JP2007302395A - Image forming device and sheet straightening device used therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To effectively straighten a curl while reliably avoiding any defective traveling property to a sheet such as a cardboard associated with the mechanical curl straightening, and damages on a sheet or an image. <P>SOLUTION: In an image forming device comprising at least a fixing device 1 for fixing an image G on a sheet 2 by utilizing the heat and a sheet straightening device 3 provided on the downstream side in the sheet conveying direction of the fixing device 1 to straighten the curl of the sheet 2, the sheet straightening device 3 has a drying means 4 which is also used for a conveying member 8 capable of conveying the sheet 2 fixed by the fixing device 1 and brought into contact with an image non-maintaining surface of the sheet 2, and capable of drying the surface of the conveying member 8, or has a first drying means 5 which is also used for a pair of conveying members 8 (8a, 8b) capable of conveying the sheet 2 fixed by the fixing device 1 in a held manner and capable of drying the surface of one conveying member 8a, and a second drying means 6 capable of drying the other conveying member 8b. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an image forming apparatus such as a copying machine or a printer, and more particularly to an image forming apparatus in which an image on a sheet is fixed using heat and a sheet correction apparatus used therefor.

In general, in an image forming apparatus such as an electrophotographic system or an electrostatic recording system, as shown in FIG. 20, after a toner image (image) is formed on an image forming engine (not shown), the image is formed on a sheet 201 such as paper. A system is employed in which a toner image (image) G is transferred and fixed by a fixing device 210.
As this type of fixing device 210, for example, a method of fixing an image on a sheet by using heat is often used. For example, a structure including a heat fixing member 211 and an opposing fixing member 212 facing the heat fixing member 211 is used. Representative. Here, as the heat fixing member 211, for example, a heat fixing roll having a heating source 211a is used, and as the counter fixing member 212, for example, the heating fixing roll 211 is pressed against the heat fixing roll 211 to rotate and follow the sheet 201 for nip conveyance. A pressure fixing roll or a pressure fixing belt is used.

In this type of fixing device 210, the sheet 201 is deprived of moisture by heat during fixing and contracts.
At this time, as the fixing device 210, the surface temperature of the heat fixing member 211 that is normally positioned on the image holding surface side of the sheet 201 is set to be the surface temperature of the counter fixing member 212 in order to keep the image fixing property on the sheet 201 good. It is often set to a higher temperature than. Under such circumstances, in the fixing nip region of the fixing device 210, a temperature difference inevitably occurs between the fixing members 211 and 212. Therefore, a difference occurs in the dehumidification process on both surfaces (front and back surfaces) of the sheet 201. End up. Then, for example, even if the dehumidification process on both sides of the sheet 201 is substantially uniform before fixing, a difference occurs between the dehumidification process on one side of the sheet 201 and the dehumidification process on the other side. For this reason, there is a technical problem that a difference occurs in the shrinkage amount on both surfaces of the sheet 201, and the sheet 201 curls depending on the shrinkage difference.

In this case, as shown in FIG. 20, when the sheet 201 that has passed through the fixing device 210 is discharged to the discharge tray 220 by the discharge roll 215, the sheet 201 is stacked while being curled CL in a predetermined direction. There is a concern that the capacity of the sheet 201 at 220 may be impaired.
As a means for solving such a problem associated with curling, for example, a technique described in Patent Document 1 has already been proposed.
In the prior art described in Patent Document 1, a curl correction device 230 capable of correcting the curl of the sheet 201 is disposed on the downstream side of the fixing device 210 as shown in FIG. The curl correcting device 230 includes a curl correcting roll pair 231 configured by a shaft 232 and a soft nip roll (an embodiment in which a roll member made of a soft member is disposed on a shaft member) 233. The curl of the sheet 201 is mechanically corrected by passing the curled sheet 201.

Japanese Patent Laying-Open No. 2005-35731 (Best Mode for Carrying Out the Invention, FIG. 2)

However, since this type of sheet straightening apparatus has a structure in which the sheet 201 is inserted into the curl straightening roll pair 231, for example, when the sheet 201 is thick paper, the sheet 201 in the curl straightening roll pair 231 is used. There is also a concern that the sheet 201 may be jammed without being smoothly guided to the curl correction roll pair 231. Furthermore, since the curl correction roll pair 231 comes into contact with the surface of the sheet 201 immediately after fixing, the curl correction roll pair 231 rubs and conveys the sheet 201, and the image on the sheet 201 is left with an amount of scratch. There is a technical problem that wrinkles occur in the sheet 201.
That is, in the conventional mechanical sheet correction method, there is a concern that the running property with respect to a sheet such as cardboard is likely to be unstable, and the sheet and the image are easily damaged.

  The present invention has been made in order to solve the above technical problems, and reliably avoids poor running performance on sheets such as cardboard and damage to sheets and images, which are problems associated with mechanical curl correction. An image forming apparatus capable of effectively correcting curling and a sheet correcting apparatus used therefor are provided.

  That is, as shown in FIG. 1A, the present invention provides a fixing device 1 for fixing an image G on a sheet 2 using at least heat, and a sheet provided on the downstream side of the fixing device 1 in the sheet conveying direction. In the image forming apparatus including the sheet correction device 3 that corrects the curl 2, the sheet correction device 3 can transport the sheet 2 fixed by the fixing device 1 and contacts the image non-holding surface of the sheet 2. It is characterized by having a drying means 4 that also serves as the conveying member 8 and allows the surface of the conveying member 8 to be dried.

Further, as shown in FIG. 1B, another aspect of the present invention includes a fixing device 1 that fixes an image G on a sheet 2 using at least heat, and a downstream side of the fixing device 1 in the sheet conveying direction. In the image forming apparatus provided with the sheet correction device 3 provided to correct the curl of the sheet 2, the sheet correction device 3 can convey a pair of sheets 2 fixed by the fixing device 1 while being sandwiched. It has the 1st drying means 5 which also serves as conveyance member 8 (8a, 8b), and dries the surface of one conveyance member 8a, and the 2nd drying means 6 in which the other conveyance member 8b is dried. It is characterized by.
FIGS. 1A and 1B are schematic views of an image forming apparatus for explaining the present invention, and the present invention is of course not limited to the embodiment shown in FIGS. 1A and 1B. It is.

In such technical means, the fixing device 1 may be appropriately selected as long as it is based on a fixing method using heat. However, the fixing device 1 has a heating fixing member 1a having a heating source and an opposing surface. Many aspects including the fixing member 1b are employed.
Here, examples of the heat-fixing member 1a include a heat-fixing roll whose surface can be heated by a heat source, and a mode in which the heat source is provided inside, a mode in which heating is performed from the outside, or both It is possible to select appropriately a combination of the above. The opposing fixing member 1b may be any member as long as it is disposed opposite to the heat fixing member 1a, such as a pressure fixing roll or a fixing belt that is pressed against the heat fixing member 1a and rotates following it and nips the sheet 2. Can be mentioned. Further, in a mode in which a fixing belt is used as the opposing fixing member 1b, a pressure pad is disposed on the back surface of the fixing belt from the viewpoint of securing a fixing nip region between the heat fixing member 1a and the fixing belt. A mode in which the fixing belt is pressed against the heat fixing member 1a with this pressure pad is preferable.
Furthermore, although it is not necessary to provide a heating source for the opposing fixing member 1b, for example, an auxiliary heating source may be provided for holding and heating the sheet 2, for example.
The fixing device 1 does not particularly limit the surface temperature of the fixing members 1a and 1b in the fixing nip region between the heat fixing member 1a and the opposing fixing member 1b. From the standpoint of maintaining a good state, the surface temperature of the heat fixing member 1a located on the image holding surface side of the sheet 2 is often set higher than that of the counter fixing member 1b. This is particularly effective in an embodiment in which there is a difference in the surface temperature between the opposite fixing member 1b.

  Further, the sheet correcting device 3 corrects the curl 2c of the sheet 2, but the term "correcting the curl" herein refers to an aspect in which the curl 2c of the sheet 2 is eliminated (an aspect in which the moisture level on the front and back surfaces of the sheet is substantially the same). ), For example, a mode in which the occurrence of curling itself is suppressed, or a favorable predetermined curl is secured in order to maintain good accommodation of the sheet 2 (the moisture levels on the front and back surfaces of the sheet 2 are different) Embodiment).

Here, in the image forming apparatus shown in FIG. 1A, the sheet correction apparatus 3 uses a conveying member 8 that contacts the image non-holding surface of the sheet 2, and the conveying member 8 is dried by the drying unit 4. (Single-sided conveying member drying method) is assumed.
On the other hand, in the image forming apparatus shown in FIG. 1B, the sheet correction apparatus 3 uses a pair of conveying members 8 (8a, 8b) that can be conveyed in a state where the sheet 2 is sandwiched, and each of the conveying members 8 is used. It is assumed that the first and second drying means 5 and 6 are dried (double-sided conveying member drying method).
The drying means 4 (5 or 6) used in the present invention may be appropriately selected as long as the conveying member 8 is dried. Typical examples of the drying means 4 (5 or 6) include an air blowing means and a temperature-setting heater. Is mentioned.

Further, as a typical aspect of the drying means 5 and 6 in the double-sided conveying member drying method shown in FIG. 1B, the first and second drying are performed so as to correct the curl of the sheet 2 generated by the fixing device 1. it is sufficient to vary the drying capacity _M 1, _{M 2} by means 5,6.
That is, the fact that the curl is generated in the sheet 2 is caused by the difference in the moisture level on one surface of the sheet 2 and the other surface. The drying capabilities M ₁ and M ₂ of the drying means 5 and 6 may be made different, the degree of dehumidification by the conveying member 8 (8a and 8b) may be made different, and the moisture levels on both sides of the passing sheet may be made substantially equal.
The first drying means 5 and the second drying means 6 need only be provided corresponding to the pair of conveying members 8 (8a, 8b), respectively, and both can be operated. Although it is an aspect, the aspect which only one side act | operates as needed and the other is a non-operation state is also included.

Further, as a preferable setting method of the drying capacity of each drying advance means 5, 6, the drying capacity M ₂ for the conveying member 8 b contacting the inner surface side in the curl direction of the sheet 2 generated by the fixing device 1 is set on the outer surface side. It shall be set to be higher than drying capacity M ₁ with respect to the transport member 8a contacting the like. This is a setting method viewed from the inner and outer surfaces of the sheet 2 in the curl direction.
Further, as a preferred method of setting the drying capacity of the drying means 5, 6, the drying capacity M ₂ for conveying member 8b in contact with the low temperature side of the sheet 2 discharged from the fixing device 1, its height temperature side It shall be set to be higher than drying capacity M ₁ with respect to the transport member 8a contacting the like. This is a setting method viewed from the level of the surface temperature of the sheet 2.
Furthermore, the preferred method of setting the drying capacity of the drying means 5, 6, the drying capacity M ₂ for conveying member 8b which is in contact with the non-image holding surface side of the sheet 2 discharged from the fixing device 1, the image holding surface It shall be set to be higher than drying capacity M ₁ with respect to the transport member 8a in contact with the side thereof. This is a setting method viewed from the presence or absence of image retention of the sheet 2.

  The drying capacity of each of the drying means 5 and 6 may be set in advance, but is not limited to this, and a drying control means 7 that can be controlled according to the sheet type may be provided. According to this aspect, even if curl deformation due to moisture differs depending on the sheet type, it is preferable in that the drying ability can be controlled according to the sheet type.

Furthermore, in the aspect using the air blowing means as each of the drying means 5 and 6, it is possible to vary the drying ability for the conveying member 8 (8a, 8b) by changing the air blowing ability. . Specifically, it is possible to vary the drying capacity for the conveying member 8 (8a, 8b) using any one or more of air temperature, air volume, and air speed as parameters.
It is also possible to vary the drying capacity using at least air humidity as a parameter. Specifically, it is possible to increase the drying capacity of the conveying member 8 (8b) by blowing air with low humidity.
Furthermore, in the aspect using the heater which can set temperature as each drying means 5 and 6, it is possible to raise the drying capability with respect to the conveyance member 8 (8b) by strengthening the heating temperature degree by a heater.

Further, the present invention is intended not only for the image forming apparatus but also for the sheet correction apparatus 3 itself used in the image forming apparatus.
In this case, as shown in FIG. 1, the present invention provides a sheet correcting device that is provided on the downstream side in the sheet conveying direction of the fixing device 2 that fixes an image on the sheet 2 using at least heat and corrects the curl of the sheet 2. 3, the sheet 2 fixed by the fixing device 1 can be conveyed and also serves as a conveying member 8 that contacts the image non-holding surface of the sheet 2, and has a drying unit 4 that dries the surface of the conveying member 8. Is.
Further, as shown in FIG. 1B, another embodiment of the present invention is provided on the downstream side in the sheet conveying direction of the fixing device 1 that fixes an image on the sheet 2 using at least heat, and curls the sheet 2. In the sheet correction device 3 that corrects the sheet, the pair of conveying members 8 (8a, 8b) that can be conveyed while the sheet 2 fixed by the fixing device 1 is sandwiched are also used, and the surface of one conveying member 8a is It has the 1st drying means 5 dried, and the 2nd drying means 8b by which the other conveyance member 8b is dried.

Next, the behavior of the sheet by the image forming apparatus according to the present invention will be described with reference to FIGS.
-Single-sided conveying member drying method-
First, the single-sided conveying member drying method shown in FIG.
Before fixing by the fixing device 1, it is assumed that the moisture levels on the front and back surfaces of the sheet 2 are substantially balanced as shown in FIG. In the figure, h schematically represents the water vapor unit component impregnated in the sheet 2.
When such a sheet 2 passes through the fixing nip region of the fixing device 1, as shown in FIGS. 1 and 2B, a predetermined amount of heat Q ₁ is transferred from the heat fixing member 1 a to the surface portion ( usually is supplied to the image holding surface side), a predetermined amount of heat Q ₂ from the facing fixing member 1b is supplied to the back surface of the sheet 2 (usually non-image holding surface side). At this time, the amount of heat to Q ₁ from the heating fixing member 1a is if greater than the amount of heat Q ₂ from the opposing fixing member 1b, the water vapor component evaporates from the surface of the sheet 2 is larger than that of the back surface. For this reason, if there is no sheet correction device, the dehumidification process of the front surface portion of the sheet 2 is less than that of the back surface portion as shown in FIG. As a result, there is a difference in the dehumidification process on the front and back surfaces of the sheet 2, and as shown in FIG.

  However, when the sheet 2 passes through the sheet correction device 3 as in the present invention, as shown in FIGS. 1 (a) and 2 (c), the sheet 2 has its back surface (non-image holding surface). The drying means 4 passes the conveying member 8 in contact with the back surface portion (corresponding to the non-image holding surface portion) of the sheet 2 with a drying ability M. In order to dry, the dried conveyance member 8 promotes dehumidification of the back surface portion of the sheet 2. At this time, the drying ability M of the drying means 4 is set so as to correct the curl 2c of the sheet 2, and the degree of dehumidification promotion of the sheet 2 based on the degree of drying of the conveying member 8 by the drying ability M is appropriately set. If it does so, as shown in FIG.2 (d), it will become possible to make the dehumidification process of the front and back of the sheet | seat 2 substantially balance, for example, and it may correct so that the curl 2c of the sheet | seat 2 may be eliminated. It becomes possible.

-Double-sided conveying member drying method-
Next, the double-sided conveying member drying method shown in FIG.
In a mode in which the sheet correction device 3 is not provided, the dehumidification process of the sheet 2 and the generation state of the curl 2c before, during and immediately after the fixing by the fixing device 1 are shown in FIGS. ) (C ′) (d ′) (see FIGS. 3A, 3B, 3C ′, and D ′).
However, when the sheet 2 passes through the sheet correction apparatus 3 as in the present invention, the first drying means 5 is positioned on the surface portion side of the sheet 2 as shown in FIGS. 1 and 3C. with one of the conveying member 8a to be dried in drying capacity M _1, drying the other conveying member 8b that the second drying means 6 is positioned on the back surface side of the seat 2 at drying capacity M _2. For this reason, dehumidification of the front and back surfaces of the sheet 2 is promoted in the process of the nip conveyance of the sheet 2 by the pair of dried conveying members 8 (8a, 8b). At this time, these drying capacity _M 1, _{M 2} are those different as to correct the curl 2c of the seat 2, the drying capacity _{M 2} appropriately set higher than the drying capacity _{M 1,} drying capacity _M 1, _{M 2} If the degree of dehumidification promotion of the sheet 2 based on the degree of dryness of each of the conveying members 8 (8a, 8b) is appropriately adjusted, for example, as shown in FIG. It becomes possible to make the process substantially balanced, and it is possible to correct the curl 2c of the sheet 2 to be eliminated.

According to the image forming apparatus of the present invention, the sheet correction device on the downstream side of the heating type fixing device is devised, and the conveyance member that contacts the non-image holding surface of the sheet is used to correct the curl of the sheet. The conveying member is dried by a drying means, or a pair of conveying members capable of nipping and conveying a sheet is used, and each of these conveying members is dried by a first and second drying means. Since this is done, the following basic effects can be achieved.
(1) Since the conveyance member that contacts the sheet can be used to improve the dehumidification process of the sheet in a direction that eliminates the difference between the dehumidification processes on both sides of the sheet at the time of fixing the sheet, It can be effectively prevented.
(2) Since it becomes possible to correct the curl of the sheet without forcibly bending the sheet as in the case of the mechanical sheet correction method, it may cause poor running performance with respect to sheets such as cardboard and wrinkles on the sheet. In addition, it is possible to effectively avoid the trouble of the mechanical sheet correction method that damages the image on the sheet.
Furthermore, according to the sheet correction apparatus according to the present invention, the sheet curl correction can be easily realized while avoiding the troubles of the mechanical sheet correction method (the poor running performance with respect to the sheet such as cardboard and the wrinkles and image disturbance on the sheet). can do.

Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.
Embodiment 1
FIG. 4 is an explanatory diagram showing an overall configuration outline of the first embodiment of the image forming apparatus to which the present invention is applied.
In FIG. 1, an image forming apparatus has an image forming engine 21 capable of forming an image on a sheet in an apparatus housing 20, and a sheet supply tray 22 is disposed below the image forming engine 21 and the apparatus housing. A sheet discharge tray 23 is disposed on the side of the body 20, and a sheet supplied from the sheet supply tray 22 is sent to the image forming engine 21 via the sheet conveyance path 24, and an image is formed on the sheet by the image forming engine 21. Is discharged to the sheet discharge tray 23.

In the present embodiment, the image forming engine 21 employs, for example, an electrophotographic system, and includes a photosensitive drum 30 capable of forming an electrostatic latent image. A charging device (for example, a charging roll) 31 that charges the body drum 30, an image writing device (for example, a laser scanning device) 32 that writes an electrostatic latent image on the charged photosensitive drum 30, and an electrostatic latent image on the photosensitive drum 30 A developing device 33 that visualizes toner with a toner, a transfer device (for example, a transfer roll) 34 that transfers a toner image formed on the photosensitive drum 30 to a sheet, and a cleaner that cleans residual toner on the photosensitive drum 30. 35 are sequentially arranged.
Further, in the present embodiment, the image forming engine 21 has a fixing device 40 disposed on the downstream side of the transfer device 34 in the sheet conveyance path 24, and the toner image transferred to the sheet is fixed by the fixing device 40. It is supposed to be.

On the other hand, in the present embodiment, the image forming apparatus includes a receiving unit 54 connected to the image reading device 51 and an external device 52 such as a personal computer via a communication line 53. The receiving unit 54 is used as an image recording control unit. The image writing device 32 is connected to the image writing device 32 via the control unit 55, and the image writing device 32 is controlled based on the image data received by the receiving unit 54.
Here, the image reading device 51 may exist as one functional unit of the image forming apparatus, or may exist as a functional unit separate from the image forming apparatus.
The sheet supply tray 22 is provided with a feeder 25 that can supply the storage sheets one by one.
A sheet correction device 60 is disposed on the downstream side of the fixing device 40 in the sheet conveyance path 24, and a discharge roll 26 is disposed immediately before the sheet discharge tray 23 in the sheet conveyance path 24.

In the present embodiment, as shown in FIGS. 5A and 6, the fixing device 40 includes a rotatable heat fixing roll 41 whose surface is heated, and a heat fixing roller disposed in pressure contact with the heat fixing roll 41. A pressure fixing roll 42 that rolls together with the roll 41 is provided.
Here, the heat fixing roll 41 includes, for example, a cylindrical core made of metal such as aluminum having excellent mechanical strength and good thermal conductivity, an elastic layer such as silicone rubber formed on the surface of the core, And a release layer that is coated on the surface of the elastic layer and provided to prevent the offset of the unfixed toner image G on the sheet S. The heat fixing roll 41 includes a heating source 43 such as a halogen lamp in a cylindrical core. As the heat source 43, an external heat source that contacts the surface of the heat fixing roll 41 may be provided separately or in addition.
The pressure fixing roll 42 may be appropriately selected as long as it is press-contacted with the heat fixing roll 41 to form a transfer nip region. For example, the same structure as the heat fixing roll 41 (cylindrical core, elastic However, the present invention is not limited to this and includes a wide range such as those without an elastic layer or a release layer. In this embodiment, the pressure fixing roll 42 is not provided with an auxiliary heating source. However, the auxiliary heating source may be used as necessary.
The fixing device 40 is not limited to the above-described roll pair configuration, and may be appropriately selected as long as it uses at least heat such as an aspect in which a fixing belt is used as at least one of the fixing members.

Further, in the present embodiment, as shown in FIGS. 5A and 6, the sheet correction device 60 is disposed oppositely across the sheet conveyance path 24 so that the sheet S can be nipped and conveyed. , 92, and a first air blowing device 61 is provided at a portion corresponding to one of the conveying rolls 91 with which the front surface side (image holding surface side) of the sheet S comes into contact, and the back surface side of the sheet S (image A second air blowing device 62 is provided at a site corresponding to the other transport roll 92 that contacts the non-holding surface side).
For example, the discharge roll 26 can be used as the transport rolls 91 and 92, but the present invention is not limited to this and may be selected as appropriate. In FIGS. 5A and 6, reference numerals 64 to 66 denote conveyance guides that divide the sheet conveyance path 24. However, the conveyance guide 65 is omitted in FIG.
Here, the first air blowing device 61 has an air duct 70 through which air is blown, and the air duct 70 has a rectangular cross section extending in a direction (sheet width direction) perpendicular to the conveying direction of the sheet S. A blower duct 71, and an L-shaped connection duct 74 that is connected to one end in the longitudinal direction of the blowout duct 71 and opens to the outside of the apparatus housing 20, for example. The air outlets 73 are opened at predetermined intervals along the longitudinal direction at the facing portion, and a blower fan 75 (for example, a propeller fan) is disposed in the vicinity of the opening of the connection duct 74 to open the connection duct 74. The air is blown from the air outlet 73 to the sheet S as an air inlet 76.

The second air blowing device 62 also has substantially the same components 71 to 76 as the first air blowing device 61, but the amount of air Air1 blown by the blower fan 75 of the first air blowing device 61. U ₁ is set to be smaller than the air flow rate U ₂ of the air Air ₂ by the blower fan 75 of the second air blowing device 62.
In the present embodiment, the control device 80 controls the amount of air blown by Air1 and Air2 by the blower fans 75 of the first and second air blowing devices 61 and 62.
That is, as shown in FIGS. 5 (a) and 5 (b), the air blowing amount of each air Air1 and Air2 adjusts the degree of dehumidification promotion from the front surface portion of the sheet S and the degree of dehumidification promotion from the back surface portion of the sheet S. Therefore, the drying capacities M ₁ and M ₂ for the respective transport rolls 91 and 92 are determined, and the dehumidified states W ₁ and W ₂ of the front and back surfaces of the sheet S immediately after passing through the fixing device 40 are taken into consideration. For example, the drying capacities M ₁ and M ₂ are determined so that the dehumidified states W ₁ and W ₂ are substantially balanced.
Further, the control device 80 may determine the air blowing amount of each of the air Air1 and Air2 uniformly, but the air blowing amount of the air Air1 and Air2 is changed according to the sheet type, and the drying capabilities M ₁ and M ₂ are changed. There is no problem even if it is set to be variable.

Next, the operation of the image forming apparatus according to the present embodiment will be described.
As shown in FIGS. 4, 5 (a), and 6, the toner image (image) G on the photosensitive drum 30 is transferred onto the sheet S by the transfer engine 34 by the image forming engine 21. Passes through the fixing device 40.
At this time, since the surface temperature of the heat fixing roll 41 of the fixing device 40 is normally set higher than that of the pressure fixing roll 42, the water vapor evaporated from the surface portion of the sheet S in the fixing nip region of the fixing device 40. The amount of the component is larger than the amount of evaporation from the back side of the sheet S, and if there is no sheet correction device 60, there is a difference in the dehumidification process on the front and back sides of the sheet S. Curling often occurs with the inner surface of the non-holding surface side.
However, when the sheet S in which the curl has occurred passes through the sheet correction device 60, the first air blowing device 61 moves the sheet S in the process in which the sheet S passes through a pair of conveying rolls 91 and 92 (for example, the discharge roll 26). A predetermined amount of air is blown onto one of the conveying rolls 91 in contact with the front surface portion, while a predetermined amount of air is applied to the other conveying roll 92 where the second air blowing device 62 contacts the back surface portion of the sheet S. Spray Air2.

In this state, by making the opening area of the air outlet 73 of the first air blowing device 61 smaller than that of the second air blowing device 62, the air flow rate U ₁ of the air Air1 by the first air blowing device 61. drying for the first by two air blowing device 62 is less than the blowing amount U ₂ of the air AIR2, transport roll 91 drying capacity M ₂ for conveying rolls 92 of the second air blowing device 62 according to the first air blowing device 61 It is set larger than the capacity M _1. For this reason, at the time of sheet correction by the sheet correction apparatus 60, the back surface portion of the sheet S is in contact with the transport roll 92 having a high degree of drying, and the front surface portion of the sheet S is in contact with the transport roll 91 having a low degree of dryness. Is promoted so that dehumidification (water vapor evaporation) from the back surface of the sheet proceeds faster than dehumidification from the front surface of the sheet S.
Here, as shown in FIG. 5 (b), by appropriately selecting the first and second drying capacities M ₁ and M ₂ , the dehumidified states W ₁ and W at the front and back portions of the sheet S are selected. _{If 2} is substantially balanced, the dehumidification process on the front and back surfaces of the sheet S becomes substantially equal, and the curl of the sheet S is effectively corrected.

Further, in order to keep the sheet S in the sheet discharge tray 23 in good condition, the first and second drying capacities M ₁ and M ₂ are required under the request of leaving a slight curl on the sheet S. Is appropriately selected, and a slight difference may be imparted to the dehumidified states W ₁ and W ₂ on the front surface portion and the back surface portion of the sheet S.
In the present embodiment, as shown in FIG. 6, a connection duct 74 is connected to one end of the blowing duct 71 as the air duct 70, and the blower fan 75 is disposed in the connection duct 74. For example, as shown in FIG. 7, only the blowout duct 71 is used as the air duct 70, and a blower fan 77 such as a sirocco fan or a cross flow fan is disposed at one end of the blowout duct 71. You may do it. Of course, depending on the amount of air to be set, the design can be changed as appropriate, such as using a blower instead of the blower fans 75 and 77.

Embodiment 2
FIG. 8 shows a main part of the image forming apparatus according to the second embodiment of the present invention.
In the figure, the image forming apparatus includes a sheet correction device 60 that is substantially the same as that of the first embodiment. However, unlike the first embodiment, the conveyance roll 91 by the first and second air blowing devices 61 and 62 is provided. , 92 (for example, the discharge roll 26), the wind speeds v ₁ and v ₂ are used as the setting parameters of the drying capacities M ₁ and M ₂ instead of the air flow rates U ₁ and U ₂ of the airs Air1 and Air2, respectively. is there. Components similar to those in the first embodiment are denoted by the same reference numerals as those in the first embodiment, and detailed description thereof is omitted here. Further, for the second and subsequent embodiments (excluding the seventh embodiment), the illustration of the control device is omitted.
In the present embodiment, the wind speed v _{1 of the} air Air1 by the blower fan 75 of the first air blowing device 61 is adjusted by adjusting the driving voltage of each blower fan 75 of the first and second air blowing devices 61 and 62. It is set smaller than the wind velocity _{v 2} of the air Air2 by blower fan 75 of the second air blowing device 62, thereby drying capacity _{M 1} with respect to the first, conveying rolls 91 and 92 by the second air blowing device 61, 62 , M ₂ have been determined.
That is, in this embodiment, the wind speed v ₂ of the air Air2 by blower fan 75 of the second air blowing device 62 is set faster than that of the first air blowing device 61, along with this, the transport roll 92 drying capacity M ₂ is set larger than the drying capacity M ₁ with respect to the transport roller 91 against.
By appropriately adjusting the drying capacities M ₁ and M ₂ , the degree of drying of the transport rolls 91 and 92 is determined, and accordingly, the degree of dehumidification promotion from the front surface portion and the back surface portion of the sheet S. Is appropriately adjusted, and the curl of the sheet S is effectively corrected.

Embodiment 3
FIG. 9 shows an essential part of Embodiment 3 of the image forming apparatus according to the present invention.
In the figure, the image forming apparatus includes a sheet correction device 60 that is substantially the same as in the first and second embodiments. However, unlike the first and second embodiments, the first and second air blowing devices 61 and 62 are provided. As the setting parameters of the drying capacities M ₁ and M ₂ for the transport rolls 91 and 92 (for example, the discharge roll 26), the temperature T instead of the air flow rates U ₁ and U ₂ and the wind speeds v ₁ and v ₂ of the airs Air1 and Air2, respectively. ₁ and T ₂ are used.
In the present embodiment, the second air blowing device 62 is provided with a heater 78 in the connection duct 74, and the heater 78 heats the air Air2 from the blower fan 75. The first air blowing device temperature T ₁ of the air Air1 by blowing fan 75 of the device 61 is set lower than the temperature T ₂ of the air Air2 by blower fan 75 of the second air blowing device 62, whereby the first and second air blowing device 61 62, the drying capacities M ₁ and M ₂ for the transport rolls 91 and 92 are determined.
That is, in this embodiment, the temperature T ₂ of the air Air2 by blower fan 75 of the second air blowing device 62 is set higher than that of the first air blowing device 61, along with this, the transport roll 92 drying capacity M ₂ is set larger than the drying capacity M ₁ with respect to the transport roller 91 against.
The curling of the sheet S is effectively corrected by appropriately adjusting the drying capacities M ₁ and M ₂ .

Embodiment 4
FIG. 10 shows an essential part of Embodiment 4 of the image forming apparatus according to the present invention.
In the figure, the image forming apparatus includes a sheet correction device 60 that is substantially the same as that of the third embodiment. However, unlike the third embodiment, the conveyance roll 91 by the first and second air blowing devices 61 and 62 is provided. as configuration parameters drying capacity _M 1, _{M 2} for 92 (for example the discharge roller 26), in which to use a humidity _H 1, _{H 2} instead of the temperature _T 1, _{T 2} of each of the air Air1, AIR2 .
In the present embodiment, as shown in FIGS. 10 and 11, the second air blowing device 62 is provided with a dehumidifying device 79 in the connection duct 74, and the dehumidifying device 79 uses the air from the blower fan 75. is intended to dehumidify AIR2, humidity H ₁ air Air1 by blower fan 75 of the first air blowing device 61 is set higher than the humidity of H ₂ air AIR2 by blower fan 75 of the second air blowing device 62, Accordingly, the drying capacities M ₁ and M ₂ for the transport rolls 91 and 92 by the first and second air blowing devices 61 and 62 are determined.

Here, as the dehumidifying device 79, for example, a low temperature side Peltier element 791 is disposed inside the connection duct 74, and a high temperature side Peltier element 792 is disposed outside the connection duct 74, and these Peltier elements 791, 792 are connected to the harness. The one connected at 793 is used. Further, a dew condensation recovery guide 81 capable of collecting dew condensation water to the outside is provided below the low temperature side Peltier element 791 of the dehumidifying device 79 in the connection duct 74, and a dew condensation recovery tank 82 is provided below the dew condensation recovery guide 81. Is arranged.
That is, in this embodiment, since air Air2 by the air supply fan 75 of the second air blowing device 62 is dehumidified in the dehumidifying device 79, the humidity of H ₂ air Air2 is by the second air blowing device 62 first Accordingly, the drying capacity M ₂ for the transport roll 92 is set to be larger than the drying capacity M ₁ for the transport roll 91. The curling of the sheet S is effectively corrected by appropriately adjusting the drying capacities M ₁ and M ₂ . Further, the dew condensation 83 dehumidified by the dehumidifying device 79 falls downward, and then is collected in the dew condensation collection tank 82 through the dew condensation collection guide 81.
In the present embodiment, the dehumidifying device 79 is provided only in the second air blowing device 62, but the present invention is not limited to this, and the dehumidifying device 79 is provided in the first air blowing device 61. Of course, the drying capacities M ₁ and M ₂ for the transport rolls 91 and 92 may be different.

Embodiment 5
FIG. 12 shows an outline of Embodiment 5 of the image forming apparatus according to the present invention.
In the figure, the image forming apparatus includes a sheet correction device 60 (a first air blowing device 61 and a second air blowing device 62) having a configuration substantially similar to that of the fourth embodiment. The blowing device 61 and the second air blowing device 62 are each provided with an air dehumidifying device 85 different from that of the fourth embodiment.
This sheet correcting device 60 uses a hollow fiber membrane 88 as an air dehumidifying device 85 in the air duct 70 of the first and second air blowing devices 61 and 62. The hollow fiber membrane 88 is a hollow fiber-like separation membrane made of a polymer material, and utilizes the property that water vapor is very permeable and air is hardly permeable. For this reason, the dehumidification principle of the hollow fiber membrane 88 is to discharge water vapor that has permeated to the outside by purging a part of the dry air that passes through the inside of the membrane to the low pressure side that is outside the membrane. is there.

In the present embodiment, as shown in FIGS. 12 and 13, the first and second air blowing devices 61 and 62 are provided with an air compressor (air compressor) 89 on one end side of the air duct 70, A dehumidifying device 85 is provided in the vicinity of the compressed air introduction portion of the air duct 70. The dehumidifying device 85 has a double tube structure including an outer tube 701 and an inner tube 702, and an inner air passage 86 communicating with the air compressor 89 is formed inside the double tube structure, and the outer tube 701 and An outer air passage 87 is formed between the inner pipe 702 and communicates with the atmosphere and branches and communicates with the main body portion 70a of the air duct 70, and the inner pipe 702 is constituted by a hollow fiber membrane 88. .
In particular, in the present embodiment, by appropriately setting the compression air pressure of the air compressor 89 of the first and second air blowing devices 61 and 62, for example, the compression air pressure of the air compressor 89 of the second air blowing device 62 is reduced. Since it is set higher than that of the first air blowing device 61, the dehumidifying device 85 of the second air blowing device 62 is set to have higher dehumidifying performance than the dehumidifying device 85 of the first air blowing device 61. . Of course, parameters other than the compressed air pressure may be used to vary the dehumidifying performance of the dehumidifying device 85 of the present embodiment.

Therefore, according to the present embodiment, in the first and second air blowing devices 61 and 62, the compressed air Air (1) from the air compressor 89 flows through the inner air passage 86 of the dehumidifying device 85, and the air Air ( Most of Air (2) of 1) flows to the main body 70a side of the air duct 70, and part of Air (3) branches, flows into the outer air passage 87, and is discharged into the atmosphere through the exhaust port 703. .
At this time, the air Air (1) flowing through the inner air passage 86 located inside the hollow fiber membrane 88 is high pressure, and the air Air (3) flowing through the outer air passage 87 located outside the hollow fiber membrane 88 is into the atmosphere. Since it is open, it is at a lower pressure than Air (1).
For this reason, due to the pressure difference between the inside and outside of the hollow fiber membrane 88, the water vapor 90 in Air (1) permeates through the hollow fiber membrane 88 and is discharged into the atmosphere together with Air (3).
Therefore, Air (1) flowing through the inner air passage 86 is continuously dehumidified in the region facing the hollow fiber membrane 88 and then sent to the main body 70a of the air duct 70 in a dried state.
In particular, in the present embodiment, since the dehumidifying performance of the dehumidifying device 85 of the second air blowing device 62 is appropriately selected so as to be higher than that of the first air blowing device 61, as shown in FIG. Further, the humidity H ₂ of the air Air ₂ by the second air blowing device 62 is set lower than the humidity H ₁ of the air Air 1 by the first air blowing device 61, and accordingly, the drying capacity M ₂ for the transport roll 92. Is set larger than the drying capacity M ₁ for the transport roll 91.

Therefore, in the present embodiment, the air Air2 blown out from the second air blowing device 62 is lower in humidity than the air Air1 blown out from the first air blowing device 61. Therefore, when the air Air1 and Air2 are blown to the transport rolls 91 and 92, the drying degree of the transport roll 92 is higher than that of the transport roll 91. For this reason, the back surface portion of the sheet S comes into contact with the transport roll 92 with a high degree of drying, and the front surface portion of the sheet S comes into contact with the transport roll 91 with a low degree of dryness. Compared with dehumidification from the surface portion, it is further accelerated. That is, the curl of the sheet S is effectively corrected by appropriately adjusting the drying capacities M ₁ and M ₂ for the transport rolls 91 and 92 by the air blowing devices 61 and 62.
In the present embodiment, the dehumidifying device 85 is provided in each of the first and second air blowing devices 61 and 62. However, the present invention is not limited to this. For example, as in the fourth embodiment, The dehumidifying device 85 may be provided only in the second air blowing device 62.

Embodiment 6
FIG. 14 shows an essential part of Embodiment 6 of the image forming apparatus according to the present invention.
In the figure, the image forming apparatus includes a sheet correcting device 60 different from those in the first to fifth embodiments.
In the present embodiment, the sheet correction device 60 also serves as a pair of conveying rolls 91 and 92 (for example, the discharge roll 26) that are arranged to face each other with the sheet conveying path 24 interposed therebetween, and is disposed at a site separated from the conveying rolls 91 and 92. By adding a low-temperature heater 93 and a high-temperature heater 94, respectively, and appropriately selecting the temperatures T ₁ and T ₂ (T ₁ <T ₂ ) of the heaters 93 and 94, the drying capacities M ₁ and M ₂ is made different.
That is, in this embodiment, the low-temperature heater 93 constitutes a drying device for one conveyance roll 91, and the high-temperature heater 94 constitutes a drying device for the other conveyance roll 92, and a pair of sheets S that have passed through the fixing device 40. When passing through the transport rollers 91 and 92, the sheet S is dehumidified in the contact nip region on the front and back surfaces of the sheet S.
In this case, in the present embodiment, since the drying capacity _{M 2} for conveying rolls 92 due to high temperature heater 94 (temperature _{T 2)} is set higher than the drying capacity _{M 1} against the conveying roller 91 by a low temperature heater 93 (temperature _{T 1)} The drying degree of the conveying roll 92 is higher than the drying degree of the conveying roll 91. For this reason, the back surface portion of the sheet S comes into contact with the transport roll 92 with a high degree of drying, and the front surface portion of the sheet S comes into contact with the transport roll 91 with a low degree of dryness. Compared with dehumidification from the surface portion, it is further promoted. In other words, the curling of the sheet S is effectively corrected by appropriately adjusting the drying capacities M ₁ and M ₂ for the transport rolls 91 and 92 by the low temperature and high temperature heaters 93 and 94.

◎ Embodiment 7
FIG. 15A shows a main part of the image forming apparatus according to the seventh embodiment of the present invention.
In the figure, the image forming apparatus includes a sheet correction device 60 different from those in the first to sixth embodiments.
In the present embodiment, the sheet correction device 60 blows air corresponding to the transport roll 92 that contacts the back surface portion of the sheet S, out of the pair of transport rolls 91 and 92 that are arranged to face each other across the sheet transport path 24. A device 63 is provided.
The air blowing device 63 is configured in substantially the same manner as the air blowing devices 61 and 62 of the first embodiment. In this embodiment, the air blowing amount U by the blower fan 75 is controlled by the control device 80. The
That is, as shown in FIGS. 15A and 15B, the air flow rate U of the air air determines the drying capacity M for the transport roll 92 in order to adjust the degree of dehumidification promotion from the back surface of the sheet S. In consideration of the dehumidified states W ₁ and W ₂ of the front surface and the back surface of the sheet S immediately after passing through the fixing device 40, for example, the drying is performed so that these dehumidified states W ₁ and W ₂ are substantially balanced. The ability M is determined.
Further, the control device 80 may uniformly determine the air flow rate U of the air air by the blower fan 75, but may be appropriately selected according to the sheet type.

As described above, in the present embodiment, when the sheet S that has passed through the fixing device 40 passes through the sheet correction device 60, the air blowing device 63 transports the sheet S in the process of passing through the pair of transport rollers 91 and 92. Since the roll 92 is dried with the drying capacity M, the back surface portion of the sheet S comes into contact with the transport roll 92 having a high degree of drying, and accompanying this, dehumidification (water vapor evaporation) from the back surface portion of the sheet S occurs. It is promoted to proceed faster than natural dehumidification from the surface portion of S.
Here, as shown in FIGS. 15A and 15B, a dehumidifying state W ₁ at the front surface portion and the back surface portion of the sheet S is selected by appropriately selecting the drying ability M for the transport roll 92 by the air blowing device 63. if the W ₂ so as to substantially balance, dehumidification course of the front and back surfaces of the sheet S becomes substantially equal, curling of the sheet S can be effectively corrected.
In the present embodiment, it is needless to say that the model used in the second embodiment may be used as the sheet correction device 60.

◎ Eighth embodiment
FIG. 16 shows a main part of an image forming apparatus according to an eighth embodiment of the present invention.
In the drawing, the image forming apparatus includes a sheet correction device 60 that is substantially the same as that of the seventh embodiment. However, unlike the seventh embodiment, as a setting parameter of the drying ability M for the transport roll 92 by the air blowing device 63. The temperature T is used instead of the air flow rate U (or wind speed v).
In the present embodiment, the air blowing device 63 is provided with a heater 78 in the connection duct 74 of the air duct 70, and the air 78 from the blower fan 75 is heated by the heater 78 (temperature T). The conveyance roll 92 is dried by Air.
That is, in the present embodiment, the higher the temperature T of the air Air by the blower fan 75 of the air blowing device 63 is set, the larger the drying capacity M for the transport roll 92 is set. For this reason, by appropriately adjusting the temperature T of the air air, the drying capacity M for the transport roll 92 is determined. Based on this dry capacity M, the transport roll 92 that contacts the back surface of the sheet S is dried. The degree is adjusted.
Therefore, the sheet S can be substantially balanced by properly selecting the drying capacity M for the transport roll 92 by the air blowing device 63 so that the dehumidified states W ₁ and W ₂ at the front and back surfaces of the sheet S are substantially balanced. The dehumidification process on the front and back surfaces of the sheet S becomes substantially equal, and the curl of the sheet S is effectively corrected.

Ninth embodiment
FIG. 17 shows a main part of the ninth embodiment of the image forming apparatus according to the present invention.
In the figure, the image forming apparatus includes a sheet correction device 60 that is substantially the same as that of the eighth embodiment. However, unlike the eighth embodiment, as a setting parameter for the drying ability M for the transport roll 92 by the air blowing device 63. The humidity H is used in place of the temperature T of the air air.
In the present embodiment, the air blowing device 63 has a dehumidifying device 79 disposed in the air duct 70 (for example, the connection duct 74: see FIG. 6), and dehumidifies the air Air from the blower fan 75 by the dehumidifying device 79. Accordingly, the drying capacity M for the transport roll 92 by the air blowing device 63 is determined.
Here, as the dehumidifying device 79, a device using a Peltier element is used as in the fourth embodiment.
That is, in the present embodiment, the air Air from the blower fan 75 of the air blowing device 63 is dehumidified by the dehumidifying device 79, and accordingly, the dehumidifying is performed on the transport roll 92 that contacts the back surface of the sheet S. Dry air Air is blown. The condensed water dehumidified by the dehumidifying device 79 falls downward and is then collected in the condensation collection tank 82 through a condensation collection guide (not shown).
In this way, by adjusting the dehumidifying action of the dehumidifying device 79, it becomes possible to appropriately select the drying capacity M for the transport roll 92 by the air blowing device 63, and the back surface portion of the sheet S based on the drying capacity M The degree of drying of the transport roll 92 in contact with is adjusted. At this time, when setting the drying capacity M for the transport roll 92, if the dehumidifying states W ₁ and W ₂ on the front surface and the back surface of the sheet S are substantially balanced, the sheet S is removed on the front and back surfaces. The moisture course becomes substantially equal, and the curl of the sheet S is effectively corrected.

[Embodiment 10]
FIG. 18 shows a main part of an image forming apparatus according to the tenth embodiment of the present invention.
In the figure, the image forming apparatus includes a sheet correction apparatus 60 having a configuration substantially similar to that of the ninth embodiment, but includes a dehumidifying device 85 different from that of the ninth embodiment.
This sheet correction device 60 has an air compressor (air compressor) 89 disposed on one end side of an air duct 70 of an air blowing device 63, and a dehumidifying device 85 provided in the vicinity of a compressed air introduction portion of the air duct 70. The hollow fiber membrane 88 is used as the dehumidifying device 85. Since the dehumidifying device 85 is the same as that used in the fifth embodiment, detailed description thereof is omitted here.
Therefore, in the present embodiment, the air blowing device 63 is a low-humidity air Air (which is dry with respect to the transport roll 92 that contacts the back surface portion of the sheet S by substantially the same operation as in the fifth embodiment. Equivalent to Air (2) in FIG. 13, and dehumidification from the back surface of the sheet S is promoted by the transport roll 92 having a high degree of drying.
In this way, by adjusting the dehumidifying action of the dehumidifying device 85, it becomes possible to appropriately select the drying capacity M for the transport roll 92 by the air blowing device 63, and the back surface portion of the sheet S based on the drying capacity M The degree of drying of the transport roll 92 in contact with is adjusted. At this time, when setting the drying capacity M for the transport roll 92, if the dehumidifying states W ₁ and W ₂ on the front surface and the back surface of the sheet S are substantially balanced, the sheet S is removed on the front and back surfaces. The moisture course becomes substantially equal, and the curl of the sheet S is effectively corrected.

◎ Embodiment 11
FIG. 19 shows a main part of an image forming apparatus according to the eleventh embodiment of the present invention.
In the figure, the image forming apparatus includes a sheet correcting device 60 different from those in the seventh to tenth embodiments.
In the present embodiment, the sheet correction device 60 includes a transport roll 92 located on the back side of the sheet S among a pair of transport rolls 91 and 92 (for example, the discharge roll 26) that are disposed to face each other with the sheet transport path 24 interposed therebetween. A heater 95 is disposed at a position apart from the heater 95, and the temperature T of the heater 95 is appropriately selected to adjust the drying ability M of the heater 95 with respect to the transport roll 92.
That is, in this embodiment, the heater 95 constitutes a drying device for the transport roll 92, and the heater 95 indirectly heats the transport roll 92 that contacts the back surface of the sheet S that has passed through the fixing device 40. The transport roll 92 is dried. For this reason, the back surface portion of the sheet S comes into contact with the transport roll 92 having a high degree of drying, and dehumidification from the back surface portion of the sheet S is further promoted compared to natural dehumidification from the front surface portion. That is, the curling of the sheet S is effectively corrected by appropriately adjusting the drying ability M for the transport roll 92 by the heater 25.

(A) is explanatory drawing which shows the outline | summary of the image forming apparatus concerning this invention, and the sheet correction apparatus used for this, (b) is the image forming apparatus concerning another aspect of this invention, and the sheet correction apparatus used for this. It is explanatory drawing which shows an outline | summary. (A) to (d) and (c ′) and (d ′) schematically illustrate the state of the sheet in each part of the image forming apparatus shown in FIG. 1A and the state of the sheet when there is no sheet correction device. FIG. (A) to (d) and (c ′) and (d ′) schematically illustrate the state of the sheet in each part of the image forming apparatus shown in FIG. 1B and the state of the sheet when there is no sheet correction device. FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory diagram illustrating an overall configuration outline of a first embodiment of an image forming apparatus to which the present invention is applied. (A) is an explanatory view showing a peripheral portion of a fixing device used in the image forming apparatus according to the present embodiment, and (b) is a detailed view showing a sheet correcting action by the sheet correcting apparatus. FIG. 3 is an explanatory diagram illustrating details of a peripheral portion of the fixing device according to the present exemplary embodiment. It is explanatory drawing which shows the deformation | transformation form of the sheet correction apparatus which concerns on Embodiment 1. FIG. FIG. 4 is an explanatory diagram illustrating a main part of an image forming apparatus according to a second embodiment. FIG. 10 is an explanatory diagram illustrating a main part of an image forming apparatus according to a third embodiment. FIG. 10 is an explanatory diagram illustrating a main part of an image forming apparatus according to a fourth embodiment. FIG. 11 is a detailed view of a portion XI in FIG. 10. FIG. 10 is an explanatory diagram illustrating a main part of an image forming apparatus according to a fifth embodiment. FIG. 13 is a detailed view of a portion XIII in FIG. 12. FIG. 10 is an explanatory diagram illustrating a main part of an image forming apparatus according to a sixth embodiment. (A) is explanatory drawing which shows the principal part of the image forming apparatus which concerns on Embodiment 7, (b) is detail drawing which shows the correction | amendment effect | action of the sheet | seat by a sheet correction apparatus. FIG. 10 is an explanatory diagram illustrating a main part of an image forming apparatus according to an eighth embodiment. FIG. 10 is an explanatory diagram illustrating a main part of an image forming apparatus according to a ninth embodiment. FIG. 16 is an explanatory diagram illustrating a main part of an image forming apparatus according to Embodiment 10; FIG. 20 is an explanatory diagram showing a main part of an image forming apparatus according to an eleventh embodiment. It is explanatory drawing which shows an example of the conventional image forming apparatus. It is explanatory drawing which shows the other example of the conventional image forming apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Fixing device, 1a ... Heating fixing member, 1b ... Opposing fixing member, 2 ... Sheet, 2c ... Curl, 3 ... Sheet correction device, 4 ... Drying means, 5 ... First drying means, 6 ... Second drying means, 7 ... drying control means 8 (8a, 8b) ... conveying member, G ... image, M, _{M 1,} M 2 _... drying capacity

Claims (14)

An image forming apparatus comprising: a fixing device that fixes an image on a sheet using at least heat; and a sheet correction device that is provided downstream of the fixing device in a sheet conveyance direction and corrects the curl of the sheet.
The sheet correction device is characterized by having a drying unit that can also transport a sheet fixed by the fixing device and that also serves as a transport member that contacts an image non-holding surface of the sheet, and that dries the surface of the transport member. Image forming apparatus. An image forming apparatus comprising: a fixing device that fixes an image on a sheet using at least heat; and a sheet correction device that is provided downstream of the fixing device in a sheet conveyance direction and corrects the curl of the sheet.
The sheet correction device also serves as a pair of conveying members that can be conveyed in a state where the sheet fixed by the fixing device is sandwiched,
A first drying means for drying the surface of one transport member;
An image forming apparatus comprising: a second drying unit that dries the other conveying member. The image forming apparatus according to claim 1 or 2,
An image forming apparatus, wherein the drying means is air blowing means. The image forming apparatus according to claim 1 or 2,
An image forming apparatus, wherein the drying means is a heater whose temperature can be set. The image forming apparatus according to claim 2.
An image forming apparatus, wherein the drying ability of the first and second drying means is varied so as to correct the curl of the sheet generated by the fixing device. The image forming apparatus according to claim 5.
Each drying means is characterized in that the drying capacity for the conveying member in contact with the inner surface side in the curl direction of the sheet generated by the fixing device is set to be higher than the drying capacity for the conveying member in contact with the outer surface side. Image forming apparatus. The image forming apparatus according to claim 5.
Each drying means is set such that the drying ability of the sheet discharged from the fixing device with respect to the conveying member in contact with the low temperature surface side is higher than the drying ability with respect to the conveying member in contact with the high temperature surface side. An image forming apparatus. The image forming apparatus according to claim 5.
Each drying means is set so that the drying ability of the sheet discharged from the fixing device to the conveying member in contact with the image non-holding surface side is higher than the drying ability of the conveying member in contact with the image holding surface side. An image forming apparatus. The image forming apparatus according to claim 1 or 2,
An image forming apparatus comprising a drying control unit capable of controlling a drying capacity of a drying unit according to a sheet type. The image forming apparatus according to claim 5.
Each of the drying means is an air blowing means, and the drying capability is varied using at least one of air temperature, air volume and wind speed as parameters. The image forming apparatus according to claim 5.
Each of the drying means is an air blowing means, and at least the humidity of air is used as a parameter, and the drying ability is varied. The image forming apparatus according to claim 5.
Each drying means is a heater whose temperature can be set, and an image forming apparatus characterized in that the drying capacity varies with the temperature of the heater as a parameter. In the sheet correction apparatus for correcting the curl of the sheet provided at the downstream side in the sheet conveying direction of the fixing apparatus that fixes the image on the sheet using at least heat,
A sheet correction apparatus comprising a drying unit that can also convey a sheet fixed by a fixing device and that is in contact with an image non-holding surface of the sheet, and that dries the surface of the conveyance member. In the sheet correction apparatus for correcting the curl of the sheet provided at the downstream side in the sheet conveying direction of the fixing apparatus that fixes the image on the sheet using at least heat,
Combined with a pair of conveying members that can be conveyed in a state where the sheet fixed by the fixing device is sandwiched,
A first drying means for drying the surface of one transport member;
And a second drying means for drying the other conveying member.

Images