Referring to the drawing, the embodiment relating to an image forming apparatus of the present invention will be described below.
Initially, based on the structural view of
The present image forming apparatus is structured by the image forming apparatus main body GH and an image reading apparatus YS.
The image forming apparatus main body GH is called a tandem type color image forming apparatus, and structured by a plurality of sets of the image forming sections 10Y, 10M, 10C, 10K, a belt-like intermediate transfer body 6, feeding sheet passing sheet section and the fixing apparatus 9.
On the upper part of the image forming apparatus main body GH, the image reading apparatus YS composed of an automatic document feeding apparatus 201 and a document image scanning and exposing apparatus 202 is arranged. The document d placed on a platen of the automatic document feeding apparatus 201 is passed through by the passing sheet section, and by an optical system of the document image scanning and exposing apparatus 202, the image of a single surface or double surfaces of the document is scanned and exposed, and read in a line image sensor CCD.
A signal which is photo-electrically converted and formed by the line image sensor CCD is, after in an image processing section, analog processing, A/D conversion, shading correction, and an image compression processing are conducted, sent to the exposing sections 3Y, 3M, 3C, 3K.
The image forming section 10Y for forming the yellow (Y) image arranges a charging section 2Y, exposing section 3Y, developing section 4Y and cleaning section 8Y around the photoreceptor drum 1Y. The image forming section 10 M for forming magenta (M) image arranges the charging section 2M, exposing section 3M, developing section 4M and cleaning section 8M around the photoreceptor drum 1M. The image forming section 10C for forming cyan (C) image arranges the charging section 2C, exposing section 3C, developing section 4C and cleaning section 8C, around the photoreceptor drum 1C. The image forming section 10K for forming black (K) image arranges the charging section 2K, exposing section 3K, developing section 4K and cleaning section 8K around the photoreceptor drum 1K. Then, the charging section 2Y and the exposing section 3Y, charging section 2M and exposing section 3M, charging section 2C and exposing section 3C, and charging section 2K and exposing section 3K, structure a latent image forming section.
Hereupon, the developing sections 4Y, 4M, 4C, 4K contain the 2-component developing agent composing of toners of yellow (Y), magenta (M), cyan (C), and black (K) and carrier.
The intermediate transfer body 6 is wound by a plurality of rollers, and rotatably supported.
The fixing apparatus 100 heats and presses the toner image on the recording sheet (recording material) P by the nip portion formed between the heated fixing roller 101 and the fixing belt 102, and fixes.
In such a manner, the images of each color formed by the image forming sections 10Y, 10M, 10C, 10K, are successively transferred (primary transfer) onto rotating intermediate transfer body 6, by the transfer sections 7Y, 7M, 7C, 7K, and the toner image which is compounded by color images, is formed. The recording sheet P accommodated in the sheet feeding cassette 20 is fed by the sheet feeding section 21, and via sheet feeding rollers 22A, 22B, 22C, 22D, register roller 23, passed through to the transfer section 7A, and the color image is transferred onto the recording sheet P (secondary transfer). The recording sheet P onto which the color image is transferred, is heated and pressed in the fixing apparatus 100, and the color toner image on the recording sheet P is fixed. After that, it is nipped by the delivery sheet roller 24 and placed on the delivery sheet tray 25 outside the apparatus.
On the one hand, after the color image is transferred onto the recording sheet P by the transfer section 7A, on the intermediate transfer body 6 from which the recording sheet P is curvature-separated, the residual toner is removed by the cleaning section 8A.
Hereupon, the above description is the image forming apparatus which forms the color image, however, it may also be the image forming apparatus which forms the monochromatic image, and the intermediate transfer body may be used or not used.
Next, the main structure of the fixing apparatus 100 according to the present invention will be described based on the sectional view of the fixing apparatus which is orthogonal to the central axis shown in
The fixing roller 101 houses a halogen lamp (heating means) H in the center, and is structured by the elastic layer 101B formed of the silicon rubber which sheathes the cylindrical core metal 101A formed of aluminum or iron, and the heat resistance is high, and further, the mold-releasing layer 101C which sheathes the elastic layer 101B, and formed of fluorine resin such as PFA (perfluoro arkoxy) or PTFE (polytetra fluoro-ethylene).
The fixing belt 102 is structured by the substratum formed of polyimide whose thickness is about 100 μm and the mold-releasing layer formed of PFA or PTFE which sheathes the outer surface of the substrate and whose thickness is about 25 μn, and formed into endless.
The pressing pad 103 is formed of silicon rubber whose hardness is JISA about 10°, and arranged on inner peripheral surface side of the fixing belt 102, and together with the base steel plate 104 formed of stainless steel and the base member 105 formed of heat resistant resin, held by the holder 111 formed of the heat resistant resin. Further, the compression spring 106 (pressing member) is arranged on the rear surface of the base member 105, and presses the pressing pad 103 through the base steel plate 104 and the base member 105.
Herein, including the pressing pad 103, base steel plate 104, base member 105, and compression spring 106, they are called pressing means.
The separation member 107 is structured as a member different from the pressuring pad, for example, formed of the heat resistant resin or metal such as aluminum, and arranged on the inner peripheral surface side of the fixing belt 102 and by a pressuring pad 103, on the downstream side of the conveyance direction of the recording sheet P, and held by the holder 111 and metallic frame 113 arranged in the center. Then, with the trailing edge of the separation member, one end of the compression spring 108 (pressure member) which is another member from the compression spring 106 is in contact, and the other end of the compression spring 108 is in contact with the metallic base steel plate 109. The base steel plate 109 is extended longer than the fixing belt 102 on both ends of the central axis direction of the fixing belt 102, and with both end parts of the base steel plate 109 of the same direction, the eccentric cam 110 is in contact.
Herein, the separation member 107 and the compression spring 108 are called separation section.
The sliding move member 114 is formed of Teflon (registration trade mark) coating glass fiber sheet or PTFE sheet, and arranged between the inner peripheral surface of the fixing belt 102, and the pressuring pad 103, and the inner peripheral surface of the fixing belt 102 and the separation member 107, and one end is fixed to the frame 113.
The oil pad 115 is formed of a sponge, and contains the lubrication agent formed of silicon oil, held by the holder 112 formed of heat resistant resin, and pressed to the inner peripheral surface of the fixing belt 102.
Hereupon, when the fixing belt 102 is rotated, the holder 111 has also a function which guides the fixing belt 102 through the sliding move member 114, and the holder 112 has also a function which directly guides the fixing belt 102.
Then, the holders 111, 112 are held by the frame 113.
In the fixing apparatus 100 structured in such a manner, the fixing roller 101 heated by the halogen lump H and driven by the drive section, not shown, is rotated clockwise. Further, the base steel plate 104 and the pressing pad 103 pressed through the base member 105 by the compression spring 106 are pressure contacted the fixing belt 102 with the fixing roller 101 through the sliding move member 111. Further, the separation member 107 pressed by the compression spring 108 pressure contacts the fixing belt 102 with the fixing roller 101 through the sliding move member 111.
Accordingly, the fixing belt 102 is rotated counter clockwise by the rotation of the fixing roller 101.
Herein, the pressuring pad 103 pressure contacts the fixing belt 102 with the fixing roller 101, however, because the pressuring pad 103 is softer than the fixing roller 101, the pressuring pad 103 is elastic deformed into concave shape together with the fixing belt 102 corresponding to the outer peripheral surface of the fixing roller 101. In this manner, the wide first nip portion N1 is formed between the fixing belt 102 and the fixing roller 101.
Further, the separation member 107 pressure contacts the fixing belt 102 with the fixing roller 101, however, because the fixing roller 101 is softer than the separation member 107, the outer peripheral surface of the fixing roller 101 is elastic deformed into concave shape corresponding to the leading edge part of the separation member 107. In this manner, the second nip portion is formed between the fixing roller 101 and the fixing belt 102.
As this result, in the first nip portion N1, the curvature center is positioned on the side of the fixing roller 101, and the first nip portion N1 is curved with the small curvature, and in the second nip portion N2, the curvature center is positioned on the inner peripheral surface side of the fixing belt 102, and the second nip portion N2 is curved with the large curvature.
Hereupon, because the second nip portion N2 is a part for improving the reparability when the recording sheet P is separated from the fixing roller 101, its width is smaller than the first nip portion N1, and the inflection point formed by the first nip portion N1 sand the second nip portion N2 is positioned on the downstream side in the conveyance direction of the recording sheet P from the central position of the entire nip portion in which the first nip portion N1 and the second nip portion N2 is connected. In this manner, the unfixed toner on the conveyed recording sheet P is heated•pressed and fixed in the first nip portion N1 and the second nip portion N2, and is securely separated from the fixing roller 101 and delivered.
Hereupon, because the inner peripheral surface of the fixing belt 102 sliding moves on the sliding move member 111 whose friction coefficient is small at the time of rotating, the friction resistance between the both is small, and because from the oil pad 115, the silicon oil as the lubrication agent is supplied to the inner peripheral surface of the fixing belt 102, further, the sliding move resistance is small.
In the fixing apparatus structured as described above, not only the toner image transferred onto the plain paper is fixed, there is a case where the toner image transferred onto the envelope is fixed. When the envelope is passed through under the condition shown in
Hereupon, when width of the second nip portion N2 is increased and makes almost equal to the first nip portion, the wrinkle is not generated even when the envelope is passed through, however, the curvature of the second nip portion N2 becomes small, and the separability from the fixing roller 101 is lowered.
Therefore, as shown in enlarged sectional view of the nip portion of
Hereupon, when structured in this manner, the direction in which the envelope E enters into the first nip portion N1, and the direction in which delivered from the second nip portion N2 become almost equal.
On the one hand, when the plain paper is passed through, the pressing force of the separation member 107 is not increased as described above, but remains in the degree the plain paper can be normally separated. This is from the reason that, in the case where the plain paper is passed through, when the pressing force of the separation member 107 is increased, because the curvature of the second nip portion N2 is more increased, the curling is easily generated in the fixed plain paper. Hereupon, because the thickness of the sheet is comparatively thick in the case of the envelope, even when the curvature of the second nip portion N2 is more increased, it is difficult that the curling is generated.
Next, the structure in which pressing force of the separation member 107 is changed when the plain paper is fed, and when the envelope is fed, based on the sectional view of the fixing apparatus of
Initially, in the operation board 201 of the image forming apparatus, any one of mode in which the plain paper is passed through, or the envelope is passed through is selected and set (S1).
In the case of the plain paper mode in which the plain paper is passed through (N of S2), the controller 202 composed of CPU does not drive the drive section 203 composed of motor, solenoid. Accordingly, under the condition (S3) shown in
On the one hand, in the case of the envelope mode in which the envelope is passed through (Y of S2), the controller 202 drives the drive section 203, rotates the eccentric cam 110 shown in
Hereupon, the plain paper mode or the envelope mode is not input-operated in the operation board, the thickness of sheet of the fed recording material may be detected by a pressure sensor, and the plain paper mode or the envelope mode may also be automatically discriminated.
Next, the experiment relating to the generation of the wrinkle when the envelope is passed through by using the fixing apparatus structured as described above, will be shown.
shown in Table 1.
In the case of the pressing force of 150 N, the depth of the concave part of the fixing roller which is pressed and deformed by the separation member is shallow, because the speed difference of the sheet material of the front and rear of the envelope generated in the first nip portion is not eliminated in the second nip portion, the wrinkle is generated in the sheet material of the rear side of the envelope (fixing belt side).
In the case of the pressing force of 230 N, the depth of the concave part of the fixing roller which is pressed and deformed by the separation member is adequate, and because the speed difference of the sheet material of the front and rear of the envelope generated in the first nip portion is eliminated in the second nip portion, the wrinkle is not generated.
According to the image forming apparatus of the present invention as described above, the wrinkle is not generated when the envelope is fixed, and there is an effect that it is not also necessary that the output number of sheets per unit time is decreased. Hereupon, the pressing force for pressing the above-described separation member is a value in the case of the fixing apparatus of the above-described condition, when the conditions of the fixing apparatus are different, the pressing force is also different. Accordingly, it is necessary that the adequate pressing force is previously found by the experiment corresponding to the fixing apparatus.
Number | Date | Country | Kind |
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JP2006-179206 | Jun 2006 | JP | national |