JP2009271175A - Fixing device and image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fixing device, stably applying enough oil to a second nip forming member such as a pressure member, and to provide an image forming apparatus using the same. <P>SOLUTION: In the fixing device, a fixing belt 12 rotatably provided and a pressure roller 13 rotatably provided under the fixing belt 12 are disposed in contact with each other to form a fixing nip part N, and the fixing device includes an oil applicator 22 having: an oil pan 22a holding oil O and provided below the pressure roller 13, in which the pressure roller 13 is partially dipped; and a blade 22b provided on the downstream side of the pressure roller 13 from the oil pan 22a and also on this side of the fixing nip part N to thereby regulate the quantity of oil adhering to the pressure roller 13. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a fixing device and an image forming apparatus including the fixing device, and more specifically, a fixing device that heats and fixes toner on a transported sheet and a toner image formed by using an electrophotographic method is transferred onto the sheet. The present invention relates to an image forming apparatus provided with the fixing device such as a copying machine, a printer, a facsimile machine, or a complex machine for fixing an image later.

  In a fixing device in an electrophotographic image forming apparatus such as a copying machine or a printer, fixing performance is maintained while oil is used for a fixing member or the like to improve releasability from toner. In particular, in a full-color electrophotographic apparatus, a lot of oil is used in the fixing device.

  In recent years, the use of an endless fixing belt as a fixing member of a fixing device is often employed because of shortening of the warm-up time. For example, as shown in FIG. 1, a fixing belt 92 that is stretched over a fixing roller 84 and a heating roller 83 with a certain tension, and a pressure rotatively contacting the fixing belt 92 to form a fixing nip portion A. There is a fixing device configured to include a pressure roller 85 (see, for example, Patent Document 1).

  Here, an oil application roller R1 is provided as an oil application device for applying oil to the fixing belt 92, and the oil supplied from an oil supply unit (not shown) is rotated by the rotating oil application roller R1. The abutment point 95 is applied. Then, the oil-coated portion of the fixing belt 92 moves to the fixing nip portion A by the rotation of the fixing belt 92, and contributes to releasability from the recording medium (transfer paper) onto which the toner image is transferred. Next, in the fixing nip portion A, a part of the oil of the fixing belt 92 has moved to the surface of the pressure roller 85, and the releasability of the pressure roller 85 is also improved. The excess oil in the pressure roller 85 flows into the oil pan 96 below the pressure roller 85 and is collected.

JP 2003-302857 A

  However, in the conventional fixing device, the amount of oil adhering to the pressure member (pressure roller) side may be reduced, and the releasability of the fixed recording medium on the pressure member may deteriorate. . This is a problem particularly in an image forming apparatus in which the recording medium is conveyed at a high linear velocity.

  The present invention has been made in view of the above problems in the prior art, and a fixing device in which a sufficient amount of oil is stably applied to a second nip forming member such as a pressure member and the fixing device An object of the present invention is to provide an image forming apparatus using the above.

The present invention provided to solve the above problems is as follows.
[1] A first nip forming member provided rotatably and a second nip forming member provided rotatably below the first nip forming member are in contact with each other to form a fixing nip portion. An oil tank that holds oil and is provided below the second nip forming member and in which a part of the second nip forming member is immersed, and a rotational downstream side of the second nip forming member from the oil tank And an oil restricting member that is provided in front of the fixing nip portion and restricts the amount of oil adhering to the second nip forming member.
[2] The oil application device according to [1], further including a cleaning member that contacts the second nip forming member and cleans the surface of the second nip forming member between the oil tank and the oil regulating member. Fixing device.
[3] The fixing device according to [1], wherein the oil application device covers an oil level of an oil tank with an oil scattering prevention member.
[4] An image forming apparatus including the fixing device according to any one of [1] to [3].

  According to the present invention, since the second nip forming member (for example, the pressure roller) is immersed in the oil tank to attach the oil, an amount sufficient for the second nip forming member below the fixing nip portion. Oil can be stably applied. Therefore, it is possible to maintain good releasability of the recording medium.

  In the conventional fixing device shown in FIG. 1, the oil applied to the upper fixing belt 92 is transferred to the lower pressure roller 85 at the fixing nip portion, and the releasability of the pressure roller 85 is ensured. It was. However, when an image is formed on a sheet by continuous paper passing, the oil is transferred to the pressure roller 85 only between the sheets (between the sheets). There was a problem that the releasability deteriorated.

  In addition, when the image forming process is performed at a high linear velocity of 300 mm / s or more, for example, 400 mm / s, the fixing device adopts a horizontal path method in which the sheet is conveyed in the horizontal direction. Due to the influence of gravity and further the influence of the nip state between the fixing belt 92 and the pressure roller 85, the sheet tends to be easily wound around the pressure roller 85 on the exit side of the fixing nip portion. The sheet releasability at 85 has been required.

  Therefore, as shown in FIG. 2, a fixing device provided with an oil application functional component R3 for applying oil in contact with the pressure roller 85 has been studied. However, in this method, there is no supply of oil from the outside. Even if there was a small amount, only a small amount of oil could be applied, and the release property in the pressure roller 85 was not sufficient. In particular, in the case of image formation at a high linear velocity or when using a sheet that easily absorbs oil such as coated paper whose surface is coated with a drug in order to obtain high image quality, the pressure roller 13 side is also sufficient. An amount of oil is required, but it was difficult to cope with the method of FIG.

  In addition, the uniformity of the oil adhesion amount distribution in the width direction of the pressure roller 85 was not good, and the influence on the image quality (gloss) due to uneven application of oil was also a problem. At this time, it is conceivable to make the oil adhesion amount distribution uniform by bringing a blade or the like into contact, but since the original oil adhesion amount is small, the friction between the blade and the pressure roller 85 becomes very large, There was a problem of pulsation in which the pressure roller 85 did not rotate smoothly but rotated a little and stopped (referred to as stick-slip).

Furthermore, there are restrictions on the pressure roller 85 side for the oil supply and application method. That is, it is possible to easily supply a large amount of oil to the fixing belt 92 by pouring off the oil from above the fixing belt 92 with respect to the fixing belt 92 disposed above the sheet path. However, the pressure roller 85 is disposed on the lower side of the sheet path, and it is difficult to secure a space for disposing the oil application device above the pressure roller 85.
Accordingly, the inventors have paid attention to the fact that it is relatively easy to secure a space below the pressure roller, and have conducted intensive studies to arrive at the present invention.

The fixing device and the image forming apparatus according to the present invention will be described below.
As shown in FIG. 3, a fixing device 100 according to the present invention includes a fixing member (fixing member) that is a first nip forming member that is stretched between a fixing roller 11 and a heating roller 14 with a constant tension inside a fixing cover 100c. A belt 12), a pressure member (pressure roller 13) which is a second nip forming member that presses the fixing member (fixing belt 12) rotatably and forms a fixing nip N. A separation claw 16a that is disposed on the sheet discharge side of the fixing nip portion N and close to the fixing member (fixing belt 12) and prevents the sheet P from being wound around the fixing member (fixing belt 12); A separation claw 16b which is disposed on the sheet discharge side of the nip portion N and whose tip is in contact with the pressure member (pressure roller 13) and prevents the sheet P from being wrapped around the pressure member (pressure roller 13). , Chestnut A cleaning mechanism 17 for cleaning the fixing belt 12 is pressed against the training web, the.

  Here, the fixing belt 12 is an endless belt and has a two-layer structure in which an elastic layer such as a silicon rubber layer is formed on a base material such as nickel, stainless steel, or polyimide. The fixing roller 11 has a metal core and silicon rubber. In order to shorten the warm-up time, foamed silicon rubber may be used so that the heat of the fixing belt 12 is not easily absorbed. The heating roller 14 is an aluminum or iron hollow roller and has a heat source including a heater 14h such as a halogen heater. The heat source may be an induction heating mechanism (IH). A plurality of hollow pipes are formed in the thick portion of the hollow roller of the heating roller 14 so that the longitudinal direction thereof is the width direction of the heating roller 14, and a heat pipe 14a embedded uniformly in the circumferential direction of the heating roller 14 is provided. Have. The heat pipe 14a improves the heat transfer from the heater 14h to the roller surface, and the fixing belt 12 is heated quickly and uniformly.

  When the fixing device 100 is driven, for example, the fixing belt 12 is rotated in the clockwise direction in the drawing, and the fixing belt 12 discharges the sheet P in a state where an appropriate tension is applied by pressing the tension roller 15 ( In FIG. 3, the pressure roller 13 rotates in a clockwise direction. The roller to be driven is not limited to the fixing roller 11 but may be a pressure roller 13 or a heating roller 14. Further, at the time of fixing, the fixing belt 12 is heated to a predetermined temperature (for example, a temperature suitable for toner fixing) detected by a thermistor (not shown) due to heat generated by a heater 14 h disposed inside the heating roller 14. Is done. In the present invention, the fixing belt 12 (endless belt) shown in FIG. 3 is shown as the fixing member. However, the fixing member is not limited to this and may be a hollow cylindrical roller (fixing roller).

  The pressure roller 13 is a cylindrical roller in which an elastic layer such as silicon rubber is usually provided on a core metal such as aluminum or iron. Further, the pressure roller 13 can be moved to the fixing belt 12 side by a pressure / pressure releasing means (not shown) and pressed, and the pressure roller 13 can be moved away from the fixing belt 12 to release the pressure. When 100 is driven, the pressing / depressurizing means presses the pressing roller 13 against the fixing belt 12 by pressing it toward the fixing belt 12 with a constant pressure. Further, when necessary, such as during fixing, the pressure roller 13 is heated to a predetermined temperature by the heat generated by the heater 13h disposed therein. In the present invention, the form of the pressure roller 13 (roller type) shown in FIG. 3 is shown as the pressure member. However, the present invention is not limited to this, and an endless belt shape spanned between two rollers is used. It is good also as a pressurizing member (belt type).

  In the fixing device 100, the surface of the fixing belt 12 is heated to a predetermined temperature in a state where the fixing belt 12 and the pressure roller 13 are rotationally driven, and the sheet on which the unfixed toner T is formed in the fixing nip portion N. P is passed (paper passing from the right side to the left side in the figure), and fixing is performed by thermally fusing unfixed toner onto the sheet P by pressurization and heating at the fixing nip N.

Next, the toner-fixed sheet P is discharged from the fixing nip portion N. At this time, the sheet P may come out while being wound around the fixing belt 12 or the pressure roller 13. As countermeasures, an oil application device 21 that improves the releasability by applying oil to the fixing belt 12 and an oil application device 22 that improves the releasability by applying oil to the pressure roller 13 are provided. The oil used here is preferably a heat-resistant and non-volatile oil, such as silicone oil. Further, when the leading ends of the separation claws 16 a and 16 b come into contact with the leading end of the sheet P, the sheet P is separated from the fixing belt 12 or the pressure roller 13. The sheet P discharged from the fixing nip portion N passes through a predetermined discharge path and is sent out from the fixing device 100.
Up to this point, the basic configuration of the fixing device 100 is the same as the configuration of the conventional fixing device.

FIG. 4 shows a schematic diagram of a main part of the fixing device according to the present invention.
That is, the fixing device 100 according to the present invention includes a first nip forming member (fixing member (fixing belt 12)) that is rotatably provided and a second nip that is rotatably provided below the first nip forming member. A nip forming member (pressure member (pressure roller 13)) is in contact with the nip forming member (pressure nip portion N) so as to form a fixing nip portion (fixing nip portion N), and holds the oil (oil O) and holds the second portion. An oil tank (oil tank 22a (sub oil pan 22a1)) provided below the nip forming member and in which a part of the second nip forming member is immersed, and the second nip forming member rotating downstream of the oil tank. And an oil application device (oil application device 22) having an oil regulating member (blade 22b) provided on the side and in front of the fixing nip portion to regulate the amount of oil adhering to the second nip forming member.

  Here, the oil tank 22a holds the oil O and a sub oil pan 22a1 that is an immersion tank in which a part of the pressure roller 13 is immersed, and a main oil pan that is an oil receiver in which the entire sub oil pan 22a1 is stored. 22 a 2, which has a two-tank structure and is fixedly arranged in the cover 100 c of the fixing device 100. At this time, the oil O applied to the pressure roller 13 is supplied from the outside of the oil application device 22 to the sub oil pan 22a1, and the oil O is stored in the sub oil pan 22a1. The sub oil pan 22a1 is a rectangular oil pan, and its length in the longitudinal direction is at least equal to the width of the roller portion of the pressure roller 13.

  Further, the pressure roller 13 has the entire width of the roller, and a part of the roller radial direction is always immersed in the sub oil pan 22a1 without any trouble as a device. That is, the oil level of the sub oil pan 2a1 is sufficiently higher than the lower end of the pressure roller 13 in the pressurized state, and the lower end of the pressure roller 13 is in a state where the pressure roller 13 is released. The bottom surface of the sub oil pan 22a1 is not in contact. Note that the oil O only needs to be applied before the sheet P passes through the fixing nip N. Therefore, the pressure roller 13 does not always need to be immersed in the sub oil pan 22a1, for example, the pressure roller 13 rotates. When the operation is started, the pressure roller 13 may be immersed in the sub oil pan 22a1.

  The main oil pan 22a2 is an oil receiver that receives the oil O overflowing from the sub oil pan 22a1. Further, a lower part of the main oil pan 22a2 has a discharge port to an oil tank (described later) for collecting the oil O.

  Note that it is preferable to use a metal material, plastic, or the like that does not react to the oil used and is heat resistant for both the sub oil pan 22a1 and the main oil pan 22a2.

  The blade 22b is a spatula-like elastic member having a width at least equal to or greater than the width of the pressure roller 13, and its longitudinal direction is always in contact with the surface of the pressure roller 13 in the width direction. The oil adhering amount at 13 is regulated to be a predetermined amount while being uniform in the width direction. The blade 22b is made of a material that does not damage the surface of the supply roller 21e, and is formed of, for example, fluororubber.

  Here, the pressure roller 13 is made of a material corresponding to the oil O used on the surface, and is formed of silicon rubber when the coil O is silicone oil, for example. Therefore, when the pressure roller 13 is immersed in the oil O in the oil tank 22a, the silicon rubber swells and holds the oil O, but the blade 22b pressurizes the surface of the pressure roller 13 in this state. The abutment is made at the lower position of the roller 13 so that the oil O is scraped off from the pressure roller 13. Specifically, the blade 22b is disposed so that the angle θ formed between the tip of the blade 22b and the tangent line of the pressure roller 13 is an acute angle of less than 90 degrees, and the tip is opposed to the rotation direction of the pressure roller 13. It functions to scrape off excess oil O on the surface of the pressure roller 13 toward the oil tank 22a. As a result, the surface of the pressure roller 13 is in a state where a sufficient amount of oil is uniform in the width direction to ensure releasability. In addition, surplus oil in the pressure roller 13 is collected in the oil tank 22a, and a circulation system that is used for oil application to the pressure roller 13 again is configured.

  Further, the oil application device 22 preferably has a cleaning felt 22c, which is a cleaning member that contacts the pressure roller 13 and cleans the surface of the pressure roller 13 between the oil tank 22a and the blade 22b. The cleaning felt 22c is a compressed sheet made of, for example, a fiber that does not react with heat-resistant oil (for example, a meta-aramid fiber), and permeates the oil while capturing fine solid impurities inside. It is. Thereby, it is possible to remove fine solid impurities (for example, dust or calcium carbonate derived from the sheet P) in the oil O while leaving the oil O on the surface of the pressure roller 13.

  The cleaning felt 22c is supported by an appropriate support member so as to come into contact with the pressure roller 13. However, the support member should be provided with appropriate spring characteristics, such as a metal material processed by sheet metal. For example, the cleaning felt 22c can be brought into contact with the pressure roller 13 with a constant pressing force to adjust the oil adhesion amount.

With the above configuration, oil application from the oil application unit 22 to the pressure roller 13 is performed as follows.
(S11) First, when driving of the fixing device 100 is started, rotation of the fixing belt 12 starts, and then the pressure roller 13 comes into contact with the fixing belt 12 with a certain pressure by the pressure depressurizing means, and the fixing nip portion. N is formed. At the same time, the pressure roller 13 starts to rotate around the fixing belt 12 by rotating. The pressure roller 13 may be driven and rotated (S12). When the pressure roller 13 starts rotating, the roller surface of the pressure roller 13 immersed in the oil tank 22a (sub oil pan 22a1). However, it is pulled up in the direction of the fixing nip N with the oil O attached.
(S13) Next, the oil O adhering to the surface of the pressure roller 13 passes through the cleaning felt 22c, and solid impurities are removed.
(S14) Next, the adhesion of the oil O on the surface of the pressure roller 13 is regulated by the blade 22b so as to be uniform in the width direction, and in this state, the oil moves to the fixing nip portion N.

  As described above, in the present invention, the oil application is performed by the dipping method using the space below the pressure roller 13 with respect to the pressure roller 13 below the fixing nip portion N. It is possible to supply a stable amount of oil.

FIG. 5 shows a view of the oil application device 22 from above. The blade 22b is omitted.
FIG. 5 shows a state in which the oil level of the oil tank 22a is covered with an oil scattering prevention member 22d. Specifically, the oil splash prevention member 22d covers the area on the liquid level of the sub oil pan 22a1 and the main oil pan 22a2 of the oil tank 22a, excluding the portion where the pressure roller 13 is immersed. Further, covering the oil liquid surface under the cleaning felt 22c may be omitted. Thereby, it is possible to prevent the oil O from being scattered from the oil level of the oil tank 22a due to the rotation of the pressure roller 13 or other vibrations, and adhering to the peripheral device or the sheet P to be contaminated.

  The oil scattering prevention member 22d is preferably a compressed sheet (felt) made of, for example, fibers that do not react with heat-resistant oil (for example, meta-aramid fibers). This may be floated on the liquid surface or may be arranged away from the liquid surface. Alternatively, the oil scattering prevention member 22d may be a plurality of spherical members floated so as to cover the oil liquid level.

  Here, a configuration example is shown in which a fixing member (fixing belt 12) is disposed as the first nip forming member on the upper side of the fixing device, and a pressure member (pressure roller 13) is disposed as the second nip forming member on the lower side. However, the present invention is not limited to this, and a roller type fixing member may be disposed as the first nip forming member on the upper side, and a belt type pressing member may be disposed below the second nip forming member. FIG. 6 shows an example of the configuration. Here, the fixing roller 12a, which is a first nip forming member that is rotatably disposed on the upper side, and the second nip forming member that is rotatably spanned by rollers R11, R14, and R15 below the roller 12a. The fixing nip portion N can be formed by a backup member 13b which is a pressure pad on the back surface of the pressure belt 13a in contact with the pressure belt 13a. In this case, oil is applied to the upper fixing member (fixing roller 12a) by the oil application device 21 of the present invention, and oil is applied to the lower pressure member (pressure belt 13a) by the oil application device 22. It becomes like this.

Next, the image forming apparatus according to the present invention will be described.
FIG. 7 shows the configuration of a tandem type color copying machine which is an image forming apparatus according to the present invention.
The color copying machine 200 includes an image forming unit 200A positioned at the center of the apparatus main body, a paper feeding unit 200B positioned below the image forming unit 200A, and an image reading unit (not shown) positioned above the image forming unit 200A. The fixing device 100 described above is incorporated in the image forming unit 200A.

  The image forming unit 200A is provided with a transfer belt 210 having a transfer surface extending in the horizontal direction, and a configuration for forming an image of a color complementary to the color separation color on the upper surface of the transfer belt 210. Is provided. That is, photoconductors 205Y, 205M, 205C, and 205K as image carriers that can carry images of toners of complementary colors (yellow, magenta, cyan, and black) are juxtaposed along the transfer surface of the transfer belt 210. ing.

  Each of the photoconductors 205Y, 205M, 205C, and 205K is configured by a drum that can rotate in the same direction (counterclockwise direction), and around the optical writing device 201 that performs image forming processing in the rotation process, Charging devices 202Y, 202M, 202C and 202K, developing devices 203Y, 203M, 203C and 203K, primary transfer devices 204Y, 204M, 204C and 204K and a cleaning device are arranged. Each developing device 203Y, 203M, 203C, 203K contains a respective color toner.

  The transfer belt 210 is configured to be able to move in the same direction at a position facing the photoconductors 205Y, 205M, 205C, and 205K by being wound around a driving roller and a driven roller. Further, a transfer roller 212 is provided at a position facing a roller 211 that is one of the driven rollers. Further, the conveyance path of the sheet P from the transfer roller 212 to the fixing device 100 is a horizontal path.

  The sheet feeding unit 200B separates the sheet P in the sheet feeding tray 220 one by one from the top in order from the top to the position of the transfer roller 212. It has a transport mechanism for transporting.

  In image formation in the image forming apparatus 200 of the present invention, the surface of the photoreceptor 205Y is uniformly charged by the charging device 202Y, and an electrostatic latent image is formed on the photoreceptor 205Y based on image information from the image reading unit. Is done. The electrostatic latent image is visualized as a toner image by a developing device 203Y containing yellow toner, and the toner image is primarily transferred onto the transfer belt 210 by a primary transfer device 204Y to which a predetermined bias is applied. Is done. The other photoconductors 205M, 205C, and 205K also form similar images only with different toner colors, and the toner images of the respective colors are sequentially transferred onto the transfer belt 210 by the electrostatic force and superimposed.

Next, the toner image T primarily transferred from the photoconductors 205Y, 205M, 205C, and 205K onto the transfer belt 210 is transferred to the sheet P conveyed by the rollers 211 and 212. The sheet P to which the toner image T has been transferred is further conveyed to the fixing device 100 and is fixed at a fixing nip N between the fixing belt 12 and the pressure roller 13. Appropriate amounts of oil are applied to the fixing belt 12 and the pressure roller 13 by oil application devices 21 and 22, respectively, and if necessary, separation claws 16a and 16b disposed on the exit side of the fixing nip N are provided. Therefore, the sheet P is discharged to the exit side of the fixing nip N without being wound around the fixing belt 12 and the pressure roller 13.
Next, the sheet P discharged from the fixing nip N is sent out to the stacker 215 along the discharge path.

  As described above, in the present invention, the image forming apparatus having the fixing device 100 can provide a more advanced fixing separation function, and can reduce various paper types (from thin paper to thick paper) and images (image leading margin). Possible).

  Note that an oil tank 251 that collects oil for improving the releasability of the sheet P used in the fixing device 100 attached to the fixing device 100, and oil that supplies oil in the oil tank 251 to the fixing device 100 again. An oil circulation mechanism such as a pump 252 is provided.

FIG. 8 shows a schematic configuration of an oil circulation mechanism provided in the image forming apparatus 200.
The oil circulation mechanism 250 includes an oil tank 251 that holds oil to be used, an oil pump 252 that uses a piezoelectric element, a conveyance path 253 that connects the oil pump 252 to the oil application device 21 of the fixing device 100, and an oil application device. 21, an oil receiver 254 that receives excess oil, a tube 255 that conveys the oil in the oil receiver 254 to the oil application device 22, and a conveyance path 256 that connects the oil application device 22 to the oil tank 251. The oil tank 251, the oil pump 252, the transport paths 253 and 256 are outside the fixing device 100, and the oil receiver 254 and the tube 255 are inside the fixing device 100. The oil tank 251 has an oil near-end sensor 251a that detects the remaining amount of oil inside.

In the image forming apparatus 200, oil is circulated and used by the oil circulation mechanism 250 in the following path, so that the oil application devices 21 and 22 can continuously apply the oil to the fixing belt 12 and the pressure roller 13. .
That is, when the image forming process is started, for example, the oil pump 252 pumps up the oil from the oil tank 251 in which a total amount of 4 L of silicone oil is stored, and passes 3 g to the oil coating device 21 via the conveyance path 253. The feed rate is about / min.
Next, surplus oil in the oil application device 21 is collected by the oil receiver 254 and is conveyed via the tube 255 to the sub oil pan 22a1 of the oil application device 22 on the pressure roller 13 side.
Next, after removing impurities from the oil used in the oil application device 22 with a filter, the oil is collected in the oil tank 251 via the transport path 256.

  Although the present invention has been described with the embodiments shown in the drawings, the present invention is not limited to the embodiments shown in the drawings, and other embodiments, additions, modifications, deletions, etc. Can be changed within the range that can be conceived, and any embodiment is included in the scope of the present invention as long as the effects and advantages of the present invention are exhibited.

FIG. 10 is a cross-sectional view illustrating a configuration of a conventional fixing device. It is sectional drawing which shows the structure of the conventional oil application apparatus. FIG. 2 is a cross-sectional view illustrating a configuration of a fixing device according to the present invention. It is sectional drawing which shows the structure of the oil application apparatus in the fixing device which concerns on this invention. It is a top view which shows the structure of the oil application apparatus in the fixing device which concerns on this invention. FIG. 6 is a cross-sectional view showing another configuration example of a pressure member and a fixing member in the fixing device according to the present invention. 1 is a cross-sectional view illustrating a configuration of an image forming apparatus according to the present invention. It is the schematic which shows the structure of the oil circulation mechanism in the image forming apparatus of FIG.

Explanation of symbols

11, 12a, 84 Fixing roller 12, 92 Fixing belt 13, 85 Pressure roller 13a Pressure belt 13b Backup member 13h, 14h, 86, 87 Heater 14, 83 Heating roller 14a Heat pipe 15 Tension roller 16a, 16b Separation claw 17 Cleaning mechanism 21, 22 Oil application device 22a Oil tank 22a1 Sub oil pan 22a2 Main oil pan 22b Blade 22c Cleaning felt 22d Oil scattering prevention member 96 Oil pan 100 Fixing device 100c Fixing cover 200 Image forming device 200A Image forming portion 200B Paper feeding portion 201 Optical writing device 202Y, 202C, 202M, 202K Charging device 203Y, 203M, 203C, 203K Developing device 204Y, 204M, 204C, 204K 1 Next transfer device 205Y, 205C, 205M, 205K Photoconductor 210 Transfer belt 211 Driven roller 212 Transfer roller 215 Stacker 220 Paper feed tray 250 Oil circulation mechanism 251 Oil tank 251a Oil near end sensor 252 Oil pump 253, 256 Transport path 254 Oil receiver 255 Tube O Oil P Sheet (Recording medium)
R1 Application roller R3 Oil application functional parts R11, R14, R15 Roller T Toner

Claims (4)

A first nip forming member provided rotatably,
A second nip forming member rotatably provided below the first nip forming member is disposed so as to contact the second nip forming member so as to form a fixing nip portion;
An oil tank that holds oil and is provided below the second nip forming member and in which a part of the second nip forming member is immersed; and a rotation downstream side of the second nip forming member from the oil tank; A fixing device comprising: an oil application device that includes an oil regulating member that is provided in front of the fixing nip portion and regulates an oil adhesion amount of a second nip forming member.   2. The fixing device according to claim 1, wherein the oil application device has a cleaning member that cleans the surface of the second nip forming member in contact with the second nip forming member between the oil tank and the oil regulating member.   The fixing device according to claim 1, wherein the oil application device covers an oil level of an oil tank with an oil scattering prevention member.   An image forming apparatus comprising the fixing device according to claim 1.

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