JP4211376B2 - Fixing tubular body and fixing device using the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fixing device that is used to heat and pressure-fix an unfixed image in an image forming apparatus such as a copying machine, a printer, or a facsimile, and in particular, a fixing member and a fixing tubular body (for example, a resin such as an endless belt). The present invention relates to a fixing tubular body used in a so-called belt nip type fixing device that allows a recording medium to pass through a nip portion formed between the fixing tube and the fixing device using the same.
[0002]
[Prior art]
Conventionally, as this type of belt nip type fixing device, for example, a rotatable heat fixing roll having a heating source, a resin film tubular body that is in pressure contact with the heat fixing roll and rotationally moves together, and this resin film tubular body A pressure pad that is disposed inside the body and presses the resin film tubular body toward the heat fixing roll to form a nip portion between the body resin film tubular body and the heat fixing roll. A configuration is known in which a sheet is passed through a nip portion so that an unfixed toner image on the sheet is heated and pressed and fixed (see JP-A-8-262903).
[0003]
By the way, in the case of the belt nip type fixing device, since the resin film tubular body is configured to be pressed against the surface of the heat fixing roll by the pressure pad, the sliding resistance between the resin film tubular body and the pressure pad is determined. Is excessive, the torque for driving the resin film tubular body increases and the stress acting on the heat fixing roll for driving the resin film tubular body, that is, the driving torque also increases. There is a concern that the stress acting on the gear receiving portion of the heat fixing roll core increases, causing damage to the gear and the core. Moreover, in such an aspect, the load of the drive motor also increases, and more power is required.
[0004]
Further, when the frictional force between the resin film tubular body and the pressure pad becomes so large that it cannot be ignored compared to the driving force of the resin film tubular body by the heat fixing roll, slip occurs between the heat fixing roll and the resin film tubular body. As a result, when a sheet holding an unfixed toner image is passed through the nip portion under such conditions, there is a problem that the slip causes an image shift in the unfixed toner image on the sheet.
[0005]
Therefore, the present applicant has already proposed the techniques disclosed in Japanese Patent Laid-Open Nos. 10-213984, 10-228196, and 11-45018 in order to solve the above-described problems. is doing.
[0006]
In JP-A-10-213984, the surface of the pressure pad is covered with a glass fiber sheet impregnated with polytetrafluoroethylene, and silicone oil is used as a lubricant between the pressure pad and the resin film tubular body. There has been proposed a technique for improving the slippage of the resin film tubular body by interposing it.
[0007]
Japanese Laid-Open Patent Publication No. 10-228196 proposes a technique configured to include means for applying a lubricant between a pressure pad and a resin film tubular body.
[0008]
Further, Japanese Patent Application Laid-Open No. 11-45018 proposes a technique in which a member for applying a lubricant is provided between the pressure applying member and the resin film tubular body.
[0009]
However, in the case of the technique disclosed in the above-mentioned JP-A-10-213984, JP-A-10-228196, or JP-A-11-45018, the surface of the pressure pad is impregnated with polytetrafluoroethylene. In addition to coating with a glass fiber sheet, a lubricant such as silicone oil is applied and supplied between the pressure pad and the resin film tubular body.
[0010]
However, according to the study by the present inventors, the glass fiber sheet impregnated with polytetrafluoroethylene is not impregnated with the lubricant, and therefore only exists in a state where a lubricant such as silicone oil is applied to the surface. Therefore, if uneven application of the lubricant occurs even in a part, the sliding resistance of the part increases, and the glass fiber sheet is partially scraped by friction. Therefore, the glass fiber sheet impregnated with the polytetrafluoroethylene is partially scraped by abrasion, and the abrasion powder is mixed with a lubricant such as silicone oil to become a highly viscous substance, and the endless belt is driven over time. As a result of this, the problem of the occurrence of image misalignment in the unfixed toner image on the sheet due to the slip generated between the heat fixing roll and the resin film tubular body as described above was clarified. .
[0011]
In addition, modified silicone oil, which is a kind of silicone oil described above, forms a strong reaction film on the surface of the applied substance, thereby preventing uneven coating and maintaining uniform sliding resistance. However, in the long-term thermal environment, it will be deteriorated and deteriorated, making it difficult to form a reaction film, so the torque for driving the resin film tubular body will increase over time. Further, it has become clear that there is an image shift in the unfixed toner image on the sheet due to the slip generated between the heat-fixing roll and the resin film tubular body as described above.
[0012]
[Patent Document 1]
JP-A-8-262903
[Patent Document 2]
JP-A-10-213984
[Patent Document 3]
Japanese Patent Laid-Open No. 10-228196
[Patent Document 4]
JP-A-11-45018
[0013]
[Problems to be solved by the invention]
Accordingly, the present applicant has solved the problems of the prior art described above, and by making the sliding member always impregnated with a lubricant, uneven application of the sliding surface hardly occurs, and the resin film tubular body is driven over time. A fixing device capable of stably obtaining a high-quality image by preventing an increase in torque and ensuring stable running performance has already been proposed (Japanese Patent Application No. 2002-125257).
[0014]
The fixing device includes a fixing member that is rotatably disposed, and a recording medium that is rotatably pressed against the fixing member and carries an unfixed toner image in a nip portion formed between the fixing member and the fixing member. A sandwiched resin film tubular body, a pressing member fixedly disposed inside the resin film tubular body, and pressing the resin film tubular body toward the fixing member, and the resin film tubular body and the pressing member In a fixing device including a sheet-like member interposed between and a heating source for heating the nip portion, the sheet-like member includes a porous resin layer holding at least a lubricant, and the lubricant is denatured. It is configured to be silicone oil.
[0015]
The fixing device also includes a configuration in which the sheet-like member includes a lubricant permeation preventing layer that prevents the permeation of the lubricant on the pressing member side of the porous resin layer.
[0016]
However, the above prior art has the following problems. That is, in the case of the fixing device according to Japanese Patent Application No. 2002-125257, a sheet-like member is interposed between the resin film tubular body and the pressing member, and the sheet-like member is a porous resin that holds at least a lubricant. The sheet-like member can hold the lubricant in the porous resin layer, but the longitudinal direction of the resin film tubular body is configured so that the lubricant is a modified silicone oil. The part corresponding to the both ends of is open. Therefore, when the sheet-like member holding the lubricant in the porous resin layer is pressed against the fixing member via the resin film tubular body by the pressing member, the lubricant oozes out from both ends thereof, and the lubricant When the fixing member rotates, a uniform layer of lubricant cannot be formed, the sliding resistance between the resin film tubular body and the pressing member increases, and the driving torque rises early. It had the problem that.
[0017]
Further, when the lubricant oozes out from both ends of the sheet-like member, the lubricant turns to the surface side of the resin film tubular body, and slip occurs between the resin film tubular body and the fixing member, There has been a problem that a lubricant stain is generated by adhering to a sheet inserted through the nip portion between the resin film tubular body and the fixing member.
[0018]
Accordingly, an object of the present invention is to solve the conventional problems and achieve the following object. That is, the object of the present invention is to prevent lubricant depletion, to form a uniform layer of lubricant during rotation of the fixing member over a long period of time, and to slide between the resin film tubular body and the pressing member. A fixing tubular body that can prevent an increase in resistance and prevent slippage between the resin film tubular body and the fixing member or adhesion of the lubricant to the sheet. And a fixing device using the same.
[0019]
[Means for Solving the Problems]
  The above problem is solved by the following means. That is, the present invention
  (1)A fixing member that is rotatably installed;
A fixing tubular body that is rotatably arranged in pressure contact with the fixing member and in which a recording medium carrying an unfixed toner image is sandwiched between nip portions formed between the fixing member and the fixing member;
A pressing member that is disposed inside the fixing tubular body and presses the fixing tubular body toward the fixing member;
A sheet-like member interposed between the fixing tubular body and the pressing member;
A lubricant interposed between the fixing tubular body and the sheet-like member;
A heating source for heating the nip portion;
A fixing tubular body for use in a fixing device comprising:
It is provided at both ends of the inner surface of the tubular body at a predetermined interval with respect to the direction of rotation of the tubular body, and is inclined with respect to the width direction of the tubular body from the inner surface end of the tubular body to the central portion in the direction opposite to the direction of rotation of the tubular body. Provided with a liquid repellent processing part that repels the lubricant,
andOn the inner surface of the tubular body, a liquid repellent raw portion is provided together with the liquid repellent processed portion,A fixing tubular body, wherein a difference between a contact angle of the liquid repellent portion with the lubricant and a contact angle of the liquid repellent portion with respect to the lubricant is 10 degrees or more.
  (2)The lubricant is silicone oilThe fixing tubular body as described in (1) above.
(3The liquid repellent processed part is configured to contain a fluororesin.1The fixing tubular body as described in 1).
  (4) The liquid repellent processed portion is configured to include polytetrafluoroethylene (PTFE).1The fixing tubular body as described in 1).
  (5The liquid repellent raw part is made of a porous material (1The fixing tubular body as described in 1).
  (6The liquid repellent unprocessed portion is configured to include a polyimide resin ((1))1The fixing tubular body as described in 1).
  (7The liquid repellent raw part is configured to contain a polybenzimidazole resin (1The fixing tubular body as described in 1).
[0020]
  (8A fixing member that is rotatably installed;
  A fixing tubular body that is rotatably arranged in pressure contact with the fixing member and in which a recording medium carrying an unfixed toner image is sandwiched between nip portions formed between the fixing member and the fixing member;
  A pressing member that is disposed inside the fixing tubular body and presses the fixing tubular body toward the fixing member;
  A sheet-like member interposed between the fixing tubular body and the pressing member;
  A lubricant interposed between the fixing tubular body and the sheet-like member;
  A heating source for heating the nip portion;
  In the fixing device provided with
  (1) to (1)7The fixing device according to claim 1, wherein the fixing device is a fixing tubular body.
  (9The sheet-like member has a porous fiber layer having a lubricant retaining property on the side of the contact surface with the fixing tubular body.8) Fixing device.
  (10The sheet-like member has a lubricant permeation preventive layer that prevents the permeation of the lubricant on the pressing member side of the porous resin layer.9) Fixing device.
  (11The sheet-like member has a fluororesin layer having a fine uneven shape on the contact surface side with the fixing tubular body.8) Fixing device.
  (12The lubricant is a silicone-based oil.8) Fixing device.
  (13The lubricant is an amino-modified silicone oil.8) Fixing device.
  (14The lubricant is methylphenyl silicone oil.8) Fixing device.
  (15The lubricant is a perfluoropolyether oil.8) Fixing device.
[0021]
When the fixing tubular body of the present invention is disposed in the fixing device, the pressing member is inscribed in the vicinity of the central portion of the inner surface via the sheet-like member. (When the sheet-like member holds the lubricant, it oozes out), and the liquid-repellent processed part that repels the lubricant provided on at least a part of the inner surface end portion of the fixing tubular body blocks and repels the leaked lubricant. Further, it is possible to prevent the lubricant from leaking from both ends of the sheet-like member and to prevent the exhaustion of the lubricant. Even if the lubricant leaks from both ends of the sheet-like member, the lubricant is still dammed and repelled by the liquid-repellent processed part and stays on the inner surface of the fixing tubular body, thus preventing the lubricant from being depleted. It becomes. For this reason, the fixing device including the fixing tubular body of the present invention can form a uniform layer of the lubricant during the rotation of the fixing member over a long period of time, and the sliding between the resin film tubular body and the pressing member. It is possible to prevent an increase in dynamic resistance, and it is possible to prevent slippage between the resin film tubular body and the fixing member and adhesion of the lubricant to the sheet.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, what has the substantially same function is attached | subjected and demonstrated through the whole figure, and the description may be abbreviate | omitted depending on the case.
[0023]
FIG. 1 is a schematic configuration diagram illustrating a fixing device including a fixing tubular body according to an embodiment of the present invention.
[0024]
The fixing device shown in FIG. 1 has a resin film tubular body 2 circumscribed on a drive-type fixing roll 1, and an elastic body on a support 31 with respect to the resin film tubular body 2 (fixing tubular body) portion of the circumscribed portion. 32, the pressing member A covered with the sheet-like member 33 is inscribed, and a nip portion n is formed between the fixing roll 1 and the resin film tubular body 2, and the recording medium 4 is connected to the nip portion n. The toner image 41 is fixed while passing through. The travel guide 35 is fixed to the support 31. Further, a lubricant is present on the sliding surface of the sheet-like member 33 with respect to the resin film tubular body 2.
[0025]
The fixing roll 1 and the resin film tubular body 2 are heated to a predetermined temperature by the heating sources 11 and 21, and rotate in the directions of arrows, respectively. A lubricant is interposed on the sliding surface of the sheet-like member 33 with respect to the resin film tubular body 2, and the lubricant is supplied to the inner surface of the resin film tubular body 2. The lubricant supplied to the inner surface of the resin film tubular body 2 is rotated and supplied to the sliding contact surface side of the nip portion. In addition, the resin film tubular body 2 may be supported in an unstretched state, or may be supported in a stretched manner, for example, by being stretched over a plurality of rolls. Further, as will be described later, it is not necessary to supply the lubricant as long as the lubricant retaining ability is imparted to the sheet-like member 33.
[0026]
  The resin film tubular body 2 is, for example, shown in FIGS.FigureAs shown in FIG. 3, a release layer 202 having releasability is provided on the outer surface of the tubular film substrate 201 to prevent adhesion of toner, and both end portions on the inner surface (both end portions in the width direction). A liquid repellent portion 203 that repels the lubricant is provided on at least a part of (see FIG. 2B).Figure3 (b)). In the figure, the region other than the liquid repellent processed portion 203 is the liquid repellent unprocessed portion 204.However, the resin film tubular body 2 shown in FIG. 2 corresponds to a reference example.
[0027]
The resin film tubular body 2 has a configuration in which the region other than the liquid repellent processed portion 203 provided on the inner surface of the film base 201 corresponds to the liquid repellent unprocessed portion 204. A layer that functions as the liquid repellent raw portion 204, that is, a lipophilic layer may be separately provided.
[0028]
The resin film tubular body 2 shown in FIG. 2 has a form in which the liquid-repellent processed portion 203 is provided on the entire peripheral surface of both ends of the inner surface of the resin film tubular body 2 (FIG. 2A). In this embodiment, since the liquid repellent portion 203 is provided on the entire inner surface of both ends of the resin film tubular body 2, it is possible to more reliably dam the leaked lubricant.
[0029]
The resin film tubular body 2 shown in FIG. 3 has an elongated liquid-repellent processed portion 203 provided at both ends of the inner surface of the resin film tubular body 2 at a predetermined interval with respect to the rotation direction (arrow) of the resin film tubular body 2. (FIG. 2A). The elongated liquid repellent processed portion 203 is inclined with respect to the width direction of the resin film tubular body 2 so as to be directed in the direction opposite to the rotation direction of the resin film tubular body 2 from the inner surface end portion of the resin film tubular body 2 to the central portion. Is provided. In this embodiment, the elongated liquid-repellent processed portion 203 is inclined with respect to the width direction of the resin film tubular body 2, and one end on the outside (resin film tubular body 2 end side) is inside (resin film tubular body 2). As the resin film tubular body 2 is rotated, the resin film tubular body 2 leaks around the inner surface end portion of the resin film tubular body 2 as the resin film tubular body 2 rotates. The lubricant is gradually scraped from one end of the outer side (resin film tubular body 2 end portion side) toward the center portion along the other end of the inner side (resin film tubular body 2 center portion side). For this reason, in this form, it is the structure which can make a lubricant stay on the resin film tubular body 2 inner surface more effectively.
[0030]
The liquid-repellent processed part 203 can be made of, for example, a material having low wettability with respect to the lubricant to be used, and can be made of a fluororesin or the like with respect to the silicone-based lubricant. Examples of fluororesins include tetrafluoroethylene-perfluoromethyl vinyl ether copolymer (MFA), tetrafluoroethylene-perfluoroethyl vinyl ether copolymer (EFA), polyethylene tetrafluoroethylene (ETFE) polytetrafluoroethylene (PTFE). , Tetrafluoroethylene / perfluoroalkyl vinyl ether copolymer (PFA), tetrafluoroethylene / hexafluoropropylene copolymer (FEP), etc. Among these, PTFE is preferred. PTFE is excellent in wear resistance and reattachment resistance, can improve the durability of the liquid-repellent processed portion 203, and is suitable for the present invention.
[0031]
On the other hand, the liquid repellent unprocessed portion 204 (the constituent material of the film base material 201 in this embodiment) other than the liquid repellent processed portion 203 is composed of polyimide resin, polybenzimidazole resin, polyamide resin, polyamideimide resin, or the like. Among these, polyimide resins and polybenzimidazole resins are preferable. Polyimide resin is thermosetting, so there is little softening of the resin even under high temperature conditions. Therefore, it has the advantage that it is difficult to generate friction powder due to wear, and it has the property that it is relatively easy to get wet with the lubricant. Therefore, it is suitable for the present invention. On the other hand, polybenzimidazole resin is thermoplastic and has a heat distortion temperature of 400 ° C. or higher, heat resistance equal to or higher than PI, wear resistance, and less generation of wear powder. It has the property of being easily wetted and is suitable for the present invention.
[0032]
In addition, the liquid repellent part 203 is formed of, for example, a polyimide resin, a polybenzimidazole resin, a polyamide resin, or a polyamideimide resin, which has a property that is difficult to get wet with the lubricant when perfluoropolyether oil is used as the lubricant. Etc. can be configured.
[0033]
On the other hand, for example, when perfluoropolyether oil is used for the lubricant, for example, a fluororesin can be used as the liquid repellent unprocessed portion 204 other than the liquid repellent processed portion 203. Ethylene-perfluoromethyl vinyl ether copolymer (MFA), tetrafluoroethylene-perfluoroethyl vinyl ether copolymer (EFA), polyethylene-tetrafluoroethylene (ETFE) polytetrafluoroethylene (PTFE), tetrafluoroethylene-perfluoro Suitable materials can be composed of alkyl vinyl ether copolymer (PFA), tetrafluoroethylene / hexafluoropropylene copolymer (FEP), etc. Different but basic effects It is the same.
[0034]
Further, as an element for enhancing this effect, it is also effective to provide a physical unevenness difference between the liquid repellent processed portion 203 and the liquid repellent unprocessed portion 304. This action promotes the liquid repellent effect due to physical pressure by the contact between the inner belt of the resin film tubular body 2 and the sheet-like member 33. In addition, an effect can be obtained only by providing such a physical unevenness difference, but it is more preferable to provide a liquid repellent processed portion on the convex portion.
[0035]
  The difference in contact angle between the liquid repellent processed portion 203 and the liquid repellent unprocessed portion 204 is 10 degrees or more from the viewpoint of improving the lubricant leakage preventing effect by the liquid repellent processed portion 203.is necessary. Here, the contact angle indicates a difference in contact angle with each lubricant. Specifically, for example, the liquid repellent processed portion 203 is made of a fluororesin, and the liquid repellent unprocessed portion is made of a polyimide resin. In this case, the contact angle between the fluororesin and the silicone oil is about 40 degrees, while the contact angle between the polyimide resin and the silicone oil is about 15 degrees, and the difference between the contact angles is about 25 degrees. Suitable for
[0036]
Specifically, for example, when the liquid repellent processed portion 203 is made of a polyimide resin and the liquid repellent unprocessed portion is made of a fluororesin, the contact angle of the polyimide resin with the perfluoropolyether oil is 35. On the other hand, the contact angle between the fluororesin and the perfluoropolyether oil is about 15 degrees, and the difference between the contact angles is about 25 degrees, which is suitable for the present invention.
[0037]
Further, the difference in the contact angle is preferably as large as possible. Actually, it is limited to 50 degrees. However, when the known oleophilic treatment is performed on the liquid-repellent unprocessed portion 204 to provide an oleophilic layer, the difference of 50 degrees or more is possible. Is possible. If the difference in the contact angle is 10 degrees or more, the effect of preventing lubricant leakage is sufficiently obtained.
[0038]
Further, the liquid repellent unprocessed portion 204 may be made of a porous material. The liquid repellent processed portion 203 is located on the sliding contact surface with the sheet-like member 33 in the resin film tubular body 2, and the sliding contact surface is made of a multi-material so that the lubricant is held on the sliding contact surface. Performance can be imparted, the increase in sliding resistance can be prevented more effectively, and the durability can be improved.
[0039]
Examples of the material of the release layer 202 include tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer (PFA), tetrafluoroethylene-perfluoromethyl vinyl ether copolymer (MFA), and tetrafluoroethylene-perfluoroethyl vinyl ether copolymer. Polymer (EFA), polytetrafluoroethylene (PTFE), tetrafluoroethylene / hexafluoropropylene copolymer (FEP), polyethylene / tetrafluoroethylene (ETFE), polyvinylidene fluoride (PVDF), polychlorotrifluoride ethylene ( PCTFE), fluororesin such as vinyl fluoride (PVF), and polytetrafluoroethylene (PTFE) and tetrafluoroethylene-perfluoroalkyl vinylene from the viewpoints of heat resistance and mechanical properties. Ether copolymer (PFA) of tetrafluoroethylene - perfluoro methyl vinyl ether copolymer (MFA), tetrafluoroethylene - perfluoro ethyl vinyl ether (EFA) copolymer is preferably used.
[0040]
In the resin film tubular body 2 having such a layer structure, for example, an endless belt made of a polyimide resin is first prepared by a known means, and a release layer is formed on the outer peripheral surface using fluororubber or fluororesin. Then, a fluororesin layer having a thickness of 1 μm to 30 μm is formed by masking the unprocessed part as a liquid-repellent processed part on the inner end part and the entire inner surface of the endless belt, spray-coating, drying, and forming a melt film. Form and make. At this time, if necessary, an adhesive primer may be used, or an endless belt made of a polyimide resin by a known means may be applied prior to the crosslinking reaction of the polyimide resin at the time of production.
[0041]
Hereinafter, other members of the present embodiment will be described.
The fixing roll 1 as a fixing member is not particularly limited in shape, structure, size, etc., and can be appropriately selected from those known per se according to the purpose. The heat-fixing roll generally has a cylindrical core and an elastic layer formed on the surface thereof, and includes a heating source inside the core. Further, a release layer may be formed on the surface of the elastic layer. The formation of the release layer is advantageous in that the offset of the toner image can be suitably prevented and the image fixing apparatus can be operated in a stable state.
[0042]
The material of the core is not particularly limited as long as the material is excellent in mechanical strength and heat conductivity, and examples thereof include metals such as aluminum, SUS, iron, and copper, alloys, ceramics, and FRM.
[0043]
The material of the elastic layer can be appropriately selected from known materials for the elastic layer, and examples thereof include silicone rubber and fluororubber. In the present invention, among these materials, silicone rubber is preferable because it has a small surface tension and is excellent in elasticity. Examples of the silicone rubber include RTV silicone rubber and HTV silicone rubber. Specifically, polydimethyl silicone rubber (MQ), methyl vinyl silicone rubber (VMQ), methyl phenyl silicone rubber (PMQ), fluoro Examples include silicone rubber (FVMQ).
[0044]
The thickness of the elastic layer is usually 3 mm or less, preferably 0.5 to 1.5 mm. There is no restriction | limiting in particular as a method of forming an elastic layer in the surface of a core, For example, the coating method etc. well-known per se are employable. Examples of the coating method include kneader coating, bar coating, curtain coating, spin coating, dip coating, and the like. In the present invention, among these, dip coating can be suitably employed.
[0045]
The material of the release layer is not particularly limited as long as it exhibits an appropriate release property for the toner image, and examples thereof include fluorine rubber, silicone rubber, and fluorine resin. Among these materials, a fluororesin is preferable. Examples of the fluororesin include tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer (PFA), tetrafluoroethylene-perfluoromethyl vinyl ether copolymer (MFA), and tetrafluoroethylene-perfluoroethyl vinyl ether copolymer (EFA). , Polytetrafluoroethylene (PTFE), tetrafluoroethylene-hexafluoropropylene copolymer (FEP), polyethylene-tetrafluoroethylene (ETFE), polyvinylidene fluoride (PVDF), polychlorotrifluorinated ethylene (PCTFE), fluoride Fluoropolymers such as vinyl (PVF) are mentioned. Polytetrafluoroethylene (PTFE) and tetrafluoroethylene-perfluoroalkyl vinyl ether are particularly preferred from the viewpoints of heat resistance and mechanical properties. Coalescence (PFA) tetrafluoroethylene - perfluoro methyl vinyl ether copolymer (MFA), tetrafluoroethylene - perfluoro ethyl vinyl ether (EFA) copolymer is preferably used.
[0046]
As a thickness of a mold release layer, it is 10-100 micrometers normally, Preferably it is 20-30 micrometers. There is no restriction | limiting in particular as a method of forming the said mold release layer in the surface of the said core, For example, the coating method mentioned above etc. are mentioned. Moreover, the method of coat | covering the tube formed by extrusion molding is mentioned.
[0047]
The fixing member is not limited to the fixing roll 1 and may be appropriately selected such as a roll shape or a belt shape as long as the fixing member can be rotated.
[0048]
The heating sources 11 and 21 are not limited to a type in which the fixing roll 1 is heated internally, for example, as long as the nip portion is heated. As well as the one that heats the nip part, as well as the one that heats the resin film tubular body 2 and the pressing member A, the one that heats the nip part, the one that the belt-like fixing member itself generates heat by electromagnetic induction heating, etc. You can choose.
[0049]
The pressing member A has a configuration in which the elastic body 32 is mounted on the support 31 and the sheet-like member 33 is covered. If the pressing member A is fixedly disposed and presses the resin film tubular body 2 toward the fixing roll, the pressing member A is appropriately used. However, from the viewpoint of preventing deterioration due to heat at the time of fixing, it is preferable to use a material having heat resistance.
[0050]
The material of the sheet-like member 33 may be composed of a single layer or may be composed of a plurality of layers, but is a porous fiber provided with lubricant retention on the contact surface side with the resin film tubular body 2 It is preferable to have a layer. The porous fiber layer is made of a resin having a large number of fine pores. For example, the porous fiber layer is made porous by foaming the resin, or made porous by stretching the resin uniaxially or biaxially. Or what was manufactured by baking shaping | molding etc. can be used, for example, what made the fiber woven with these porous resin and porous resin into a thin film can be used.
[0051]
The porous fiber layer may be composed of a fiber woven fabric made of a resin made porous by weaving the fiber, even if the fiber itself is not made porous, By using fibers woven with the porous resin, the fiber woven fabric is more preferable because the porous resin itself and the porous resin itself are impregnated with the lubricant.
[0052]
The porous fiber layer is made of a resin having a large number of fine pores. For example, the porous fiber layer is made porous by foaming the resin, or made porous by stretching the resin uniaxially or biaxially. Or sintered molding. Here, in a mode in which a porous resin layer obtained by stretching a resin in a uniaxial or biaxial direction to make it porous is used, for example, fibers woven with the porous resin (porous resin fiber woven fabric) In addition, it is preferable that the porous resin fiber woven fabric and the porous resin thin film (porous resin film) are laminated by using a conventionally known heat fusion method or adhesion method. The porous resin layer may be composed of a fiber woven fabric made of a resin made porous by weaving the fibers, even if the fibers themselves are not made of a porous resin, As described above, by using a fiber woven with a porous resin (porous resin fiber woven fabric) or the like, not only the fiber woven fabric but also the porous resin itself is held in a state impregnated with the lubricant. Therefore, it is even more desirable.
[0053]
The material of the porous fiber layer may be appropriately selected from polyethylene resin, fluororesin, etc., but considering heat resistance, releasability, durability, slidability, etc., porous PTFE (polypropylene) Tetrafluoroethylene), PFA (tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer), and FEP (tetrafluoroethylene-hexafluoropropylene copolymer) are preferably used.
[0054]
It is also preferable that the sheet-like member 33 has a lubricant permeation preventing layer for preventing the permeation of the lubricant on the pressing member A side of the porous resin layer. By providing this lubricant permeation preventing layer, the lubricant is not exhausted. It can be suppressed more.
[0055]
The lubricant permeation preventive layer may be appropriately selected from a heat resistant resin film or a metal film which has heat resistance and does not allow the lubricant to permeate, but FEP (in consideration of cost, workability, flexibility, etc.) Tetrafluoroethylene-hexafluoropropylene copolymer) is preferred.
[0056]
Here, it is preferable to hold the lubricant in the sheet-like member 33, that is, to hold the lubricant in the porous resin layer. However, in this method, the porous resin layer is impregnated with the lubricant in advance. Alternatively, it may be applied to the porous resin layer itself or the inner surface of the resin film tubular body 2 from the outside, and the lubricant may be supplied to the porous resin layer via the resin film tubular body 2. . Here, in the latter embodiment, from the viewpoint of supplying the lubricant simply and stably, it is preferable to include a lubricant supply means for supplying the lubricant to the inner peripheral surface of the resin film tubular body 2. .
[0057]
It is important that the lubricant has excellent lubricity, but this index has kinematic viscosity. When used in a fixing device, it is necessary to consider heat resistance, volatility, and the like. In this respect, silicone oil is preferable, and amino-modified silicone oil having superior wettability is more preferable. In addition, when superior performance is required due to heat resistance, it is also preferable to use methylphenyl silicone oil. In addition, in order to improve heat resistance, it is also possible to add a trace amount antioxidant in silicone oil.
[0058]
As the lubricant, it is particularly desirable to use an amino-modified silicone oil containing an antioxidant, but at least the lubricant is held as the sheet-like member 33 interposed between the resin film tubular body 2 and the pressing member A. It has been found that the use of a porous resin layer and a lubricant permeation preventive layer disposed on the pressing member side of the porous resin layer expands the types of silicone oil that can be used. By combining with the sheet-like member 33, amino-modified silicone oil, dimethyl silicone oil, mercapto-modified silicone oil, hindered amine oil which is an amino-modified silicone oil containing an antioxidant can be used. It is particularly desirable to use a hindered amine oil that has high heat resistance and little thermal degradation.
[0059]
In the embodiment using silicone oil as the lubricant, the viscosity is preferably 50 to 3000 cs at room temperature. Here, the lower limit value is determined based on the viewpoint of preventing unnecessary evaporation of the silicone oil, while the upper limit value is a factor that increases the sliding resistance of the silicone oil. It is determined based on the viewpoint to prevent.
[0060]
In any of the above-described embodiments, it is needless to say that the present invention is not construed in a limited manner and can be realized within a range satisfying the requirements of the present invention.
[0061]
【The invention's effect】
As described above, according to the present invention, it is possible to prevent the exhaustion of the lubricant, to form a uniform layer of the lubricant during the rotation of the fixing member over a long period of time, and to slide between the resin film tubular body and the pressing member Resin film tubular body capable of preventing an increase in resistance and preventing slippage between the resin film tubular body and the fixing member and adhesion of the lubricant to the sheet. And a fixing device using the same.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram illustrating a fixing device including a fixing tubular body according to an embodiment of the present invention.
2A and 2B are views showing one embodiment of a fixing tubular body according to an embodiment of the present invention, wherein FIG. 2A is a developed plan view, and FIG. 2B is a cross-sectional view.
3A and 3B are views showing another embodiment of the fixing tubular body according to the embodiment of the present invention, in which FIG. 3A is a developed plan view, and FIG. 3B is a cross-sectional view.
[Explanation of symbols]
1 Fixing roll
2 Tubular resin film
4 recording media
11 Heating source
31 Support
32 Elastic body
33 Sheet-like member
35 Driving Guide
41 Toner image
201 Tubular film substrate
202 Release layer
203 Liquid repellent finish
204 Liquid repellent raw part
A Pressing member
n Nip part

Claims (15)

A fixing member that is rotatably installed;
A fixing tubular body that is rotatably arranged in pressure contact with the fixing member and in which a recording medium carrying an unfixed toner image is sandwiched between nip portions formed between the fixing member and the fixing member;
A pressing member that is disposed inside the fixing tubular body and presses the fixing tubular body toward the fixing member;
A sheet-like member interposed between the fixing tubular body and the pressing member;
A lubricant interposed between the fixing tubular body and the sheet-like member;
A heating source for heating the nip portion;
A fixing tubular body for use in a fixing device comprising:
It is provided at both ends of the inner surface of the tubular body at a predetermined interval with respect to the direction of rotation of the tubular body, and is inclined with respect to the width direction of the tubular body from the inner surface end of the tubular body to the central portion in the direction opposite to the direction of rotation of the tubular body. Provided with a liquid repellent processing part that repels the lubricant,
In addition, the inner surface of the tubular body is provided with the liquid repellent processed portion together with the liquid repellent processed portion, and the contact angle of the liquid repellent processed portion with the lubricant and the contact angle of the liquid repellent processed portion with respect to the lubricant. The fixing tubular body characterized in that the difference with the above is 10 degrees or more. The fixing tubular body according to claim 1, wherein the lubricant is silicone oil . The fixing tubular body according to claim 1 , wherein the liquid repellent portion includes a fluororesin. The fixing tubular body according to claim 1 , wherein the liquid repellent portion includes polytetrafluoroethylene (PTFE). The fixing tubular body according to claim 1 , wherein the liquid repellent unprocessed portion is formed of a porous body. The fixing liquid tubular body according to claim 1 , wherein the liquid repellent unprocessed portion includes a polyimide resin. 2. The fixing tubular body according to claim 1 , wherein the liquid repellent raw portion includes a polybenzimidazole resin. A fixing member that is rotatably installed;
A fixing tubular body that is rotatably arranged in pressure contact with the fixing member and in which a recording medium carrying an unfixed toner image is sandwiched between nip portions formed between the fixing member and the fixing member;
A pressing member that is disposed inside the fixing tubular body and presses the fixing tubular body toward the fixing member;
A sheet-like member interposed between the fixing tubular body and the pressing member;
A lubricant interposed between the fixing tubular body and the sheet-like member;
A fixing device comprising: a heating source for heating the nip portion;
A fixing device wherein the fixing tubular body, characterized in that it is a fixing tubular body according to any one of claims 1 7. The fixing device according to claim 8 , wherein the sheet-like member has a porous fiber layer having a lubricant retaining property on a contact surface side with the fixing tubular body. The fixing device according to claim 9 , wherein the sheet-like member has a lubricant permeation preventing layer that prevents permeation of the lubricant on the pressing member side of the porous resin layer. The fixing device according to claim 8 , wherein the sheet-like member has a fluororesin layer having a fine uneven shape on a contact surface side with the fixing tubular body. The fixing device according to claim 8 , wherein the lubricant is a silicone-based oil. The fixing device according to claim 8 , wherein the lubricant is an amino-modified silicone oil. The fixing device according to claim 8 , wherein the lubricant is methylphenyl silicone oil. The fixing device according to claim 8 , wherein the lubricant is perfluoropolyether oil.

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