KR20030069448A - Development apparatus comprising a rotating depositing roller - Google Patents

Abstract

PURPOSE: A developing apparatus having a rotating fusing roller is provided to smoothly flow a developer between the fusing roller and a developing roller in the case that the developer has a high density. CONSTITUTION: A photoconductive body(51) forms an electrostatic latent image by a static device and an exposing device. A developing roller(63) supplies a developer(68) to the photoconductive body for developing the electrostatic latent image. A fusing roller(67) contacts with the developing roller for depositing the developer. A metering device(61) applies pressure or electric power to maintain the developer of a surface of the developing roller at an appropriate density. A first cleaning device(69) cleans ink particles attached to the surface of the fusing roller. A second cleaning device(65) cleans the developer remaining on the surface of the developing roller after the photoconductive body develops the electrostatic latent image.

Description

Development apparatus comprising a rotating depositing roller

The present invention relates to a developing apparatus, and more particularly, to a developing apparatus using a high concentration of ink.

1 is a cross-sectional view of a general wet electrophotographic image forming apparatus.

Referring to FIG. 1, a wet electrophotographic image forming apparatus includes a photosensitive belt 14, a charger 15 for charging the photosensitive belt 14, and a charged photosensitive belt 14 by irradiating light to an electrostatic latent image. Transfers the formed image onto the paper 23, the optical scanning unit 16 for forming the image, the developing device 30 for developing the electrostatic latent image, the dryer 18 for adsorption evaporation of the liquid carrier on the photosensitive belt 14, and the formed image. The transfer device 20 is provided.

The photosensitive belt 14 is circulated by a plurality of rollers including a driving roller 11 and driven rollers 12 and 13, and the paper 23 is rotated by the transfer roller 21 and the fixing roller 22. It is drawn into the transfer device 20 and the image is transferred to the paper 23.

The optical scanning unit 16 scans the color information of yellow (Y), cyan (C), magenta (M), and black (K) with the photosensitive belt 14, and each developing unit 30 supplies a developer of a corresponding color. Supply to the photosensitive belt 14.

The developing device 30 includes a developing solution supplier 32 for supplying a developing solution to the photosensitive belt 14, and a developing tank 31 for recovering a developing solution falling from the photosensitive belt 14. In the developing tank 31, a developing roller 36, a brush roller 37 for removing the developer deposited on the developing roller 36, and a developing solution supplied on the photosensitive belt 14 do not perform image formation. A squeeze roller 34 for separating the liquid carrier and a plate 35 for recovering the carrier taken out through the squeeze roller 34 to the developing tank 31 are provided.

The developing unit 30 maintains the photosensitive belt 14 and the developing gap G so as to develop an electrostatic latent image for each color, Y (Yellow), C (Cyan), M (Magenta), and K (Black). A developing roller 36 charged to a predetermined voltage, an injector for supplying a developing solution into the developing gap G, and a squeegee roller 34 arranged to press the photosensitive belt 14. The developer comprises a high concentration of ink in which toner transferred to printing paper P is dispersed, and a low concentration liquid carrier for transferring the toner to an area where an electrostatic latent image of the photosensitive belt 11 is formed.

The developer feeder 32 receives the ink of the liquid carrier (N, norpor), which is a solvent, and each color (Y, C, M, K), which is a developer, from the ink cartridge 38, and mixes the ink. The developer of concentration and the developer stored in the developing tank 31 are supplied to the photosensitive belt 14 as a developer.

In the conventional developing device 30, since the concentration of the liquid developer is about 2.5% to 3%, the 10-30% ink supplied from the ink cartridge 38 is diluted with a low concentration carrier to develop the developing device 30. To supply.

In order to supply the liquid developer produced in the developer feeder 32 to the developing nip, ink is supplied using the developer supply device 35 between the developing roller 36 and the photosensitive belt 14. The supplied low concentration liquid developer develops an electrostatic latent image on the photosensitive belt 14 and removes excess carrier while passing through the squeegee roller 34. The remaining carriers are absorbed by the drying device 18 and heated and vaporized again to collect, collect and compress the condensers.

In the fixing apparatus 20, a high concentration of toner forming an image on the photosensitive belt 14 is transferred to the transfer roller 21 by heat, pressure, or electrostatic force, and the heat and pressure applied to the fixing roller 22 again. The remaining carriers are evaporated to cause the images to be retransferred onto the recording paper 23 so as to output the images.

The developing apparatus of the general wet electrophotographic image forming apparatus has a concentration of 2 to 3% of the liquid developer used during development, which is different from that of the ink provided in the ink cartridge 38 to 10 to 30%. There is a need for a complex ink supply system and a concentration control device for mixing to produce 2-3% developer solution and a squeeze process to remove excess carriers of low liquid developer.

Therefore, the technical problem to be achieved by the present invention is to improve the above-described problems of the prior art, and smooth the flow of the developer in a developing apparatus using a high concentration ink, and by implementing a uniform developing amount in a wide range of developer, To provide a picture of.

1 is a view briefly showing a conventional image forming apparatus;

2 is a view showing a developing apparatus according to an embodiment of the present invention;

3 shows an image forming apparatus employing a developing apparatus according to an embodiment of the present invention.

<Code Description of Main Parts of Drawing>

51: photosensitive drum 52: charging device

53: developing apparatus 54; Fixing device

55: optical scanning device 56: transfer device

57: ink cartridge 58: static eliminator

59; Intermediate transfer belt 61; Metering blade

62; Ink 63; Developing roller

64, 66; Power supply 67; Deposition roller

68; developer

In order to achieve the above technical problem, the present invention, a developer for holding a developer therein; and a developing roller for half-immersed in the developer, the developing roller for developing an electrostatic latent image with the developer; and in contact with the developer roller or a predetermined interval A deposition roller which is spaced apart and rotates and supplies developer to the developer roller by an electric force; and a first cleaning device positioned to contact the deposition roller, and cleaning the residual developer on the surface of the deposition roller; And a second cleaning device for cleaning the developer remaining on the surface of the developing roller after the developing roller develops the electrostatic latent image.

The developer is preferably in the range of about 3% to 40%.

Located close to the developing roller, it is preferable to further include a metering device for maintaining a constant concentration of the developer deposited on the surface of the developing roller.

Here, it is preferable that a 1st cleaning apparatus consists of a urethane material.

The present invention can prevent the entanglement between the ink particles that can occur in the narrow gap between the development roller and the deposition roller by rotating the deposition roller in the developing apparatus of the wet image forming apparatus using a high concentration of the developer, the surface of the deposition roller By providing the cleaning roller which wash | cleans the adsorbed ink particle, the flow of a developing solution can be made smooth.

The present invention can also obtain a uniform image concentration at a wide range of developer concentrations, less contamination of the non-image portion and high concentration contact phenomenon, so that a squeegee process is not required separately.

Hereinafter, a developing apparatus according to the present invention will be described in detail with reference to the accompanying drawings. Here, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings.

2 is a view showing a wet developing apparatus according to an embodiment of the present invention.

Referring to FIG. 2, a developing roller for developing an electrostatic latent image by supplying a photosensitive member 51 having an electrostatic latent image formed by the charging device 52 and the exposure apparatus 55, and a developing solution 68 to the photosensitive member 51. (63), a deposition roller (67) for depositing a developer (68) in contact with the developer roller (63) or spaced at predetermined intervals, and a developer on the surface of the developer roller (63) is titrated. The metering device 61 is applied with a pressing force or an electric force to maintain the concentration, the first cleaning device 69 for cleaning the ink particles adhering to the surface of the deposition roller 67, and the photosensitive member 51 is developed. Next, a second cleaning device 65 for cleaning the developer 68 remaining on the surface of the developing roller 63 is provided.

The developer 68 has a high concentration of the developer ranging from 3% to 40% in a state in which toner particles retaining charge are dispersed in an insulating liquid carrier (Norpar, Isopar, etc.).

The deposition roller 67 is immersed in the internal developer 68 of the developer feeder 53, and rotates in the opposite direction to the development roller 63, with a narrow gap of developer between the developer roller 63 and the deposition roller 67 ( 68) Smooth the flow. The gap between the developing roller 63 and the deposition roller 67 is 50 to 500 μm, preferably about 200 to 300 μm, and may be in contact. The member of the deposition roller 67 is preferably made of SUS series of stainless steel, and the speed ratio with the developing roller 63 is in the range of 0.3 to 2.0.

A first power source 66 is connected to the deposition roller 67 to apply a first bias, and a second power source is connected to the developing roller 63 to apply a second bias lower than the first bias to form an electric field. The toner can be attached to the developing roller 63 better. A developing bias of about 300 V to 550 V and a deposition bias of about 500 to 1550 V may be applied to the developing roller 63.

The first cleaning device 67 located in the direction opposite to the developing roller 63 and located close to the deposition roller 67 is a deposition roller 67 by removing ink particles adsorbed to the deposition roller 67 with a urethane blade. Improve the deposition function of

The developing roller 63 is made of a conductive elastomer, for example, polyurethane rubber or NBR (Nitryl Butadiene Rubber) and has a resistance of about 10 ⁵ to 10 ⁸ Ω, a hardness of 25 to 65 degrees in shore A, The surface roughness is preferably about Ra 1 to 4 µm.

Various toner particles may be attached onto the developing roller 63, from toner particles that are electrically strongly attached, to toner particles that are weakly attached. The metering device 61 measures the developer amount (M / A) of 400-1100 μg / cm2 by metering the developer concentration on the developing roller 63 to have a developer concentration of about 6% to 14% when the developer concentration on the developing roller 63 is about 3% to 12%. Acquire. When the low concentration of 3% of the developer is used, the developer concentration on the developing roller 63 is doubled to 6% after the metering process, and 12% to 14% of the developer of the 12% concentration slightly increases.

Metering device 61 is an L-shaped metal plate is composed of a thickness of about 0.05 ~ 2mm and installed higher than the developing solution 68 to press the developing roller 63 at a predetermined pressure. The metering device 61 may or may not be electrically connected but may apply only physical pressing force. The thickness of the ink layer on the developing roller 63 may be determined by the pressing force and the electric force applied by the metering device 61.

An image forming apparatus employing a developing apparatus 60 according to an embodiment of the present invention is shown in FIG.

Referring to FIG. 3, an image forming apparatus 50 according to an embodiment of the present invention includes a plurality of photosensitive members 51 having a vertex latent image corresponding to each color Y, C, M, and K, and the photosensitive member. A charging roller 52 for raising the surface potential of the 51 to a charging potential, an exposure apparatus 55 for irradiating light to the charged photosensitive member 51 to form an electrostatic latent image, and a developing apparatus for developing the electrostatic latent image 53, an intermediate transfer belt 59 for contacting the photosensitive member 51 and moving the developed image, and a transfer roller for transferring the image transferred from the intermediate transfer belt 59 to the paper s ( 56 and a fixing device 54 for fixing the transferred image. Here, the intermediate transfer belt 59 and the transfer roller 56 form a transfer device.

As a result of performing continuous printing by adopting the developing apparatus according to the embodiment of the present invention, a uniform developing amount (M / A) in the range of about 220 to 270 μg / cm ² was obtained on the developing roller 63.

In the developing apparatus according to the embodiment of the present invention, in particular, when a high concentration of developer is used, the deposition roller rotates to smooth the flow of the developer between the deposition roller and the development roller to deposit a uniform developer on the surface of the development roller. The image forming apparatus may be implemented to assist the deposition function of the deposition roller by arranging the cleaning apparatus adjacent to the output device, thereby outputting a high quality image.

In addition, the developing apparatus according to the embodiment of the present invention is applicable to a wide range of developer concentrations, and does not require a separate ink supply apparatus and density control apparatus, and also does not require a squeegee process, thereby manufacturing an image forming apparatus having a simple structure It can be used to

While many details are set forth in the foregoing description, they should be construed as illustrative of preferred embodiments, rather than to limit the scope of the invention. Particularly, those skilled in the art will be able to manufacture devices constituting an image forming apparatus, such as a deposition roller, a developing roller, and a metering blade, with other materials suitable for use of a high concentration of developer. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be determined by the technical spirit described in the claims.

As described above, an advantage of the developing apparatus according to the present invention is to rotate the deposition roller when using a high concentration of developer so that the developer flows smoothly between the deposition roller and the development roller, and by arranging the cleaning apparatus adjacent to the deposition roller. It is possible to output high quality images by reinforcing the deposition function of the deposition roller.

Claims (4)

A developer feeder holding the developer therein; A developer roller half-immersed in the developer and developing an electrostatic latent image with the developer; A deposition roller which contacts the developing roller or rotates at a predetermined interval and supplies the developing solution to the developing roller by electric force; A first cleaning device positioned to contact the deposition roller and cleaning the residual developer on the surface of the deposition roller; And And a second cleaning device for cleaning the developer remaining on the surface of the developing roller after the developing roller develops the electrostatic latent image. The method of claim 1, The developing solution is characterized in that the range of about 3% to 40%. The method of claim 2, And a metering device positioned in proximity to the developing roller and configured to maintain a constant concentration of the developer deposited on the surface of the developing roller. The method of claim 1, The developing device according to claim 1, wherein the first cleaning device is made of urethane.