CN101030059A - Image forming apparatus - Google Patents
Image forming apparatus Download PDFInfo
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- CN101030059A CN101030059A CN 200710085610 CN200710085610A CN101030059A CN 101030059 A CN101030059 A CN 101030059A CN 200710085610 CN200710085610 CN 200710085610 CN 200710085610 A CN200710085610 A CN 200710085610A CN 101030059 A CN101030059 A CN 101030059A
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Abstract
The invention relates to an image forming device using an optical scanning device. A color offset detection pattern is formed on a middle transfer printer or a transporting means for transporting a recording medium by an image forming means. When in a color offset detection mode, a compensation value for compensating a color offset is outputted by detecting the color offset detection pattern via an image detecting means, and the compensation value is stored in a memory means. A light beam detection means is integratively provided with the optical scanning device, to detect positions of the light beams along a main scanning direction of the light beams and along an auxiliary scanning direction crossed with the main scanning direction, respectively. Information of light beams is detected when forming an image or every determined interval by the light beam detection means.
Description
Technical field
The present invention relates to a kind of image processing system that uses light scanning apparatus, in described light scanning apparatus, behind the light source outgoing beam,, make light beam irradiates on photoreceptor, write electrostatic latent image in the deflector reflection.
Background technology
Forming simultaneously with a polygonal mirror motor in the tandem device for image forming of each color image, in the light scanning apparatus as the light writing unit, because of the heating of polygonal mirror motor, or environmental change in the machine, delicate variation can take place in position and angle etc. between each optical element, and light beam changes to the scanning position of photoreceptor, of all kinds deviations takes place, of all kinds inclining scanning line, of all kinds scanning line bending etc., synthetic coloured image generation color shift.Especially serious at the sub scanning direction color shift.
Therefore, on photoconductor drum or offset medium detection means is set, forms the telltale mark image on offset medium, be used to detect the position offset of sub scanning direction, this method is used widely.
No. 3087748 communique of Jap.P. (following brief note is " patent documentation 1 "), in the TOHKEMY 2000-235290 communique (following brief note is " patent documentation 2 "), optical scanner is disclosed, when the synthetic single image of some images is exported, the offset of the above-mentioned some images of energy revisal.
In addition, though still unexposed, the applicant proposed to be provided with major-minor light-beam position detection means in optical scanner, the meticulousr control method of checking colors.
By in optical devices, checking colors, can make from the light-beam position stabilization of device ejaculation, as the main cause of image output result's color shift, the condition that can enumerate the intermediate transfer body changes for example flexible or crooked, and with the skew of the positional precision of various unit etc.
Be the understanding the problems referred to above that disappear, must be by forming the telltale mark image, and with the revisal of checking colors, renewal light-beam position target.And, if increase by forming the frequency of telltale mark image detection color shift, though can obtain the good color shift revisal of precision, but, by forming telltale mark image detection color shift is to carry out under the printer operating state stopping, toner consumption increases, and the cleaning burden increases, and productivity is low.
Summary of the invention
The present invention puts forward for solving the existing problem of above-mentioned prior art, and its purpose is, provides a kind of and has not only kept high-precision color shift revisal, but also can suppress to cause the low color shift of productivity to detect the image processing system of frequency.
In order to achieve the above object, the present invention proposes following technical scheme.
(1) a kind of image processing system, comprise light scanning apparatus, this light scanning apparatus is provided with the light source that penetrates some light beams respectively, and the deflection means that make each beam deflection, described some light beams scan on photoreceptor respectively, on this photoreceptor, form some images, with the synthetic single image output of described some images;
Form means by image, at the intermediate transfer body or be used to transport transporting of recording medium and form color shift on the means and detect pattern, during the color shift detecting pattern, detect color shift by the pattern detection means and detect pattern, output is used for the compensating value of revisal color shift, and this compensating value is stored in the storer means; It is characterized in that:
Be provided with the beam detection means integratedly with above-mentioned light scanning apparatus, detect the position of each light beam of the sub scanning direction that intersects along the main scanning direction of light beam and with this main scanning direction respectively;
When image forms or every decide interval, detect light beam information by these beam detection means.
(2) in (1) described image processing system, it is characterized in that:
Described light beam information is the main scanning direction multiplying power, master/sub scanning direction location ratio, and sub scanning direction is crooked.
(3) in (1) described image processing system, it is characterized in that:
Penetrate direction along light beam, described beam detection means are arranged on the downstream of final optical element.
(4) in (1) described image processing system, it is characterized in that:
Be provided with the revisal means, when image forms or every decide at interval to read described compensating value from described storer means, with this compensating value as desired value, revisal main scanning direction multiplying power, master/sub scanning direction is located ratio, sub scanning direction is crooked.
(5) in (1)-(4), in any described image processing system, it is characterized in that:
According to carried out elapsed time or printing number from last time, judge whether to carry out the color shift detecting pattern that upgrades described compensating value.
(6) in (1)-(4), in any described image processing system, it is characterized in that:
Judge whether to carry out the color shift detecting pattern that upgrades described compensating value according to " the printing dutycycle " carried out from last time in the elapsed time.
(7) in (5) or (6) described image processing system, it is characterized in that:
Carry out the several times detecting pattern, when judging whether to carry out inferior time detecting pattern, be judged to be and do not carry out occasion, be returned to and carried out the preceding desired value of detecting pattern last time.
(8) in (5) or (6) described image processing system, it is characterized in that:
When judging whether to carry out detecting pattern, be judged to be not carry out after, when judged whether to carry out detecting pattern next time, being judged to be needed to carry out occasion, was returned to the desired value before the implementation detecting pattern that is judged to be before not carrying out.
According to image processing system of the present invention, be provided with the beam detection means at light scanning apparatus, can be at color shift detecting pattern time detecting color shift in addition.
According to image processing system of the present invention, can be limited in Min. with carrying out color shift detecting pattern action frequency, reduce the electric power that is consumed, reduce the toner consumption, reduce machinery consumption.
Description of drawings
Fig. 1 is the summary lateral view of the image processing system that the present invention relates to.
Fig. 2 is the summary pie graph of the light scanning apparatus that the present invention relates to.
Fig. 3 is the skeleton diagram of expression beam detection means configuration status.
Fig. 4 is used for the skeleton diagram of explanation as the detection principle of the non-parallel photodiode sensor of beam detection means (light spot position detection means).
Fig. 5 is the basic comprising skeleton diagram of the color shift revisal means that are made of liquid crystal optical device of expression.
Fig. 6 is that the major part that expression is provided with the light scanning apparatus of color shift revisal means constitutes skeleton diagram.
Fig. 7 is the prismatic action key diagram of liquid crystal optical device.
Fig. 8 is the lensing key diagram of liquid crystal optical device.
Fig. 9 is the parallel flat skeleton diagram that constitutes color shift revisal means.
Figure 10 is the sectional view of the color shift revisal means that are made of parallel flat.
Figure 11 is the stereographic map of the color shift revisal means that are made of parallel flat.
Figure 12 is the skeleton diagram that the pad state is set on the eccentric cam shaft of the parallel flat that constitutes color shift revisal means.
Figure 13 is the basic comprising skeleton diagram of the color shift revisal means that are made of prism of expression.
Figure 14 is the LD unit of light scanning apparatus and the amplification view of polygonal mirror.
Figure 15 is the front view (FV) of the LD unit of Figure 14.
Figure 16 is the skeleton diagram of light beam displacement state on the photoreceptor of representing to cause by the LD unit rotary.
Figure 17 be on the photoreceptor that causes of the LD unit rotary of expression by Figure 16 light beam along the skeleton diagram of the mobile status of sub scanning direction.
Figure 18 is the process flow diagram that the expression color shift detects action.
The process flow diagram of action when Figure 19 is the expression printing.
Figure 20 carries out the state transition diagram of color shift detecting pattern according to printing ratio.
Embodiment
Describe the printer that the embodiment of the invention relates to reference to the accompanying drawings in detail as device for image forming.In following examples, though to inscape, kind, combination, shape, configuration waits and has done various qualifications relatively,, these only exemplify, and the present invention is not limited thereto.
Fig. 1 is suitable for the skeleton diagram that can form the image processing system of coloured image of the present invention.
In Fig. 1, image processing system 1 is a duplicating machine, but also can be facsimile recorder, printer, other image processing systems such as compounding machine of duplicating machine and printer.Image processing system 1 is as printer, use occasions such as facsimile recorder, according to carry out image from the corresponding picture signal of the image information of outside trusted and form and handle.
The common paper that image processing system 1 generally is used to duplicate etc. forms image as sheet-shaped recording medium S, also can use OHP projection sheet, block, and ground paper such as postcard, or envelope etc. is as sheet-shaped recording medium S formation image.
With a photoconductor drum 1A and structure of being configured in around it is example, and the key diagram picture forms to handle and constitutes.Other photoconductor drums 2A, 3A, the 4A structure is identical, for simplicity, is marked with corresponding symbol, describes in detail to omit.
Around photoconductor drum 1A, along the gyratory directions that arrow is represented, configuration is used to carry out the charging device 1B that image forms processing, light scanning apparatus 20, developing apparatus 1D, cleaning device 1E respectively.Described charging device 1B uses structures such as charging roller or charging brush, the laser that described light scanning apparatus 20 uses from LASER Light Source.About being suitable for light scanning apparatus 20 of the present invention, describe in detail with figure below with reference to Fig. 2 etc.
In Fig. 1, extending part above transfer belt 5, developing apparatus 1D~4D are configured to from the right side by yellow, blue or green, pinkish red, black sequentially feeding toner.Charging device 1B uses roller, but charging device 1B is not limited to use the contact of roller, also can adopt the corona discharge type that uses the discharge metal line.
In image processing system 1, charging device 1B, light scanning apparatus 20, composing images formation portions such as developing apparatus 1D and cleaning device 1E, configuration manuscript reading section 6 reads the original copy that is positioned on the original copy mounting table 6A by reading device 7 above this image forming part, obtains image information, output to Flame Image Process control part (not diagram), obtain the writing information that light scanning apparatus 20 uses.
Reading device 7 is provided with light source 7A, some catoptron 7C, imaging len 7D.Described light source 7A is used to scan the original copy that is positioned on the original copy mounting table 6A, and described some catoptron 7C and imaging len 7D are used for making that the reflected light from original copy is imaged on the CCD7B that decomposes look corresponding setting with each.Output to the Flame Image Process control part with each corresponding image information of light intensity of decomposing look from each CCD7B.
Transfer belt 5 is erected on some rollers, is made of dielectrics such as mylars, and thickness is 100 μ m.One of expandable part and each photoconductor drum 1A, 2A, 3A, 4A is relative, with each photoconductor drum 1A, 2A, 3A, 4A relative position inboard, configuration transfer device 8A, 8B, 8C, 8D.The thickness of transfer belt 5 produces during fabrication ± error of 10 μ m, as described later, superimposed formed toner of all kinds as the time occurrence positions skew sometimes, it mainly writes starting position revisal means 110 by color shift described later and carries out revisal and separate and disappear.
Output record medium S in the paper feeding cassette 10A of paper feed 10 by registration roller 9, transports in transfer belt 5 by corona discharge Electrostatic Absorption recording medium S from transfer device 8A.Transfer device 8A, 8B, 8C, 8D uses anodal corona discharge, makes to be positioned in each photoconductor drum 1A, 2A, 3A, the image on the 4A have the Electrostatic Absorption characteristic towards recording medium S.
When finishing from each photoconductor drum 1A, 2A, 3A, the image transfer printing of 4A, the position configuration that moves at this recording medium S is used to separate the tripping device 11 of recording medium S.In addition, discharge system 12 is set, its clamping transfer belt 5 subtends configuration.In Fig. 1, symbol 13 expressions are used to remove the cleaning device that remains in the toner on the transfer belt 5.
By the AC corona discharge of negative polarity, neutralization is accumulated in the electric charge on the recording medium S to tripping device 11 above recording medium S, removes the Electrostatic Absorption state, utilize the curvature of transfer belt 5, can separate, simultaneously, prevent to peel off the caused toner dirt of discharge when separating.Discharge system 12 is from the surface and the back side of transfer belt, by carrying out and transfer device 8A, 8B, 8C, the negative polarity AC corona discharge of 8D charged characteristic antipolarity, in and transfer belt 5 accumulate electric charge, carry out electric initialization.
At each photoconductor drum 1A, 2A, 3A, among the 4A, by charging device 1B, 2B, 3B, 4B make each photoconductor drum 1A, 2A, 3A, the 4A homogeneous is charged, and the reading device 7 by manuscript reading section 6 reads the image information of respectively decomposing look, according to this image information, use writing station 1C, 2C, 3C, 4C forms electrostatic latent image on photoconductor drum, from developing apparatus 1D, 2D, 3D, 4D supplies with each and decomposes look corresponding toner, but make this electrostatic latent image become video, by transfer device 8A, 8B, 8C, but 8D is electrostatically transferred to described video on the recording medium S that is positioned on the transfer belt 5.
As shown in Figure 2, light scanning apparatus 20 is the optical system that writes of tandem.
Fig. 2 is the summary pie graph of the light scanning apparatus 20 that the present invention relates to, and it adopts the scanning lens mode, and still, the present invention is not limited thereto, and scanning reflective mirror mode also can be corresponding.In Fig. 2, for simplicity, represent 2 stations, be explained, still, the present invention is not limited thereto, also can left-right symmetric constitutes the polygonal mirror as the deflection means, is made as 4 stations, is used for image processing system 1.In the present embodiment, image processing system 1 can form coloured image, and when forming the coloured image occasion, light scanning apparatus 20 is used to form coloured image.
Optical elements sets 51 is by some optical elements, i.e. prism (the starting position revisal means 110 that write described later), and reflective mirror 23, cylindrical lens 24, polygonal mirror 26, the 1 scanning lenses 28, reflective mirror 31,32, the 2nd scanning lens 30, reflective mirror 33 constitutes.Optical elements sets 52 is by some optical elements, i.e. prism (the starting position revisal means 111 that write described later), and cylindrical lens 25, polygonal mirror 27, the 1 scanning lenses 29, the 2 scanning lenses 35, reflective mirror 36,37 constitutes.
In light scanning apparatus 20, also be provided with holding member 61 and holding member 62, described holding member 61 is used for keeping constituting the 2nd scanning lens 30 of the optical element of optical elements sets 51, and described holding member 62 is used for keeping constituting the 2nd scanning lens 35 of the optical element of optical elements sets 52.Holding member 61 and the conduct that is held are held the 2nd scanning lens 30 of optical element, are held the 2nd scanning lens 35 of optical element with holding member 62 and the conduct that is held, constitute roughly the same.
The light beam that is deflected at polygonal mirror 26,27 respectively at one-piece type or 2 stacked the 1st scanning lenses 28,29 that close by shaping, after this, carry out beam shaping at the 2nd scanning lens 30,35, realize institute decide f θ characteristic and decide light beam spot directly, the light-sensitive surface of photoreceptor 34,38 is scanned.After the 1st scanning lens 28,29,, be used for light path difference to beam direction to two different photoreceptors 34,38.
The light beam that the light beam of upside promptly sees through the 1st scanning lens 28 reflexes to direction by reflective mirror 31, after being reflected into 90 degree bendings by reflective mirror 32 again, incide the 2nd scanning lens 30 that constitutes by long plastic lens, through reflective mirror 33 towards vertical lower to bending, photoreceptor 34 is scanned along main scanning direction A.
The light beam that the light beam of downside promptly sees through the 1st scanning lens 29 does not incide reflective mirror midway, after inciding the 2nd scanning lens 35 that constitutes by long plastic lens, by two reflective mirrors 36,37, make and photoreceptor 38 is scanned the light path bending along main scanning direction A.In Fig. 2, arrow C is represented the optical axis direction of the 2nd scanning lens 30,35.
At this, between the reflective mirror 33 and photoreceptor 34 on the most close sensitization side among the optical elements sets 51, configuration light spot position detection means 300a, 300b as the beam detection means, has and detects the function of light-beam position as the offset detection means.Between the reflective mirror 37 and photoreceptor 38 on the most close sensitization side among the optical elements sets 52, configuration light spot position detection means 300a, 300b.
Fig. 3 represents light spot position detection means 300a in detail, the 300b configuration.
Light spot position detection means 300a, the 300b configuration is relevant with the light-beam position that shines photoreceptor 34 or 38, is configured as the position that can measure light-beam position.That is, make the light-beam position that shines photoreceptor 34 or 38 without other optical elements, can be directly by light spot position detection means 300a, 300b detects.
In Fig. 3, light spot position detection means 300a, 300b is corresponding with each color beam, is installed in integratedly respectively on the housing of light scanning apparatus 20, and by the connection carriage 20a as holding member, the dustproof glass 100 of 20b and energy transmitted beam grips.With light spot position detection means 300a, 300b is configured on the beam flying line, feasible light beam from reflective mirror 33 or 37 sees through dustproof glass 100, among this light beam, the light beam irradiates of effective image-region is on photoreceptor 34 or 38, the outer light beam of effective image-region incides light spot position detection means 300a, 300b.Because of causing the light-beam position variation, dustproof glass 100 almost do not have, therefore, also can be with light spot position detection means 300a, 300b is configured in the front side ( reflective mirror 33 or 37 sides) of dustproof glass 100.
In addition, light spot position detection means 300a is used for detection and writes the starting position, and light spot position detection means 300b is used for detection and writes terminal location.More particularly, light spot position detection means 300a is main sweep synchronous detection means and/or subscan light-beam position detection means, carries out the synchronous and/or subscan detection of main sweep of light beam.In addition, can detect main sweep multiplying power and/or inclining scanning line degree by light spot position detection means 300b as light scanning apparatus.
Do not have illustrated other two stations at Fig. 2, the beam flying direction relatively becomes on the contrary, light spot position detection means 300a, and the beginning that writes that relates to the light-beam position detection of 300b, writing terminal becomes on the contrary.That is, two left sides scannings that (travel direction are made as) from image in 4 stations remain two and scan from the right side.
At this, print many image output occasions continuously, in light scanning apparatus 20 inside, polygonal mirror 26,27 drives the polygonal mirror motor of usefulness, and LD unit 21,22 heatings, in light scanning apparatus 20 outsides, the influence of well heater heat when fixing device 14 toner photographic fixing, image processing system 1 internal temperature sharply changes.This occasion, photoreceptor 1A, 2A, 3A, the light spot position of 4A also sharply change, and along with printing, the 1st, which is opened, and the look contraposition of the coloured image of which ten grade changes.
So, using light spot position detection means 300a, 300b carries out the revisal by color shift revisal means described later as offset detection means (beam detection means).Light spot position detection means 300a, 300b is made of non-parallel photodiode sensor as the offset detection means.Light spot position detection means 300a, 300b have the function that detects the synchronizing signal that writes the starting position be used to determine main scanning direction concurrently.
As shown in Figure 4, photodiode PD1, the sensitive surface of PD1 ' and scanning light beam orthogonal, photodiode PD2, the relative photodiode PD1 of the sensitive surface of PD2 ', the sensitive surface of PD1 ' tilts.This pitch angle is made as α 1.In addition, the scanning light beam before the temperature variation that described well heater heat is caused is made as L1, and the scanning light beam after the temperature variation is made as L2, sub scanning direction generation Δ Z (the unknown) skew.This occasion, detect scanning light beam L1, L2 is by between a pair of non-parallel photodiode, be non-parallel photodiode PD1, between the PD2, or non-parallel photodiode PD1 ', time T 1 between the PD2 ', T2 by trying to achieve the mistiming of (T2-T1), monitors that the scanning position that detects sub scanning direction promptly writes the starting position.
The angle [alpha] 1 that forms between each sensitive surface of PD1 and PD2 and (T2-T1) mistiming be known, therefore, the corresponding point offset that is easy to try to achieve sub scanning direction by calculating is sub scanning direction revisal amount Δ Z.Carry out revisal by writing 110 pairs of these revisal amounts of starting position revisal means.Therefore, print many images output occasions continuously, though each photoconductor drum 1A, 2A, 3A, the light spot position on the 4A sharply changes because of temperature variation etc., can each photoconductor drum 1A of revisal even write in the view data also, 2A, 3A, the light spot position on the 4A.By detecting scanning light beam by photodiode PD1, the variation of needed time T 0 between the PD1 ' can monitor that also the multiplying power of main scanning direction changes.In Fig. 4, light spot position detection means 300a, 300b use photodiode to constitute, and still, as long as can detect light-beam position, also can use other photo detectors, for example line CCD.
Like this, each light beam is measured at 2 places, multiplying power not only, and can also directly detect the distolateral writing position of main scanning direction one when being benchmark to each light beam (no matter scanning front end or rear end) as the mounting body.
Fig. 5-Fig. 8 represents the configuration example 1 of color shift revisal means.
At this, constitute liquid crystal optical device 140 by liquid crystal, the combination (with reference to Fig. 5) of using described liquid crystal optical device 140 and this liquid crystal optical device 140 being applied the control circuit 141 of voltage, liquid crystal optical device 140 is configured between the light source and deflection means of outgoing beam, or between deflection means and the scanning lens.For example shown in Figure 6, a part of structure (LD unit 22, collimation lens 24 in the expression light scanning apparatus 20, polygonal mirror 26, liquid crystal optical device 140, control circuit 141, scanning lens 28) configuration relation, liquid crystal optical device 140 are configured between polygonal mirror 26 and the scanning lens 28.Make beam deflection scan by polygonal mirror 26, can carry out the light-beam position revisal along D direction (sub scanning direction) among the figure to described light beam by liquid crystal optical device 140.
As the example of liquid crystal optical device 140, as shown in Figure 7, it is made of substrate 142,143 that is provided with electrode and liquid crystal layer 145.Like this, from 141 pairs of electrodes of control circuit apply fixed potential difference (PD), make and prismatic actions take place at liquid crystal layer 145, make the parallel institute's allocation that moves to of incident beam, can be along sub scanning direction correction light-beam position.
As other examples of liquid crystal optical device 140, as shown in Figure 8, it is made of liquid crystal layer 145 and the electrode 146,147 that is located at the light beam light incident side of this liquid crystal layer 145.Like this, from 141 pairs of electrodes of control circuit apply fixed potential difference (PD), make the convex lens effect take place, make the refraction of optical beam, can be along sub scanning direction correction light-beam position.
Fig. 9-Figure 12 represents the configuration example 2 of color shift revisal means.
Its utilization is opened disclosed color shift revisal means in the 2004-4191 communique the spy.That is, parallel flat 150 energy transmitted beams are set to and can use this parallel flat 150 with the axle revolution parallel with the axle of main scanning direction, it is configured between the light source and deflection means of outgoing beam, or between deflection means and the scanning lens.Make light beam incide parallel flat 150 by the revolution inclination, can be along sub scanning direction correction light-beam position (with reference to Fig. 9).
Figure 10 represents to comprise the cross section state of the color shift revisal means of parallel flat, and Figure 12 represents the stereographic map of these color shift revisal means.
Color shift revisal means are by offset cam 151, drivers such as stepper motor 152, and parallel flat crimping face 153, leaf spring 154, revolving shaft 159, parallel flat 150 constitutes.
Downside two places of parallel flat 150 with bear portion's projection crimping, upside is fixing by offset cam 151, from opposition side by leaf spring 154 pressurizations.Driver 152 is installed on 151 of the offset cams, and by driving revolution, offset cam 151 revolutions make the crimping position of upside of parallel flat 150 move, and parallel flat 150 turns round towards the direction of arrow.At this moment, the centre of gyration becomes the axle by downside crimping face (two places).The centre of gyration also can be on optical axis.
Figure 12 is the skeleton diagram that the pad state is set on the eccentric cam shaft of the parallel flat that constitutes color shift revisal means.This occasion is provided with pad on eccentric cam shaft, move by making this pad, makes offset cam 151 revolutions to make parallel flat 150 turn round.
By described color shift revisal means, light beam incides the parallel flat 150 of inclination, with parallel with incident beam and penetrate the angle of revolution increase in direct ratio of its axle offset amount and parallel flat 150 in sub scanning direction skew.
Also can be as shown in figure 13, the configuration cross sectional shape is that trapezoidal prism 160 replaces this parallel flat 150, makes this prism 160 parallel mobile at institute's allocation of sub scanning direction (above-below direction among the figure), also can be along sub scanning direction correction light-beam position.The driver of prism 160 peripheries constitutes the driver that can utilize above-mentioned parallel flat.
Figure 14-Figure 17 represents the configuration example 3 of color shift revisal means.
Its utilization is opened disclosed color shift revisal means in the 2003-330243 communique the spy.Promptly, as shown in figure 14, lasing fluorescence element LD is maintained on the holding member 21b with the collimation lens 21a as coupling optical system as LD unit (optical element unit) 21, the light beam B that penetrates from lasing fluorescence element LD shines on the polygonal mirror 26 by being configured in slit 21c and the cylindrical lens 24 between collimation lens 21a and the polygonal mirror 26.This LD21 comprises the optical housing (not diagram) that constitutes optical unit, it keeps polygonal mirror 26 and makes light beam B be radiated at other optical elements on the photoreceptor 34, the described relatively optical housing of LD21, be mounted to and turn round, simultaneously, the rotary middle spindle OS of LD unit 21 and the optical axis of light beam B be installed as main scanning direction have decide the state of skew, in addition, make the rotary middle spindle OS of LD unit 21 roughly consistent with beam optical axis at the inflection point of polygonal mirror 26.
LD21 as shown in figure 15, at the guide spiro rod 21f of the chimeric light-beam position adjustment of an end side of its main scanning direction motor 21e, if light-beam position is adjusted motor 21e revolution, then guide spiro rod 21f revolution, LD21 is the center with rotary middle spindle OS, direction revolution shown in Figure 15 arrow.
Then, if LD21 is a center steering with rotary middle spindle OS, then as shown in figure 16, LD unit 21 is in the sub scanning direction displacement, and laser irradiating position is moved.
As a result, as shown in figure 17, the light beam B that penetrates from lasing fluorescence element LD is the center with the centre of gyration on photoreceptor 34, moves the beam irradiation position displacement along sub scanning direction.
Like this, LD unit 21 is a center steering with rotary middle spindle OS, can improve stability, revisal color shift accurately repeatedly.
Figure 18 represents that color shift detects action flow chart.
In Figure 18, when the color shift detecting pattern, make polygonal mirror revolution (step S1), if its gyrostabilized platform (step S2), make LD luminous (step S3).Detect the main sweep synchronous (step S4) of each light beam, afterwards, on transfer belt 5, make color shift and detect the some row of pattern (at least two row) (step S5), use the some toner mark sensors corresponding (not diagram) to read (step S6) with this position.Then, read the side-play amount (step S7) of (magenta, cyan, the yellow) of all kinds of relative datum look (being taken as black in the present embodiment),, calculate the location of all kinds of relative datum look, multiplying power, the compensating value of crooked (inclination) based on its mistiming.(step S8).
When compensating value at this moment is called " A ",, carry out the main sweep location, main sweep multiplying power, subscan location, the color shift revisal (step S9) of crooked amount according to this compensating value " A ".At this moment, some times (N returns) part target beam position " C " that sampling obtains of the face number of polygonal mirror 26,27 is stored in the storer (not diagram) of image processing system (step S10).
On the other hand, action before image forms action usually, enters light-beam position and measures action shown in Figure 19 process flow diagram during printing.That is, when detecting color shift, the polygonal mirror revolution is if its gyrostabilized platform makes LD luminous.Then, detect after the main sweep synchronously of each light beam,, detect main sweep and subscan position " X " of light beam some times (N returns) part sampling of the face number of polygonal mirror 26,27.Then, make target beam position " C " unanimity that is stored in light-beam position " X " of all kinds, carry out the color shift revisal, enter image rapidly and form action.Print continuously occasion, can every page carry out this action, also can select this action according to paper size or operation number etc.
Like this, by detecting the revisal light-beam position at any time, can very correctly control the light-beam position of ejaculation.
Can enumerate the flexible of the intermediate transfer body that causes because of the temperature humidity environmental change as the change main cause of image forming device body side, or the driven roller vary in diameter etc.Therefore,, need to carry out the color shift detecting pattern,, rewrite target beam position " C " according to the compensating value of this moment for energy High Accuracy Control light-beam position when above-mentioned variation takes place.But, if carry out the color shift detecting pattern, can not form image therebetween, therefore, productivity is low, and consumes toner and toner processing burden, therefore, must avoid frequent implementation.
In the past, if according to time implementation color shift detecting pattern, printing number therebetween had deviation, action waste sometimes.In addition, if carry out the color shift detecting pattern, then carry out very long at interval sometimes according to the printing number.
So the inventor is especially remarkable when printing dutycycle (duty) is high according to the temperature humidity environmental change, find that the color shift detecting pattern is preferably according to printing the dutycycle implementation.
Figure 20 makes the color shift detecting pattern according to printing the state transition diagram that dutycycle is carried out.
With morning during initial energized, the implementation of color shift detecting pattern action is made as B0, and detection action next time becomes B1, and the target beam position of storing when detecting action B0 is made as C0, is made as C1 during B1.Detect time and the number of action B0~B1 and set arbitrarily, still,, judge that the color shift detecting pattern of next time is carried out according to " number/time " parameter relevant with both.
For example, the printing number was 200 conducts target occasions substantially in per 30 minutes, when surpassing the number printing of this number, as high duty ratio, if do not surpass this number, as low duty ratio.That is, if high duty ratio is judged the possibility height that causes variation because of temperature humidity, if low duty ratio, judgement causes that because of temperature humidity the possibility of variation is low.But, be not limited to printing after 30 minutes, surpass its occasion, also can derive and 200/30 minutes suitable dutycycles.
In the transition figure of Figure 20, morning is during initial energized, carry out color shift detecting pattern action B0 after, low duty ratio continues, high duty ratio appears and before, the target beam position is placed C0.If high duty ratio occurs, carry out the action of color shift detecting pattern, the target beam position becomes new position, still, if follow low duty ratio, is returned to the target beam position of detecting action last time.
Be specifically described below, behind the detection action B0, if 2 times become high duty ratio continuously, then carry out color shift detecting pattern action B1, then carry out color shift detecting pattern action B2, the target beam position is C2.But, then becoming the low duty ratio occasion, the target beam position is returned to the condition C 1 of color shift detecting pattern A1 last time from C2.Like this, reduce and detect action, save electric power, reduce toner consumption.
Be judged as the high duty ratio occasion next time, can carry out new B2 once more, also can use and move the suitable old C2 in target beam position of old B2 with the practiced detection in front and carry out the color shift revisal.
At this, if strictly speaking, carry out new B2 once more, still,, reduce toner and consume angle and consider from saving electric power, can use and move the suitable old C2 in target beam position of old B2 with the practiced detection in front and carry out the color shift revisal.
But, if carry out repeatedly, may break away from optimum condition, therefore,, then advise entering next time B3 if C0 → C1 → C2 and high duty ratio continue.
Like this, by importing the dutycycle notion of " number/time ", can be suppressed to Min. suitably and with color shift detecting pattern action frequency.Especially, behind the access power supply, various conditions sharply change, and can be set at " the judging the threshold value of carrying out " after the energized lower.
Above with reference to description of drawings embodiments of the invention, but the present invention is not limited to the foregoing description.Can do all changes in the technology of the present invention thought range, they all belong to protection scope of the present invention.
Claims (8)
1. image processing system, comprise light scanning apparatus, this light scanning apparatus is provided with the light source that penetrates some light beams respectively, and the deflection means that make each beam deflection, described some light beams scan on photoreceptor respectively, on this photoreceptor, form some images, with the synthetic single image output of described some images;
Form means by image, at the intermediate transfer body or be used to transport transporting of recording medium and form color shift on the means and detect pattern, during the color shift detecting pattern, detect color shift by the pattern detection means and detect pattern, output is used for the compensating value of revisal color shift, and this compensating value is stored in the storer means; It is characterized in that:
Be provided with the beam detection means integratedly with above-mentioned light scanning apparatus, detect the position of each light beam of the sub scanning direction that intersects along the main scanning direction of light beam and with this main scanning direction respectively;
When image forms or every decide interval, detect light beam information by these beam detection means.
2. image processing system as claimed in claim 1 is characterized in that:
Described light beam information is the main scanning direction multiplying power, master/sub scanning direction location ratio, and sub scanning direction is crooked.
3. image processing system as claimed in claim 1 is characterized in that:
Penetrate direction along light beam, described beam detection means are arranged on the downstream of final optical element.
4. image processing system as claimed in claim 1 is characterized in that:
Be provided with the revisal means, when image forms or every decide at interval to read described compensating value from described storer means, with this compensating value as desired value, revisal main scanning direction multiplying power, master/sub scanning direction is located ratio, sub scanning direction is crooked.
5. as each described image processing system of claim 1-4, it is characterized in that:
According to carried out elapsed time or printing number from last time, judge whether to carry out the color shift detecting pattern that upgrades described compensating value.
6. as each described image processing system of claim 1-4, it is characterized in that:
Judge whether to carry out the color shift detecting pattern that upgrades described compensating value according to " the printing dutycycle " carried out from last time in the elapsed time.
7. as claim 5 or 6 described image processing systems, it is characterized in that:
Carry out the several times detecting pattern, when judging whether to carry out inferior time detecting pattern, be judged to be and do not carry out occasion, be returned to and carried out the preceding desired value of detecting pattern last time.
8. as claim 5 or 6 described image processing systems, it is characterized in that:
When judging whether to carry out detecting pattern, be judged to be not carry out after, when judged whether to carry out detecting pattern next time, being judged to be needed to carry out occasion, was returned to the desired value before the implementation detecting pattern that is judged to be before not carrying out.
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JP2006054700A JP2007233048A (en) | 2006-03-01 | 2006-03-01 | Image forming apparatus |
JP054700/06 | 2006-03-01 |
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CN101030059A true CN101030059A (en) | 2007-09-05 |
CN100507744C CN100507744C (en) | 2009-07-01 |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101957570A (en) * | 2009-07-13 | 2011-01-26 | 柯尼卡美能达商用科技株式会社 | Image processing system |
CN101995789A (en) * | 2009-08-19 | 2011-03-30 | 株式会社理光 | Image forming apparatus and image forming method |
CN101436017B (en) * | 2007-11-14 | 2012-03-07 | 富士施乐株式会社 | Reading apparatus, image forming apparatus and image forming method |
CN104216114A (en) * | 2013-05-30 | 2014-12-17 | 京瓷办公信息系统株式会社 | Optical scanning device and image forming apparatus therewith |
CN109313257A (en) * | 2016-06-24 | 2019-02-05 | 高通股份有限公司 | System and method for light-beam position detection |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2004109699A (en) * | 2002-09-19 | 2004-04-08 | Ricoh Co Ltd | Optical scanner and image forming apparatus |
JP2004142250A (en) * | 2002-10-24 | 2004-05-20 | Canon Inc | Image forming apparatus and maintenance management method |
-
2006
- 2006-03-01 JP JP2006054700A patent/JP2007233048A/en active Pending
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2007
- 2007-03-01 CN CNB2007100856106A patent/CN100507744C/en not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101436017B (en) * | 2007-11-14 | 2012-03-07 | 富士施乐株式会社 | Reading apparatus, image forming apparatus and image forming method |
CN101957570A (en) * | 2009-07-13 | 2011-01-26 | 柯尼卡美能达商用科技株式会社 | Image processing system |
CN101957570B (en) * | 2009-07-13 | 2013-07-31 | 柯尼卡美能达商用科技株式会社 | Image forming apparatus |
CN101995789A (en) * | 2009-08-19 | 2011-03-30 | 株式会社理光 | Image forming apparatus and image forming method |
CN101995789B (en) * | 2009-08-19 | 2013-11-06 | 株式会社理光 | Image forming apparatus and image forming method |
CN104216114A (en) * | 2013-05-30 | 2014-12-17 | 京瓷办公信息系统株式会社 | Optical scanning device and image forming apparatus therewith |
CN104216114B (en) * | 2013-05-30 | 2016-08-17 | 京瓷办公信息系统株式会社 | Optical scanner and the image processing system possessing this optical scanner |
CN109313257A (en) * | 2016-06-24 | 2019-02-05 | 高通股份有限公司 | System and method for light-beam position detection |
Also Published As
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CN100507744C (en) | 2009-07-01 |
JP2007233048A (en) | 2007-09-13 |
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