JP2008122484A - Brush roller and manufacturing method thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a brush roller which hardly causes pile-laying and is improved in durability. <P>SOLUTION: The brush roller is constituted so that the outer circumferential surface of a shaft 1 is covered with pile 2 electrostatically flocked, wherein the pile comprises a plurality of kinds of pile different in fiber length. As the combination of the pile, the brush roller which is composed of the same fiber material and has the pile electrostatically flocked with fibers having long fiber length and short fiber length and the brush roller which is composed of a plurality of kinds of fibers different in material or the brush roller which is composed of a plurality of kinds of fibers different in rigidity, the brush roller which is composed of a plural kinds of fibers different in electrical characteristic or the like are provided. The brush roller can be used for a cleaning roller, a toner supply roller, a lubricant supply roller or the like. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to a brush roller in which a plurality of types of piles having different fiber lengths are planted, and a method for manufacturing the same.
Furthermore, the present invention relates to a cleaning device and a lubricant supply device using the brush roller.

  In the electrophotographic image forming apparatus, a roller charging method is employed to uniformly charge the surface of the photosensitive drum. In this roller charging method, a charging roller biased with respect to the photosensitive drum is driven to rotate, and the photosensitive drum is charged to a predetermined surface potential by corona discharge. A belt transfer system is used to transfer the toner image formed on the photosensitive drum onto a recording sheet. In the belt transfer method, the transfer belt is moved so as to be in contact with the photosensitive drum, the recording paper is conveyed in synchronization with the toner image formed on the photosensitive drum, and the transfer voltage having the opposite polarity to the charging polarity of the toner is transferred to the transfer belt. And the toner image on the photosensitive drum is transferred to the recording paper side by electrostatic attraction.

  Since foreign matters such as toner and paper dust that have not been cleaned remain on the surface of the photosensitive drum, the toner and paper dust adhere to the charging roller and the transfer belt that are in contact with the surface of the photosensitive drum. However, when a foreign substance adheres to the charging roller, uniform corona discharge is not performed, charging unevenness occurs on the photosensitive drum, and image quality deteriorates. In particular, when toner, paper powder, or the like adheres to the surface of the charging roller and filming occurs, uneven charging occurs remarkably. Further, when foreign matters such as paper dust and external additives adhere to the transfer belt, transfer unevenness occurs, and the image quality similarly decreases. In order to solve such problems, a cleaning roller is provided on the charging roller or the transfer belt, and the surface of the charging roller or the like is cleaned by the cleaning roller.

  As a conventional cleaning roller, a brush roller is used in which a tape-like brush cloth in which pile yarn is woven into a base cloth is wound around the outer periphery of a shaft. Further, as another cleaning roller, a fur brush in which a pile is electrostatically implanted on the surface of a core is known (see, for example, Patent Document 1). This fur brush is manufactured by implanting conductive brush fibers on the surface of the core body by electrostatic flocking.

JP-A-10-309760

  When using a conventional brush roller or fur brush as a cleaning roller, the pile is in pressure contact with the member to be cleaned, such as the charging roller or transfer belt. However, there was a difficulty in durability. Further, if a highly rigid pile is used in order to prevent the hair from falling down, a problem occurs that damages the surface of the member to be cleaned.

  Further, in the electrophotographic image forming apparatus, a lubricant such as zinc stearate is supplied to the surface of the photosensitive drum using a brush roller. In the conventional lubricant supply device, a brush roller is arranged between the solid lubricant and the photosensitive drum, the solid lubricant is scraped off by the brush roller, and the fine powder lubricant adhering to the brush bristles is on the surface of the photosensitive drum. Has been applied. However, since the lubricant is scraped off and applied by a single brush roller, there is a drawback that the supply of the lubricant is not stably performed. That is, as a large number of copies are made, the contact state between the pile and the solid lubricant changes, which causes a problem that the scraping performance by the brush roller decreases and the lubricant application performance also decreases. In such a case, if the durability is increased by using a highly rigid pile brush roller, there is a problem that the surface of the photosensitive drum is worn away. Furthermore, brush rollers are also used in various devices and instruments such as vacuum cleaners, and there is a strong demand for improving their durability and cleaning performance.

An object of the present invention is to realize a brush roller that is less likely to fall down even when used as a cleaning roller or a lubricant supply roller, and has improved durability.
Furthermore, another object of the present invention is to provide a brush roller that does not damage the member to be cleaned such as a photosensitive drum or a charging roller.
Furthermore, another object of the present invention is to improve the durability and cleaning performance of brush rollers used in various devices and instruments such as a vacuum cleaner.

The brush roller according to the present invention is a brush roller in which the outer peripheral surface of the shaft is covered with a pile of electrostatic flocking,
The pile includes a plurality of types of piles having different fiber lengths, and the plurality of types of piles are substantially uniformly planted.

  As a result of the inventors conducting various experiments and analyzes on electrostatic flocking, it has been found that the flocking density differs depending on the fiber length of the pile. That is, it has been found that the flocking density when electrostatically flocking a pile having a long fiber length is relatively low, and the flocking density is relatively high when a pile having a short fiber length is electrostatically flocked. In addition, when a pile with a long fiber length and a pile with a short fiber length are mixed and electrostatic flocking is performed simultaneously, the flocking speed of a pile with a short fiber length is fast, the flocking speed of a pile with a long fiber length is slow, and the fiber length is long. It has also been found that the rate at which piles are implanted is small. Based on these analysis results, in the present invention, electrostatic flocking is carried out stepwise according to the length of the pile to be flocked, first a pile having a long fiber length is first electrostatically flocked, and then a pile having a short fiber length is used. Electrostatic flocking. Thus, by electrostatically implanting a plurality of types of piles in the order of the fiber length, a plurality of types of piles having different fiber lengths can be implanted almost uniformly.

  By applying the electrostatic flocking method described above to a method for manufacturing a brush roller, it is possible to manufacture a brush roller in which a plurality of types of piles having different fiber lengths are flocked almost uniformly. That is, by first electrostatically flocking a pile having a long fiber length and then electrostatically flocking a pile having a short fiber length, the pile having a short fiber length is a first pile having a long fiber length that has been previously planted. Since the hair is planted so as to be embedded, a brush roller in which a plurality of types of piles having different fiber lengths are uniformly planted is realized. Various fibers can be used as the material of the pile to be planted. For example, nylon (various nylons such as 6, 66, 12), vinylon (polyvinyl alcohol) fiber, vinyl chloride fiber, vinylidene chloride fiber, polyurethane fiber , Polypropylene fibers, various polyethylene fibers, fluororesin (PTFE, FEP, PFA, ETFE) fibers, polyester fibers such as PEN, PET, synthetic fibers such as acrylic fibers, aramid fibers, polyimide fibers, rayon fibers and cupra fibers One type or a plurality of types of fibers selected from regenerated fibers, acetate fibers, animal fibers such as silk and wool, and plant fibers such as cotton and hemp can be used. Therefore, a brush roller in which fibers of the same material and different fiber lengths are implanted, or a brush roller in which fibers of different materials and different fiber lengths are implanted is realized.

  When the brush roller electrostatically implanted so that a plurality of types of piles having different fiber lengths are mixed is used as a cleaning roller for a photosensitive drum as an example, the following effects can be achieved. That is, a pile having a long fiber length mainly contacts the surface of the photosensitive drum as a member to be cleaned, and the pile having a short fiber length serves to reinforce the root of the first pile having a long fiber length. As a result, the first pile that performs the cleaning action is prevented from falling, and a cleaning roller with improved durability is realized. Further, the problem that foreign matter such as toner and paper dust is accumulated at the base of the pile is also solved. In addition, the pile with a short fiber length also functions as a spacer that defines the interval between the photosensitive drum and the cleaning performance different from the pile with a long fiber length when in contact with the photosensitive drum. In addition to eliminating the problem of damaging or abrasion, the cleaning performance of piles with different fiber lengths can be combined to provide better cleaning performance.

A cleaning device according to the present invention includes a brush roller that is rotatably arranged and covered with a pile of electrostatic flocking, and a drive device that rotates the brush roller, and rotates the surface of a member to be cleaned. A cleaning device for cleaning with a roller,
The brush roller includes a first type pile having a first fiber length and a first rigidity, a second fiber length shorter than the first fiber length, and a second rigidity having a rigidity higher than the first rigidity. Covered with kind of pile,
The distance from the center of the brush roller to the surface of the member to be cleaned is set to be shorter than the distance from the center of the brush roller to the tip of the first type pile and the distance to the tip of the second type pile. It is characterized by.

  The cleaning performance and the nip amount will be described in detail with respect to a cleaning device using a brush roller in which a plurality of types of piles having different fiber lengths are planted as a cleaning roller. To the surface of the object to be cleaned, such as a photosensitive drum, a plurality of types of foreign matters such as toner, toner external additive, paper powder, ozone product, etc., adhere to each other. There are cases where the surface of the object adheres weakly or strongly. Therefore, the cleaning roller is required to have both the action of softly wiping the surface of the object to be cleaned and the action of scraping off the foreign matter adhering to the cleaning surface. In response to this requirement, it is assumed that a brush roller using a pile fabric woven so that a flexible pile and a hard pile are mixed is used. However, because the pile fabric has the same fiber length due to the characteristics of the manufacturing process, the nip amount of hard and soft piles is the same, and it is impossible to make the nip amount different for each pile. In reality, a brush roller having both the wiping effect and the scraping effect cannot be realized. On the other hand, since the fiber length of the brush roller of the present invention is different for each type of pile, for example, by increasing the fiber length of the flexible pile and shortening the fiber length of the rigid pile with high rigidity, The nip amount of the flexible pile is set to be large, and the nip amount of the pile having high rigidity is set to be small. As a result, a wiping effect by a pile having a soft and long fiber length can be obtained, and at the same time, both a scraping effect using a tip edge portion of a pile having a short and short fiber length can be achieved.

  As an example, two types of piles, a relatively soft nylon fiber (for example, 4 dtex) and a relatively stiff (hard) polyester fiber (for example, 6 dtex), are used. The distance between the photosensitive drum surface and the cleaning roller is set so that the fiber length of the fiber is 3 mm, the nylon fiber nip amount is 1.5 mm, and the polyester fiber nip amount is 0.5 mm. When rotated, nylon fibers mainly contact the surface of the photosensitive drum with the pile belly, so that the wipe effect is exerted on the surface of the photosensitive drum. Polyester fibers mainly contact the photosensitive drum surface with the leading edge. The scraping effect works. As a result, a brush roller that effectively exhibits both the wiping effect and the scraping effect is realized, and a cleaning device effective for various foreign matters having different adhesion strengths is realized.

  According to the present invention, once a pile having a long fiber length is electrostatically implanted, a pile having various characteristics having a short fiber length can be electrostatically implanted. For the first pile having the first fiber length initially electrostatically implanted, the pile is made of the same material or different material and has different fiber diameters, piles having different mechanical properties such as rigidity, and electrical properties. It is possible to plant piles of various properties such as different piles. Below, the various characteristics of the brush roller of this invention are demonstrated.

  The brush roller according to the present invention is a brush roller in which an outer peripheral surface of a shaft is covered with a pile in which electrostatic flocking is performed, and is shorter than the first pile having the first fiber length and the first fiber length. Two types of piles with a second pile having a second fiber length are planted, and the thickness of the second pile is equal to or greater than the thickness of the first pile. To do. When a pile having a short fiber length and a large fiber diameter is used as the second pile, the base of the pile having a long fiber length is further reinforced, and a cleaning roller that is less likely to fall down and has improved durability is realized.

  If the first and second piles are made of fibers having different mechanical or electrical characteristics, brush rollers for various applications can be realized. For example, by using fibers having different rigidity, a brush roller that is extremely suitable as a lubricant supply roller for supplying a solid lubricant to the photosensitive drum is realized. In other words, the second pile with a short fiber length and high rigidity provides the action of scraping off the solid lubricant, and the fine powder lubricant is applied to the surface of the photosensitive drum with a soft and long pile with a long fiber length and low rigidity. Therefore, the lubricant can be supplied stably without damaging the photosensitive drum. In particular, a pile with a short fiber length and high rigidity also serves as a spacer for regulating the distance between the brush roller and the photosensitive drum, so that a predetermined amount of lubricant can be stably supplied to the photosensitive drum. Become. For example, polyester fiber, acrylic fiber or polyimide fiber is used as the highly rigid pile, and nylon fiber, rayon fiber or acetate fiber is used as the pile having low rigidity and high flexibility. The first and second piles are made of the same type of fiber, and a fiber having a large fiber diameter is used as the second pile, so that the first pile with a long fiber length and a flexible fiber with a short fiber length and rigidity are used. A brush roller in which the high second pile is implanted is realized.

  A preferred embodiment of the brush roller according to the invention is characterized in that the first and second piles are both made of conductive fibers. If the pile is made of conductive fibers, it can be used as a toner supply roller of a developing device. When applied to a toner supply roller, a pile having a short fiber length is embedded in the root of a pile having a long fiber length, so that a problem that toner accumulates at the root of the toner supply roller is suppressed.

The lubricant supply device according to the present invention is a lubricant supply device that supplies a powdery lubricant to the surface of the rotating member or the traveling member.
The outer peripheral surface is covered with a pile of electrostatic flocking, the solid lubricant is scraped off by the pile and supplied to the surface of the rotating member or the traveling member, and the solid lubricant is pressed against the brush roller. Pressing means for
The brush roller includes a first type pile having a first fiber length and a first rigidity, a second fiber length shorter than the first fiber length, and a second rigidity having a rigidity higher than the first rigidity. Covered with kind of pile,
The distance from the center of the brush roller to the surface of the rotating member or the traveling member is shorter than the distance from the center of the brush roller to the tip of the first type pile, and the tip of the second type pile from the center of the brush roller. It is set so that it may become longer than the distance to.

  In the lubricant supply device according to the present invention, both the flexible first pile of the brush roller and the highly rigid second pile come into contact with the solid lubricant, and the photosensitive drum, the transfer roller, and the transfer belt. Or the intermediate transfer belt or the like is in contact with only the first type pile that is flexible, so that the solid lubricant is scraped off by the second type of highly rigid pile, and the shaved lubricant is soft and the fiber length Is supplied to the surface of the photosensitive drum by the long first pile. As a result, an appropriate amount of lubricant can be stably supplied to the photosensitive drum, transfer roller, transfer belt, intermediate transfer belt, and the like. The lubricant supply device according to the present invention is applied not only to the photosensitive drum, the transfer roller, or the transfer belt but also to the case where the lubricant is supplied to various rotating members and traveling members that need to reduce the frictional force. .

The electrostatic flocking method according to the present invention is an electrostatic flocking method for flocking a plurality of types of piles having different fiber lengths on the surface of a workpiece,
Apply adhesive to the work to be planted,
The invention is characterized in that electrostatic flocking is sequentially performed on piles having different fiber lengths in the order of increasing fiber lengths on a workpiece coated with an adhesive.

  As the workpiece, a fabric such as a base fabric or a roller can be used. Further, as piles to be electrostatically implanted, piles of the same or different kinds of fibers, piles of various fiber lengths or various mechanical characteristics and electrical characteristics can be used. It is also possible to electrostatically implant multiple types of piles having different fiber lengths by sequentially electrostatically implanting multiple types of piles such as 3 or 4 types having different fiber lengths.

The method of manufacturing a brush roller according to the present invention is a method of manufacturing a brush roller in which two types of piles having different fiber lengths are planted on the outer peripheral surface of the roller,
The first and second electrostatic flocking devices are arranged along the conveying direction of the roller to be flocked, and the first and second electrostatic flocking devices are rotated while rotating the roller coated with the adhesive on the outer peripheral surface. Are passed sequentially,
In the first electrostatic flocking device, a first flocking step of electrostatic flocking a first pile having a first fiber length on an outer peripheral surface of a roller to which an adhesive is applied;
In the second electrostatic flocking apparatus, a second flocking step of electrostatically flocking a second pile having a second fiber length shorter than the first fiber length on a roller in which the first pile is flocked It is characterized by comprising.

  In the brush roller according to the present invention, since a plurality of types of piles having different fiber lengths are electrostatically implanted, the root of the roller is mechanically reinforced, and a brush roller with improved durability is realized. Furthermore, the brush roller of various uses is implement | achieved by differing the material of a pile to be electrostatically flocked, mechanical characteristics, or an electrical characteristic.

  FIG. 1 is a diagram showing an example of a brush roller according to the present invention. The brush roller of FIG. 1A has a shaft 1 made of metal, and two types of piles 2 having different fiber lengths are directly planted on the outer peripheral surface of the shaft 1 by electrostatic flocking. The first type of pile has a first fiber length, and the second pile has a second fiber length that is shorter than the first fiber length. Moreover, regarding the thickness of the fiber, the second pile is a fiber thicker than the first pile. Accordingly, the two types of piles, the first pile of thin and long fibers and the second pile of thick and short fibers, are implanted substantially uniformly. The brush roller shown in FIG. 1B uses a tape-like base cloth 3 in which two types of piles having different fiber lengths are electrostatically implanted, and the base cloth is wound around the outer peripheral surface of the shaft 1 to form a brush roller. is there. In addition, regarding the kind of fiber, both the 1st and 2nd pile may be comprised with the same kind of fiber, or it is also possible to comprise with a different kind of fiber. Of course, the first and second piles may have the same fiber diameter with respect to the fiber thickness. Alternatively, as the second pile, it is possible to use a fiber that is thinner than the fiber diameter of the first pile.

  The brush roller according to the present invention is characterized in that a plurality of types of piles having different fiber lengths are uniformly planted, and a brush roller having a specific technical effect is realized by appropriately combining various types of piles. . The combination of piles to be electrostatically implanted is described below as an example.

[Pile length]
A brush roller in which two types of piles of the same material and different fiber lengths are planted on the outer peripheral surface of the shaft.
When the first pile having a long fiber length is electrostatically flocked, and then the second pile having a short fiber length is electrostatically flocked with the same fiber material, the second pile having a short fiber length becomes the first pile having a long fiber length. The hair is implanted so as to embed between the piles. As a result, a brush roller in which a pile having a long fiber length and a pile having a short fiber length are implanted substantially uniformly is realized. Since the second pile having a short fiber length acts to reinforce the vicinity of the root of the first pile having a long fiber length, the second pile is used as a cleaning roller for cleaning the surfaces of various rollers and transfer belts, and the surface of the photosensitive drum. When used as a fur brush for cleaning, a brush that is prevented from falling down and improved in durability is realized. Further, the problem that toner, paper powder, etc. are accumulated at the base of the pile is solved.

[Pile thickness]
A brush roller in which a first pile having a long fiber length and a second pile having a short fiber length and a large fiber diameter are planted.
A brush in which the root of a pile having a long fiber length is further reinforced by electrostatically flocking a second pile having a short fiber length and a large fiber diameter after electrostatic flocking the first pile having a long fiber length Roller is realized. The brush roller is also suitable as a lubricant supply roller that supplies a fine powder to the photosensitive drum surface while scraping off the solid lubricant.

[Pile material]
It consists fibers of the same kind or different, a brush roller in which a plurality of types of pile fiber length is different is flocked.
As the pile used, various fibers such as nylon fiber, rayon fiber, acrylic fiber, polyester fiber, polypropylene fiber, polyimide fiber and aramid fiber are used, and an appropriate fiber material is selected according to the use of the brush roller. .

[Pile stiffness]
A brush roller in which piles having different fiber lengths and different fiber stiffnesses are planted.
By embedding electrostatically so that a pile with a long fiber length and high flexibility and a pile with a short fiber length and a high rigidity can be mixed, the root of the pile with a long fiber length can be reinforced more strongly. Further improvement. It should be noted that the piles of different types of piles having different rigidity can be planted by planting piles having the same material and the same fiber diameter but different fiber lengths. In addition, a brush roller in which piles having different stiffnesses are also planted by planting a plurality of types of piles having different fiber stiffnesses. Since the pile with short fiber length and high rigidity also functions as a spacer, the surface of the member to be cleaned is cleaned with a highly flexible pile while maintaining the distance between the cleaning roller and the photosensitive drum or transfer belt. It becomes possible to do.
Also, when used as a lubricant supply roller, the solid lubricant is scraped off by a pile having a short fiber length and high rigidity, and the scraped lubricant is applied to the surface of the photosensitive drum by a pile having a long fiber length and high flexibility. Therefore, a predetermined amount of lubricant can be stably applied to the photosensitive drum.
Furthermore, when used as a cleaning roller, both the wiping effect of a pile with a long fiber length and flexibility and the scraping effect of a pile with a short fiber length and high rigidity are exhibited, and foreign substances of different adhesion strength are removed. It becomes possible to do.

[Electrical characteristics of pile]
A brush roller in which piles of conductive piles having different fiber lengths are planted.
By using conductive fibers imparted with conductivity by a conductive substance such as carbon at the raw yarn stage as a pile, a conductive brush roller in which piles having different fiber lengths are mixed is realized. The conductive brush roller is used as a toner supply roller of the developing device. In addition, a brush roller suitable as a brush charging roller is realized by electrostatically flocking a plurality of types of conductive fibers having different conductivity or resistance values. Further, of the two types of piles, one pile can be electrically conductive and the other pile can be electrically insulating.

FIG. 2 is a view showing an example of an electrophotographic image forming apparatus having a brush roller according to the present invention. The photosensitive drum 10 is charged to a predetermined surface potential by the charging device 11. Next, the photosensitive drum is exposed with image light at an exposure position to form an electrostatic latent image. The electrostatic latent image is developed by the developing device 12, and a toner image is formed on the photosensitive drum. The toner image moves to the transfer position and is transferred by the belt transfer device 13 onto the recording paper 14 that is conveyed synchronously. After the transfer, the photosensitive drum is neutralized by the eraser 15. Thereafter, a lubricant such as zinc stearate is applied by the lubricant supply device 16. Thereafter, the cleaning device 17 performs blade cleaning to remove residual toner. Further, the cleaning is performed by the photosensitive drum cleaning roller 18 to complete one cycle. As for the arrangement relationship between the lubricant supply device 16 and the cleaning device 17, it is possible to arrange the lubricant supply device 16 after the cleaning device 17.
Below, the usage example of the brush roller by this invention is demonstrated.

  First, the case where the brush roller according to the present invention is used as a cleaning roller for a charging roller will be described. The charging device 11 has a charging roller 20 connected to a bias source. The charging roller 20 is driven to rotate or forcibly driven with respect to the photosensitive drum 10, and in the meantime, the photosensitive drum 10 is charged to a predetermined surface potential by corona discharge. The surface of the photosensitive drum 10 is cleaned by the cleaning device 17, but toner or external additives that have not been wiped off remain, and the residual toner may adhere to the surface of the charging roller 20 and cause filming. There is. Therefore, the brush roller according to the present invention is disposed as the cleaning roller 21. The cleaning roller 21 is disposed so as to rotate following the charging roller 20. As described above, the residual toner, the external additive, and the like are prevented from adhering to the surface of the charging roller only by arranging the brush roller according to the present invention so as to be rotatable in contact with the charging roller. The cleaning roller 21 uses a brush roller in which a pile having a low rigidity and a long fiber length and a pile having a high rigidity and a short fiber length are mixed. Therefore, a wiping effect by a pile having a long fiber length and a scraping effect by a pile having a short fiber length are obtained, and an effective cleaning effect is achieved for foreign substances having different adhesion strengths.

  Next, the cleaning action of the photosensitive drum cleaning roller 18 will be described. In this example, the cleaning roller 18 uses a brush roller in which a first type pile having a long fiber length and a second type pile having a short fiber length and high rigidity are planted. Further, the distance between the cleaning roller 18 and the photosensitive drum surface is shorter than the distance from the center of the cleaning roller to the tip of the first type pile having a long fiber length and the second type pile having a short fiber length. Set as follows. By setting the distance between the cleaning roller and the photosensitive drum in this way, a pile having a long fiber length mainly serves to wipe off foreign matter present on the surface of the photosensitive drum because the antinode of the pile is in contact with the surface of the photosensitive drum. The second type of pile having a short fiber length mainly exerts an effect of scraping off foreign matter adhering relatively firmly to the surface of the photosensitive drum because the edge portion at the tip is in contact with the surface of the photosensitive drum. As a result, it is possible to remove foreign substances having various properties attached to the surface of the photosensitive drum only by using a single cleaning roller.

  In this example, a method of charging the photosensitive drum to a predetermined surface potential using a charging roller connected to a bias source is used. However, a conductive brush roller according to the present invention can also be used as a charging roller. When used as a charging brush roller, a charging brush roller is obtained by applying a conductive adhesive to a metal shaft and electrostatically flocking a conductive pile. At this time, by appropriately setting the conductivity of the piles having different fiber lengths, the photosensitive drum can be stably charged to a desired surface potential. In particular, since hair fall is prevented, a stable and durable charging brush roller is realized.

  The brush roller according to the present invention can also be used as a toner supply roller in the developing device 12. That is, by configuring the brush roller pile according to the present invention with a conductive pile, a toner supply roller capable of stably supplying a predetermined amount of toner to the photosensitive drum at all times is realized. In this case, the use of a brush roller in which two types of conductive piles having different fiber lengths are planted eliminates the problem of forming a toner reservoir and the like, and toner can be supplied stably.

  The brush roller according to the present invention can also be applied as a cleaning roller to the belt transfer device 13. Since the paper dust and toner adhere to the surface of the transfer belt 22 and are contaminated, the cleaning roller 23 is rotatably arranged so as to be pressed against the transfer belt 22 in order to remove the paper dust and toner. Prevents powder and the like from remaining. In this case, if a brush roller in which two types of piles, that is, a pile having a long fiber length and a low rigidity and a pile having a short fiber length and a high rigidity is used as the cleaning roller 23, a pile having a short fiber length has a fiber length. Since the root of the long pile is reinforced, the cleaning roller is prevented from falling down, and the durability of the cleaning roller is significantly improved. Further, both the wiping effect and the scraping effect are exhibited, and good cleaning performance is exhibited for both foreign matters having low adhesion strength and foreign matters having high adhesion strength. Further, the cleaning rollers 24 and 25 are arranged so as to be pressed against the driving roller and the driven roller of the belt transfer device, and accumulation of paper dust and toner on these rollers is prevented.

  In the lubricant supply device 16, the brush roller according to the present invention can be used as the lubricant supply roller. Conventional lubricant supply rollers employ a configuration in which a roller in which a single type of pile is planted is used as a lubricant supply roller, and a solid lubricant is pressed against the lubricant supply roller using a spring. However, there is a limit in terms of stability in performing the action of scraping off the solid lubricant and the action of applying the lubricant to the photosensitive drum with a single type of brush brush. On the other hand, the brush roller according to the present invention has a mixture of a pile having a long fiber length and a low stiffness and a pile having a short fiber length and a high stiffness. Since the lubricant is applied onto the photosensitive drum by a pile having a low fiber length, it is possible to stably supply the lubricant to the photosensitive drum.

  Next, an embodiment in which the brush roller according to the present invention is applied to a color image forming apparatus will be described. FIG. 3 is a diagram showing an example of a color image forming apparatus according to the present invention. Four image forming units 30 to 33 for forming red, blue, yellow and black images are arranged. Although only the photosensitive drum is illustrated in the drawing, these image forming units include the respective components as the image forming apparatus illustrated in FIG. 2 and form toner images of respective colors. The toner images formed by the image forming units 30 to 33 are superimposed and transferred onto a primary (intermediate) transfer belt 34 that is conveyed synchronously.

  The primary transfer belt 34 is stretched around four belt transport rollers 35 to 38 and one tension roller 39, and travels in synchronization with the toner image formation timing of each image forming unit. The toner image transferred onto the primary transfer belt 34 is transferred onto the recording paper 41 sent in synchronization by the secondary transfer roller 40, fixed by the heat roll fixing device 42, and discharged. After the transfer, the primary transfer belt 34 is supplied with a lubricant by a lubricant supply device 43, is subjected to blade cleaning by a cleaning device 44 to remove residual toner and paper dust, and further cleaned by a cleaning roller 45 to perform an image forming process. finish.

  The brush roller according to the present invention can be used not only for the image forming units 30 to 33 but also for cleaning each component of the intermediate transfer belt device. For example, the brush roller according to the present invention can be used as the cleaning roller 45 for cleaning the surface of the primary transfer belt 34. In addition, when a large number of copies are made, paper dust or the like adheres to the belt conveyance roller. Therefore, the cleaning rollers 46 and 47 of the present invention are also brought into contact with the driving conveyance roller 35 and the driven conveyance roller 36 to perform the cleaning. It becomes possible to run the transfer belt stably. Further, it is also used as the lubricant supply roller 48 of the lubricant supply device 43. Further, it is used as cleaning rollers 49 and 50 for the heat roller and pressure roller of the heat roll fixing device 42. In addition, since a heat roller and a pressure roller are high temperature, a heat resistant fiber like a polyimide fiber is used as a pile.

  Next, the electrostatic flocking method according to the present invention will be described. FIG. 4 is a diagram showing an example of an electrostatic flocking device for carrying out the electrostatic flocking method according to the present invention. In this example, a pile is electrostatically flocked on a workpiece using two electrostatic flocking devices 60 and 61 arranged so as to be continuous along the movement path of the workpiece. A metal shaft 62 is used as a work, and piles are implanted in two stages on the outer peripheral surface of the shaft to which the adhesive is applied. In this example, as an electrostatic flocking device, an up-down type electrostatic flocking device that supplies piles from below and above the workpiece is used. Various electrostatic flocking devices such as a side method other than the up-down method can be used. The first electrostatic flocking device 60 includes a first pile storage container 63 disposed below the work 62 and a mesh second pile storage container 64 disposed above the work. These pile storage containers store the first type pile having a long fiber length. Mesh-shaped charging electrodes (grid electrodes) 65 and 66 are arranged between the workpiece and the pile storage container, and these charging electrodes are connected to a first bias power supply 67.

  The second electrostatic flocking device 61 has first and second pile storage containers 68 and 69 on the upper side and the lower side of the work 62 to be transferred, respectively. The second pile having a short fiber length is accommodated. Charging electrodes 70 and 71 are arranged below and above the work 62, and these electrodes are connected to the second bias power source 72. The second bias power source 72 is set to a bias voltage higher than that of the first bias power source 67.

The shaft 62 as a workpiece is sequentially transferred while being rotated along the arrow (from the left side to the right side of the paper) by a transfer device (not shown). The workpiece is electrically grounded. The pile in each pile storage container flies by the electrostatic force of the charging electrode, is charged while passing through the charging electrode, and is attached to the shaft by an electric field formed between the grounded shaft. In the present invention, a pile having a long fiber length is planted by the first electrostatic flocking device 60, and then a pile having a short fiber length is flocked by the second electrostatic flocking device 61. In this way, a pile having a long fiber length and a pile having a short fiber length can be uniformly planted. In this example, the electrostatic flocking device installed in two stages was used. Of course, the electrostatic flocking apparatus can be installed in multiple stages, such as three stages and four stages, to uniformly plant a plurality of types of piles. It is.
In addition, by making the charging voltage (grid voltage) of the second electrostatic flocking device higher than the charging voltage of the first electrostatic flocking, the potential gradient formed between the workpiece and the charging electrode is further increased. Moreover, the ratio by which the second pile having a short fiber length is implanted can be further increased.

  Various adhesives such as acrylic adhesives, urethane adhesives, polyester adhesives, and nylon adhesives can be used as adhesives to bond the pile to the work. Selected.

  Next, an example in which the brush roller according to the present invention is applied to a lubricant supply device will be described. FIG. 5 is a diagram showing an example of a lubricant supply device according to the present invention. In this example, a lubricant is supplied to the photosensitive drum 80. A brush roller 81 is rotatably arranged so as to face the photosensitive drum 80, and the brush roller is rotationally driven by a driving device (not shown). A solid lubricant 82 is disposed so as to come into contact with the brush roller 81. The solid lubricant is held by a holding member, and the holding member is pressed against the brush roller 81 by a pressing spring 83 with a predetermined pressing force. The other end of the spring 83 is supported by the support frame 84. In this example, the outer peripheral surface of the brush roller 81 is covered with a first type and pile having a low rigidity and a long fiber length, and a second type pile having a high rigidity and a short fiber length. The distance between the surface of the photosensitive drum 80 and the center of the brush roller 81 is shorter than the distance from the center of the brush roller to the tip of the flexible first type pile, and the second type pile having high rigidity. Set to be longer than the distance to the tip. By setting in this way, the brush roller 81 and the solid lubricant come into contact with both the first and second piles, so the solid lubricant is shaved by the highly rigid pile, and the fiber The first pile having a long length can be supplied to the surface of the photosensitive drum 80. In this case, the second pile having high rigidity does not come into contact with the photosensitive drum, so that a problem such as scratching the surface of the photosensitive drum does not occur.

  The present invention can be modified and changed in various ways limited to the above-described embodiments. For example, in the above-described embodiments, the electrophotographic image forming apparatus has been described as an example. However, the present invention may be applied to a brush roller, a cleaning roller, or a lubricant supply roller used in various image forming apparatuses such as an ink jet printer. Applied.

  Furthermore, the present invention is also applied to various devices and instruments other than the image forming apparatus, and can be used as, for example, a brush roller for a vacuum cleaner. If a brush roller with a long fiber pile and a short fiber pile is used as a brush roller for a vacuum cleaner, the synergistic effect of the long fiber pile and the short pile will provide even better cleaning performance. Is done. The present invention can also be applied to an absorption roller that absorbs liquid such as moisture and various solvents from paper, cloth, belt, etc., and an absorption roller in which piles having different fiber lengths are uniformly planted is used. Thus, an even better absorption effect is achieved.

  In the above-described embodiments, the case where the lubricant is supplied to the photosensitive drum, the transfer roller, or the transfer belt as the lubricant supply device has been described. However, the image forming device as well as various rotating members other than the image forming device and running The present invention can also be applied when supplying a lubricant to a member.

It is a figure which shows an example of the brush roller by this invention. It is a diagram showing an example of an image forming apparatus using a brush roller according to the present invention. 1 is a diagram showing an example of a color image forming apparatus in which a brush roller according to the present invention is used. It is a diagram which shows an example of the electrostatic flocking apparatus for enforcing the electrostatic flocking method by this invention. It is a diagram which shows an example of the lubricant supply apparatus by this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Shaft 2 Pile 3 Tape-shaped base fabric 11 Charging device 12 Developing device 13 Transfer device 14 Recording paper 15 Eraser 16 Lubricant supply device 17 Cleaning device 18, 21, 23, 24, 25 Cleaning roller 20 Charging roller 22 Transfer belt 60 First electrostatic flocking device 61 Second electrostatic flocking device 62 Shaft 63, 64, 68, 69 Pile storage container 65, 66, 70, 71 Charging electrode 67 First bias power supply 72 Second bias power supply 80 Photosensitive Drum 81 Brush roller 82 Solid lubricant 83 Press spring 84 Support frame

Claims (17)

A brush roller in which the outer peripheral surface of the shaft is covered with a pile of electrostatic flocking,
The pile includes a plurality of types of piles having different fiber lengths, and the plurality of types of piles are substantially uniformly planted.   2. The brush roller according to claim 1, wherein the pile is made of fibers of the same material having different fiber lengths, or made of fibers of different materials having different fiber lengths.   The brush roller according to claim 2, wherein the pile includes nylon fiber, vinylon fiber, vinyl chloride fiber, vinylidene chloride fiber, polyurethane fiber, polypropylene fiber, polyethylene fiber, fluororesin fiber, polyester fiber, acrylic fiber, polyaramid fiber, A brush roller comprising one or more kinds of fibers selected from polyimide fibers, rayon fibers, acetate fibers, cupra, silk, wool, cotton, and hemp.   4. The brush roller according to claim 2, wherein the shaft is covered with a first type pile having a first fiber length and a second type pile having a fiber length shorter than the first fiber length. A brush roller, wherein the thickness of the second type pile is equal to or greater than the thickness of the first type pile.   4. The brush roller according to claim 2, wherein the shaft is covered with a first type pile having a first fiber length and a second type pile having a fiber length shorter than the first fiber length. A brush roller, wherein the stiffness of the second type pile is equal to or higher than the stiffness of the first type pile.   The brush roller according to claim 5, wherein the shaft is covered with a first type pile having a first fiber length and a second type pile having a fiber length shorter than the first fiber length, A brush roller characterized in that the first type pile is made of rayon fiber, nylon fiber, or triacetate fiber, and the second type pile is made of polyester fiber, acrylic fiber, or polyimide fiber.   4. The brush roller according to claim 2, wherein the shaft is covered with a first type pile having a first fiber length and a second type pile having a fiber length shorter than the first fiber length. One of the first and second types of piles is composed of electrically conductive fibers, and the other is composed of electrically insulating fibers. Brush roller to do.   4. The brush roller according to claim 2, wherein the shaft is covered with a first type pile having a first fiber length and a second type pile having a fiber length shorter than the first fiber length. A brush roller characterized in that both the first and second types of piles are made of conductive fibers.   The brush roller according to any one of claims 1 to 8, wherein the pile is directly planted on the outer peripheral surface of the shaft by electrostatic flocking.   The brush roller according to any one of claims 1 to 8, wherein the pile is electrostatically flocked to a base cloth, and the base cloth is wound around the outer peripheral surface of the shaft. . An electrostatic flocking method for electrostatic flocking a plurality of types of piles having different fiber lengths on the surface of a workpiece,
Apply adhesive to the work to be planted,
An electrostatic flocking method characterized in that a plurality of types of piles having different fiber lengths are electrostatically flocked to a workpiece coated with an adhesive in the order of increasing fiber length. A method of manufacturing a brush roller in which two types of piles having different fiber lengths are planted on the outer peripheral surface of the roller,
The first and second electrostatic flocking devices are arranged along the conveying direction of the roller to be flocked, and the first and second electrostatic flocking devices are sequentially passed while rotating the roller coated with the adhesive. ,
In the first electrostatic flocking device, a first flocking step of electrostatic flocking a first pile having a first fiber length on an outer peripheral surface of a roller to which an adhesive is applied;
In the second electrostatic flocking apparatus, a second flocking step of electrostatically flocking a second pile having a second fiber length shorter than the first fiber length on a roller in which the first pile is flocked A method of manufacturing a brush roller, comprising:   13. The method of manufacturing a brush roller according to claim 12, wherein electrostatic flocking is performed by setting the charging voltage in the second flocking process higher than the charging voltage in the first flocking process. Production method. A cleaning device that has a brush roller that is rotatably arranged and is covered with a pile of electrostatic flocking, and a driving device that drives the brush roller to rotate, and that cleans the surface of a member to be cleaned with a brush roller that rotates. There,
The brush roller includes a first type pile having a first fiber length and a first rigidity, a second fiber length shorter than the first fiber length, and a second rigidity having a rigidity higher than the first rigidity. Covered with kind of pile,
The distance from the center of the brush roller to the surface of the member to be cleaned is set to be shorter than the distance from the center of the brush roller to the tip of the first type pile and the distance to the tip of the second type pile. A cleaning device. In the lubricant supply device for supplying powdery lubricant to the surface of the rotating member or the traveling member,
The outer peripheral surface is covered with a pile of electrostatic flocking, the solid lubricant is scraped off by the pile and supplied to the surface of the rotating member or the traveling member, and the solid lubricant is pressed against the brush roller. Pressing means for
The brush roller includes a first type pile having a first fiber length and a first rigidity, a second fiber length shorter than the first fiber length, and a second rigidity having a rigidity higher than the first rigidity. Covered with kind of pile,
The distance from the center of the brush roller to the surface of the rotating member or the traveling member is shorter than the distance from the center of the brush roller to the tip of the first type pile, and the tip of the second type pile from the center of the brush roller. It is set so that it may become longer than the distance to, Lubricant supply apparatus characterized by the above-mentioned.   The lubricant supply device according to claim 15, wherein the solid lubricant is in contact with first and second types of piles of the brush roller, and the rotating member or the traveling member is of the first type of brush roller. A lubricant supply device configured to be in contact with only a pile and not in contact with a second type of pile. 17. The lubricant supply apparatus according to claim 15 or 16, wherein the lubricant supply apparatus is used in an image forming apparatus, and is used for an apparatus for supplying a lubricant to a photosensitive drum, or a transfer roller, a transfer belt, or an intermediate transfer belt. A lubricant supply device used as a device for supplying a lubricant.