JP2002351222A - Liquid developing device and image forming device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid developing device and an image forming device capable of forming a high quality image with good reproducibility of a thin line, by controlling the quantity of toner particles adhered on an image part. SOLUTION: A sweep roller 43 for sweeping excess toner particles 40a on the image part of a photoreceptor drum and fogging toner particles 40c on a non-image part causing fogging is disposed. This sweep roller is disposed at the position cramping a developed toner layer in the downstream side in the rotating direction of the photoreceptor drum 1 with respect to a developing roller 42. A removing voltage applied to the sweep roller is set to the voltage which adjusts the toner concentration by removing the fogging toner particles at the image part, and is adjusted to such a degree to remove the fogging toner particles at the non-image part.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid developing apparatus and an image forming apparatus used for an electrophotographic dry image forming apparatus, a printer, a facsimile, and the like. At least one developer carrying member for carrying the liquid developer, and an application member for applying the liquid developer to the developer carrying member. The present invention relates to a liquid developing device for developing a latent image formed on an image carrier and an image forming apparatus.

[0002]

2. Description of the Related Art Conventionally, in Japanese Patent Application No. 11-38447, the present applicant has proposed an image forming method in which a developer carrying member having an elastic layer is brought into contact with a latent image carrying member to form a nip portion. I have. In this image forming method, a thin layer of a liquid developer is formed on a developer carrier, and a carrier liquid and toner particles in the thin layer form a nip portion of the latent image on the latent image carrier. Development is performed by electrostatically transferring to the image area. On the other hand, a carrier liquid is slightly transferred to a background portion (hereinafter, referred to as a non-image portion) on the latent image carrier passing through the nip portion without adhering toner particles. Further, even if the toner particles adhere to the non-image portion, the toner particles can be removed by moving to the developer carrier while passing through the nip portion.

[0003]

However, in the image forming method proposed in Japanese Patent Application No. 11-38447,
It has been found that the following problems occur in both the image portion and the non-image portion. In the image portion, in addition to the toner particles necessary for visualization, extra toner particles may adhere, and the excess toner particles may adversely affect the reproducibility of fine lines. Further, in a non-image portion on the latent image carrier passing through the nip portion, toner particles may adhere and remain as excess toner particles. In this case, the excess toner particles may cause image fogging.

In particular, surplus toner particles in the image area are
It is desired to remove the fine lines while maintaining good image density, to the extent that the reproducibility of the fine lines does not decrease.

Here, the present applicant first provided a removing member for removing excess toner after development on the latent image carrier,
A wet developing apparatus and a wet image forming apparatus that prevent fogging of an image due to excess toner have been proposed (see Japanese Patent Application No. 2000-42582). However, this proposal is for preventing fogging of an image in a non-image portion, and is not for removing excess toner particles in an image portion.

The present invention has been made in view of the above background, and a first object of the present invention is to control the amount of toner particles adhering to an image area to obtain a high-quality fine line with good reproducibility. An object of the present invention is to provide a liquid developing device and an image forming apparatus capable of forming an image. It is a second object of the present invention to provide a liquid developing apparatus and an image forming apparatus capable of forming a high-quality image with good reproducibility of fine lines and preventing fogging of an image in a non-image area. It is.

[0007]

According to a first aspect of the present invention, there is provided a liquid developing apparatus comprising a liquid developer having a high viscosity and a high concentration of a liquid developer in which toner particles are dispersed in a carrier liquid. One developer carrier, and an application member for applying the liquid developer to the developer carrier, formed on the latent image carrier by the liquid developer carried on the developer carrier. In the liquid developing apparatus for developing a latent image, at least one removing member for removing excess toner particles after development on the latent image carrier is provided downstream of the developer carrier in the direction of movement of the latent image carrier surface. And at least one of the removing members controls an image density of an image portion formed on the latent image carrier.

In the liquid developing apparatus according to the first aspect,
The latent image formed on the latent image carrier is developed by the liquid developer carried on the developer carrier. After this development, excess toner particles adhering to the image area on the latent image carrier are removed by a removing member to control the image density.
This prevents the thin line reproducibility from deteriorating due to the excess toner particles or preventing the image from fogging.

According to a second aspect of the present invention, there is provided a liquid developing apparatus according to the first aspect, wherein at least one of the removing members includes a non-image portion on the latent image carrier. And removing the surplus toner particles between the toner and the removing member. Here, the surplus toner particles between the non-image portion on the latent image carrier and the removing member include the surplus toner originally attached to the non-image portion of the latent image carrier.

In the liquid developing apparatus according to the present invention, excess toner particles between the non-image portion and the removing member on the latent image carrier and excess toner particles attached to the non-image portion are removed. So that no excess toner particles remain. This prevents image fogging.

According to a third aspect of the present invention, in the liquid developing apparatus of the second aspect, the toner particles are provided between the image portion on the latent image carrier and the developer carrier on the developer carrier. Developing voltage applying means for applying a voltage for generating an electric field in a direction in which the toner is moved to the image portion side; and excess toner floating between the image portion on the latent image carrier and the removing member on the removing member. Removing voltage applying means for applying a voltage that generates an electric field that is an electric field in a direction that draws particles toward the removing member and that removes excess toner particles attached to the non-image portion. Is what you do.

In the liquid developing device according to the third aspect, the image portion is developed by moving the toner particles to the image portion side by the developing voltage applying means. The removal voltage applying means peels off the toner particles excessively attached to the image portion, and floats the toner particles in the vicinity of the non-image portion and also removes the excess toner particles attached to the non-image portion on the side of the removal member. Move to remove.

According to a fourth aspect of the present invention, there is provided the liquid developing apparatus according to the first aspect.
In the liquid developing device according to the second or third aspect, the nip portion is formed by bringing the developer carrier and the removing member into contact with the latent image carrier.

Conventionally, in a conventional method in which development and removal of surplus toner in a non-image area are simultaneously performed by a developer carrier, a relatively long developing time is required so that the distance between the latent image carrier and the developer carrier is increased. The distance (hereinafter, referred to as “development nip width”) of the nip portion formed in the direction of movement of the developer carrier surface is increased. In particular, in the case where at least one of the latent image carrier and the developer carrier has elasticity and the developer carrier is brought into contact with the latent image carrier to form a nip portion, the developing nip is preferably used. The contact pressure tends to increase in order to increase the width. In the liquid developing device according to the fourth aspect, since the removing member is provided, it is not necessary to completely remove the surplus toner by the developer carrier, and the developing time can be further shortened. The development nip width can be made smaller. Thereby, the contact pressure of the developer carrier with respect to the latent image carrier can be further reduced. Further, by forming the nip portion by bringing the removing member into contact with the latent image carrier, it is possible to secure more time for removing the excess toner particles attached to the image portion by the removing member, It is possible to more reliably remove the toner particles and control the image density. Further, in the configuration according to the second aspect, by forming the nip portion, it is possible to secure more time for removing the toner particles attached to the non-image portion.

According to a fifth aspect of the present invention, there is provided the liquid developing apparatus according to the first aspect.
2, 3, or 4, wherein the surface moving speed of the developer carrier is substantially equal to the surface moving speed of the latent image carrier.

In general, in an electrophotographic developing device, the surface moving speed of the developer carrying member is changed to the surface moving speed of the latent image carrying member in order to send a sufficient amount of toner to a region facing the latent image carrying member and the developing device. It is set faster than that. For this reason, since the toner has a high moving speed with respect to the surface of the latent image carrier, a positional shift occurs between the toner and the latent image, and as a result, the leading end of the toner is blurred, or the balance between the vertical and horizontal lines is lost. A bad phenomenon appears. This phenomenon is also observed in liquid development. In the liquid developing device according to the fifth aspect, the surface of the developer carrier and the surface of the latent image carrier move at substantially constant speed,
Since the velocity vector in the tangential direction of the latent image carrier is not given relative to the toner, the above phenomenon does not occur.

According to a sixth aspect of the present invention, there is provided the liquid developing apparatus according to the first aspect.
2, 3, 4, or 5, wherein the surface moving speed of the removal member is substantially equal to the surface moving speed of the latent image carrier.

In the liquid developing device according to the sixth aspect,
As in the case of the fifth aspect, the surface of the removing member and the surface of the latent image carrier move at substantially the same speed, and the speed of the latent image carrier in the tangential direction relative to the toner moves. Since no vector is provided, the above phenomenon does not occur.

According to a seventh aspect of the present invention, there is provided the liquid developing apparatus according to the first aspect.
In the liquid developing device of 2, 3, 4, 5, or 6, the toner particles contain a pigment, and the content of the pigment in the toner carried per 1 cm ² of the surface of the developer carrying member is 0. The thickness of the liquid developer applied on the developer carrier is set so as to be 1 μg or more and 2 μg or less.

The thickness of the liquid developer applied on the developer carrier is such that the pigment content in the toner carried per 1 cm ² of the surface of the developer carrier is smaller than 0.1 μg. However, a sufficient amount of the pigment does not move to the image portion of the latent image formed on the latent image carrier, and the image density may be reduced. If the thickness of the liquid developer is such that the pigment content in the toner carried per 1 cm ² of the surface of the developer carrier is larger than 2 μg, the excess amount of the developer floating on the non-image portion after development is reduced. The amount of toner increases, and the removal of the surplus toner by the removal member may be incomplete, causing fog. In the liquid developing device according to the seventh aspect, the thickness of the liquid developer applied on the developer carrier is set to 1 cm of the surface of the developer carrier.
The pigment content in the toner carried per ² is 0.1 μm.
g or more and 2 μg or less, the image density is not reduced and fogging does not occur.

[0021] The liquid developing apparatus of claim 8 is the first aspect of the present invention.
2, 3, 4, 5, 6, or 7, wherein a cleaning means for cleaning the surface of the removing member is provided.

In the liquid developing device of the present invention, the excess toner particles attached to the removing member are cleaned by the cleaning means, and the removing performance of the removing member is maintained.

According to a ninth aspect of the present invention, there is provided an image forming apparatus, comprising: a latent image carrier; a latent image forming means for forming a latent image on the latent image carrier; An image forming apparatus comprising: a developing unit for developing an image using a high-viscosity and high-concentration liquid developer in which particles are dispersed; and a transfer unit for transferring a visible image on the latent image carrier to a transfer material. According to another aspect of the present invention, there is provided a liquid developing apparatus according to any one of claims 1, 2, 3, 4, 5, 6, 7, and 8.

In the image forming apparatus according to the ninth aspect, the excess toner particles on the latent image carrier after development are removed by the removing member, and the image density is controlled by at least one removing member. This prevents the thin line reproducibility from deteriorating due to the excess toner particles or preventing the image from fogging.

[0025]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an example of an embodiment in which the present invention is applied to an electrophotographic image forming apparatus (hereinafter, referred to as an image forming apparatus) which is an image forming apparatus using a liquid developing device as a developing unit will be described. I do. FIG. 1 is a schematic configuration diagram of a main part of an image forming apparatus according to the present embodiment. In the image forming apparatus according to the present embodiment, a charging roller 2, an exposing device 3, a developing device 4, a transfer device 5, a cleaning device 6, and the like are arranged around a photosensitive drum 1 as a latent image carrier. The material of the photosensitive drum 1 is a-Si, OP
C or the like can be used. Further, the exposure apparatus 3 is an LE
D or a laser scanning optical system can be used.

A case where an image is formed by reversal development in the image forming apparatus having the above configuration will be described. The photoreceptor drum 1 is driven to rotate in a direction indicated by an arrow at a constant speed during copying by a driving means such as a motor (not shown). After being uniformly charged to about 600 V in the dark by the charging roller 2, the exposure device 3 irradiates and forms a light image of the original, and the electrostatic latent image is carried on the outer peripheral surface of the photosensitive drum 1. Thereafter, the electrostatic latent image is developed while passing through a portion of the developing device 4. The toner image developed into the electrostatic latent image is transferred to the transfer paper P by the transfer device 5. After the transfer paper P is separated from the photosensitive drum 1, residual toner is removed by the cleaning device 6. After that, the residual potential is removed from the surface of the photosensitive drum 1 by an unillustrated discharging lamp to prepare for the next copy. The transfer paper P on which the toner image has been transferred
Is discharged outside the apparatus through a fixing device (not shown).
As the transfer device 5, for example, a method using an electrostatic roller, a method using a corona discharge, an adhesive transfer method, a thermal transfer method, or the like can be used. As the fixing device, for example, a thermal transfer method, a solvent fixing method, a pressure fixing method, or the like can be used.

The developer 40 used in the image forming apparatus of the present embodiment is a generally used commercially available Is
low viscosity (1)
This is not a liquid developer having a low concentration (about 1%) but a high viscosity and a high concentration. This developer 40
The viscosity and concentration ranges are, for example, 50 cS
A material having a concentration of t to 5000 cSt and a concentration of 5% to 40% is used. As the carrier liquid, a liquid having a high insulating property such as silicone oil, normal paraffin, IsoparM (Exxon trademark), vegetable oil, or mineral oil is used. Volatility and non-volatility can be selected according to the purpose. The particle size of the toner particles can be selected from submicron to about 6 μm according to the purpose.

Next, the developing device 4 which is a feature of the present embodiment will be described. The developing device 4 mainly includes a developer storage tank 41 for storing a developer 40 therein, a developing roller 42, a sweep roller 43, a gravure roller 44 as an application unit, a gear pump 45, and a stirring roller 46, as shown in FIG. ing. The developing roller 42 and the sweep roller 43 are provided with cleaning members 47 and 48 as cleaning means each including a metal blade or a rubber blade. Each cleaning member 4
7 and 48 are not limited to blades, and may be roller types.
The gravure roller 44 has a doctor blade 49.

The developing roller 42 and the sweep roller 4
3 is a layer 42 of an elastic body having conductivity on the outer peripheral surface.
a, 43a are provided. These elastic layers 42
Urethane rubber can be used as the material of a and 43a. The rubber hardness of the layers 42a and 43a of each elastic body is desirably 50 degrees or less in JIS-A hardness. The material of the layers 42a and 43a of each elastic body is not limited to urethane rubber, but may be any material that has conductivity and does not swell or dissolve in a solvent. Further, instead of providing the elastic layer on the developing roller 42 and the sweep roller 43, the elastic layer may be provided on the photoconductor side. Further, the photoconductor may be constituted by an endless belt-shaped member. The sweep roller 43 is formed by coating or a tube so that the surface thereof has a smoothness of Rz 3 μm or less.

The developing roller 42 and the sweep roller 4
When the roller 3 is brought into contact with the photosensitive drum 1 at an appropriate pressure, the elastic layers 42a and 43a of the respective rollers are elastically deformed to form a developing nip and a removing nip. In particular,
By forming the developing nip, it is possible to secure a certain developing time for the toner of the developer 40 to move and adhere to the photosensitive drum 1 by the developing electric field in the developing area. Further, by adjusting the contact pressure, it is possible to adjust the nip width, which is the size of each nip portion in the surface movement direction. Each nip width is set to be equal to or more than the product of the linear speed of each roller and the development time constant. Here, the development time constant is the time required until the development amount is saturated, and is obtained by dividing the nip width by the process speed. For example, if the nip width is 3 mm and the process speed is 300 mm / sec, the development time constant is 10 msec.

During the developing operation, the developing roller 4
2, a thin layer of the developer 40 is formed by the gravure roller 44. At this time, the thickness of the developer 40 applied on the developing roller 42 was set such that the pigment content in the developer carried per 1 cm ^{2 of the} surface thereof was 0.1 μg or more and 2 μg or less. For this purpose, a thin layer of the developer 40 was applied to a thickness of 5 to 10 μm. The reason is that the coating thickness of the developer 40 is 1c on the surface of the developing roller 42.
The pigment content in the toner carried per m ² is 0.1
If the thickness is smaller than μg, a sufficient amount of the pigment does not move to the image portion of the latent image formed on the photosensitive drum 1, and the image density of the image portion may be reduced. Further, when the thickness of the developer carried per 1 cm ^{2 of the} surface of the developing roller 42 is such that the pigment content is larger than 2 μg, excess toner particles are developed in the image portion after development, and the excess toner increases. The sweep roller 43
This may result in incomplete removal. Further, the excess toner remaining in the non-image portion increases, and the removal by the sweep roller 43 may be incomplete.

The thin layer of the developer 40 formed on the surface of the developing roller 42 passes through a developing nip formed by the photosensitive drum 1 and the developing roller 42. Generally, in an electrophotographic developing device, the surface moving speed of the developing roller is set to be faster than the surface moving speed of the photoconductor in order to send a sufficient amount of toner to an area between the photoconductor and the developing device. For this reason, since the toner has a high moving speed with respect to the surface of the photoreceptor, a positional shift occurs between the toner and the latent image, and as a result, the tip of the image is blurred, or the balance between the vertical and horizontal lines is poor. Phenomenon appears. This phenomenon is also observed in liquid development. In the image forming apparatus according to the present embodiment, the surface of the developing roller 42 and the surface of the photosensitive drum 1 move at substantially the same speed, and the velocity vector in the tangential direction of the photosensitive drum 1 relative to the toner is changed. Since it is not provided, the above phenomenon does not occur.

FIGS. 2A and 2B are diagrams schematically showing the state of the developer 40 in the developing nip. FIG. 2A shows the vicinity of an image portion, and FIG. It shows the vicinity of the non-image portion. The developing roller 42 is supplied with a developing bias voltage (40
0V) is applied, and a developing electric field is generated between the photoconductor surface and the image portion which has been exposed to 50 V or less by the exposure device 3. In the image portion of the photosensitive drum 1 shown in FIG. 2A, the toner particles 40a in the developer 40 move to the photosensitive drum 1 by the electric field to visualize the latent image. At this time, excess toner particles are also used for visualization and adhere to the image area. On the other hand, in the non-image area of the photosensitive drum 1 shown in FIG. 2B, the toner 40 is applied to the surface of the developing roller 42 by the electric field formed by the developing bias potential and the photosensitive body potential.
is moved so that the toner 40a does not adhere to the non-image portion.

As described above, in the image portion of the photosensitive drum 1, an image visualized by excess toner particles has poor fine line reproducibility. Further, a part of the toner 40a in the non-image portion is
The photosensitive drum 1 cannot move to the surface of the developing roller 42
If left on the side, it will cause fog. Therefore, the developing device 4 of the image forming apparatus according to the present embodiment sweeps the surplus toner particles deteriorating the fine line reproducibility and the toner particles (hereinafter, referred to as “fog toner particles”) 40c which cause fog. A sweep roller 43 is provided.
The sweep roller 43 is disposed downstream of the developing roller 42 in the rotation direction of the photosensitive drum 1 and is pressed against the photosensitive drum 1 so as to sandwich the developed toner layer. The surface of the sweep roller 43 is
It moves at almost the same speed as the surface of.

FIGS. 3 (a) to 3 (c), FIGS. 4 (a) to 4 (c)
FIG. 4 is a diagram schematically showing a state of the developer in a removal nip formed by the photosensitive drum 1 and the sweep roller 43. 3A to 3C show the state of the developer in the image area, and FIGS. 4A to 4C show the state of the developer in the non-image area. Is changed in three stages of 500 V, 150 V, and 0 V.

When the potential of the sweep roller 43 is set to 500 V, in the image portion of the photosensitive drum 1, the surface potential of the image portion (toner layer) and the sweep roller 43 are changed as shown in FIG.
The electric field generated by the potential difference due to the bias voltage is strong, and the surplus toner particles in the image area remain on the photosensitive drum 1 side. On the other hand, in the non-image portion of the photosensitive drum 1, as shown in FIG. 4A, the electric field generated by the difference between the potential of the non-image portion of the photosensitive drum 1 and the potential due to the bias voltage is weak and floats. Fog toner particles 40
c and fog toner particles 40c attached to the non-image area hardly move to the sweep roller 43.

When the potential of the sweep roller 43 is set to 0 V, in the image portion of the photosensitive drum 1, the potential of the sweep roller 43 is changed to the surface of the image portion (toner layer) on the photosensitive drum 1 as shown in FIG. Since the potential is equal to the potential, the toner particles 40 a are mechanically returned to the sweep roller 43 from the toner layer after development by contact with the photosensitive drum 1 on the surface of the sweep roller. On the other hand, in the non-image portion of the photosensitive drum 1, the electric field generated by the potential difference between the potential of the sweep roller 43 and the non-image surface potential on the photosensitive drum 1, as shown in FIG. Most of the floating fog toner particles 40c and the attached fog toner particles 40c move to the sweep roller 43.

As described above, when the potential of the sweep roller 43 is excessively increased, excess toner remains in the image area, the density of the image area increases, and the reproducibility of fine lines is reduced. On the other hand, if the potential of the sweep roller 43 is too low, the image density will be too low.

Therefore, in the present embodiment, a removing voltage adjusted to such an extent that fog toner particles can be removed by removing fog toner particles in the image portion and adjusted to remove fog toner particles in the non-image portion is applied to the sweep roller 43. I am trying to do it.

Therefore, in this embodiment, the potential of the sweep roller 43 is set to 150V. In the image area of the photosensitive drum 1, as shown in FIG. 3B, the potential of the sweep roller 43 is changed to the image area (toner layer) surface potential (0 to 10).
0V), a weak electric field is generated due to the potential difference between the image portion surface potential of the photosensitive drum 1 and the bias voltage of the sweep roller 43, and only the surplus toner particles 40a adhere to the sweep roller 43. In the non-image portion of the photosensitive drum 1, as shown in FIG.
The floating fog toner particles 40c can be moved to the sweep roller 43 by the electric field generated by the difference between the potential of the non-image portion of FIG. At this stage, the developer layer in the non-image area is
The fogging toner particles 40c are easily removed because the thickness of the toner is about half of the thickness of the developing nip portion of No. 2 and the density of the toner is reduced to about 20% of the density before development. As a result, fogging of the non-image portion can be completely prevented.

FIG. 5 shows the image density of the image area and the non-image area when the photosensitive drum 1 is developed with the charging potential of 600 V, the exposure section potential of 0 V, and the developing bias of 400 V. 6 is a graph showing a relationship with an applied bias. When the voltage applied to the sweep roller 43 is increased, the density of the image portion increases, and when the voltage is decreased, the density of the image portion also decreases. Therefore, the image density of the image portion can be controlled by the electric field generated by the voltage applied to the sweep roller 43. The density of the non-image portion also increases when the voltage applied to the sweep roller 43 is increased, and decreases when the voltage is reduced.
Then, when the bias of the sweep roller 43 is about 250 V, the image density of the non-image part is reduced to about 0.02, and by setting the bias to less than that, the image density of the non-image part is always 0.01 to 0.02. Can be suppressed. At this time, the image density of the image portion could be changed from 1.7 to about 1.2. According to the graph of FIG. 5, the image density can be controlled to a desired density by the bias of the sweep roller 43.

As described above, by installing the sweep roller 43 and controlling its bias, the density of the image portion can be controlled, and a high-quality image with good reproducibility of fine lines can be formed. Fogging of the image in the non-image portion can also be prevented.

By providing the sweep roller 43, about half of the excess carrier liquid adhering to the photosensitive drum 1 during development can be removed. Thereby, the consumption of the carrier can be reduced.

Further, since the surface of the sweep roller 43 and the surface of the photosensitive drum 1 move at substantially the same speed and the toner does not have a velocity vector in the tangential direction of the photosensitive drum 1 relative to the toner. As a result, there is no phenomenon that the tip is blurred or the balance between the vertical line and the horizontal line is poor.

Further, according to the configuration of the present embodiment, excess toner particles may be developed on the image portion by the developing nip between the photosensitive drum 1 and the developing roller 42, and the fog toner particles 40c may be slightly reduced. May remain. The fog removal electric field (the potential difference between the developing bias applied to the developing roller 42 and the charged potential of the photoconductor) can be kept low. Therefore, the charging potential of the photosensitive drum 1 can be reduced. As a result, the durability of the photosensitive drum 1 is improved,
Various advantages such as a reduction in the load on the charging roller 2 and a reduction in the exposure power occur.

In the image forming method described in the prior art, development and removal of fog toner in the non-image area can be performed simultaneously by the developer carrier. However, it is necessary to secure a relatively long developing time (for example, about 40 msec), and it is necessary to increase a developing nip width formed between the photosensitive drum 1 and the developer carrier. In this conventional image forming method, the nip portion is formed by bringing the developer carrier having the elastic layer into contact with the line image carrier, so that the contact pressure increases in order to increase the development nip width. Tends to. Further, the control of the image density is performed only by controlling the developer density. In contrast, in the developing device 4 of the image forming apparatus according to the present embodiment, the sweep roller 43
Is provided, it is possible to separate the functions of development and removal of surplus toner particles in the image area and fogging toner particles 40c in the non-image area in the developing roller 42, thereby making it possible to reduce the development nip width compared to the conventional art, Reduce the pressure (eg,
3 kgf / mm or less). This makes it possible to control the image density or reduce the load applied to the photosensitive drum 1, the developing roller 42, and the sweep roller 43, thereby improving the durability.

In the first embodiment, an image is formed by reversal development in which an exposed portion is developed as an image portion. However, an image may be formed by regular development in which an exposed portion is developed as a non-image portion. it can. Furthermore, the description has been made using the photosensitive drum 1 as the latent image carrier, but in addition to this,
For example, an image forming apparatus that forms an electrostatic latent image on a latent image carrier with an ion flow head and visualizes the latent image with a developing device may be used. The same applies to the bias value of the sweep roller 43 described in the embodiment, and the present invention is not limited to this. In the present embodiment, one sweep roller 43 has been described, but the number of sweep rollers 43 is not limited to one. Further, in this embodiment, the image forming apparatus is described in which the image formed on the photoconductor is directly transferred to the recording paper. However, the present invention is not limited to this. The image forming apparatus may be an intermediate transfer type image forming apparatus that performs primary transfer to the recording paper and then secondary transfer to recording paper. Furthermore, the charging device, the exposure device, the latent image carrier, the developing device, and the cleaning device are integrated into one unit, and the units are arranged for each color, and the images formed on the latent image carrier are sequentially placed on the intermediate transfer member. It may be a color image forming apparatus that transfers and transfers the obtained color image to recording paper. Furthermore, a charging device, an exposure device, a latent image carrier, and a cleaning device are arranged, and the developing devices arranged for each color are sequentially developed to form an image obtained on the latent image carrier on an intermediate transfer body. Similarly, a color image forming apparatus that develops and transfers the next color and transfers the color image obtained on the intermediate transfer body to recording paper may be used.

[0048]

According to the liquid developing apparatus of the first aspect, it is possible to control the amount of toner particles adhering to the image area and to form a high-quality image with good reproducibility of fine lines. Has an excellent effect.

According to the liquid developing apparatus of the second aspect, there is an excellent effect that a high-quality image with good reproducibility of fine lines can be formed and fogging of an image in a non-image area can be prevented.

In particular, according to the liquid developing device of the third aspect,
By applying a voltage, the image density of an image can be controlled, and there is an excellent effect that development and removal of excess toner particles can be performed efficiently.

In particular, according to the liquid developing device of the fourth aspect, the developing nip width can be made smaller than in the configuration in which the removing member is not provided, so that the developer carrying member contacts the latent image carrying member. The contact pressure can be made smaller. As a result, there is an excellent effect that the durability of each member that comes into contact can be improved.

In particular, according to the liquid developing device of the fifth and sixth aspects, the surfaces of the developer carrier and the removing member and the surface of the latent image carrier move at a substantially constant speed, and are relatively moved with respect to the toner. Since the latent image carrier does not have a velocity vector in the tangential direction of the latent image carrier, there is an excellent effect that the leading edge of the image is not blurred, and the balance between the vertical and horizontal lines can be prevented.

In particular, according to the liquid developing device of claim 7,
By setting the thickness of the liquid developer applied on the developer carrying member, there is an excellent effect that the image density can be prevented from being reduced or fogging can be prevented.

According to the liquid developing device of the present invention, since the removing performance of the removing member can be maintained, there is an excellent effect that the removing member can more reliably remove excess toner on the latent image carrier. .

In particular, according to the image forming apparatus of claim 9,
Since it is possible to prevent the fine line reproducibility from deteriorating due to excess toner particles or to prevent fogging of the image, there is an excellent effect that a high-quality image can be formed.

[Brief description of the drawings]

FIG. 1 is a front view illustrating a schematic configuration of an image forming apparatus according to an embodiment of the present invention.

FIGS. 2A and 2B are diagrams schematically illustrating a state of a developer in a developing nip; FIG.

FIGS. 3A to 3C are diagrams schematically showing a state of a developer in a removal nip formed by a photosensitive drum and a sweep roller in an image area.

FIGS. 4A to 4C are diagrams schematically showing a state of a developer in a removal nip formed by a photosensitive drum and a sweep roller in a non-image portion.

FIG. 5 is a graph showing a relationship between a sweep roller bias and image densities of an image portion and a non-image portion.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 photoconductor drum 2 charging roller 3 exposure device 4 developing device 5 transfer device 6 cleaning blade 40 developer 40 c fog toner particles 42 developing roller 42 a elastic layer 43 sweep roller 43 a elastic layer 44 gravure roller 47, 48 cleaning member

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Hidemune Otake 1-3-6 Nakamagome, Ota-ku, Tokyo Inside Ricoh Company, Ltd. (72) Inventor Noriyasu Takeuchi 1-3-6 Nakamagome, Ota-ku, Tokyo F-term in Ricoh Co., Ltd. (reference) 2H073 BA02 BA11 BA13 BA43 CA33 2H074 AA03 AA41 AA44 BB02 BB16 BB44 BB58 CC02 CC21 CC28 DD05 DD07

Claims (9)

[Claims] An at least one developer carrier for carrying a high-viscosity, high-concentration liquid developer in which toner particles are dispersed in a carrier liquid; and an application member for applying the liquid developer to the developer carrier. A liquid developing device that develops a latent image formed on the latent image carrier by the liquid developer carried on the developer carrier, wherein the surface direction of the latent image carrier of the developer carrier is At least one removing member for removing excess toner particles after development on the latent image carrier is provided on the downstream side, and at least one of the removing members is provided for an image portion formed on the latent image carrier. A liquid developing device for controlling image density. 2. A liquid developing apparatus according to claim 1, wherein at least one of said removing members removes excess toner particles between a non-image portion on said latent image carrier and said removing member. Liquid developing device. 3. The liquid developing device according to claim 2, wherein the toner particles are moved toward the image portion between the image carrier on the latent image carrier and the developer carrier on the developer carrier. Developing voltage applying means for applying a voltage for generating an electric field in the direction, and removing excess toner particles floating between the image portion on the latent image carrier and the removing member on the removing member on the removing member side. A liquid developing apparatus comprising: a removing voltage applying unit that applies a voltage that generates an electric field that is an electric field in a drawing direction and that is sufficient to peel off excess toner particles attached to a non-image portion. 4. The liquid developing device according to claim 1, wherein the developer carrier and the removing member are brought into contact with the latent image carrier to form a nip portion. Liquid developing device. 5. The liquid developing apparatus according to claim 1, wherein a surface moving speed of said developer carrier is substantially equal to a surface moving speed of said latent image carrier. apparatus. 6. The liquid developing apparatus according to claim 1, wherein the moving speed of the surface of the removing member is substantially equal to the moving speed of the surface of the latent image carrier. apparatus. 7. The liquid developing device according to claim 1, wherein the toner particles contain a pigment, and are carried per 1 cm ² of the surface of the developer carrier. A liquid developing apparatus, wherein the thickness of the liquid developer applied on the developer carrier is set such that the pigment content in the toner is 0.1 μg or more and 2 μg or less. 8. The liquid developing device according to claim 1, further comprising a cleaning means for cleaning a surface of said removing member. 9. A latent image bearing member, a latent image forming means for forming a latent image on the latent image bearing member, and a latent image on the latent image bearing member having a high viscosity and a high viscosity by dispersing toner particles in a carrier liquid. 2. An image forming apparatus comprising: a developing unit for visualizing an image using a liquid developer having a high density; and a transfer unit for transferring a visualized image on the latent image carrier to a transfer material. 2, 3, 4, 5, 6,
An image forming apparatus using the liquid developing device according to 7 or 8.