the transfer paper and the lattice pattern formed by exposing the detection mark. Become.
[0014]
  Claim5In, TimesTransfer means for transferring a toner image on a photosensitive member movably held and carrying a toner image onto a moving transfer paper, and a transfer paper surface expressed by a surface speed of the transfer paper surface / a surface speed of the surface of the photoconductor The surface speed ratio between the surface of the photosensitive member and the surface of the photoconductor is changed by the surface speed ratio changing unit according to the type of transfer paper on the transfer conveyance belt.
Claim6Is expressed by a transfer means for transferring a toner image on a photosensitive member that is rotatably held and carries a toner image onto a moving transfer paper, and a surface speed of the surface of the transfer paper / a surface speed of the surface of the photosensitive material. The surface speed ratio between the surface of the transfer paper to be transferred and the surface of the photoreceptor is changed by the surface speed ratio changing means in a direction away from 1.0 when the type of transfer paper on the transfer conveyance belt is higher resistance paper.
8. The transfer means for transferring the toner image on the photosensitive member, which is held rotatably and carrying the toner image, onto the moving transfer paper, the surface speed of the transfer paper surface / the surface of the photoconductor surface The surface speed ratio between the transfer paper surface and the photoreceptor surface expressed in terms of speed is changed by the surface speed ratio changing means so that the transfer paper type on the transfer conveyance belt is closer to 1.0 when the type of transfer paper is lower resistance paper. .
[0015]
  Claim8In, TimesIt is held movably to carry the toner imageFeelingTransfer means for transferring the toner image on the photoconductor onto the moving transfer paper, and the surface speed ratio between the transfer paper surface and the photoconductor surface expressed by the surface speed of the transfer paper surface / the surface speed of the photoconductor surface, Speed ratio change means changes the usage environment according to three types: normal atmosphere, high temperature and humidity atmosphere, and low temperature and low humidity atmosphereAndIn an environment of a high temperature and high humidity atmosphere, it is changed to 1.001 to 1.004 or 0.996 to 0.999.
Claim9Is expressed by a transfer means for transferring a toner image on a photosensitive member that is rotatably held and carries a toner image onto a moving transfer paper, and a surface speed of the surface of the transfer paper / a surface speed of the surface of the photosensitive material. The surface speed ratio between the transfer paper surface and the photoreceptor surface to beChange the usage environment according to three types: normal atmosphere, high temperature and humidity atmosphere, low temperature and low humidity atmosphere,In an environment of a low temperature and low humidity atmosphere, it is changed to 1.003 to 1.008 or 0.992 to 0.997.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings.
1 to 5, an image forming apparatus 0 for transferring a toner image formed by an electrophotographic method to a transfer target member to form an image is held so as to be rotatable in the direction indicated by an arrow (A). A drum-shaped photosensitive drum 5a, which is the photosensitive member 5 of the first image carrier 1 that carries the image, and a transfer conveyance belt 7 that rotates the toner image on the photosensitive drum 5a in the direction of the arrow (B) shown in the figure. A transfer roller of the transfer means 3 for transferring onto the transfer target 6 (transfer paper 6a) of the second image carrier 2 that is attracted to the suction roller of the suction means 8 by being charged and then moved reliably. Surface speed ratio changing means 4 for changing the surface speed ratio between the surface of the transfer paper 6a and the surface of the photosensitive drum 5a expressed by the surface speed of the surface of the transfer paper 6a / the surface speed of the surface of the photosensitive drum 5a. Subtle and troublesome depending on the usage environment Without an integer work easily in simple apparatus, to suppress the occurrence of the sub-scanning direction of the toner image shift, which is to form a high quality image with low cost by improving the transferability.
[0018]
The surface speed ratio changing means 4 is configured such that a reliable use environment state is determined by the environmental temperature detecting means 4a, the environmental temperature by the environmental humidity detecting means 4b, and the transferring means 3 by the environmental current / voltage detecting means 4c. The current and voltage of the environment of the transfer roller part of the toner or the suction roller part of the suction means 8 are accurately detected and expressed as (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the photosensitive drum 5a). The surface speed ratio between the surface of the transfer paper 6a and the surface of the photosensitive drum 5a to be transferred is automatically changed to an optimum condition with high accuracy according to the use environment.
The surface speed ratio between the surface of the transfer sheet 6a and the surface of the photosensitive drum 5a by the surface speed ratio changing means 4 is changed by stepping of the photosensitive member driving source 5c that rotationally drives the photosensitive drum 5a in the direction of the arrow (A) shown in the figure. The rotation speed of the motor, or the rotation of the stepping motor of the driving roller drive source 7b for rotating the driving roller 7a for rotating the transfer conveying belt 7 that adsorbs the transfer paper 6a and moves in the direction of the arrow (B) shown in the figure. Easily done with a simple device that selects the speed.
The surface speed ratio changing means 4 further measures the surface speed of the surface of the photosensitive drum 5a or the surface speed of the surface of the transfer sheet 6a of the second image carrier 2 by the surface speed measuring means 4d. The surface speed ratio between the surface of the transfer sheet 6a and the surface of the photosensitive drum 5a is changed more accurately by adjusting the measurement result to a predetermined speed ratio.
[0019]
The surface speed measuring means 4d is a detection mark 4d provided on the transfer conveyance belt 7 at the surface position of the photosensitive drum 5a or the surface position of the transfer paper 6a.₁And light source 4d₃The detection mark 4d illuminated with₁Sensor 4d for detecting₂(See FIG. 2).
The detection mark 4d₁Instead of the lattice pattern forming light source 4d₃₁Exposure with a lattice pattern 4d at regular intervals₁₁In addition, the surface speed of the surface of the photosensitive drum 5a or the surface speed of the transfer paper 6a of the second image carrier 2 can be measured by a simple method (see FIG. 3). ).
In this case, when the surface speed of the surface of the photosensitive drum 5a or the surface speed of the transfer paper 6a of the second image carrier 2 is increased, the lattice pattern 4d is formed.₁₁When the surface speed of the photosensitive drum 5a or the surface speed of the transfer sheet 6a of the second image carrier 2 is decreased, the lattice pattern 4d is formed.₁₁The lattice spacing of becomes shorter.
[0020]
At the start of the image forming operation, the image forming apparatus 0 is configured such that the photosensitive drum 5a that is rotatably held and carries the toner image is transferred to the stepping motor of the photosensitive member driving source 5c by the surface speed ratio changing unit 4. Is rotated in the direction of the arrow (A) shown in the figure at a predetermined rotation speed.
The photosensitive drum 5a is uniformly charged by the charging unit 9, and then reads the image data of the document (0) document by the scanner 10a of the document image reading unit 10 and the automatic document feeder (ADF) 10b. With the image data, the laser diode of the writing unit 11 emits light, thereby forming an electrostatic latent image on the photosensitive drum 5a uniformly charged by the charging unit 9, and forming a toner image by the developing unit 12. Then, the toner image is fed from the sheet feeding device 13 by the transfer roller of the transfer unit 3 and charged by the suction roller of the suction unit 8 on the transfer conveyance belt 7 which rotates in the direction of the arrow (B) shown in the figure. Is transferred onto the transfer sheet 6a that is attracted and reliably moved.
[0021]
Charge is applied to the transfer conveyor belt 7 by the suction roller of the suction means 8 and is reliably moved (surface speed on the surface of the transfer paper 6a) / (surface speed on the surface of the photosensitive drum 5a). When the surface speed ratio between the surface of the transfer sheet 6a and the surface of the photosensitive drum 5a is made closer to 1, transfer is performed by applying an electric charge to the transfer conveyance belt 7 by the adsorption roller of the adsorption unit 8 and moving reliably. The transfer rate (%) to the paper 6a rapidly deteriorates (see FIG. 4).
Further, in a high temperature and high humidity environment, the attracting force between the transfer paper 6a and the transfer transport belt 7 is reduced. Therefore, the transfer transport belt 7 is reliably attracted by being charged by the suction roller of the suction means 8. When the surface speed ratio between the surface of the transfer paper 6a and the surface of the photosensitive drum 5a expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the photosensitive drum 5a) is increased, The amount of deviation deteriorates (see FIG. 5).
Therefore, in the higher temperature and humidity environment, the surface speed ratio changing means 4 is such that the surface of the transfer paper 6a and the surface of the photoconductor drum 5a expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the photoconductor drum 5a). The surface speed ratio is changed to a direction closer to 1.0.
Therefore, even in a higher temperature and humidity environment, it is possible to easily suppress the occurrence of toner image misalignment in the sub-scanning direction without making subtle and troublesome adjustments, and to improve transferability with a good transfer rate (%). It is possible to provide the low-cost image forming apparatus 0 that forms a high-quality image.
[0022]
Further, the surface speed ratio changing means 4 is configured so that the surface of the transfer paper 6a and the surface of the photoconductor drum 5a expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the photoconductor drum 5a) in a lower temperature and low humidity environment. The surface speed ratio is changed in a direction further away from 1.0.
Therefore, even in a low temperature and low humidity environment, without making subtle and troublesome adjustments, it is possible to easily suppress the occurrence of toner image misalignment in the sub-scanning direction and improve transferability with good transfer rate (%). It is possible to provide the low-cost image forming apparatus 0 that forms a high-quality image.
Further, the surface speed ratio changing means 4 is a transfer expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the photosensitive drum 5a) depending on the type of the transfer paper 6a on the transfer conveyance belt 7. The surface speed ratio between the surface of the paper 6a and the surface of the photosensitive drum 5a is changed to a predetermined surface speed ratio.
Therefore, even if the type of the transfer paper 6a on the transfer conveyance belt 7 is changed, the occurrence of toner image deviation in the sub-scanning direction can be easily suppressed with a simple device without making subtle and troublesome adjustments. By improving transferability with a good transfer rate (%), it is possible to provide the low-cost image forming apparatus 0 that forms a high-quality image.
Specifically, the surface speed ratio changing unit 4 changes the (surface speed of the transfer paper 6a surface) / (photosensitive drum) when the type of the transfer paper 6a on the transfer conveyance belt 7 is changed and the resistance paper is higher. The surface speed ratio between the surface of the transfer paper 6a and the surface of the photosensitive drum 5a expressed by (surface speed of the surface of 5a) is changed in a direction further away from 1.0.
Therefore, the type of the transfer paper 6a on the transfer / conveying belt 7 is changed, and even with a high resistance paper, the toner image deviation in the sub-scanning direction can be easily generated with a simple device without making a delicate and troublesome adjustment. Therefore, it is possible to provide the low-cost image forming apparatus 0 that forms a high-quality image by improving transferability with good transfer rate (%).
[0023]
Alternatively, the surface speed ratio changing means 4 may change the (surface speed of the surface of the transfer paper 6a) / (surface of the photosensitive drum 5a) when the type of the transfer paper 6a on the transfer conveyance belt 7 is changed and the resistance sheet is lower. The surface speed ratio between the surface of the transfer paper 6a and the surface of the photosensitive drum 5a expressed by (surface speed) is changed in a direction closer to 1.0.
Therefore, the type of the transfer paper 6a on the transfer / conveying belt 7 is changed, and even with a low resistance paper, the toner image deviation in the sub-scanning direction can be easily generated with a simple device without making a delicate and troublesome adjustment. Therefore, it is possible to provide the low-cost image forming apparatus 0 that forms a high-quality image by improving transferability with good transfer rate (%).
Further, the surface speed ratio changing means 4 transfers the toner image on the surface of the photosensitive drum 5a onto the transfer paper 6a on which the toner image is transferred by the transfer roller of the transfer means 3 in a normal atmosphere, a hot and humid atmosphere, a low temperature. The surface speed ratio between the surface of the transfer paper 6a and the surface of the photoconductor drum 5a expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the photoconductor drum 5a) is determined depending on the three types of low humidity atmospheres. Change to speed ratio.
Accordingly, even if the environment for transferring the toner image on the surface of the photoconductive drum 5a onto the transfer paper 6a by the transfer roller of the transfer means 3 is changed to a normal atmosphere, a high temperature and high humidity atmosphere, and a low temperature and low humidity atmosphere, respectively. Low subtracting toner image deviation in the sub-scanning direction without making subtle and troublesome adjustments, and improving the transferability with good transfer rate (%). The image forming apparatus 0 having a low cost can be provided.
Specifically, the surface speed ratio changing unit 4 is configured to transfer the toner image on the surface of the photosensitive drum 5a onto the transfer paper 6a that is moved by the transfer roller of the transfer unit 3 in a normal atmosphere. The surface speed ratio between the surface of the transfer paper 6a and the surface of the photosensitive drum 5a expressed by (surface speed of the surface of the paper 6a) / (surface speed of the surface of the photosensitive drum 5a) is 1.003 to 1.006 or 0.994. To 0.997.
Therefore, even if the environment for transferring the toner image on the surface of the photosensitive drum 5a onto the transfer paper 6a that moves by the transfer roller of the transfer means 3 changes and changes to a normal atmosphere, there is no need for delicate and troublesome adjustments. The low-cost image forming apparatus 0 that easily suppresses the occurrence of toner image shift in the sub-scanning direction and forms a high-quality image by improving transferability with a good transfer rate (%). Can be provided.
[0024]
Alternatively, the surface speed ratio changing means 4 may be used in a high-temperature and high-humidity environment where the transfer roller of the transfer means 3 transfers the toner image on the surface of the photosensitive drum 5a onto the transfer paper 6a. The surface speed ratio between the surface of the transfer paper 6a and the surface of the photosensitive drum 5a expressed by (surface speed of the surface) / (surface speed of the surface of the photosensitive drum 5a) is 1.001 to 1.004 or 0.996 to 0. .999 is changed.
Therefore, even if the environment for transferring the toner image on the surface of the photosensitive drum 5a onto the transfer paper 6a that moves by the transfer roller of the transfer means 3 is changed and the atmosphere is changed to a hot and humid atmosphere, delicate and troublesome adjustment is performed. The low-cost image forming apparatus 0 can easily form a high-quality image by suppressing the occurrence of toner image misalignment in the sub-scanning direction and improving transferability with a good transfer rate (%). Can be provided.
Alternatively, the surface speed ratio changing means 4 can be used in a low temperature and low humidity atmosphere in which the transfer roller of the transfer means 3 transfers the toner image on the surface of the photosensitive drum 5a onto the transfer paper 6a. The surface speed ratio between the surface of the transfer paper 6a and the surface of the photosensitive drum 5a expressed by (surface speed of the surface) / (surface speed of the surface of the photosensitive drum 5a) is 1.003 to 1.008 or 0.992 to 0. .997 to be changed.
Therefore, even if the environment in which the toner image on the surface of the photosensitive drum 5a is transferred onto the transfer paper 6a that moves by the transfer roller of the transfer means 3 is changed and the atmosphere is changed to a low temperature and low humidity atmosphere, delicate and troublesome adjustment is performed. The low-cost image forming apparatus 0 can easily form a high-quality image by suppressing the occurrence of toner image misalignment in the sub-scanning direction and improving transferability with a good transfer rate (%). Can be provided.
The surface speed ratio changing means 4 can be configured to monitor the voltage by using constant current control of the adsorption means 8 part without using the environmental temperature detecting means 4a and the environmental humidity detecting means 4b.
[0025]
Next, a belt having a different volume resistance depending on the environment, for example, ion conductive polyvinylidene fluoride (PVDF), is used as the transfer conveyance belt 7 in advance to experimentally determine the current / voltage characteristics depending on the environment. deep.
For example, 1.2 kV is required to flow 10 μA at low temperature and low humidity; 1.0 kV is required to flow 10 μA at normal temperature and humidity; 0.8 kV is required to flow 10 μA at high temperature and humidity;
By monitoring the voltage applied to the suction means 8 when a constant current is passed when the transfer paper 6a is not present under the usage environment, the situation related to the usage environment can be understood.
Further, in the above suction unit 8 part, the resistance value of the transfer paper 6a can be known by monitoring the current / voltage characteristics when the transfer paper 6a is passed.
Accordingly, it is possible to determine the use environment from the current / voltage characteristics when the transfer paper 6a is not present, and to determine the resistance depending on the paper type of the transfer paper 6a from the current / voltage characteristics when the paper is passed.
The change range and change value of the speed ratio between the transfer sheet 6a and the photosensitive drum 5a depending on the use environment are substantially the same as described above.
The change in the speed ratio between the transfer paper 6a and the photosensitive drum 5a due to the resistance depending on the type of paper is such that the higher the resistance paper, the more attractive the adsorption force of the transfer paper 6a to the transfer conveyance belt 7 is. The speed ratio of 5a is preferably changed in a direction away from 1.
Further, the lower the resistance paper, the smaller the adsorption force of the transfer paper 6a to the transfer / conveying belt 7, so the speed ratio between the transfer paper 6a and the photosensitive drum 5a is preferably changed to a direction closer to 1.
Here, the current / voltage characteristics at the suction unit 8 are used. However, the configuration using the current / voltage characteristics of the transfer unit 3 may be similarly used. To do.
The transfer sheet 6a on which the toner image is transferred by the transfer roller of the transfer unit 3 is heated and pressed by the fixing unit 14, and then the transfer sheet 6a on which the toner image is formed is discharged by the discharge roller 15. The paper tray 16 is fed out and stored.
After the toner image is transferred onto the transfer sheet 6a by the transfer roller of the transfer unit 3, the photosensitive drum 5a is scraped off and removed by the cleaning unit 17 for image formation in the next process. It comes to be prepared.
[0026]
In FIG. 6, the image forming apparatus 00 of the image forming apparatus 0 that forms an image by transferring a toner image formed by an electrophotographic method to a transfer target is rotatably held in the direction indicated by an arrow (C). The magenta of the photosensitive drum 5a, which is arranged in a tandem configuration with a plurality arranged facing the transfer conveyance belt 7 rotating in the direction of the arrow (D) shown in the figure, and carries a color toner image. Photosensitive drum 5a₁Cyan photoreceptor drum 5a₂, Yellow photosensitive drum 5a₃Black photosensitive drum 5a₄And each of the magenta photosensitive drums 5a of the photosensitive drum 5a.₁The cyan photosensitive drum 5a₂The yellow photosensitive drum 5a₃The black photosensitive drum 5a₄Each of the magenta toner image, cyan toner image, yellow toner image, and black toner image above is charged by the suction roller of the suction means 8 to the transfer conveyance belt 7 that rotates in the direction of the arrow (D) shown in the figure. Each magenta transfer means 3a, cyan transfer means 3b, yellow, which is a transfer roller of the transfer means 3 to be transferred onto the transfer paper 6a, which is the transfer target 6 of the second image carrier 2 that is attracted and reliably moved, yellow The transfer unit 3c, the black transfer unit 3d, and the surface speed of the transfer sheet 6a / each of the magenta photosensitive drums 5a of the photosensitive drum 5a.₁The cyan photosensitive drum 5a₂The yellow photosensitive drum 5a₃The black photosensitive drum 5a₄The surface of the transfer paper 6a expressed by the surface speed of the upper surface and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio changing means 4 for changing the surface speed ratio of the surface according to the use environment, and can easily adjust the color in the sub-scanning direction with a simple device without making a delicate and troublesome adjustment according to the use environment. The occurrence of toner image shift is suppressed, and a high-quality color image is formed by improving transferability, resulting in low cost.
[0027]
The transfer paper 6a is conveyed while being adsorbed to the transfer reflection belt 7, and the photosensitive drum 5a is conveyed from each upstream of the photosensitive drum 5a.₁5a₂5a₃5a₄The magenta toner image, the cyan toner image, and the yellow toner image are overlaid in this order, and finally the black photosensitive drum 5a.₄And a black toner image is superimposed.
At this time, the transfer paper 6a is transferred by the transfer currents of the magenta transfer unit 3a, the cyan transfer unit 3b, the yellow transfer unit 3c, and the black transfer unit 3d, which are transfer rollers of the transfer unit 3, as shown by arrows (shown in FIG. As it goes downstream in the direction D), it is more strongly attracted to the transfer reflection belt 7.
For example, when the speed of the surface of the transfer paper 6a is 125 mm / sec, each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed is set to 127 mm / sec.
The surface of the transfer paper 6a and each photosensitive drum 5a₁5a₂5a₃5a₄The speed difference from the surface is particularly effective for improving the transferability of the portion where two or more colors overlap.
The surface of the transfer paper 6a and each photosensitive drum 5a of the photosensitive drum 5a₁5a₂5a₃5a₄The speed difference from the surface is 0.984 at 125/127.
The surface speed ratio changing means 4 is used to determine the state of reliable use environment, the environmental temperature detecting means 4a for the environmental temperature, the environmental humidity detecting means 4b for the environmental humidity, and the environmental current / voltage detecting means 4c for the transfer. Each of the magenta transfer means 3a, the cyan transfer means 3b, the yellow transfer means 3c, and the transfer roller portion of the black transfer means 3d as the transfer roller of the means 3 or the environment of the suction roller portion of the suction means 8 The current and voltage are accurately detected, and the (surface speed of the transfer paper 6a surface) / (photosensitive drum 5a)₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of the surface) and each photosensitive drum 5a.₁5a₂5a₃5a₄The surface speed ratio with the surface is automatically changed to an optimum condition with high accuracy according to the use environment.
By the surface speed ratio changing means 4, the surface of the transfer paper 6a and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio with the surface is changed by changing the photosensitive drum 5a.₁5a₂5a₃5a₄Are driven in the direction indicated by the arrow (C) in FIG.₁, Cyan photoreceptor driving source 5c₂, Yellow photoreceptor drive source 5c₃Black photoconductor drive source 5c₄A predetermined rotation speed of each of the stepping motors, or the driving roller drive for rotating the driving roller 7a for rotating the transfer conveying belt 7 that moves in the direction indicated by the arrow (D) by attracting the transfer paper 6a. This is easily done with a simple device for selecting a predetermined rotational speed of the stepping motor of the source 7b.
The surface speed ratio changing means 4 is further a surface speed measuring means 4d, and each photosensitive drum 5a.₁5a₂5a₃5a₄The surface speed of each surface or the surface speed of the transfer paper 6a surface of the second image carrier 2 is measured and adjusted so as to obtain a predetermined speed ratio based on the measurement result. Each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio of each surface can be changed more accurately.
[0028]
In the upper part of the image forming apparatus 00, the scanner 10a of the document image reading means 10 for reading the document image of the document (0) and the automatic document feeder (ADF) 10b are arranged.
The transfer path of the transfer paper 6a of the transfer body 6 on which the color toner image is formed is sent out from the paper feeding device 13, and the magenta writing means 11a, cyan writing means 11b, yellow writing means of the writing means 11 is sent. After a color toner image based on color image data is formed by 11c and black writing means 11d, it is discharged through a predetermined path.
According to an electrophotographic method of reading color image data of a color document image of a document (0) with the scanner 10a and the automatic document feeder (ADF) 10b of the document image reading means 10 and forming a toner image with the color image data. The plurality of writing units 11a, 11b, 11c, and 11d constituting the writing unit 11 emit a laser diode so that each magenta charging unit 9a, cyan charging unit 9b, yellow charging unit 9c, and black charging unit 9d are uniform. Each photosensitive drum 5a charged with₁5a₂5a₃5a₄An electrostatic latent image is formed on the surface, and a color toner image is formed with each developing means 12a, 12b, 12c, and 12d, and the color toner image is transferred to each of the transfer means 3a, 3b, 3c, and 3d. The image is transferred onto the transfer sheet 6a of the transfer body 6.
Charge is imparted to the transfer conveyor belt 7 by the suction roller of the suction means 8 and is moved by being reliably attracted (surface speed of the transfer paper 6a surface) / (each photosensitive drum 5a₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄When the surface speed ratio of the surface of the toner is closer to 1, the transfer rate (%) to the transfer sheet 6a that is attracted to the transfer and transport belt 7 by the suction roller of the suction means 8 and attracted and moved reliably. ) Deteriorates rapidly (see FIG. 4).
[0029]
Further, in a high temperature and high humidity environment, the attracting force between the transfer paper 6a and the transfer transport belt 7 is reduced. Therefore, the transfer transport belt 7 is reliably attracted by being charged by the suction roller of the suction means 8. (Surface speed of the surface of the transfer paper 6a) / (each photosensitive drum 5a₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄When the surface speed ratio of the surface is increased, the toner image shift amount in the sub-scanning direction is deteriorated (see FIG. 5).
Therefore, the surface speed ratio changing means 4 is (surface speed on the surface of the transfer paper 6a) / (each photosensitive drum 5a) in a higher temperature and humidity environment.₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃, Drum 5a₄The surface speed ratio with respect to the surface is changed in a direction closer to 1.0.
Therefore, even in a higher temperature and humidity environment, without making subtle and cumbersome adjustments, it is possible to easily suppress the occurrence of color toner image misalignment in the sub-scanning direction and to achieve a good transfer rate (%). The improvement makes it possible to provide the low-cost image forming apparatus 00 that forms a high-quality color image.
Further, the surface speed ratio changing means 4 is (surface speed on the surface of the transfer paper 6a) / (each photosensitive drum 5a) in a lower temperature and low humidity environment.₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio of the surface is changed in a direction away from 1.0.
Therefore, even in a low temperature and low humidity environment, the occurrence of misregistration of color toner images in the sub-scanning direction can be easily suppressed without making subtle and troublesome adjustments, and the transfer rate (%) can be improved. The improvement makes it possible to provide the low-cost image forming apparatus 00 that forms a high-quality color image.
[0030]
Further, the surface speed ratio changing means 4 is (surface speed on the surface of the transfer paper 6a) / (each photosensitive drum 5a depending on the type of the transfer paper 6a on the transfer / conveying belt 7.₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio of the surface is changed to a predetermined surface speed ratio.
Therefore, even if the type of the transfer sheet 6a on the transfer / conveying belt 7 is changed, the occurrence of color toner image shift in the sub-scanning direction can be easily suppressed with a simple device without making subtle and troublesome adjustments. Thus, it is possible to provide the low-cost image forming apparatus 00 that forms a high-quality color image by improving transferability with a good transfer rate (%).
Specifically, the surface speed ratio changing means 4 changes the surface speed of the transfer paper 6a on the surface of the transfer paper 6a on the transfer conveyance belt 7 and changes the type of the transfer paper 6a on the transfer conveyance belt 7 / (each photosensitive member). Drum 5a₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio of the surface is changed in a direction away from 1.0.
Accordingly, the type of the transfer paper 6a on the transfer conveyance belt 7 is changed, and even with a high resistance paper, the color toner image shift in the sub-scanning direction can be easily performed with a simple device without making a delicate and troublesome adjustment. Therefore, it is possible to provide the low-cost image forming apparatus 00 that forms a high-quality color image by improving the transferability with good transfer rate (%).
Alternatively, the surface speed ratio changing means 4 may change the surface speed of the transfer sheet 6a / (each photosensitive drum 5a1, 5a2, 5a3, 5a4 surface speed) and the surface of the transfer sheet 6a and each photosensitive drum 5a.₁5a₂5a₃5a₄The surface speed ratio of the surface is changed to a direction closer to 1.0.
Accordingly, the type of the transfer sheet 6a on the transfer conveyance belt 7 is changed, and even with a low resistance sheet, the color toner image shift in the sub-scanning direction can be easily performed with a simple apparatus without making a delicate and troublesome adjustment. Therefore, it is possible to provide the low-cost image forming apparatus 00 that forms a high-quality color image by improving the transferability with good transfer rate (%).
[0031]
Further, the surface speed ratio changing means 4 is provided for each photosensitive drum 5a.₁5a₂5a₃5a₄An environment in which the magenta transfer unit 3a, the cyan transfer unit 3b, the yellow transfer unit 3c, and the black transfer unit 3d of the transfer unit 3 transfer the toner image on the surface of the toner image onto the transfer paper 6a. The surface speed of the transfer sheet 6a / (each surface of the photosensitive drum 5a) can be determined according to three types: normal atmosphere, high temperature and high humidity atmosphere, and low temperature and low humidity atmosphere₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio of the surface is changed to a predetermined surface speed ratio.
Therefore, each photosensitive drum 5a₁5a₂5a₃5a₄An environment in which the magenta transfer unit 3a, the cyan transfer unit 3b, the yellow transfer unit 3c, and the black transfer unit 3d of the transfer unit 3 transfer the toner image on the surface of the toner image onto the transfer paper 6a. Even if the atmosphere changes to a normal atmosphere, high-temperature and high-humidity atmosphere, or low-temperature and low-humidity atmosphere, the occurrence of color toner image misregistration in the sub-scanning direction can be suppressed easily with a simple device without making subtle and troublesome adjustments. Further, by improving the transferability with a good transfer rate (%), it is possible to provide the low-cost image forming apparatus 00 that forms a high-quality color image.
Specifically, the surface speed ratio changing means 4 is provided for each photosensitive drum 5a.₁5a₂5a₃5a₄In an environment where the transfer image of the transfer means 3a, 3b, 3c, and 3d is transferred onto the transfer paper 6a that moves the toner image on the surface of the toner in a normal atmosphere, (surface speed of the transfer paper 6a surface) / (each photosensitive Body drum 5a₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio of the surface is changed to 1.003 to 1.006, or 0.994 to 0.997.
Therefore, each photosensitive drum 5a₁5a₂5a₃5a₄Even if the transfer environment of the transfer means 3a, 3b, 3c and 3d changes on the transfer paper 6a which moves the color toner image on the surface of the toner, the subtle and troublesome adjustments are made even if the environment changes. Therefore, it is possible to form a high-quality color image easily by suppressing the occurrence of color toner image deviation in the sub-scanning direction and improving transferability with a good transfer rate (%). The image forming apparatus 00 can be provided.
[0032]
Alternatively, the surface speed ratio changing means 4 is provided for each photosensitive drum 5a.₁5a₂5a₃5a₄In an environment where the transfer image of the transfer means 3a, 3b, 3c, and 3d is transferred onto the transfer paper 6a that moves the toner image on the surface of the toner image in a high-temperature and high-humidity atmosphere, (surface speed of the transfer paper 6a surface) / (each Photosensitive drum 5a₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio of the surface is changed to 1.001 to 1.004 or 0.996 to 0.999.
Therefore, each photosensitive drum 5a₁5a₂5a₃5a₄Even if the environment in which the transfer image of the transfer means 3a, 3b, 3c, 3d is transferred onto the transfer paper 6a that moves the toner image on the surface of the toner is changed and the atmosphere is changed to a hot and humid atmosphere, a delicate and troublesome adjustment is made. The above-mentioned low-cost image that can easily form a high-quality color image by suppressing the occurrence of color toner image misalignment in the sub-scanning direction and improving transferability (%) with a simple apparatus. The forming apparatus 00 can be provided.
Alternatively, the surface speed ratio changing means 4 is provided for each photosensitive drum 5a.₁5a₂5a₃5a₄In an environment where the transfer image of the transfer means 3a, 3b, 3c, and 3d is transferred onto the transfer paper 6a that moves the toner image on the surface of the toner image in a low-temperature and low-humidity atmosphere, (surface speed of the transfer paper 6a surface) / (each Photosensitive drum 5a₁5a₂5a₃5a₄The surface of the transfer paper 6a expressed by the surface speed of each surface) and each photosensitive drum 5a₁5a₂5a₃5a₄The surface speed ratio of the surface is changed to 1.003 to 1.008 or 0.992 to 0.997.
Therefore, each photosensitive drum 5a₁5a₂5a₃5a₄Even if the transfer environment of the transfer means 3a, 3b, 3c, and 3d changes on the transfer paper 6a that moves the toner image on the surface of the toner, the subtle and troublesome adjustment is made even if the environment changes to a low temperature and low humidity atmosphere. Therefore, the above-mentioned low-cost color image can be formed easily by suppressing the occurrence of color toner image misalignment in the sub-scanning direction and improving the transferability with good transfer rate (%). The image forming apparatus 00 can be provided.
The surface speed ratio changing means 4 can be configured to monitor the voltage by using constant current control of the adsorption means 8 part without using the environmental temperature detecting means 4a and the environmental humidity detecting means 4b.
[0033]
The transfer / conveying belt 7 is a belt having a volume resistance that varies depending on the environment, for example, ion conductive polyvinylidene fluoride (PVDF), and the current / voltage characteristics are determined in advance by experiments.
For example, 1.2 kV is required to flow 10 μA at low temperature and low humidity; 1.0 kV is required to flow 10 μA at normal temperature and humidity; 0.8 kV is required to flow 10 μA at high temperature and high humidity.
Under the use environment, the use environment can be understood by monitoring the applied voltage of the suction means 8 when the constant current is passed when the transfer paper 6a is not present.
Further, in the above suction unit 8 part, the resistance value of the transfer paper 6a can be known by monitoring the current / voltage characteristics when the transfer paper 6a is passed.
Accordingly, it is possible to determine the use environment from the current / voltage characteristics when the transfer paper 6a is not present, and to determine the resistance depending on the paper type of the transfer paper 6a from the current / voltage characteristics when the paper is passed.
Transfer paper 6a and each photosensitive drum 5a depending on the use environment₁5a₂5a₃5a₄The change in the speed ratio is substantially the same as described above.
Transfer paper 6a and each photosensitive drum 5a by resistance depending on the type of paper₁5a₂5a₃5a₄The speed ratio of the transfer sheet 6a and the photosensitive drum 5a are changed because the higher the resistance sheet, the more attractive the transfer sheet 6a to the transfer / conveying belt 7 is obtained.₁5a₂5a₃5a₄It is better to change the speed ratio in the direction away from 1.
Further, the lower the resistance sheet, the smaller the adsorption force of the transfer sheet 6a to the transfer conveyance belt 7, so that the transfer sheet 6a and each photosensitive drum 5a.₁5a₂5a₃5a₄It is better to change the speed ratio in the direction closer to 1.
Here, the current / voltage characteristics of the suction unit 8 are used, but a configuration using the current / voltage characteristics of the transfer unit 3 may be similarly used. To do.
[0034]
Then, the color toner images are transferred by the transfer rollers of the magenta transfer means 3a, cyan transfer means 3b, yellow transfer means 3c, and black transfer means 3d. The transfer paper 6a on which a color toner image is formed by the paper discharge roller 15 is sent to the paper discharge tray 16 and stored therein.
Further, through a double-side means (not shown), it is possible to form an image on the back surface of the transfer sheet 6a of the transfer body 6.
Each of the photosensitive drums 5a in the form of a drum which is the photosensitive member 5₁5a₂5a₃5a₄The transfer means 3a, 3b, 3c, and 3d transfer the toner adhering to the magenta cleaning means 17a of the cleaning means 17 and cyan cleaning after remaining on the transfer paper 6a of the transfer body 6 after transfer. It is scraped and removed by means 17b, yellow cleaning means 17c and black cleaning means 17d to prepare for image formation in the next process.
7 to 9, the image forming apparatus 000 of the image forming apparatus 0 that forms an image by transferring a toner image formed by an electrophotographic method to a transfer target is a function setting for toner image formation. A toner image is formed on the transfer paper 6a to be carried in, and post-processing such as punching, end binding of staple binding or saddle stitching is performed on the transfer paper 6a.
Incidentally, the general flow of the transfer paper 6a is as follows: the sheet feeding device 13 → the color toner image forming section such as the transfer roller of the secondary transfer means 3f of the transfer means 3 and the fixing means 14 → rear It becomes the processing apparatus 20 (refer FIG. 7).
The image forming apparatus 000 may be a printer-type system that does not include the scanner 10a of the document image reading unit 10 and the automatic document feeder (ADF) (see FIG. 8). The same as the above-mentioned copier form.
[0035]
The image forming apparatus 000 shown in FIG. 9 includes the photosensitive member 5 of the first image carrier 1 that carries a color toner image formed so as to be rotatable in the direction of the arrow (E). Intermediate transfer of the belt-shaped photoreceptor belt 5b and the transfer body 6 as the second image carrier 2 that rotates the color toner image on the photoreceptor belt 5b in the direction of the arrow (F) shown in the figure. The transfer roller of the primary transfer unit 3e of the transfer unit 3 that performs primary transfer onto the belt 6b, and the intermediate transfer belt expressed by (surface speed of the surface of the intermediate transfer belt 6b) / (surface speed of the surface of the photosensitive belt 5b). An intermediate transfer belt 6b carrying the surface speed ratio between the surface 6b and the surface of the photosensitive belt 5b, and a color toner image that is primarily transferred and held rotatably in the direction of the arrow (F) shown in the figure; The color on the transfer belt 6b The transfer roller of the secondary transfer means 3f of the transfer means 3 for transferring the toner image onto the transfer paper 6a rotating in the direction of the arrow (G) shown in the figure, and (surface speed of the surface of the transfer paper 6a) / (intermediate transfer) The surface speed ratio changing means 4 for changing the surface speed ratio between the surface of the transfer paper 6a expressed by the surface speed of the belt 6b and the surface of the intermediate transfer belt 6b according to the use environment. Without troublesome adjustment, the occurrence of color toner image misalignment in the sub-scanning direction can be easily suppressed with a simple apparatus, and a high-quality color image can be formed by improving transferability and at low cost.
[0036]
The surface speed ratio changing means 4 is used to determine the state of a reliable operating environment, the environmental temperature detecting means 4a for the environmental temperature, the environmental humidity detecting means 4b for the environmental humidity, and the environmental current / voltage detecting means 4c. The current and voltage of the environment of the primary transfer means 3e and secondary transfer means 3f of the transfer roller of the transfer means 3 and the suction roller of the suction means 8 are accurately detected, and the first The surface of the intermediate transfer belt 6b and the surface of the photoreceptor belt 5b expressed by (surface speed of the surface of the intermediate transfer belt 6b) / (surface speed of the surface of the photoreceptor belt 5b) corresponding to the above-mentioned transfer target 6 of the image carrier 2 of FIG. The surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressing the surface speed ratio and (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b) is more accurate depending on the use environment. Good optimal condition It is automatically also adapted to change.
Change of the surface speed ratio between the surface of the intermediate transfer belt 6b and the surface of the photosensitive belt 5b expressed by (surface speed of the surface of the intermediate transfer belt 6b) / (surface speed of the surface of the photosensitive belt 5b) by the surface speed ratio changing means 4. The change in the surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b) is shown in the figure for the photosensitive belt 5b. A predetermined rotation speed of the stepping motor of the photosensitive member driving source 5c for rotating the driving roller 5d rotating in the arrow (E) direction or the intermediate transfer belt 6b in the illustrated arrow (F) direction. Driving roller 6b₁The intermediate transfer belt drive source 6b for rotationally driving the belt₂This is easily performed with a simple device that selects a predetermined rotation speed of the stepping motor of the stepping motor of the driving roller drive source 7b that rotates and drives the driving roller 7a that rotationally drives the transfer conveyance belt 7. Is called.
The surface speed ratio changing means 4 is further a surface speed measuring means 4d, the surface speed of the surface of the photoreceptor belt 5b, and the surface of the intermediate transfer belt 6b serving as the first image carrier 1 and the second image carrier 2. The surface speed and the surface speed of the surface of the transfer sheet 6a of the second image carrier 2 are measured, and the measurement result is adjusted so as to obtain a predetermined speed ratio (the surface speed of the surface of the intermediate transfer belt 6b). ) / (Surface speed ratio of the surface of the photosensitive belt 5b) and the surface speed ratio between the surface of the intermediate transfer belt 6b and the surface of the photosensitive belt 5b, and (surface speed of the surface of the transfer paper 6a) / (surface of the intermediate transfer belt 6b). The surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed) is more accurately performed.
[0037]
The photosensitive belt 5b is a counter transfer roller 3e facing the transfer roller of the primary transfer unit 3e.₁These are suspended around a plurality of support rollers such as the drive roller 5d and the tension roller.
The photosensitive belt 5b in the shape of a belt of the photosensitive member 5 is rotationally driven in the direction of the arrow (E) shown in the figure, and around the charging means 9, the writing means 11, and the developing means 12 The magenta developing unit 12a, the cyan developing unit 12b, the yellow developing unit 12c, the black developing unit 12d, the intermediate transfer belt 6b of the transfer body 6, the photosensitive belt cleaning device 17e, and the like are arranged. .
An organic photosensitive layer is formed on the surface of the photosensitive belt 5 b in the belt shape of the photosensitive body 5.
When the color toner image forming operation is executed, the function setting of the color toner image forming operation is performed by an operation unit (not shown), and a high voltage is applied to the charging unit 9. The belt-shaped photosensitive belt 5b is uniformly charged.
In an image signal processing unit (not shown), color image information, for example, a color image signal sent from an external computer is converted into an optical writing signal and sent to the writing means 11.
In the writing means 11, a laser as a light source is controlled based on an optical writing signal, and magenta, cyan, and yellow (magenta), cyan (cyan), yellow ( Optical writing corresponding to image signals of yellow and black is performed, and an electrostatic latent image is formed on the belt-shaped photosensitive belt 5 b of the photosensitive body 5.
The electrostatic latent image on the photoreceptor belt 5b has each color toner, and the magenta developing unit 12a, the cyan developing unit 12b, the yellow developing unit 12c, and the black developing unit 12d of the developing unit 12 for each color. Developed.
Thus, a toner image is formed for each color on the belt-shaped photosensitive belt 5b of the photosensitive member 5.
[0038]
At the contact portion between the belt-shaped photosensitive belt 5b of the first image carrier 1 and the intermediate transfer belt 6b, a charge having a polarity opposite to that of the color toner is applied to the intermediate transfer belt 6b. As a result, the color toner image formed on the belt-shaped photosensitive belt 5b of the photosensitive body 5 of the first image carrier 1 is transferred onto the intermediate transfer belt 6b.
By repeating the formation of the color toner image and the transfer operation four times, a four-color color toner image is formed on the intermediate transfer belt 6b.
At this time, the surface speed ratio changing means 4 has an environment in which the primary image is transferred to the intermediate transfer belt 6b for moving the toner image on the surface of the photosensitive belt 5b by the transfer roller of the primary transfer means 3e in a normal atmosphere. The surface of the intermediate transfer belt 6b and the surface of the photosensitive belt 5b expressed by (surface speed of the surface of the intermediate transfer belt 6b) / (surface speed of the surface of the photosensitive belt 5b) depending on three types of atmospheres of high temperature and high humidity and low temperature and low humidity. The surface speed ratio of the surface is changed to a predetermined surface speed ratio.
Accordingly, the environment in which primary transfer is performed by the transfer roller of the primary transfer unit 3e of the transfer unit 3 onto the intermediate transfer belt 6b that moves the toner image on the surface of the photosensitive belt 5b is a normal atmosphere, an atmosphere of high temperature and humidity. Even when changing to a low-temperature, low-humidity atmosphere, transfer with a good transfer rate (%) can be achieved by using a simple device and suppressing the occurrence of color toner image displacement in the sub-scanning direction without making subtle and troublesome adjustments. Thus, the low-cost image forming apparatus 000 that forms a high-quality color image can be provided.
More specifically, the surface speed ratio changing means 4 is primarily transferred by the transfer roller of the primary transfer means 3e of the transfer means 3 on the intermediate transfer belt 6b that moves the toner image on the surface of the photoreceptor belt 5b. In a normal transfer environment, the surface speed ratio between the surface of the intermediate transfer belt 6b and the surface of the photoreceptor belt 5b expressed by (surface speed of the surface of the intermediate transfer belt 6b) / (surface speed of the surface of the photoreceptor belt 5b). Is changed to 1.003 to 1.006 or 0.994 to 0.997.
Accordingly, even if the environment for primary transfer by the transfer roller of the primary transfer means 3e on the intermediate transfer belt 6b that moves the color toner image on the surface of the photosensitive belt 5b is changed and the atmosphere is changed to a normal atmosphere, it is subtle. Without any troublesome adjustments, it is easy to control color toner image deviation in the sub-scanning direction with a simple device, and form high-quality color images by improving transferability with good transfer rate (%). Thus, the low-cost image forming apparatus 000 can be provided.
[0039]
Alternatively, the surface speed ratio changing means 4 is used in an environment where the toner image on the surface of the photosensitive belt 5b is primarily transferred by the transfer roller of the primary transfer means 3e onto the intermediate transfer belt 6b in which the toner image is moved. The surface speed ratio between the surface of the intermediate transfer belt 6b and the surface of the photoreceptor belt 5b expressed by (surface speed of the surface of the intermediate transfer belt 6b) / (surface speed of the surface of the photoreceptor belt 5b) is 1.001 to 1. It is changed to 004 or 0.996 to 0.999.
Accordingly, the environment for primary transfer by the transfer roller of the primary transfer unit 3e of the transfer unit 3 on the intermediate transfer belt 6b for moving the toner image on the surface of the photosensitive belt 5b is changed, and the atmosphere is changed to a high temperature and humidity atmosphere. Even if it changes, it is easy to use a simple device without making subtle and troublesome adjustments. It suppresses the occurrence of color toner image misalignment in the sub-scanning direction and improves transferability with good transfer rate (%). Thus, the low-cost image forming apparatus 000 for forming a color image can be provided.
Alternatively, the surface speed ratio changing means 4 is an environment in which primary transfer is performed by the transfer roller of the primary transfer means 3e of the transfer means 3 onto the intermediate transfer belt 6b that moves the toner image on the surface of the photoreceptor belt 5a. In a low temperature and low humidity atmosphere, the surface speed ratio between the surface of the intermediate transfer belt 6b and the surface of the photoreceptor belt 5b expressed by (surface speed of the surface of the intermediate transfer belt 6b) / (surface speed of the surface of the photoreceptor belt 5b) is It is changed to 1.003 to 1.008 or 0.992 to 0.997.
Accordingly, the environment of primary transfer by the transfer roller of the primary transfer unit 3e of the transfer unit 3 on the intermediate transfer belt 6b that moves the toner image on the surface of the photoreceptor belt 5b changes, and the atmosphere becomes low temperature and low humidity. Even if it changes, it is easy to use a simple device without making subtle and troublesome adjustments. It suppresses the occurrence of color toner image misalignment in the sub-scanning direction and improves transferability with good transfer rate (%). Thus, the low-cost image forming apparatus 000 for forming a color image can be provided.
Then, the color toner image on the intermediate transfer belt 6b, which is also the transfer target 6 of the first image carrier 1, is sent from the paper feeding device 13 by the conveying roller pair 13a, the registration roller pair 13b, and the like. The transfer means 3 of the transfer means 3 is transferred onto the transfer paper 6a which is adsorbed by the suction roller of the suction means 8 by the suction roller of the suction means 8 and moves reliably. The image is transferred by the next transfer means 3f.
At this time, an electric charge is applied to the transfer conveying belt 7 by the suction roller of the suction means 8 and the toner is reliably attracted and moved (surface speed of the surface of the transfer sheet 6a) / (surface speed of the surface of the intermediate transfer belt 6b). When the surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed as follows is made closer to 1, the charge is applied to the transfer transport belt 7 by the suction roller of the suction means 8 and is reliably sucked. The transfer rate (%) to the moving transfer paper 6a is rapidly deteriorated (see FIG. 4).
[0040]
Further, in a high temperature and high humidity environment, the attracting force between the transfer paper 6a and the transfer transport belt 7 is reduced. Therefore, the transfer transport belt 7 is reliably attracted by being charged by the suction roller of the suction means 8. When the surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed as (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b) is increased, the toner image in the sub-scanning direction The amount of deviation deteriorates (see FIG. 5).
Therefore, the surface speed ratio changing means 4 is used in a higher temperature and humidity environment, the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b). The surface speed ratio is changed to a direction closer to 1.0.
Therefore, even in a higher temperature and humidity environment, without making subtle and cumbersome adjustments, it is possible to easily suppress the occurrence of color toner image misalignment in the sub-scanning direction and to achieve a good transfer rate (%). The improvement makes it possible to provide the low-cost image forming apparatus 000 that forms a high-quality color image.
Further, the surface speed ratio changing means 4 is configured so that the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b) in a lower temperature and low humidity environment. The surface speed ratio is changed in a direction further away from 1.0.
Therefore, even in a low temperature and low humidity environment, the occurrence of misregistration of color toner images in the sub-scanning direction can be easily suppressed without making subtle and troublesome adjustments, and the transfer rate (%) can be improved. The improvement makes it possible to provide the low-cost image forming apparatus 000 that forms a high-quality color image.
[0041]
Further, the surface speed ratio changing means 4 transfers (expressed as (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b)) depending on the type of the transfer paper 6a on the transfer conveyance belt 7. The surface speed ratio between the surface of the paper 6a and the surface of the intermediate transfer belt 6b is changed to a predetermined surface speed ratio.
Therefore, even if the type of the transfer sheet 6a on the transfer / conveying belt 7 is changed, the occurrence of color toner image shift in the sub-scanning direction can be easily suppressed with a simple device without making subtle and troublesome adjustments. Thus, it is possible to provide the low-cost image forming apparatus 000 for forming a high-quality color image by improving transferability with a good transfer rate (%).
Specifically, the surface speed ratio changing means 4 changes the (surface speed of the surface of the transfer paper 6a) / (intermediate transfer belt) when the type of the transfer paper 6a on the transfer conveyance belt 7 is changed and the resistance sheet is higher. The surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed of the surface of 6b) is changed in a direction further away from 1.0.
Accordingly, the type of the transfer paper 6a on the transfer conveyance belt 7 is changed, and even with a high resistance paper, the color toner image shift in the sub-scanning direction can be easily performed with a simple device without making a delicate and troublesome adjustment. Therefore, it is possible to provide the low-cost image forming apparatus 000 that forms a high-quality color image by suppressing transfer occurrence and improving transferability with good transfer rate (%).
Alternatively, the surface speed ratio changing means 4 may change the (surface speed of the surface of the transfer paper 6a) / (surface of the intermediate transfer belt 6b) when the type of the transfer paper 6a on the transfer conveyance belt 7 is changed and the resistance sheet is lower. The surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed) is changed in a direction closer to 1.0.
Accordingly, the type of the transfer sheet 6a on the transfer conveyance belt 7 is changed, and even with a low resistance sheet, the color toner image shift in the sub-scanning direction can be easily performed with a simple apparatus without making a delicate and troublesome adjustment. Therefore, it is possible to provide the low-cost image forming apparatus 000 that forms a high-quality color image by suppressing transfer occurrence and improving transferability with good transfer rate (%).
[0042]
Further, the surface speed ratio changing means 4 normally has an environment where secondary transfer is performed by the transfer roller of the secondary transfer means 3f of the transfer means 3 onto the transfer paper 6a that moves the toner image on the surface of the intermediate transfer belt 6b. The surface of the transfer paper 6a expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b) and the first image carrier by three types of atmospheres of high temperature, high humidity and low temperature and low humidity The surface speed ratio of the surface of the belt-shaped intermediate sensitive transfer belt 6b, which is the transfer target body 6 of the body 1, is changed to a predetermined surface speed ratio.
Accordingly, the environment in which secondary transfer is performed by the transfer roller of the secondary transfer unit 3f of the transfer unit 3 onto the transfer sheet 6a that moves the toner image on the surface of the intermediate transfer belt 6b is normal atmosphere, high temperature and humidity atmosphere, low temperature Even if it changes to a low-humidity atmosphere, it is possible to easily suppress the occurrence of color toner image misalignment in the sub-scanning direction without making subtle and troublesome adjustments, and to achieve a transfer rate with a good transfer rate (%). The improvement makes it possible to provide the low-cost image forming apparatus 000 that forms a high-quality color image.
Specifically, the surface speed ratio changing unit 4 performs secondary transfer on the transfer paper 6a that moves the toner image on the surface of the intermediate transfer belt 6b by the transfer roller of the secondary transfer unit 3f of the transfer unit 3. In a normal atmosphere, the surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b) is 1.005 to It is changed to 1.010, or 0.990 to 0.995.
Therefore, even if the environment for secondary transfer by the transfer roller of the secondary transfer unit 3f of the transfer unit 3 on the transfer paper 6a that moves the toner image on the surface of the intermediate transfer belt 6b is changed, the normal atmosphere is changed. Without subtle and troublesome adjustments, it is easy to use a simple device to suppress the occurrence of color toner image misregistration in the sub-scanning direction and improve transferability with good transfer rate (%). The image forming apparatus 000 can be provided at a low cost.
[0043]
Alternatively, the surface speed ratio changing unit 4 has a high temperature environment in which secondary transfer is performed by the transfer roller of the secondary transfer unit 3f of the transfer unit 3 onto the transfer paper 6a that moves the toner image on the surface of the intermediate transfer belt 6b. In a humid atmosphere, the surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b) is 1.003 to 1. 006, or 0.994 to 0.997.
Therefore, the environment of secondary transfer by the transfer roller of the secondary transfer means 3f of the transfer means 3 on the transfer paper 6a that moves the toner image on the surface of the intermediate transfer belt 6b changes, and the atmosphere changes to a high temperature and humidity atmosphere. However, without making subtle and troublesome adjustments, it is possible to easily suppress the occurrence of color toner image displacement in the sub-scanning direction with a simple device, and to improve transferability with good transfer rate (%). The low-cost image forming apparatus 000 for forming an image can be provided.
Alternatively, the surface speed ratio changing means 4 has a low temperature environment in which secondary transfer is performed by the transfer roller of the secondary transfer means 3f of the transfer means 3 onto the transfer paper 6a that moves the toner image on the surface of the intermediate transfer belt 6b. In a low humidity atmosphere, the surface speed ratio between the surface of the transfer paper 6a and the surface of the intermediate transfer belt 6b expressed by (surface speed of the surface of the transfer paper 6a) / (surface speed of the surface of the intermediate transfer belt 6b) is 1.008 to 1. 012 or 0.998 to 0.992.
Therefore, the environment of secondary transfer by the transfer roller of the secondary transfer means 3f of the transfer means 3 on the transfer paper 6a that moves the toner image on the surface of the intermediate transfer belt 6b changes, and the atmosphere changes to a low temperature and low humidity atmosphere. However, without making subtle and troublesome adjustments, it is possible to easily suppress the occurrence of color toner image displacement in the sub-scanning direction with a simple device, and to improve transferability with good transfer rate (%). The low-cost image forming apparatus 000 for forming an image can be provided.
The surface speed ratio changing means 4 can be configured to monitor the voltage by using constant current control of the adsorption means 8 part without using the environmental temperature detecting means 4a and the environmental humidity detecting means 4b.
[0044]
The transfer / conveying belt 7 is a belt having a volume resistance that varies depending on the environment, for example, ion conductive polyvinylidene fluoride (PVDF), and the current / voltage characteristics are determined in advance by experiments.
For example, 1.2 kV is required to flow 10 μA at low temperature and low humidity; 1.0 kV is required to flow 10 μA at normal temperature and humidity; 0.8 kV is required to flow 10 μA at high temperature and humidity;
Under the use environment, the use environment can be understood by monitoring the applied voltage of the suction means 8 when the constant current is passed when the transfer paper 6a is not present.
Further, in the above suction unit 8 part, the resistance value of the transfer paper 6a can be known by monitoring the current / voltage characteristics when the transfer paper 6a is passed.
Accordingly, it is possible to determine the use environment from the current / voltage characteristics when the transfer paper 6a is not present, and to determine the resistance depending on the paper type of the transfer paper 6a from the current / voltage characteristics when the paper is passed.
The change in the speed ratio between the transfer paper 6a and the intermediate transfer belt 6b depending on the use environment is almost the same as described above.
The change in the speed ratio between the transfer paper 6a and the intermediate transfer belt 6b due to the resistance depending on the type of paper is such that the higher the resistance paper, the more attractive the adsorption force of the transfer paper 6a to the transfer conveyance belt 7 is. It is preferable to change the speed ratio of the belt-shaped intermediate transfer belt 6b, which is the recording medium 6 of the image carrier 1, away from 1.
Further, the lower the resistance paper, the smaller the adsorption force of the transfer paper 6a to the transfer / conveying belt 7, so the speed ratio between the transfer paper 6a and the intermediate transfer belt 6b is preferably changed to a direction closer to 1.
Here, the current / voltage characteristics at the suction part 8 are used. However, a configuration using the current / voltage characteristics of the transfer roller part of the secondary transfer means 3f of the transfer means 3 may be similarly used. However, since the description overlaps, the following is omitted.
Then, the transfer sheet 6a of the transfer medium 6 onto which the color toner image has been transferred is conveyed to the fixing means 14, and after the color toner image has been melted and fixed, from the paper discharge roller 15 to the rear side. The paper is discharged and carried into the processing device 20, and processing after image formation such as saddle stitching and folding is performed and stored as necessary.
Therefore, without making subtle and troublesome adjustments according to the usage environment, etc., it is easy to use a simple device and suppress the occurrence of color toner image misalignment in the sub-scanning direction. The low-cost image forming apparatus 000 can be provided.
[0045]
【The invention's effect】
  Since the present invention is configured as described above, according to the first aspect of the present invention, the transfer sheet (second sheet) onto which the toner image is transferred without making a delicate and troublesome adjustment according to the use environment or the like. Image bearing member) and the surface speed ratio of the surface of the photosensitive member (first image bearing member) carrying the toner image.Automatically at optimum conditions with high accuracy, depending on the temperature and humidity of the chamber and the current and voltage of the suction meansTo provide a low-cost image forming apparatus that easily suppresses the occurrence of toner image deviation in the sub-scanning direction and forms a high-quality image by improving transferability with a simple apparatus that only needs to be changed.OutCame to come.
[0048]
  Claim2According to the inventionMessengerThe surface speed ratio between the surface of the transfer paper on which the toner image is transferred and the surface of the photosensitive member carrying the toner image can be adjusted without making subtle and troublesome adjustments depending on the operating environment.Temperature, humidity, and surface speed were measuredLow-cost image formation that suppresses the occurrence of toner image misalignment in the sub-scanning direction and forms high-quality images by improving transferability, with a simple device that can be changed more accurately depending on the usage environment The device can be provided.
Claim3According to the invention, the surface speed ratio between the surface of the transfer paper on which the toner image is transferred and the surface of the photosensitive member carrying the toner image is adjusted depending on the use environment without making a delicate and troublesome adjustment according to the use environment. Change exactlyDetection mark formed on the surface and sensor for detecting thisOnlyEasyIt has become possible to provide a low-cost image forming apparatus that easily suppresses the occurrence of toner image deviation in the sub-scanning direction and forms a high-quality image by improving transferability with a single apparatus.
Claim4According to the invention, the surface speed ratio between the surface of the transfer paper on which the toner image is transferred and the surface of the photosensitive member carrying the toner image is adjusted depending on the use environment without making a delicate and troublesome adjustment according to the use environment. Change exactlyIn order to form the detection mark lattice patternWith simple equipment,DetectIt has become possible to provide a low-cost image forming apparatus that easily suppresses the occurrence of toner image deviation in the sub-scanning direction and forms a high-quality image by improving transferability.
[0049]
  Claim5According to the invention, the surface speed ratio between the surface of the transfer paper on which the toner image is transferred and the surface of the photosensitive member carrying the toner image can be determined without making a delicate and troublesome adjustment according to the environment of use. A low-cost image forming apparatus that forms a high-quality image by improving transferability by suppressing the occurrence of toner image misalignment in the sub-scanning direction easily with a simple device that only changes depending on the type of transfer paper above Can now be provided.
Claim6According to the invention, the surface speed ratio between the surface of the transfer paper on which the toner image is transferred and the surface of the photosensitive member carrying the toner image can be determined without making a delicate and troublesome adjustment according to the environment of use. A simple device that only changes depending on the type of transfer paper above, even if the transfer paper is higher resistance paper, suppresses the occurrence of toner image misalignment in the sub-scanning direction, and improves transferability, resulting in higher quality images It is now possible to provide a low-cost image forming apparatus that forms the image.
Claim7According to the invention, the surface speed ratio between the surface of the transfer paper on which the toner image is transferred and the surface of the photosensitive member carrying the toner image can be determined without making a delicate and troublesome adjustment according to the environment of use. A simple device that only changes depending on the type of transfer paper above, even if the transfer paper is lower resistance paper, suppresses the occurrence of toner image deviation in the sub-scanning direction, and improves transferability, resulting in higher quality images It is now possible to provide a low-cost image forming apparatus that forms the image.
[0050]
  Claim8According to the present invention, the surface speed ratio between the surface of the transfer paper on which the toner image is transferred and the surface of the photoreceptor carrying the toner image is adjusted in a normal atmosphere without making a delicate and troublesome adjustment according to the environment of use. Easily with a simple device that can be changed to a high temperature and high humidity atmosphere and a low temperature and low humidity atmosphereHighIt is possible to provide a low-cost image forming apparatus that reliably suppresses toner image deviation in the sub-scanning direction and forms a high-quality image by improving transferability even in a warm and humid atmosphere. Became.
Claim9According to the present invention, the surface speed ratio between the surface of the transfer paper on which the toner image is transferred and the surface of the photoreceptor carrying the toner image is adjusted in a normal atmosphere without making a delicate and troublesome adjustment according to the environment of use. It is easy to use with a simple device that can be changed to a high-temperature and high-humidity atmosphere and a low-temperature and low-humidity atmosphere. It has become possible to provide a low-cost image forming apparatus that forms a high-quality image by improving transferability.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram illustrating an image forming apparatus according to an exemplary embodiment of the present invention.
FIG. 2 is an enlarged explanatory view for explaining a main part of an image forming apparatus showing an embodiment of the present invention.
FIG. 3 is an enlarged explanatory view for explaining a main part of an image forming apparatus showing another embodiment of the present invention.
FIG. 4 shows the “surface velocity of the second image carrier (2) surface / surface velocity of the first image carrier (1) surface” in the other main part of the image forming apparatus according to the embodiment of the present invention. = Speed ratio "and" transfer rate (%) "are explanatory diagrams for explaining the characteristics.
FIG. 5 shows “surface speed of second image carrier (2) / first image carrier (1) in“ environmental state ”in another main part of the image forming apparatus showing an embodiment of the present invention. FIG. 6 is an explanatory diagram for explaining characteristics of “surface speed of surface = speed ratio” and “toner image shift (amount) in the sub-scanning direction”;
FIG. 6 is an explanatory diagram for explaining an image forming apparatus according to another embodiment of the present invention.
FIG. 7 is a schematic explanatory diagram for explaining the outline of an image forming apparatus showing another embodiment of the present invention.
FIG. 8 is a schematic explanatory diagram illustrating an outline of an image forming apparatus showing another embodiment of the present invention.
FIG. 9 is an explanatory diagram illustrating an image forming apparatus according to another embodiment of the present invention.
[Explanation of symbols]
0 image forming apparatus, 00 image forming apparatus, 000 image forming apparatus
1 First image carrier
2 Second image carrier
3 transfer means, 3a magenta transfer means,
3b Cyan transfer means,
3c Yellow transfer means,
3d black transfer means,
3e primary transfer means,
3e₁  Counter transfer roller,
3f Secondary transfer means
4 surface speed ratio changing means, 4a environmental temperature detecting means,
4b Environmental humidity detection means,
4c Environmental current / voltage detection means,
4d surface velocity measuring means,
4d₁  Detection mark,
4d₁₁  Lattice pattern,
4d₂  sensor,
4d₃  light source,
4d₃₁  Lattice pattern forming light source
5 photoconductor, 5a photoconductor drum,
5a₁  Magenta photosensitive drum,
5a₂  Cyan photoreceptor drum,
5a₃  Yellow photoreceptor drum,
5a₄  Black photoreceptor drum,
5b photoreceptor belt,
5c photoreceptor drive source,
5c₁  Magenta photoreceptor drive source,
5c₂  Cyan photoreceptor drive source,
5c₃  Yellow photoreceptor drive source,
5c₃  Black photoconductor drive source
5d Drive roller
6 Transfer object, 6a Transfer paper,
6b Intermediate transfer belt,
6b₁  Intermediate transfer belt drive roller,
6b₂  Intermediate transfer belt drive source
7 transfer conveyance belt, 7a drive roller,
7b Drive roller drive source
8 Adsorption means
9 charging means, 9a magenta charging means,
9b Cyan charging means,
9c Yellow charging means,
9d black charging means
10 Document image reading means, 10a scanner,
10b Automatic document feeder (ADF)
11 writing means, 11a magenta writing means,
11b Cyan writing means,
11c Yellow writing means,
11d Black writing means
12 developing means, 12a magenta developing means,
12b Cyan developing means,
12c Yellow developing means,
12d black developing means
13 paper feeder, 13a pair of transport rollers,
13b Registration roller pair
14 Fixing means
15 Paper discharge roller
16 Output tray
17 cleaning means, 17a magenta cleaning means,
17b cyan cleaning means,
17c Yellow cleaning means,
17d Black cleaning means
17e Photosensitive belt cleaning device
20 Post-processing equipment

Claims (9)

In an image forming apparatus for transferring a toner image formed by an electrophotographic method to a transfer target body to form an image, a plurality of photosensitive members (first image) that are rotatably held and carry a color toner image. Image transfer member) and transfer means for transferring the image onto the transfer sheet (second image carrier) of the transfer target adsorbed by the adsorbing means on the transfer conveyance belt for moving the toner image on the photoconductor. The surface speed ratio between the surface of the transfer paper and the surface of the photoconductor expressed by (surface speed of transfer paper surface) / (surface speed of photoconductor surface) is detected by the detecting means for the temperature and humidity of the environment, The surface speed ratio changing means for detecting the current and voltage of the environment of the adsorption means section by the voltage detecting means, and changing the direction closer to 1.0 in the high temperature and high humidity environment and changing the direction away from 1.0 in the low temperature and low humidity environment. Tokara Image forming apparatus characterized by. In an image forming apparatus that forms an image by transferring a toner image formed by an electrophotographic method to a transfer target, a plurality of photosensitive members (first image) that are rotatably held and carry a color toner image . Image transfer member), transfer means for transferring the toner image on the photosensitive member to a transfer sheet (second image carrier) on the transfer conveyance belt for moving the toner image, and (surface speed of transfer sheet surface) ) / (Surface speed of the surface of the photoconductor) The surface speed ratio between the surface of the transfer sheet and the surface of the photoconductor is detected by the detecting means, the temperature and humidity of the environment are detected, and the surface speed measuring means is used to detect the surface speed of the photoconductor. It comprises surface speed ratio changing means that measures the surface speed or the surface speed of the transfer paper surface and changes it in a direction approaching 1.0 in a high-temperature and high-humidity environment and in a direction away from 1.0 in a low-temperature and low-humidity environment. That features An image forming apparatus. 3. The image forming apparatus according to claim 2 , wherein the surface velocity measuring means includes a detection mark formed at the surface position of the photosensitive member or the surface position of the transfer paper, and a sensor for detecting the detection mark. Image forming apparatus. 4. The image forming apparatus according to claim 3 , wherein the detection mark is formed of a lattice pattern formed by exposure . In an image forming apparatus that forms an image by transferring a toner image formed by an electrophotographic method to a transfer target, a plurality of photosensitive members (first image) that are rotatably held and carry a color toner image. Image transfer member), transfer means for transferring the toner image on the photosensitive member to a transfer sheet (second image carrier) on the transfer conveyance belt for moving the toner image, and (surface speed of transfer sheet surface) ) / (Surface speed of the surface of the photoconductor) The surface speed ratio between the surface of the transfer paper and the surface of the photoconductor is detected by the detecting means, and the temperature and humidity of the environment are detected. the type, change the surface speed ratio, and wherein the high temperature in the direction closer to 1.0 in humid environments, also be made of the surface speed ratio changing means for changing the direction away from 1.0 the low-temperature and low-humidity environment Image shape Apparatus. 6. The image forming apparatus according to claim 5 , wherein the surface speed ratio changing means is expressed by (surface speed of transfer paper surface) / (surface speed of photoreceptor surface) when the transfer paper is higher resistance paper. An image forming apparatus , wherein the surface speed ratio between the surface and the surface of the photosensitive member is changed in a direction away from 1.0 . 7. The image forming apparatus according to claim 5, wherein the surface speed ratio changing unit is expressed by (surface speed of transfer paper surface) / (surface speed of photoreceptor surface) when the transfer paper is lower resistance paper. An image forming apparatus characterized in that the surface speed ratio between the surface of the transfer paper and the surface of the photosensitive member is changed in a direction closer to 1.0 . In an image forming apparatus that forms an image by transferring a toner image formed by an electrophotographic method to a transfer target, a plurality of photosensitive members (first image) that are rotatably held and carry a color toner image. Image transfer member), transfer means for transferring the toner image on the photosensitive member to a transfer sheet (second image carrier) on the transfer conveyance belt for moving the toner image, and (surface speed of transfer sheet surface) ) / (Surface speed of the surface of the photosensitive member) The surface speed ratio between the surface of the transfer sheet and the surface of the photosensitive member is detected by the detecting means, and the toner image on the surface of the photosensitive member is detected. In the high temperature and high humidity environment, the surface speed ratio is changed according to three types of environments, that is, a normal atmosphere, a high temperature and high humidity atmosphere, and a low temperature and low humidity atmosphere. Direction to approach 0 Further, in a low temperature and low humidity environment, the surface speed ratio changing means changes in a direction away from 1.0. The surface speed ratio changing means changes the surface speed ratio in a high temperature and high humidity atmosphere to 1.001 to 1. 004, or 0.996 to 0.999 . In an image forming apparatus that forms an image by transferring a toner image formed by an electrophotographic method to a transfer target, a plurality of photosensitive members (first image) that are rotatably held and carry a color toner image. Image transfer member), transfer means for transferring the toner image on the photosensitive member to a transfer sheet (second image carrier) on the transfer conveyance belt for moving the toner image, and (surface speed of transfer sheet surface) ) / (Surface speed of the surface of the photosensitive member) The surface speed ratio between the surface of the transfer sheet and the surface of the photosensitive member is detected by the detecting means, and the toner image on the surface of the photosensitive member is detected. In the high temperature and high humidity environment, the surface speed ratio is changed according to three types of environments, that is, a normal atmosphere, a high temperature and high humidity atmosphere, and a low temperature and low humidity atmosphere. Direction to approach 0 The surface speed ratio changing means changes the direction away from 1.0 in a low temperature and low humidity environment, and the surface speed ratio changing means changes the surface speed ratio in a low temperature and low humidity atmosphere from 1.003 to 1. 008, or 0.992 to 0.997 .

Images