JP3994587B2 - Developing device, process cartridge, developing device cartridge, and image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a developing device, a process cartridge, and a current cartridge that perform development using a developer that is charged fine particles.imageBelongs to the technical field of an image forming cartridge and an image forming apparatus including any one of them.
[0002]
[Prior art]
  In a developing device that uses toner, which is charged fine particles, as a developer and electrostatically attaches this toner to an electrostatic latent image, the toner leaks from the developing device. If the toner leaks from the developing device, the inside of the image forming apparatus main body equipped with the developing device becomes dirty, resulting in defective printing, and the operator's hand and clothes become dirty when the developing device is replaced. There was a case.
[0003]
  In particular, in the case of non-magnetic one-component development in which a thin layer of toner is formed by a layer thickness regulating blade on a developing roller having a function of carrying toner while carrying it, and the development is performed by facing the electrostatic latent image. Therefore, toner leakage from the periphery of the rotating developing roller tends to occur.
[0004]
  Therefore, conventionally, a toner leakage prevention member is provided inside the developing device to prevent the toner leakage as described above. For example, in order to prevent toner leakage from both ends of the developing roller, a toner leakage preventing member called a side seal is slid on the peripheral surfaces of both ends of the developing roller and around the developing roller. In order to prevent toner leakage from the gap between the developing roller formed below and the opening of the toner container, a toner leakage preventing member called a lower film is rubbed against the developing roller below the developing roller. . Further, in order to prevent toner leakage from a gap between the developing roller formed above the developing roller and the opening of the toner container, the layer thickness regulating blade is pressed against the developing roller to thereby reduce the layer thickness. The regulating blade has a function as a toner leakage preventing member.
[0005]
  The side seal has a structure in which a sliding member made of Teflon felt is attached to urethane sponge. Urethane sponges are required to be sufficiently soft and have little compression set. The Teflon felt is used for ensuring both pressing force and reducing rotational torque.
[0006]
  As the lower film, a PET (polyethylene terephthalate) sheet, urethane rubber, or the like is used. Urethane rubber can be expected to be softly pressed, but since it has no waist, it must be pressed from the back with a sponge or the like. Since the PET sheet is harder than the urethane rubber film, there is no need to press it with a sponge or the like from the back, and there is an advantage that the assembly work is easier than the urethane rubber film.
[0007]
  However, in the case where the side seal and the lower film as described above are used, there is a problem that if the side seal is rubbed against the peripheral surface of the developing roller, the toner easily leaks at the joint portion between the lower film and the side seal. there were.
[0008]
  For example, if the length of the lower film is set to such a length that the lower film does not overlap the side seal, the toner leaks from the gap between the lower film and the side seal.
[0009]
  Also, if both ends of the lower film extend outward from both ends of the side seal and the developing roller is placed in contact with both the lower film and the side seal, the lower film is placed on the side seal. A minute gap corresponding to the thickness is generated, and the toner may leak from the gap.
[0010]
  In particular, when a polymerized toner having excellent fluidity is used as the toner, toner leakage may easily occur even in such a small gap.
[0011]
  In view of this, it has been considered that the length of the lower film is such that both end portions of the lower film are located near the center of the sliding portion of the side seal.
[0012]
  With such a configuration, the gap corresponding to the thickness of the lower film that has occurred in the portion where the lower film rides on the side seal is interrupted in the middle of the side seal, and as a result, even when polymerized toner is used. The toner leakage was almost prevented.
[0013]
[Problems to be solved by the invention]
  However, the side seal is configured to be pressed against the developing roller by being crushed by the developing roller when the developing roller is attached, and has a thickness in consideration of the amount of smashing in advance. Yes. However, if this crushing amount is set too large, the pressing force of the side seal against the developing roller becomes too high, and the rotational torque of the developing roller is increased. Therefore, when the side seal is crushed by an appropriate amount by the developing roller, the side seal attachment portion is lower than the lower seal attachment portion in advance so that the height of the side seal surface is equal to the height of the lower seal attachment portion.TheA step is provided so as to be.
[0014]
  In such a configuration, when the side seal is crushed by the developing roller, the surface height of the side seal coincides with the height of the mounting portion of the lower seal while rubbing against the side wall surface forming the step. Become. Further, since the side seal vibrates slightly with the rotation of the developing roller, the friction between the side wall surface and the side surface of the side seal is small even during the developing operation. .
[0015]
  Therefore, the side surface of the side seal and the side wall surface cannot be bonded with a double-sided tape or the like. In addition, the rubbing portion between the side wall surface and the side seal side surface is an interface between the resin and the sponge, and as described above, the sponge rubs against the resin surface or vibrates slightly. In this case, the adhesion at this interface is extremely low. As a result, when a polymerized toner having extremely high fluidity is used as the developer, the toner easily leaks from the interface between the resin and the sponge.
[0016]
  In addition, since both sides of the lower film located near the center of the sliding portion of the side seal are not crushed before the developing roller is attached, the lower film is rubbed with the mounting surface of the lower film. It is deformed to bend upward by a difference in height from the surface of the part.
[0017]
  When the developing roller is attached in such a state, the side seal is crushed, and accordingly both ends of the lower film deformed upward are crushed following the side seal. As a result, there has been a problem that the adhesion portion of the lower film is displaced, or the lower film is deformed to lower the toner sealability.
[0018]
  Accordingly, the present invention provides a developing device, a process cartridge, a developing device cartridge, and an image forming apparatus that can solve such problems and reliably prevent toner leakage from the joint portion between the lower film and the side seal. The issue is to provide.
[0019]
[Means for Solving the Problems]
  In order to solve the above-described problem, the developing device according to claim 1 has a developer carrying member rotatably disposed in an opening of a developer housing that contains the developer, and is formed on the developer carrying member. A developing device for forming a visible image by causing a thin layer of the developer to face an electrostatic latent image, near both ends in the longitudinal direction of the opening of the developing device housing. Both ends developer leakage prevention member provided to rub against the peripheral surface;Provided at the lower end of the opening of the developing device housing, extending in the longitudinal direction of the opening,The peripheral surface of the developer carrierOneRub likeUnderAn end developer leakage prevention member is provided, and the developer housing is provided withA lower end mounting surface to which the lower end developer leakage preventing member is bonded and attached, a position on the outer side in the longitudinal direction of the opening of the developer housing relative to the lower end mounting surface, and from the lower end mounting surface Is also installed at a low position,Both end mounting surfaces for adhesively mounting the developer leak preventing members at both endsWhen,By providing the both end mounting surfaces at a position lower than the lower end mounting surface, an end surface formed between the both end mounting surfaces and the lower end mounting surface,Formed,The both end developer leakage preventing members are provided on the both end mounting surfaces such that side end surfaces of the both end developer leakage preventing members are in contact with the end surfaces,The lower end portion between the lower end developer leakage preventing member and the lower end mounting surface, so that at least a part of the side end surface is in contact with a part of the side end surface of the both end developer leak preventing member. MountingOn the face, Install a developer leakage prevention member on the boundary of the mounting surface made of foamed elastic material.The lower end developer leakage prevention member is attached so that the attachment surface boundary portion developer leakage prevention member is wedge-shaped while being sandwiched between the lower end developer leakage prevention member and the lower end attachment surface. BeingIt is characterized by that.
[0020]
  According to the developing device of claim 1, the both end mounting surfaces of the both end developer leakage preventing members in the developing device casing are at both end portions than the lower end mounting surfaces to which the lower end developer leakage preventing member is attached. The developer leakage prevention member is formed at a position recessed in the thickness direction. The both end developer leakage preventing members are provided so as to slide on the peripheral surfaces of both ends of the developer carrier, so that when the developer carrier is mounted, it is pressed by the developer carrier, The side end surfaces of the both-end developer leakage preventing members rub against the wall surface of the developer housing at the boundary position between the both-end mounting surfaces and the lower-end mounting surface. When the developer carrying member is driven to rotate, the developer leakage prevention members at both ends also vibrate slightly along with this, and the side end surfaces rub against the wall surface of the developer housing while vibrating. However, an attachment surface boundary portion developer leakage prevention member made of a foamed elastic body is provided at the boundary position, and at least a part of the side end surface of the attachment surface boundary portion developer leakage prevention member is developed at both ends. It is attached so as to be in contact with a part of the side end face of the agent leakage prevention member. Therefore, at the place where the contact is made, the side end surface of the developer leakage preventing member at both ends is not the wall surface of the developing device housing, but the side end surface of the mounting surface boundary portion developer leakage preventing member made of a foamed elastic body. Therefore, even if the vibration described above occurs, good adhesion is maintained and developer leakage is surely prevented.
  According to the developing device of claim 1, the attachment surface boundary developer leakage prevention member is attached to the lower end attachment surface, and further, the lower end developer on the attachment surface boundary developer leakage prevention member. A leakage prevention member is attached, and the attachment surface boundary portion developer leakage prevention member is sandwiched between the lower end portion attachment surface and the lower end portion developer leakage prevention member.
Further, the attachment surface boundary portion developer leakage prevention member at this time is sandwiched so as to have a wedge shape. As a result, the mounting surface boundary portion developer leakage prevention member made of the foamed elastic body is elastically compressed and deformed, but the mounting surface boundary portion developer leakage prevention member has a wedge shape. In addition to the mounting surface of the mounting surface boundary portion developer leakage prevention member with respect to the lower end portion mounting surface and the mounting surface with respect to the lower end portion developer leakage prevention member, there is a surface that contacts other members. Will not. Therefore, even when the attachment surface boundary portion developer leakage preventing member slightly vibrates with the rotation of the developer carrying member, the leakage of the developer from the surface in contact with the other member is surely prevented.
[0021]
  The developing device according to claim 2 is the developing device according to claim 1, wherein the attachment surface boundary portion developer leakage preventing member includes the lower end developer leakage preventing member and the lower end portion. It is characterized by being attached to both of the mounting surfaces by bonding.
[0022]
  According to the developing device of claim 2, the attachment surface boundary portion developer leakage prevention member is adhered not only to the lower end portion attachment surface side but also to the lower end portion developer leakage prevention member. It will be. Accordingly, through the interface between the lower end developer leakage preventing member and the mounting surface boundary developer leakage preventing member, the wall surface of the developer housing at the boundary position between the both end mounting surfaces and the lower end mounting surface, and the both ends This reliably prevents the developer from reaching between the side end surfaces of the partial developer leakage prevention member and reliably prevents the developer leakage from the portion.
[0023]
  In order to solve the above-mentioned problems, the developing device according to claim 3 is the developing device according to claim 1 or 2, wherein both end portions in the longitudinal direction of the lower end developer leakage preventing member are at the both end portion developer leakage preventing. It is provided at a position between the member and the developer carrier.
[0024]
  According to a third aspect of the present invention, both ends in the longitudinal direction of the lower end developer leakage preventing member are provided on the both end developer leakage preventing members so as to overlap the both end developer leakage preventing members. Further, the developer carrier is mounted on the both-end developer leak preventing member and the lower end developer leak preventing member which overlap in this way. Accordingly, both ends in the longitudinal direction of the lower end developer leakage preventing member are provided at positions sandwiched between the developer carrying member and the both end developer leakage preventing members. As a result, both end portions in the longitudinal direction are in good contact with the peripheral surface of the developer carrying member, and developer leakage from the interface between the both end portions in the longitudinal direction and the developer leakage preventing members on both ends is ensured. To prevent.
[0025]
[0026]
[0027]
  Claim4In order to solve the above-mentioned problems, the developing device according to any one of claims 1 to3The developing device according to any one of the above, wherein the developer is a polymerized toner produced by a polymerization method.
[0028]
  Claim4According to the developing device described above, since the developer leakage from the boundary position is reliably prevented as described above, there is no developer leakage even when a polymerized toner prepared by a polymerization method is used as the developer. A high-definition developing operation is performed.
[0029]
  Claim5In order to solve the above-mentioned problems, the developing device according to any one of claims 1 to4In the developing device according to any one of the above, the developer carrying member is an elastic roller having an elastic layer formed on a rotation shaft.
[0030]
  Claim5According to the developing device described above, since the elastic roller having an elastic layer formed on the rotating shaft is used as the developer carrying member, the both-end developer leakage preventing member or the lower end developer as described above. Since the leakage prevention member or the mounting surface boundary developer leakage prevention member is elastically contacted or pressed, even when rotating, the adhesiveness with these members is maintained and developer leakage is reliably prevented.
  The developing device according to claim 6, in order to solve the problem, in the developing device according to claim 1, the lower end portion mounting surface adheres the lower end portion developer leakage prevention member. An adhesive surface, and an attachment surface that is formed continuously with the adhesive surface and to which the attachment surface boundary portion developer leakage prevention member is attached. The adhesive surface and the attachment surface are formed at an angle. It is characterized by that.
  The developing device according to claim 7 is the developing device according to any one of claims 1 to 6, wherein the lower end developer leakage preventing member is provided at the opening of the developing device housing. Along the longitudinal direction, an adhesive portion bonded to the lower end attachment surface, and a downstream side in the rotation direction of the developer carrier with respect to the adhesive portion, the longitudinal direction of the developer carrier is provided. A free end portion that uniformly rubs the peripheral surface of the developer carrier, and the attachment surface boundary portion of the developer leakage preventing member provided between the adhesive portion and the free end portion. And a clamping part that is clamped by the part mounting surface.
[0031]
[0032]
[0033]
[0034]
[0035]
  Claim8In order to solve the above-described problem, the process cartridge described above is a process cartridge formed to be detachable from an image forming apparatus, and the electrostatic latent image carrier;7The developing device according to any one of the above is provided.
[0036]
  Claim8According to the process cartridge described above, the electrostatic latent image carrier, and7Therefore, the developer does not leak even when it is detached from the image forming apparatus or attached to the image forming apparatus.
[0037]
  Claim9In order to solve the above problems, the developing device cartridge according to claim 1 is provided.7The developing device according to any one of the above is formed detachably with respect to the image forming apparatus or the process cartridge.
[0038]
  Claim9According to the developing device cartridge described in claim 1,7Therefore, even when the developing device is removed from or attached to the image forming apparatus or the process cartridge, the developer does not leak.
[0039]
  Claim10In order to solve the above-described problem, the image forming apparatus according to any one of claims 1 to 3 is provided.7The developing device according to claim 1 or claim.8The process cartridge or the claim9The developing device cartridge described above is provided.
[0040]
  Claim10According to the image forming apparatus described in claim 1,7The developing device according to claim 1 or claim.8The process cartridge or the claim9Since the developing device cartridge described above is provided, there is no leakage of the developer from these developing devices, process cartridges or developing device cartridges, and good image formation is performed.
[0041]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. First, an overview of the entire image forming apparatus in the present embodiment will be described.
[0042]
  (Overview of the entire image forming apparatus)
  FIG. 1 is a cross-sectional view showing a schematic configuration of a laser beam printer 1 as an embodiment of an image forming apparatus of the present invention. In FIG. 1, the laser beam printer 1 includes a feeder unit that feeds paper (not shown) at the bottom of a main body case 2. The feeder unit includes a paper pressing plate 10 that is pressed by a spring (not shown), a paper feeding roller 11, and a friction separating member 14. The paper pressing plate 10 presses the paper against the paper feeding roller 11, and the paper feeding roller 11. , The uppermost sheet is separated between the sheet feeding roller 11 and the friction separating member 14 and the sheet is supplied at a predetermined timing.
[0043]
  A pair of registration rollers 12 and 13 are pivotally supported on the downstream side in the paper transport direction by the rotation of the paper feed roller 11 rotating in the direction of the arrow in FIG. The sheet is conveyed at a predetermined timing to the transfer position formed by.
[0044]
  The photosensitive drum 20 is made of a positively chargeable material such as a positively chargeable polycarbonate.-It consists of an organic photoreceptor mainly composed of copper. Specifically, the photosensitive drum 20 is a light having a predetermined thickness (for example, about 20 μm) in which a photoconductive resin is dispersed in polycarbonate on the outer periphery of a cylindrical cylindrical sleeve made of aluminum, for example. A hollow drum having a conductive layer is formed, and is pivotally supported by the main body case 2 in a state where the cylindrical sleeve is grounded. Further, the photosensitive drum 20 is rotationally driven in the direction of the arrow by a driving unit (not shown).
[0045]
  The charger 30 is composed of, for example, a positively-charged scorotron charger that generates corona discharge from a charging wire made of tungsten or the like.
[0046]
  The laser scanner unit 40 includes a laser generator (not shown) that generates a laser beam L for forming an electrostatic latent image on the photosensitive drum 20, a polygon mirror (pentahedral mirror) 41 that is driven to rotate, and a pair of It includes lenses 42 and 45 and reflecting mirrors 43, 44 and 46.
[0047]
  In the developing device 50, a toner storage chamber 52 as a developer chamber is formed in a case 51 as a developer housing. In the toner storage chamber 52, an agitator 53 and a cleaning member 54 are arranged around a rotation shaft 55. It is provided rotatably. The toner storage chamber 52 stores toner as a positively chargeable nonmagnetic one-component developer having electrical insulation. In addition, light transmission windows 56 are provided on the side walls of the toner storage chamber 52 located on both ends of the rotation shaft 55. Further, a developing chamber 57 is formed on the photosensitive drum 20 side of the toner storage chamber 52 through the opening A so as to communicate with the toner storage chamber 52, and the supply roller 58 and the developing roller 59 as a developer carrier rotate. It is pivoted as possible. The toner on the developing roller 59 is regulated to a predetermined layer thickness by a layer thickness regulating blade 64 having a thin plate-like elasticity and used for development.
[0048]
  Here, the developing roller 59 as the developer carrying member has a cylindrical base material formed of conductive silicone rubber containing conductive carbon fine particles on a metal core formed of stainless steel or the like. Furthermore, a coating layer of a fluorine-containing resin or rubber material is formed on the base material. The developing roller 59 does not necessarily have a base material made of conductive silicone rubber, and may be made of conductive urethane rubber.
[0049]
  The toner stored in the toner storage chamber 52 is a positively chargeable non-magnetic one-component developer, and a well-known color such as carbon black is added to a styrene-acrylic resin formed into a spherical shape by a suspension polymerization method. And toner base particles having a particle diameter of 6 μm to 10 μm and an average particle diameter of 8 μm obtained by adding a charge control agent such as nigrosine, triphenylmethane, and quaternary ammonium salt. The toner is constituted by adding silica as an external additive to the surface of the toner base particles.
[0050]
  The transfer roller 21 is rotatably supported, and is composed of a foamed elastic body having conductivity, such as silicone rubber or urethane rubber. The transfer roller 21 is configured to reliably transfer the toner image on the photosensitive drum 20 to a sheet by an applied voltage.
[0051]
  The fixing unit 70 is provided further downstream in the sheet conveyance direction from the registration rollers 12 and 13 to the pressure contact portion between the photosensitive drum 20 and the transfer roller 21, and includes a heating roller 71 and a pressing roller 72. The toner image transferred to the paper is pressed while being heated by the heating roller 71 and the pressure roller 72 and is fixed to the paper.
[0052]
  A pair of transport rollers 73 and a paper discharge roller 74 for paper transport are provided on the downstream side in the transport direction of the fixing unit 70, and a paper discharge tray 75 is provided on the downstream side of the paper discharge rollers 74. .
[0053]
  The photosensitive drum 20, the transfer roller 21, the charger 30, and the developing device 50 described above are accommodated in the process cartridge 2a, and the process cartridge 2a is detachably provided to the laser beam printer 1. Yes. Further, the developing device 50 is detachably provided as a developing device cartridge with respect to the process cartridge 2a (the process cartridge in claim 10).
[0054]
  In the laser beam printer 1 of the present embodiment as described above, when the surface of the photosensitive drum 20 is uniformly charged by the charger 30, and the laser light L modulated according to the image information is emitted from the laser scanner unit 40, An electrostatic latent image is formed on the surface of the photosensitive drum 20. The electrostatic latent image is visualized with toner by the developing device 50, and the visible image formed on the photosensitive drum 20 is conveyed to the transfer position by the photosensitive drum 20. At the transfer position, the paper is supplied via the paper feed roller 11 and the registration rollers 12 and 13, and the visible image is transferred to the paper by the transfer bias applied by the transfer roller 21. The toner remaining on the photosensitive drum 20 after the transfer is collected in the developing chamber 57 by the developing roller 59.
[0055]
  Next, the sheet is conveyed to the fixing unit 70 and is nipped and conveyed by the heating roller 71 and the pressing roller 72 of the fixing unit 70, and the visible image on the sheet is pressed and heated to be fixed on the sheet. Then, the paper is discharged to a paper discharge tray 75 above the laser beam printer 1 by a pair of transport rollers 73 and paper discharge rollers 74, and the image forming operation is completed.
[0056]
  (Seal structure in developing device)
  Next, the seal structure using the developer leakage prevention member in the developing device 50 of the present embodiment will be described together with the attachment procedure of each member with reference to FIGS.
[0057]
  2 (A), 3 (A), 4 (A), 5 (A), 6 (A), 7 (A), 8 (A), 11 (A), and 12 14A is a partially broken perspective view showing a seal portion of the case 51 in the developing device 50. FIG. 2 (B), 3 (C), 4 (C), 5 (B), 6 (C), 7 (B), 8 (C), 11 (B), FIG. 14C is a view showing the seal portion viewed from the direction of the arrow B shown in each of the partially broken perspective views. 3B is a cross-sectional view taken along the line CC of FIG. 3A, FIG. 4B is a diagram showing the seal portion viewed from the direction of arrow A shown in FIG. 4A, and FIG. ) Is a cross-sectional view taken along line FF in FIG. 6A, FIG. 8B is a diagram showing a seal portion viewed from the direction of arrow A shown in FIG. 8A, and FIG. 9 is a stage where an upper seal is attached. 10 is a front view showing the seal portion of the case 51, FIG. 10 is a view showing the seal portion seen from the direction of arrow B shown in FIG. 9, FIG. 13A is a view showing the layer thickness regulating blade from the back side, and FIG. B) is a view of the layer thickness regulating blade seen from the front side, FIG. 13C is a view showing the seal portion seen from the direction of the arrow B in the same manner as FIG. 11B, and FIG. 14B is FIG. 14 (D) is a cross-sectional view taken along the line DD of FIG. 14 (C), and FIG. 15 (A) is a lower film and a periphery of the attachment portion. FIG. 15 (B) is a view showing an adhesion surface of the lower film, FIG. 16 (A) is a partially broken perspective view showing a seal portion of the case 51 on the opposite side to FIG. 14 (A), and FIG. 16 (B) is a view showing the seal portion viewed from the direction of arrow B as shown in FIG. 14 (C), and FIG. FIG. 17B is a diagram showing the pressure contact state, and FIG. 17B is a diagram showing the pressure contact state of the sliding portion between the lower film and the developing roller and the lower side seal in the comparative example.
[0058]
  First, in FIG. 2A, a hatched area is an area in which a seal member described below is attached by a double-sided tape. The side-side seal attachment area 100 along the circumferential direction of the developing roller 59, and the developing roller The lower portion 59 is divided into a lower seal attaching region 101 along the longitudinal direction of the developing roller 59. The side-side seal attachment region 100 and the lower-side seal attachment region 101 are degreased in order to improve the adhesion with the double-sided tape.
[0059]
  The developing roller 59 is arranged so that the end surface portion thereof is close to the side surface portion 51a in the developing roller housing portion of the case 51 shown in FIG. A center point Q shown in FIG. 2B indicates the rotation center axis position of the developing roller 59. Further, the supply roller 58 is attached to a supply roller accommodating portion provided at a rear position of the developing roller accommodating portion, as indicated by a two-dot chain line in FIG.
[0060]
  Next, as shown in FIGS. 3A, 3 </ b> B, and 3 </ b> C, the bottom surface portion 51 b of the developing roller housing portion following the lower seal attachment region 101 is in close contact with the end surface 51 c on the side seal attachment region 100 side. Then, the side edge seal 102 is adhesively attached to the side-side seal attachment region 100 with a double-sided tape. The double-sided tape is affixed to the bottom surface of the side edge seal 102, and the end surface of the side edge seal 102 is pressed against the end surface 51c of the bottom surface portion 51b on the side seal attaching region 100 side to be in close contact therewith. As shown in FIG. 3 (B), the side-side seal attachment region 100 is formed at a position lower than the bottom surface portion 51b in consideration of the thickness of the side seal described later. A step portion having an end surface 51c is formed between the region 100 and the region 100. When the side seal 104 is attached to the side seal attachment region 100 as shown by the dotted line in FIG. 3B, the end face 51c comes into contact with the end face of the side seal 104. Since urethane sponge having a relatively high rigidity is used, the adhesion to the resin forming the case 51 is weakened, and toner enters the contact portion between the end surface 51c and the end surface of the side seal 104, and toner leakage occurs. End up. This intrusion of toner includes not only the toner that travels through the bottom surface portion 51b but also the intrusion from the supply roller housing portion. Therefore, in the present embodiment, the side edge seal 102 formed of a sponge softer than the urethane sponge is brought into close contact with the end surface 51c to reliably prevent such toner from entering.
[0061]
  Next, as shown in FIGS. 4A, 4 </ b> B, and 4 </ b> C, a film 103 for attaching the upper side seal is attached to the case 51 using a double-sided tape. A blade side seal for preventing toner leakage from both ends is attached to the layer thickness regulating blade 64, and an upper side seal for improving adhesion to the blade side seal is provided on the case 51 side. It is attached. The upper side seal is attached so as to be superimposed on the film 103 shown in FIG. 4B, but if there is no film 103, the adhesive region of the upper side seal to the case 51 is hatched in FIG. 4B. It becomes only the area to show and lacks stability. Therefore, in this embodiment, the adhesion region of the upper side seal is secured by attaching the PET film 103 to the case 51.
[0062]
  Next, as shown in FIGS. 5A and 5B, in order to prevent toner leakage from the end portion of the developing roller 59, side seals 104 constituting the base material of the developer leakage preventing member at both ends are provided. Then, it is attached to the side seal attaching region 100 with a double-sided tape. The side seal 104 is formed of urethane sponge (trade name: Polon, manufactured by Roger Sinoac Co., Ltd.) having relatively high rigidity among sponges, and is compressed when the developing roller 59 is attached so as to exert a predetermined pressing force. It has a certain thickness. With such a configuration, it is possible to press the Teflon felt, which is the uppermost layer of the both-end developer leakage prevention member described later, against the developing roller 59 with a predetermined pressing force.
[0063]
  Further, as shown in FIGS. 5A and 5B, the position of the tip of the side seal 104 on the lower end side is as follows: It is a position between the end surface and the adhesive portion. A lower side seal 105, which will be described later, is bonded to a downstream side of the bonding portion in the rotation direction of the developing roller 59, and a lower film 114 is bonded onto the lower side seal 105. Therefore, the position of the tip on the lower end side of the side seal 104 is set to be between the adhesion portion of the lower film 114 and the tip of the free end of the lower film 114. With such a configuration, when the developing roller 59 is mounted, the chamfered corner portion around the free end of the lower film 114 is sandwiched between the developing roller 59 and the side seal 104, and the urethane film The lower film 114 can be firmly pressed against the developing roller 59 by the pressing force of the sponge side seal 104. Therefore, it is possible to reliably prevent toner leakage from this portion.
[0064]
  On the other hand, the lower end of the side seal 104 is positioned closer to the free end of the lower film 114 than the bonded portion of the lower film 114. As a result, the side end of the lower film 114 is In a region where 104 is not provided, the side seal 104 protrudes toward the attachment position. In this embodiment, as will be described later, a Teflon felt is attached on the side seal 104, and the side end portion of the lower film 114 is brought into contact with the surface of the Teflon felt. Further, a developing roller 59 is attached so that the side end portion of the lower film 114 is sandwiched between the surface of the Teflon felt and the developing roller 59. However, even in such a configuration, the side film 104 and the Teflon felt are not provided with the side seal 104 that presses them toward the developing roller 59, so that the lower film 114 is strong. No force is applied, and the positional deviation of the lower film 114 can be prevented.
[0065]
  Further, conventionally, in order to prevent the lower film 114 from being deformed by being pressed by the developing roller 59 as described above, the thickness of the side seal 104 and a Teflon felt to be described later is combined with the lower side seal attachment region 101. And the thickness of the step between the side-side seal attachment region 100 must be made uniform. However, in the present invention, since it is not necessary to make the thickness uniform in this way, it is not necessary to prevent the deformation of the lower film 114. Therefore, the layer thickness of the side seal 104 and the Teflon felt is made thicker than the step. Can do. As a result, in the region where the side seal 104 exists in the lower layer of the Teflon felt, it is possible to increase the pressure of the Teflon felt and the side seal 104 against the developing roller 59, and even a polymerized toner having high fluidity is good. Toner leakage can be prevented.
[0066]
  Next, as shown in FIGS. 6A and 6B, toner leakage from the boundary between the lower seal attachment region 101 and the side seal attachment region 100, and the lower film movable portion and lower side, which will be described later. In order to prevent toner leakage from the gap with the seal mounting area 101, a lower side seal 105 as a developer leakage preventing member is attached to the end of the lower seal mounting area 101 using double-sided tape. Install. The lower side seal 105 is formed of urethane sponge so that the side end surface of the lower side seal 105 and the side end surface on the side seal 104 side overlap in a part of the region W0 as shown in FIG. The lower side seal 105 is brought into close contact with the side seal 104 by pressing. In the present embodiment, the overlapping region W0 is set to about 2 mm. As described above, in the present embodiment, at the boundary portion between the lower seal attachment region 101 and the side seal attachment region 100 indicated by an arrow in FIG. Will be formed. Therefore, even if the lower side seal 105 and the side seal 104 are compressed by the mounting of the developing roller 59, even if the lower side seal 105 and the side seal 104 vibrate as the developing roller 59 rotates, The mating surface of the sponge can maintain good adhesion, and toner leakage at the boundary can be reliably prevented.
[0067]
  Next, as shown in FIGS. 7A and 7B, the upper end surface of the side seal 104 from the stepped portion E formed between the adhesive surface of the side seal 104 and the adhesive surface of the film 103 of the case 51. The edge seal 106 is attached. The edge seal 106 is made of urethane sponge, and is adhered to the stepped portion E and the upper end surface of the side seal 104 by attaching a double-sided tape to the bottom surface. By providing such an edge seal 106, the upper side seal attached to the film 103 and the lower end surface of the blade side seal attached to the layer thickness regulating blade to which the double-sided tape is not attached are brought into contact with the edge seal 106. In addition, a contact portion between the sponge and the sponge can be formed to reliably prevent toner leakage.
[0068]
  Next, as shown in FIGS. 8A, 8 </ b> B, and 8 </ b> C, the upper side seal 107 is attached to the film 103 and the case 51 with a double-sided tape in order to improve adhesion with a blade side seal described later. . The upper side seal 107 is made of a softer urethane sponge than usual, and is provided at a position in contact with a blade side seal described later. With this configuration, the contact portion between the upper side seal 107 and the blade side seal becomes a contact portion between the sponge and the sponge, and toner leakage can be reliably prevented.
[0069]
  Next, as shown in FIGS. 9 and 10, an upper formed to extend in the longitudinal direction of the layer thickness regulating blade 64 in order to prevent toner leakage from the upper position on the back side of the attachment portion of the layer thickness regulating blade 64. A seal 108 is attached. The upper seal 108 is formed of a urethane sponge that is softer than usual. By this upper seal 108, it is possible to reliably prevent the toner leakage due to the spraying toner in the toner containing chamber or the toner leakage when the developing device 50 is turned upside down.
[0070]
  Next, as shown in FIGS. 11A and 11B, the intermediate layer film 109 constituting the intermediate layer of the developer leakage prevention member at both ends is attached on the side seal 104. The film 109 is made of PET and is attached to the side seal 104 with a double-sided tape. As shown in FIG. 11A, the intermediate layer film 109 is wider than the side seal 104 and has a protruding portion whose end protrudes toward the center of the case 51. With this configuration, as described later, the toner density in the vicinity of the pressure contact portion between the Teflon felt attached to the intermediate film 109 and the developing roller can be reduced, and the toner pressure on the pressure contact portion can be reduced. be able to. As a result, toner leakage can be reliably prevented without increasing the pressing force of the side seal 104 to the developing roller 59 more than necessary. Further, as shown in FIG. 11A, the protruding portion of the intermediate layer film 109 is provided with a cut portion 109a along the longitudinal direction of the developing roller 59 from the center side of the case 51. The intermediate layer film 109 is prevented from being torn against deformation caused by a load accompanying rotation of the supply roller 58.
[0071]
  Next, as shown in FIG. 12, the side edge seal 110 is attached to the upper part of the intermediate layer film 109 using a double-sided tape. The side edge seal 110 is made of sponge and prevents a gap from being formed between a sheet metal of a layer thickness regulating blade 64 described later and the intermediate layer film 109, thereby preventing toner leakage.
[0072]
  Next, as shown in FIG. 13A, the back side blade side seal 111 is attached to the phosphor bronze or stainless steel sheet metal 64b attached to the iron or stainless steel support 64c of the layer thickness regulating blade 64. Install with double-sided tape. Here, the surface on which the pressure contact member 64a is provided is the front surface of the sheet metal 64b, and the opposite surface is the back surface of the sheet metal 64b. The lateral length W1 of the back side blade side seal 111 along the longitudinal direction of the layer thickness regulating blade 64 is formed wider than the interval W2 from the side end of the sheet metal 64b to the side end of the press contact member 64a. And covers from the side end of the sheet metal 64b to the position corresponding to the end of the press contact member 64a. When the layer thickness regulating blade 64 is attached to the case 51, the sheet metal 64b receives a pressing force from the upper side seal 107 and the back side blade side seal 111 as shown in FIG. By providing the blade side seal 111 in the region as described above, not only the sheet metal 64b but also the end of the pressure contact member 64a is pressed, and the sheet metal 64b is not bent. Therefore, toner leakage due to the bending of the sheet metal 64b can be prevented. Further, the longitudinal length H1 of the back side blade side seal 111 along the short direction of the layer thickness regulating blade 64 is a length that covers the entire length of the sheet metal 64b in the short direction of the sheet metal 64b. The double-sided tape is affixed to the back side of the back side blade side seal 111, and the surface is pressed against and contacts the upper side seal 107 as shown in FIG. Since the back side blade side seal 111 is made of a softer urethane sponge than usual, the contact portion between the back side blade side seal 111 and the upper side seal 107 is a contact portion between the sponge and the sponge. Further, the lower end surface of the back side blade side seal 111 is in contact with the side edge seal 106 as shown in FIG. Therefore, the contact portion between the back side blade side seal 111 and the side edge seal 106 is also a contact portion between sponges. As described above, the boundary portion between the back side blade side seal 111 and the other members is a contact portion between the sponge and the sponge except for the adhesive surface with the sheet metal 64b, thereby reliably preventing toner leakage.
[0073]
  On the other hand, on the front side of the sheet metal 64b where the pressure contact member 64a is provided, as shown in FIG. 13B, the front side blade side seal 112 is attached by double-sided tape so as to contact both end portions of the pressure contact member 64a. ing. The front blade side seal 112 is formed of a urethane sponge that is softer than usual. A Teflon felt, which will be described later, is attached on the front side blade side seal 112. The thickness when the front side blade side seal 112 and the Teflon felt are combined is, as shown in FIG. In consideration of the amount of crushing, the pressure contact member 64a is thicker. With this configuration, even when the pressure contact member 64a is worn, the pressing force of the pressure contact members 64a on both end sides against the developing roller 59 is not changed, and the toner from the pressure contact portion between the pressure contact member 64a and the development roller 59 is maintained. Leakage can be reliably prevented.
[0074]
  Next, as shown in FIGS. 14 (A), (B), (C), and (D), the Teflon felt 113 constituting the uppermost layer of the developer leakage prevention member at both ends is attached to the sheet metal of the layer thickness regulating blade 64. 64b, the front side blade side seal 112, the intermediate layer film 109, and the side side seal attachment region 100 are attached using a double-sided tape. On the layer thickness regulating blade 64, as shown in FIGS. 14B and 14C, the tip of the Teflon felt is attached to the sheet metal 64b, and further, the subsequent portion is attached so as to cover the front side blade side seal 112. To do. With this configuration, it is possible to reliably prevent toner leakage from both end portions of the pressure contact member 64a of the layer thickness regulating blade 64. Further, since the Teflon felt 113 moves together according to the movement of the sheet metal 64b of the layer thickness regulating blade 64, the movement of the sheet metal 64b of the layer thickness regulating blade 64 is not hindered while reliably preventing toner leakage. In addition, since the Teflon felt 113 has a low frictional resistance against the developing roller 59, the rotational torque of the developing roller 59 can be reduced.
[0075]
  Next, as shown in FIGS. 15A, 16A, and 16B, a lower film 114 as a lower end developer leakage prevention member is attached. As the lower film 114, a PET sheet or a urethane rubber film is used. The urethane rubber film can be expected to be softly pressed but has no waist, so it must be pressed from the back with a sponge or the like. On the other hand, since the PET sheet is harder than the urethane film, pressing from the back surface is unnecessary, and there is an advantage that assembly work is easier than the urethane film. In this embodiment, a PET sheet is used.
The lower film 114 is formed on both sides of a part of the lower seal attachment region 101, a part of the front edge 51d of the case 51, and a part of the lower side seal 105, as indicated by hatching in FIG. Affix with tape. Thus, since the adhesion surface of the lower film 114 includes not only the lower-side seal attachment region 101 but also the region of the width W3 and the height H2 of the front edge 51d, it is difficult to peel off. Therefore, even when the pressing force of the developing roller 59, the lower film 114, and the Teflon felt 113 is increased to some extent, the lower film 114 can be reliably prevented from peeling off.
[0076]
  Further, the corner 114b at the tip of the free end of the lower film 114 runs on the Teflon felt 113 as shown in FIGS. 15 (A), 15 (B) and 16 (A). With this configuration, when the developing roller 59 is attached, the corner 114b of the lower film 114 is pressed toward the Teflon felt 113 by the developing roller 59, and the free end of the Teflon felt 113 and the lower film 114 is The gap of disappears. Therefore, when using a PET sheet with waist, of course, even when a urethane film without waist is used, FIGS. 15 (A), (B), FIGS. 16 (A), (B), and FIG. As shown in FIG. 17A, the movable portion 114a of the lower film 114 can be brought into good pressing contact with the developing roller 59. Accordingly, toner leakage from the contact portion between the developing roller 59 and the lower film 114 can be reliably prevented.
[0077]
  In addition, as described above, since the side seal 104 is not provided in the upstream region in the rotation direction of the developing roller 59 with respect to the region where the lower film 114 is in contact with the Teflon felt 113, the developing roller 59 is attached. However, a strong force that causes displacement or deformation of the lower film 114 is not applied. Therefore, toner leakage due to positional displacement or deformation of the lower film 114 does not occur.
[0078]
  Further, in the present embodiment, as shown in FIGS. 15A and 15B, the corner 114b in the overlapping region of the lower film 114 with the Teflon felt 113 is rounded and chamfered. With such a configuration, it is possible to reliably prevent the developing roller 59 from being damaged by the corners 114b of the lower film 114. Therefore, the toner does not stay in the damaged portion, and the toner leakage from here can be surely prevented. In particular, when a conductive elastic roller is used as the developing roller 59 as in the present embodiment, the roller surface is easily damaged by contact with the corners of the seal member. There is a possibility that silica or the like enters the damaged part to further expand the damage, and toner leakage may occur from there. However, in this embodiment, since the corner 114b of the lower film 114 is rounded and chamfered, even if a conductive elastic roller is used as the developing roller 59, the roller surface is not damaged and toner leakage is reliably prevented. can do.
[0079]
  In addition, since the lower film 114 is attached not only to the lower seal attaching region 101 but also to the lower side seal 105, even if the lower film 114 vibrates with the rotation of the developing roller, Good adhesion at the interface with the lower film 114 is maintained. Therefore, toner leakage can be reliably prevented even when polymerized toner is used as the toner.
[0080]
  Further, in this embodiment, as shown in FIG. 17A, the lower seal attachment region 101 and the attachment region 105a of the lower side seal 105 are made continuous at a predetermined angle. When attached, the lower side seal 105 can be compressed and deformed into a wedge shape as shown in FIG.
[0081]
  On the other hand, as shown in the comparative example of FIG. 17B, the lower-side seal attachment region 101 and the attachment region 105a of the lower side seal 105 are configured to be substantially parallel, and a step is formed between these attachment regions. In this case, at the boundary portion between the lower-side seal attachment region 101 and the attachment region 105a of the lower side seal 105 indicated by an arrow in FIG. 17B, the end surface of the sponge side seal 105 and the side surface of the step portion made of resin And an interface is formed. Therefore, when the lower side seal 105 vibrates with the rotation of the developing roller 105, toner leakage cannot be prevented from this interface.
[0082]
  However, in this embodiment, as shown in FIG. 17A, the lower side seal 105 is deformed into a wedge shape, and the interface between the resin and the sponge as in the comparative example of FIG. 17B does not occur. Therefore, according to the present embodiment, it is possible to reliably prevent toner leakage even when polymerized toner is used.
[0083]
  As described above, in the developing device 50 of the present embodiment, the softness is provided on the attachment surface 101 of the lower film 114 in the case 51 and at the boundary between the attachment surface 101 and the attachment surface 100 of the side seal 104. Since the lower side seal 105 formed of sponge is attached so as to press against the side seal 104, even if the side seal 104, the lower film 114, or the lower side seal 105 vibrates with the rotation of the developing roller, the boundary Thus, leakage of the polymerized toner from the portion can be reliably prevented. Further, since the lower side seal 105 is attached so that the shape when sandwiched between the attachment surface 101 and the lower film 114 becomes a wedge shape, the friction surface with the case 51 at a location where the lower side seal 105 cannot be bonded. Is reduced as much as possible to further prevent leakage of the polymerized toner. Further, the length of the side seal 104 is made short so as to form a minimum pressing area with the lower side seal 105, and the side seal 104 does not exist below the side end portion of the lower film 114. As a result, the deformation and displacement of the lower film 114 can be reliably prevented, and the leakage of the polymerized toner can be more reliably prevented.
[0084]
  In the above description, the example in which the process cartridge 2a to which the developing device 50 is mounted is configured to be detachable from the image forming apparatus main body has been described. However, the present invention is not limited to this example. Further, only the developing device 50 may be detachable from the main body of the image forming apparatus, and the process cartridge 2a and the developing device 50 are formed as an integral casing (the process cartridge according to claim 9). May be configured to be detachable from the image forming apparatus. Further, the developing device 50 is not necessarily detachable from the image forming apparatus, and may be a stationary type. Applying the present invention to the developing device cartridge and the process cartridge has the effect of reliably preventing toner leakage during attachment / detachment. However, even in the case of a stationary type, even if vibration or the like occurs, the inside of the image forming apparatus main body is filled with toner. The effect that it does not contaminate can be exhibited.
[0085]
  As described above, the present invention has been described based on the embodiments, but the present invention is not limited to the above-described embodiments, and various improvements and modifications can be easily made without departing from the spirit of the present invention. It can be guessed.
[0086]
【The invention's effect】
  According to the developing device of the first aspect, the developer leakage prevention members at both ends that slidably rub against the circumferential surfaces at both ends of the developer carrier near the both ends in the longitudinal direction of the opening of the developer housing, and the developer carrier The lower end developer leakage preventing member that rubs uniformly on the peripheral surface of the developer carrying member in the longitudinal direction, the mounting position of the both end developer leakage preventing member, and the mounting position of the lower end developer leakage preventing member Since the mounting surface boundary portion developer leakage prevention member made of the foamed elastic body is provided at the boundary position, the side end surfaces of the developer leakage prevention members at both ends are connected to the wall surface of the developer housing at the boundary position. Rather, it will rub against the side end face of the developer leakage prevention member made of the foamed elastic body, so even if vibration occurs due to the rotation of the developer carrier, good adhesion is maintained. Thus, it is possible to reliably prevent developer leakage.
  Further, according to the developing device of the first aspect, the attachment surface boundary portion developer leakage preventing member has a wedge shape in a state sandwiched between the lower end portion developer leakage preventing member and the lower end portion attachment surface. Since the lower end developer leakage prevention member is attached, the attachment surface boundary developer leakage prevention member even when the attachment surface boundary developer leakage prevention member slightly vibrates as the developer carrying member rotates. It is possible to reliably prevent the leakage of the developer from the contact surface with the other member.
[0087]
  According to the developing device of claim 2, the attachment surface boundary developer leakage prevention member is attached to both the lower end developer leakage prevention member and the lower end attachment surface. Through the interface between the lower end developer leakage prevention member and the attachment surface boundary developer leakage prevention member, the wall surface of the developer housing at the boundary position between the both end attachment surfaces and the lower end attachment surface, and the both end developer It is possible to reliably prevent the developer from reaching between the side end surfaces of the leakage prevention member, and it is possible to reliably prevent developer leakage from the portion.
[0088]
  According to the developing device of claim 3, since both ends in the longitudinal direction of the lower end developer leakage preventing member are provided at positions sandwiched between the both end developer leakage preventing members and the developer carrying member, Both ends in the longitudinal direction can be satisfactorily brought into contact with the peripheral surface of the developer carrying member, and developer leakage from the interface between the both ends in the longitudinal direction and the developer leakage preventing members is surely prevented. can do.
[0089]
[0090]
  Claim4According to the developing device described above, since the developer leakage from the boundary position is reliably prevented as described above, there is no developer leakage even when a polymerized toner prepared by a polymerization method is used as the developer. High-definition development operation can be performed.
[0091]
  Claim5According to the developing device described above, since the elastic roller having an elastic layer formed on the rotating shaft is used as the developer carrying member, the both-end developer leakage preventing member or the lower end developer as described above. Since the leakage preventing member or the mounting surface boundary developer leakage preventing member is elastically contacted or pressed, even when rotating, the adhesion with these members can be maintained and the developer leakage can be reliably prevented.
[0092]
[0093]
[0094]
  Claim8According to the process cartridge described above, the electrostatic latent image carrier, and7Therefore, even when the image forming apparatus is detached from the image forming apparatus or attached to the image forming apparatus, a good developing operation can be performed without causing leakage of the developer. .
[0095]
  Claim9According to the developing device cartridge described in claim 1,7Therefore, even when the image forming apparatus or the process cartridge is detached from or attached to the image forming apparatus or the process cartridge, the developer does not leak and the developer leaks. Therefore, a good developing operation can be performed.
[0096]
  Claim10According to the image forming apparatus described in claim 1,7The developing device according to claim 1 or claim.8The process cartridge or the claim9Since the developing device cartridge described above is provided, there is no leakage of the developer from these developing devices, process cartridges or developing device cartridges, and good image formation can be performed.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view illustrating a schematic configuration of an image forming apparatus according to an embodiment of the present invention.
2A is a partially broken perspective view showing a seal portion of a developing device case before attaching a seal member, and FIG. 2B is the seal seen from the direction of arrow B shown in FIG. 2A. FIG.
3A is a partially broken perspective view showing a seal portion of a developing device case when a side edge seal is attached, and FIG. 3B is a cross-sectional view taken along the line CC of FIG. 3A. FIG. 3C is a diagram showing the seal portion viewed from the direction of arrow B shown in FIGS. 3C and 3A.
4A is a partially broken perspective view showing a seal portion of a developing device case when a film for attaching an upper side seal is attached, and FIG. 4B is an arrow A shown in FIG. 4A. The figure which shows the seal | sticker part seen from the direction, FIG.4 (C) is a figure which shows the said seal | sticker part seen from the arrow B direction shown to FIG. 4 (A).
5A is a partially broken perspective view showing a seal portion of a developing device case when a side seal is attached, and FIG. 5B is a view from the direction of arrow B shown in FIG. 5A. It is a figure which shows the said seal part.
6A is a partially broken perspective view showing a seal portion of a developing device case when a lower side seal is attached, and FIG. 6B is a cross-sectional view taken along line FF in FIG. 6A. FIG. 6C is a view showing the seal portion viewed from the direction of arrow B shown in FIG.
7A is a partially broken perspective view showing a seal portion of a developing device case with an edge seal attached, and FIG. 7B is seen from the direction of arrow B shown in FIG. 7A. It is a figure which shows the said seal part.
8A is a partially broken perspective view showing a seal portion of a developing device case when an upper side seal is attached, and FIG. 8B is a view from the direction of arrow A shown in FIG. 8A. FIG. 8C is a diagram showing the seal portion viewed from the direction of arrow B shown in FIG. 8A.
FIG. 9 is a front view showing a seal portion of the developing device case when an upper seal is attached.
FIG. 10 is a view showing the seal portion viewed from the direction of arrow B shown in FIG.
FIG. 11A is a partially broken perspective view showing a seal portion of a developing device case when an intermediate layer film is attached, and FIG. 11B is a view from the direction of arrow B shown in FIG. It is a figure which shows the said seal part.
FIG. 12 is a partially broken perspective view showing a seal portion of a developing device case when a side edge seal is attached.
13A is a view of the layer thickness regulating blade as viewed from the back side, FIG. 13B is a view of the layer thickness regulating blade as viewed from the front side, and FIG. 13C is FIG. 11B. It is a figure which similarly shows the seal | sticker part seen from the arrow B direction.
FIG. 14A is a partially broken perspective view showing a seal portion of a developing device case when Teflon felt is attached, and FIG. 14B is seen from the direction of arrow A shown in FIG. 14A. FIG. 14C is a view showing the seal portion, FIG. 14C is a view showing the seal portion seen from the direction of arrow B shown in FIG. 14A, and FIG. 14D is a cross-sectional view taken along the line DD of FIG. is there.
FIG. 15A is a plan view showing the lower film and the periphery of the attachment portion, and FIG. 15B is a view showing an adhesive surface of the lower film.
16A is a partially broken perspective view showing a seal portion of the case 51 opposite to FIG. 14A when a lower film is attached, and FIG. 16B is FIG. It is a figure which shows the seal | sticker part seen from the arrow B direction like FIG.
FIG. 17A is a diagram showing a compression state of a sliding portion and a lower side seal of the lower seal of this embodiment with the developing roller, and FIG. 17B is a sliding diagram of the lower film of the comparative example and the developing roller. It is a figure which shows the compression state of a friction part and a lower side seal.
[Explanation of symbols]
  1 Laser beam printer
  50 Developer
  51 cases
  52 Toner chamber
  59 Developing roller
  64 layer thickness regulating blade
  64a Contact part
  64b sheet metal
  100 Side seal area
  101 Lower seal installation area
  102 Side edge seal
  103 Film for attaching upper side seal
  104 Side seal
  105 Lower side seal
  106 Edge seal
  107 Upper side seal
  108 Upper seal
  109 interlayer film
  110 Side edge seal
  111 Back side blade side seal
  112 Front blade side seal
  113 Teflon felt
  114 Lower film
  114b Lower film corner

Claims (10)

It is possible to rotate the developer carrier in the opening of the developer housing that contains the developer and to make the thin layer of developer formed on the developer carrier face the electrostatic latent image. A developing device for forming a visual image,
Both-end developer leakage prevention members provided so as to slide on the peripheral surfaces of both ends of the developer carrier in the vicinity of both ends in the longitudinal direction of the developing device housing opening;
The provided extending in the longitudinal direction of the opening at the lower end of the developing unit housing opening, is provided a preventing member leakage under end developer you rub the uniformly on the peripheral surface of said developer carrying member,
A lower end mounting surface to which the lower end developer leakage prevention member is bonded and attached to the developing device housing; and a position on the outer side in the longitudinal direction of the developing device housing opening with respect to the lower end mounting surface, And provided at a position lower than the lower end mounting surface, and both end mounting surfaces for attaching and attaching the both end developer leakage preventing members, and the both end mounting surfaces provided at a position lower than the lower end mounting surface. By being done, an end surface formed between the both end mounting surfaces and the lower end mounting surface is formed,
The both end developer leakage preventing members are provided on the both end mounting surfaces such that side end surfaces of the both end developer leakage preventing members are in contact with the end surfaces,
The lower end portion between the lower end developer leakage preventing member and the lower end mounting surface, so that at least a part of the side end surface is in contact with a part of the side end surface of the both end developer leak preventing member. the mounting surface, set the preventing member leakage mounting surface boundary developer made of foamed elastic material,
The lower end developer leakage prevention member is attached so as to have a wedge shape with the attachment surface boundary portion developer leakage prevention member sandwiched between the lower end developer leakage prevention member and the lower end portion attachment surface. Yes,
A developing device.   2. The developing device according to claim 1, wherein the attachment surface boundary portion developer leakage preventing member is attached to both the lower end portion developer leakage preventing member and the lower end portion attachment surface.   3. The both ends in the longitudinal direction of the lower end developer leakage preventing member are provided at positions sandwiched between the both end developer leakage preventing members and the developer carrying member. Development device. The developer, the developing device according to any one of claims 1 to 3, characterized in that a polymerized toner produced by a polymerization method. The developer carrying member, a developing device as claimed in any one of claims 1, characterized in that an elastic body roller elastic layer formed on the rotating shaft 4. The lower end mounting surface includes an adhesive surface that bonds the lower end developer leakage prevention member, and an attachment surface that is formed continuously with the adhesive surface and attaches the mounting surface boundary portion developer leakage prevention member. Have
6. The developing device according to claim 1, wherein the adhesive surface and the attachment surface are formed with an angle. The lower end developer leakage prevention member is
  Along the longitudinal direction of the developing device housing opening, an adhesive portion that is adhesively attached to the lower end attachment surface;
  A free end provided on the downstream side in the rotation direction of the developer carrying body with respect to the adhesive portion and rubs uniformly on the peripheral surface of the developer carrying body along the longitudinal direction of the developer carrying body When,
  7. A sandwiching portion provided between the adhesive portion and the free end portion and sandwiching the attachment surface boundary portion developer leakage preventing member by the bottom end mounting surface. The developing device according to claim 1. A process cartridge which is freely formed detachable from the image forming apparatus, to the carrier of the electrostatic latent image, comprising the developing device according to any one of claims 1 to 7 Process cartridge. Developing cartridges which the developing device according to any one of claims 1 to 7, characterized in that it is detachably formed with respect to the image forming apparatus or process cartridge. An image forming apparatus characterized by comprising any one developing device according or claim 8, wherein the process cartridge or developing device cartridge according to claim 9, wherein, of claims 1 to 7.

Images