JP2006184602A - Urethane foam double-structure roller, toner supply roller, and cleaning roller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a toner supply roller having satisfactory toner supplying performance and superior durability, and to provide a cleaning roller. <P>SOLUTION: The toner supply roller is provided with a metal shaft (10); a first elastic rubber layer (11) having a communicating foam rubber material, which is formed on the metal shaft and in which a multitude of vacant holes communicating with each other are formed; and a second elastic rubber layer (12) of the communicating foam rubber material which is stacked on the first elastic rubber layer, where many recessed parts are formed on the surface area, and in which a multitude of vacant holes communicating with each other are formed in the internal region. The inner first elastic rubber layer (11) is composed of the communicating foam rubber material where the mean diameter of the vacant holes thereof is larger than that formed in the outer second elastic rubber layer (12). The vacant holes, formed in the outer second elastic rubber layer and the vacant holes formed in the inner first elastic rubber layer communicate with each other. Because the toner, infiltrating from the surface of the outer second elastic rubber layer readily transits to the inner elastic rubber layer having the large diameter vacant holes, clogging can be prevented effectively. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention relates to a urethane foam double structure roller in which two types of open-cell elastic rubber layers having different average pore diameters are laminated.
Furthermore, the present invention relates to a toner supply roller having two types of elastic rubber layers having different average pore diameters and having excellent durability.
Furthermore, the present invention relates to a cleaning roller in which two types of elastic rubber layers having different average pore diameters are laminated and have excellent cleaning performance.

  Various elastic rubber rollers are used in electrophotographic copying machines and printers. For example, a developing device that develops an electrostatic latent image formed on a photosensitive drum uses a toner supply roller for supplying toner to the developing roller, and a constant amount of toner is constantly supplied from the toner supply roller to the developing roller. The electrostatic latent image is developed with toner deposited on the surface of the developing roller. In this development system, the role of the toner supply roller is extremely important for forming a clear image. For example, if the amount of toner supplied from the toner supply roller to the development roller is insufficient, a low-density copy with a low image density is obtained. Will be formed. Accordingly, there is a strong demand for the development of a toner supply roller that can always supply a constant amount of toner.

  Conventionally, as a toner supply roller, a foamed urethane rubber roller having a large number of concave portions formed on the outer peripheral surface has been widely used. The toner is carried out from a toner hopper for storing the toner to a urethane foam roller, and the toner is positively or negatively charged by friction between the toner and the urethane foam. The charged toner particles are carried into a recess on the outer peripheral surface of the urethane foam roller, and are supplied to the developing roller by the rotation of the toner supply roller. This urethane foam toner supply roller has appropriate cushioning properties, toner supply performance, and appropriate charging performance, and is extremely suitable for supplying a certain amount of toner to the developing roller.

  In electrophotographic copying machines and printers, it is necessary to remove foreign matters such as toner remaining on the photosensitive drum and the photosensitive belt to form a clean photosensitive drum surface. For this reason, a cleaning device is disposed after the transfer step, and residual toner and the like that have not been transferred to the recording paper side are removed from the photosensitive drum by the cleaning device. Conventionally, a blade-type cleaning device is widely used as a cleaning device, and a method of scraping off remaining toner particles with a cleaning blade is used. However, the blade cleaning method is also limited, and toner particles that rub through the blade are also generated.

  It has been pointed out that the above-described toner supply roller using urethane foam can exhibit good toner supply performance but has a drawback in durability. That is, since the outer peripheral surface of the toner supply roller is in contact with the developing roller, the toner particles adhering to the outer peripheral surface of the toner supply roller are pushed into the toner supply roller, and the concave portion of the toner supply roller is clogged. . That is, since urethane sponge or urethane foam is an open-cell rubber material, as many sheets are copied, toner particles gradually enter the inner area of the roller from the surface area, and toner aggregation occurs inside the rubber layer. . Then, toner particles accumulate in the recesses on the outer peripheral surface, causing clogging, and finally a thin film of toner is formed on the outer peripheral surface of the roller. As a result, the toner transportability and charging performance of the toner supply roller are deteriorated, the amount of toner supplied to the developing roller is gradually reduced, and the image quality of the reproduced copy is lowered. In addition, when clogging occurs locally, dark vertical streaks appear on the copy, and image quality deteriorates. On the other hand, in a copying machine or a printer, in order to increase the resolution of a reproduced copy, there is a tendency to use a toner having a small particle diameter, so that the toner tends to easily enter the rubber layer. Therefore, the development of a toner supply roller that hardly clogs and has high durability is an urgent issue.

  Further, regarding the cleaning device, there is a limit to the blade cleaning method, and there are toner particles that pass through the blade. Therefore, it is strongly desired to develop a cleaning device having better cleaning performance in order to improve the image quality. On the other hand, as another cleaning method other than the blade method, a roller cleaning method is known in which a cleaning roller is brought into contact with an image forming member such as a photosensitive drum and the remaining toner is transferred to the cleaning roller side. Although the cleaning method using this cleaning roller has very good initial cleaning performance, it is difficult to remove the toner particles transferred to the cleaning roller and has a drawback in durability. Therefore, if the toner particles transferred to the cleaning roller are removed well, a more excellent cleaning roller can be realized.

An object of the present invention is to realize an elastic rubber roller that exhibits different actions or functions in the surface area and internal area of the roller.
Furthermore, another object of the present invention is to provide a toner supply roller having excellent toner supply performance and excellent durability.
Furthermore, another object of the present invention is to provide a cleaning roller having excellent cleaning performance and durability.

An elastic rubber roller according to the present invention includes a metal shaft, a first elastic rubber layer formed on the metal shaft and having a plurality of pores communicating with each other, and a first elastic rubber layer made of a foamed rubber material. A second elastic rubber layer of an open-cell rubber material laminated on the elastic rubber layer and formed with a plurality of pores communicating with each other;
The first elastic rubber layer is composed of an open-cell rubber material whose average pore diameter is smaller than the average pore diameter of the pores formed in the second elastic rubber layer;
The holes formed in the second elastic rubber layer and the holes formed in the first elastic rubber layer communicate with each other.

  In the present invention, the rubber layer of the elastic rubber roller has a double structure, the inner rubber layer and the outer rubber layer are both made of open-cell rubber material, and the diameters of the holes formed in each rubber layer are different from each other. Let If comprised in this way, the effect | action and characteristic of an outer side rubber layer will be exhibited about the surface area of a roller, and the characteristic of an inner side rubber layer will be exhibited about the internal area | region of a roller. As a result, it is possible to realize an elastic rubber roller that can simultaneously exhibit two characteristics or actions. For example, when applied to a toner supply roller, the toner supply performance and transport performance are defined by the diameters of the holes formed in the outer rubber layer. On the other hand, when toner particles enter the inner area of the roller through the surface area of the roller, the holes in the inner rubber layer and the holes in the outer rubber layer communicate with each other. The rubber layer is transferred to the inner rubber layer having a large pore diameter and accumulated in the rubber layer. As a result, it is possible to prevent a problem that the rubber hardness of the roller is increased. When applied to the cleaning roller, the residual toner removal performance is defined by the outer rubber layer, and the toner particles transferred to the cleaning roller are accumulated in the large holes of the inner rubber layer. As a result, the problem of toner particles accumulating on the roller surface is eliminated, and the surface of the cleaning roller can always be maintained at a constant performance.

A toner supply roller according to the present invention is a toner supply roller for supplying toner to a developing roller,
A metal shaft, a first elastic rubber layer of a foamed rubber material formed on the metal shaft and having a plurality of holes communicating with each other, and laminated on the first elastic rubber layer A second elastic rubber layer of open-cell rubber material in which a large number of recesses are formed in the surface region and a large number of holes communicating with each other are formed in the inner region;
The inner first elastic rubber layer is composed of an open-cell rubber material whose average pore diameter is larger than the average pore diameter of the holes formed in the outer second elastic rubber layer;
The holes formed in the outer second elastic rubber layer and the holes formed in the inner first elastic rubber layer communicate with each other.

  As a result of various experiments and analyzes performed by the inventor on the toner supply roller, the following matters were found. First, since the toner supply roller is used in contact with the developing roller, the toner particles are pushed into the toner supply roller during operation, and the toner particles gradually enter the toner supply roller as the number of copies increases. invade. Secondly, when the cross section of the rubber layer of the toner supply roller deteriorated due to the increase in the hardness of the roller after a large number of copies were made, the toner particles penetrated to a depth of several millimeters from the surface, and the toner inside the rubber layer It was found that aggregation occurred. Third, after observing the cross section of the rubber layer of the toner supply roller before the roller hardness is increased after the start of use, it is found that the toner has penetrated to a shallow depth of about 1 mm, but no toner aggregation has occurred. did. According to these analysis results, the major cause of the clogging is toner aggregation occurring inside the rubber layer. In the range where toner aggregation does not occur even if the toner enters from the surface area of the toner supply roller to a shallow depth. It is assumed that clogging does not occur and toner supply performance and charging performance are not affected.

  Based on the analysis results described above, in the present invention, the rubber layer of the toner supply roller has a double structure, and the outer rubber layer and the inner rubber layer exhibit different functions. That is, the outer rubber layer in contact with the developing roller plays a role of toner supply and toner charging, and the hole diameter is determined from the viewpoint of toner supply performance. On the other hand, the inner rubber layer has a function of preventing the staying of the invading toner particles and accumulating the invading toner, and the pore diameter is defined from the viewpoint of preventing the staying of the entering toner. Thus, by making the inner and outer rubber layers have different hole diameters, even if the toner enters the rubber layer, the toner that has penetrated is drawn into the large holes in the inner rubber layer before the toner aggregates. Therefore, it is possible to prevent the problem that the toner particles do not stay in the rubber layer and the outer rubber layer is clogged.

  In a preferred embodiment of the toner supply roller according to the present invention, the first elastic rubber layer on the inner side has the second rubber layer on the outer side whose porosity (ratio of the volume occupied by the voids to the total volume of the rubber layer). It is characterized by comprising an open-cell rubber material having a larger porosity. Since the inner rubber layer draws intruding toner inward and accumulates the drawn toner, an advantage that a large amount of toner can be accumulated by increasing the porosity is achieved.

  A preferred embodiment of the toner supply roller according to the present invention is characterized in that the thickness of the outer second elastic rubber layer is made thinner than the thickness of the inner first elastic rubber layer. When the outer rubber layer is thin, the toner stays only in the shallow area from the roller surface, so that the toner that has entered before the toner aggregation occurs can be transferred into the inner rubber layer, resulting in clogging. Can be effectively suppressed.

  In a preferred embodiment of the toner supply roller according to the present invention, the toner particles that have entered the inner region through the surface region of the outer second elastic rubber layer are transferred to the inner first elastic member through the voids existing inside. It moves to the hole of a rubber layer, It is characterized by the above-mentioned. With this configuration, even if the toner in the outer rubber layer enters, the toner moves to the inner elastic rubber layer without stagnating, so that the problem that the hardness of the outer elastic rubber layer increases can be solved. .

  In the toner supply roller according to the present invention, the inner and outer elastic rubber layers can be made of conductive foamed urethane. Since urethane foam having various pore diameters can be obtained, there is an advantage that an optimum pore diameter and porosity material can be selected in consideration of the particle diameter and retention performance of the toner to be used. Furthermore, the adhesive strength between the two elastic rubber layers can be easily obtained by configuring the two elastic rubber layers together with a urethane rubber layer. In addition, it can be easily set as a conductive rubber roller by impregnating urethane foam with conductive urethane ink or conductive silicone rubber.

The cleaning roller according to the present invention is a cleaning roller that removes foreign matter adhering to the image forming member,
A metal shaft, a first elastic rubber layer of a foamed rubber material formed on the metal shaft and having a plurality of holes communicating with each other, and laminated on the first elastic rubber layer A second elastic rubber layer of open-cell rubber material in which a large number of pores communicating with each other are formed,
The first elastic rubber layer is composed of an open-cell rubber material whose average pore diameter is larger than the average pore diameter of the pores formed in the second elastic rubber layer,
The holes formed in the second elastic rubber layer and the holes formed in the first elastic rubber layer communicate with each other, and enter the inner region from the surface region of the first elastic rubber layer. The foreign matter thus transferred is transferred to the second elastic rubber layer. With this configuration, foreign matters such as toner transferred to the cleaning roller can be transferred to the inner rubber layer, so that the surface of the cleaning roller can always be maintained in a normal state.

  FIG. 1 shows an example of a toner supply mechanism for supplying toner to a developing roller, and shows an example in which an elastic rubber roller according to the present invention is applied to a toner supply roller. The toner is supplied to the toner supply roller 2 from the lower end of the hopper 1 that stores the toner. The supplied toner contacts the outer peripheral surface of the toner supply roller 2 and is positively or negatively charged by frictional charging, and is carried into a large number of recesses formed on the outer peripheral surface of the toner supply roller. The toner supply roller 2 rotates in the direction of the arrow, and with this rotation, the toner carried into the concave portion on the outer peripheral surface is conveyed and supplied to the developing roller disposed so as to be in contact with the toner supply roller 2. An electrostatic attractive force acts between the toner and the developing roller, and the charged toner is transferred to the developing roller side.

  FIG. 2 is a diagram showing an example of a toner supply roller according to the present invention. The toner supply roller has a metal shaft 10, a conductive first elastic rubber layer 11 is formed on the metal shaft 10, and a conductive second elastic layer 11 is formed on the first elastic rubber layer 11. The elastic rubber layer 12 is laminated. The outer second elastic rubber layer functions to convey toner and supply it to the developing roller and to charge the toner. Further, the inner first elastic rubber layer functions to accumulate toner that has entered the interior due to contact with the developing roller without staying.

  The first and second elastic rubber layers 2 and 3 are both made of open-cell foamed urethane. Urethane foam has the property that pores (cells) with a uniform diameter are formed almost uniformly. In addition, urethane foam with various pore diameters (cell diameters) is commercially available, and the diameter of the pores (cells) is defined by the number of pores existing per inch. Several 80 urethane foams are commercially available. Here, the cell number 8 indicates a urethane foam having 8 holes per inch, and the cell number 80 indicates a urethane foam having 80 holes per inch. In this example, the inner first elastic rubber layer 11 is a foamed urethane having 13 cells, that is, a foamed urethane having 13 pores per inch from the viewpoint of preventing the toner that has entered inside from staying. Is used. The outer second elastic rubber layer 12 is made of urethane foam having 55 cells or 55 pores per inch from the viewpoint of toner supply performance. Accordingly, holes having a diameter of about 2 mm are formed in the inner rubber layer, holes having a diameter of about 0.46 mm are formed in the outer rubber layer, and each hole of the outer rubber layer 12 is formed on the inner rubber layer 11. It will communicate with the holes of Further, the outer diameter of the toner supply roller is 13 mm, the thickness of each elastic rubber layer is set, for example, that the inner rubber layer is 3 mm, and the outer rubber layer is 1 mm. As a result, a large space is secured in the inner elastic rubber layer 11 for storing the invading toner.

  Since the toner supply roller comes into contact with the developing roller, the toner is pushed into the toner supply roller, and the toner particles gradually enter the outer second elastic rubber layer 12 as a large number of copies are made. On the other hand, since the thickness of the second elastic rubber layer 12 is thin, the toner that has entered the inside passes through the second rubber layer having a small hole diameter and reaches the boundary with the second rubber layer having a large hole diameter. . On the other hand, the holes in the outer rubber layer and the holes in the inner rubber layer communicate with each other, and the diameter of the holes in the inner rubber layer is much larger than the diameter of the holes in the outer rubber layer. The toner that has reached the boundary is transferred or sucked into the inner first rubber layer before it stays and causes toner aggregation. As a result, since the intruding toner stays only in the surface area of the toner supply roller, a toner aggregation layer is not formed on the outer peripheral surface of the toner supply roller, and clogging can be effectively prevented.

Next, a method for manufacturing the elastic rubber roller according to the present invention will be described. First, a urethane foam piece having a desired size is cut out from the urethane foam raw material forming the inner first elastic rubber layer, and a hole for inserting a metal shaft is formed. Next, a metal shaft is inserted and bonded to the urethane foam piece, and then a polishing process is performed to form a first elastic rubber layer 11 having a predetermined outer diameter on the metal shaft 10.
Next, a urethane foam piece having a desired size is cut out from the urethane foam raw material for forming the outer second elastic rubber layer, and a hole having a diameter substantially equal to the outer diameter of the first elastic rubber layer 11 is formed. Form. Next, a roller having a first elastic rubber layer formed therein is fitted into the hole, and the outer periphery is polished to form a second elastic rubber layer having a thickness of 1 mm. Thereby, the elastic rubber roller of the present invention is completed. It should be noted that an adhesive may be interposed between the first elastic rubber layer and the second elastic rubber layer, or the mechanical bond strength can be obtained without an adhesive.
Since the thickness of the outer second elastic rubber layer is defined by the final polishing amount, the second elastic rubber layer having a desired thickness can be formed by controlling the polishing amount. . Therefore, an outer elastic rubber layer having a required thickness can be formed according to parameters such as the application and the toner supply amount.
Further, when the first and second elastic rubber layers are conductive rubber layers, the first and second elastic rubbers are impregnated by impregnating with a conductive material such as urethane ink or conductive silicon rubber. The layer can be conductive.

  The present invention is not limited to the above-described embodiments, and various modifications and changes can be made. For example, in the above-described embodiments, the toner supply roller has been described. However, the present invention can be applied to various elastic rubber rollers other than the toner supply roller such as a cleaning roller for cleaning the surface of the photosensitive drum or the photoreceptor belt. When applied to a cleaning roller, when the cleaning roller is brought into contact with the photosensitive drum and rotated, the toner remaining on the surface of the photosensitive drum is transferred to the cleaning roller and the surface of the photosensitive drum can be cleaned. In this case, the foreign matter such as toner transferred to the outer peripheral surface of the cleaning roller gradually moves into the inside of the roller and then moves into the large-diameter hole inside, so that the surface of the cleaning roller is always maintained in a constant state. be able to. When applied to a cleaning roller, the outer rubber layer can contain an adhesive that removes foreign matter.

  The present invention can also be applied to a water absorption roller. In a developing device that develops a photographic film or a negative film, a large amount of water remains on the surface of the washed film, so that it is necessary to provide a drying step to dry the film. As a pre-process of this drying process, a water absorption roller is disposed so as to be in contact with the traveling film surface, and moisture remaining on the film surface is removed. Also, in the manufacturing process of the liquid crystal device, since water remains on the surface of the substrate that has been washed with water, a water absorption roller is disposed to remove the remaining water. In these water-absorbing rollers, urethane rubber having a small cell diameter can be used as the outer foamed urethane rubber layer, and urethane foam having a larger cell diameter can be used as the inner foamed urethane rubber layer. In this case, the moisture transferred from the film or substrate in which moisture remains to the water absorption roller side moves to the inner foamed urethane rubber layer having a large cell diameter, so that the water absorption performance can be improved. As an example, the outer surface of the water-absorbing roller according to the present invention uses a urethane foam of microcells having several thousand cells per inch as the outer foamed urethane rubber layer, and foams with about 30 to 50 cells as the inner foamed urethane rubber. Urethane can be used.

  Furthermore, in the above-described embodiments, the hole diameter (cell diameter) is an example, and can be defined based on various parameters such as the particle diameter of the toner to be used and the rotation speed of the developing roller. Further, the thicknesses and ratios of the inner elastic rubber layer and the outer elastic rubber layer are also an example, and can be set to desired values based on various parameters.

FIG. 3 is a diagrammatic cross-sectional view illustrating an example of a toner supply mechanism including a toner supply roller according to the present invention. FIG. 3 is a diagrammatic sectional view showing an example of a toner supply roller according to the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hopper 2 Toner supply roller 3 Developing roller 10 Metal shaft 11 1st elastic rubber layer 12 2nd elastic rubber layer

Claims (10)

A metal shaft, a first elastic rubber layer of urethane foam formed on the metal shaft and having a plurality of pores communicating with each other, and the first elastic rubber layer laminated on each other, A second elastic rubber layer of urethane foam in which a large number of communicating pores are formed;
The first elastic rubber layer is composed of an open-cell rubber material whose average pore diameter is larger than the average pore diameter of the pores formed in the second elastic rubber layer,
2. A urethane foam dual structure roller, wherein the holes of the second elastic rubber layer and the holes of the first elastic rubber layer communicate with each other. A toner supply roller for supplying toner to the developing roller,
A metal shaft, a first elastic rubber layer of a foamed rubber material formed on the metal shaft and having a plurality of holes communicating with each other, and laminated on the first elastic rubber layer A second elastic rubber layer of open-cell rubber material in which a large number of recesses are formed in the surface region and a large number of holes communicating with each other are formed in the inner region;
The inner first elastic rubber layer is composed of an open-cell rubber material whose average pore diameter is larger than the average pore diameter of the holes formed in the outer second elastic rubber layer;
A toner supply roller, wherein a hole formed in an outer second elastic rubber layer and a hole formed in an inner first elastic rubber layer communicate with each other.   3. The toner supply roller according to claim 2, wherein the second elastic rubber layer is made thinner than the first elastic rubber layer, and the first elastic rubber layer has a porosity of A toner supply roller comprising an open-cell rubber material having a larger porosity than the second rubber layer.   4. The toner supply roller according to claim 2, wherein the toner particles that have entered the inner region through the surface region of the second elastic rubber layer are disposed inside through the pores of the second elastic rubber layer. 1. A toner supply roller, wherein the toner supply roller moves into a hole of one elastic rubber layer.   The toner supply roller according to claim 2, 3 or 4, wherein the first and second elastic rubber layers are made of conductive foamed urethane.   6. The toner supply roller according to claim 5, wherein the first and second elastic rubber layers contain conductive urethane ink or conductive silicon rubber. A cleaning roller for removing foreign matter adhering to the image forming member,
A metal shaft, a first elastic rubber layer of a foamed rubber material formed on the metal shaft and having a plurality of holes communicating with each other, and laminated on the first elastic rubber layer A second elastic rubber layer of open-cell rubber material in which a large number of pores communicating with each other are formed,
The first elastic rubber layer is composed of an open-cell rubber material whose average pore diameter is larger than the average pore diameter of the pores formed in the second elastic rubber layer,
The holes of the second elastic rubber layer and the holes of the first elastic rubber layer communicate with each other, and foreign matter that has entered the internal region from the surface region of the first elastic rubber layer is the second elastic rubber. A cleaning roller, characterized by being transferred to a layer.   8. The cleaning roller according to claim 7, wherein the first and second elastic rubber layers are made of conductive foamed urethane, and the foamed urethane contains conductive urethane ink or conductive silicone rubber. And cleaning roller.   9. The cleaning roller according to claim 7, wherein the second elastic rubber layer on the outside includes an adhesive material. A water absorption roller for removing moisture remaining on the surface of a traveling object,
A metal shaft, a first elastic rubber layer of urethane foam formed on the metal shaft and having a plurality of pores communicating with each other, and an inner region laminated on the first elastic rubber layer And a second elastic rubber layer of urethane foam in which a large number of pores communicating with each other are formed,
The inner first elastic rubber layer is composed of a foamed urethane rubber material whose average pore diameter is larger than the average pore diameter of the holes formed in the outer second elastic rubber layer,
A water absorbing roller, wherein a hole formed in an outer second elastic rubber layer and a hole formed in an inner first elastic rubber layer communicate with each other.

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