JP4009220B2 - Color image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a color image forming apparatus, and more particularly to a tandem color image forming apparatus in which a plurality of image carriers are juxtaposed in a sheet conveying direction.
[0002]
[Prior art]
In this type of color image forming apparatus, a plurality of photoconductors as image carriers are juxtaposed in the sheet conveying direction, and writing means are arranged corresponding to each photoconductor. An electrostatic latent image is formed on each photoconductor by writing means, and the electrostatic latent image on each photoconductor is developed with different color toners for each photoconductor.
The toner images on the respective photoreceptors are sequentially transferred onto a sheet by a transfer unit and sent to a fixing unit. In the fixing unit, the color toner is melted by heat and pressure, and the image is fixed on the sheet.
The writing means has a polygon mirror that deflects the laser beam and a lens for imaging a minute spot light on the photoconductor. A glass lens with excellent optical performance and stability is used for the lens. Has been.
[0003]
As this type of color image forming apparatus, for example, the one described in JP-A-9-34275 is known. In this color image forming apparatus, a plurality of laser beam writing units are arranged in the upper part of the apparatus, and a tandem configuration is adopted in which a plurality of laser beams are deflected by a single polygon motor.
When the writing means is arranged on the upper part of the apparatus, there is a concern that the heat generated in the apparatus rises due to natural convection and raises the temperature of the lens, thereby impairing the optical stability. In particular, the radiant heat from the fixing means is large. For this reason, a long sheet conveyance path is provided between the transfer unit and the fixing unit so as to be as far as possible from the writing unit, thereby reducing the thermal effect.
[0004]
[Problems to be solved by the invention]
In the heat suppression configuration described in Japanese Patent Application Laid-Open No. 9-34275, there is a problem in that the sheet conveyance path becomes long, resulting in an increase in the configuration and cost of the apparatus.
By the way, in recent years, a monochrome laser printer or the like has realized a significant cost reduction by using a resin-molded lens that can be produced at a very low cost instead of a glass lens having poor processability. In addition, by utilizing the flexibility of curved surface processing unique to a resin-molded lens, two lenses having different performances are combined into one to realize the overall performance.
[0005]
However, when the temperature of the resin-molded lens changes from about room temperature to about 50 ° C., a change in the lens spot due to thermal expansion and a change in the refractive index of the material cause a noticeable change in the minute spot diameter and a change in the imaging position value.
In the laser beam writing means, in general, the laser beam deflected by the polygon mirror is folded by the two folding mirrors through the first lens, and forms an image on the photoreceptor through the second lens.
In this case, when one or both of the two lenses are resin-molded lenses, in addition to the change in the minute spot diameter, as shown in FIG. 2, the fluctuation MV of the imaging position value in the main scanning direction due to the temperature rise, A variation SV of the imaging position value in the sub-scanning direction due to the temperature rise occurs. FIG. 2 does not show the prior art, but also serves to display problems of the prior art.
[0006]
However, in a monochrome laser printer, image degradation caused by a minute spot diameter variation is not a problem because it is used at a low image quality requirement level mainly for character printing. In addition, the fluctuation of the imaging position appears as a slight change in the position and magnification of the entire image, but this is also not a problem because the required accuracy level of the position and magnification is low.
However, if a resin-molded lens is used in an apparatus for forming a color image at a high speed by arranging a plurality of writing means in parallel, the fluctuation of the minute spot diameter and the fluctuation of the imaging position are serious problems. Particularly problematic is the fluctuation of the imaging position. In full-color image formation using four color toners of Y, M, C, and Bk, which is generally performed, the color misalignment is about ½ of the dot diameter. Even if this occurs, it can be visually discriminated.
Actually, in many cases, images are formed using minute dots of about 42 μm with a resolution of about 600 dpi, so that it is a very severe requirement level that it is desirable that the variation in the image formation position is about 20 μm or less.
[0007]
The color matching of the four colors is usually adjusted automatically or manually before image formation. However, the temperature rise of the lens of each color and the change of the temperature distribution occur due to the temperature rise in the apparatus due to operation. Thus, if it is used as it is under the apparatus temperature condition of about 10 to 20 deg, the imaging position fluctuation of the 100 μm level is generated, and there is a serious problem that the image quality deteriorates with the operation, and it cannot be used.
Further, the temperature rise in the apparatus around the lens is greatly affected by heat radiation of the fixing means, heat generated by the electrical equipment centering on the power source, and the polygon motor itself. Devices with a degree of freedom of arrangement such as a power supply can usually be placed away from each other, but the fixing unit is positioned relative to the transfer unit via a photoconductor, and is only thermally limited to the extent permitted by the constraints. An advantageous position cannot be taken. Further, the heat generation of the polygon motor was reduced by cooling the writing means, usually by air cooling by a fan.
[0008]
If you try to prevent the temperature rise by strengthening air cooling to use the resin molded lens, the cost increases by the fan, the use environment decreases due to noise and waste heat temperature, the power consumption of the fixing means increases, etc. There has been a problem that the low-cost advantage of using a lens is greatly impaired. Even in the configuration described in Japanese Patent Application Laid-Open No. 9-34275, a powerful cooling means is required to be able to use a resin molded lens.
Although there is a method of using a heat insulating member, the effect is not sufficient and it is disadvantageous in terms of cost.
[0009]
Japanese Patent Laid-Open No. 6-88945 discloses a technique in which a heat radiating duct and a heat radiating fin are integrally formed on at least one of the upper and lower surfaces of a lens in an image forming apparatus having a single writing means.
In an image forming apparatus using a single color or one writing means, only measures against optical characteristic deterioration are sufficient, but in a color image forming apparatus having a plurality of writing means, optical characteristic deterioration is not only a problem.
For example, fluctuations in image formation position and scanning width due to lens expansion cause color changes and boundary color shifts only when the writing position of each color changes relative to the image resolution level (several tens of μm level). Must be kept as small as possible.
In particular, when using an inexpensive resin-molded lens, the temperature coefficient of the lens is large, so it is necessary to suppress temperature fluctuations of about several degrees.
From such a background, a resin molded lens cannot be used in a color image forming apparatus provided with a plurality of writing means, and the low cost advantage cannot be reflected in the apparatus cost.
[0010]
Therefore, the present invention provides a color image forming apparatus that can fully utilize the advantages of low cost without using a resin-molded lens and without increasing the size of the apparatus, and that can suppress image quality deterioration. For that purpose.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, according to the first aspect of the present invention, a plurality of image forming means provided in a stacked state in the vertical direction and a plurality of lasers horizontally disposed corresponding to the plurality of image forming means, respectively. a beam writing means, in an image forming apparatus having a transfer means for sequentially transferring the toner images on the sheet from the plurality of image forming means, and fixing means for performing fixing of the toner image after transfer, a plurality of laser beam writing Each means has a resin-molded lens in the housing, and is arranged in the vertical direction between the plurality of image forming means and the plurality of laser beam writing means, and is formed with a slit through which the beam passes. And two side plates that extend in the vertical direction and support both sides of the plate, wherein the plate and the two side plates are the plurality of laser beams. Constituting a common duct to the writing means adopts a structure called.
[0012]
According to a second aspect of the present invention, in the color image forming apparatus according to the first aspect, the plate is configured to shield the plurality of laser beam writing units from the fixing unit.
[0013]
In the invention of claim 3, wherein, in the color image forming apparatus according to claim 2, adopts a configuration in which the fan in the duct is provided.
[0014]
In the invention of claim 4, wherein, in the color image forming apparatus according to claim 1, wherein said fixing means is provided on top of the device, the upper portion of the duct is adopted a configuration that, encloses a portion of the fixing means .
[0015]
According to a fifth aspect of the present invention, in the color image forming apparatus according to any one of the first to fourth aspects, the fixing unit is provided above the uppermost image forming unit among the plurality of image forming units. and are, it adopts a configuration that.
[0021]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
As shown in FIG. 1, the color image forming apparatus 2 includes a paper feed cassette 4 provided at the lower part of the apparatus, four image forming means 6a, 6b, 6c, and 6d provided in a stacked state in the vertical direction. The laser beam writing means 8a, 8b, 8c, 8d as the four writing means arranged horizontally corresponding to the above, the transfer means 10 of the transfer belt system, and the fixing provided above the uppermost image forming means 8d. It has a belt type fixing means 12 and the like. The sheet conveyance path from the transfer unit 10 to the fixing unit 12 is substantially vertical.
[0022]
Each of the image forming means 6a, 6b, 6c, 6d has photoconductors 14a, 14b, 14c, 14d as image carriers, and individually corresponds to these photoconductors 14a, 14b, 14c, 14d. The laser beam writing means 8a, 8b, 8c and 8d are provided. Electrostatic latent images are formed on the uniformly charged photoreceptors 14a, 14b, 14c, and 14d by the laser beam writing means 8a, 8b, 8c, and 8d. The electrostatic latent images are represented by Y (yellow) and M, respectively. (Magenta), C (cyan), and Bk (black) color toner are used for development.
[0023]
As shown in FIG. 2, the laser beam writing means 8a, 8b, 8c, and 8d respectively send a minute spot light at a constant speed onto the polygon mirror 16 that rotates and scans the beam at high speed and the photosensitive members 14a, 14b, 14c, and 14d. The resin-molded lenses 18 and 24 for scanning and imaging and the folding mirrors 20 and 22 are accommodated in a housing 25. In order to reduce the size of the housing 25, two folding mirrors 20 and 22 are provided.
The sheets stacked in the paper feed cassette 4 are separated one by one from the uppermost one by a paper feed roller 26 and the like, and are sent to the registration roller pair 28. The sheet is corrected for oblique displacement and the like by the registration roller pair 28, and is then fed by the registration roller pair 28 toward the transfer portion of the photoreceptor 14a at a predetermined timing. The sheet is attracted onto the transfer belt 10a by electrostatic force and conveyed substantially vertically, and the toner images of the respective colors are sequentially transferred by applying a transfer bias voltage when passing through the photoreceptors 14a, 14b, 14c, and 14d.
[0024]
The sheet on which the full-color image has been transferred is sent to the fixing unit 12 where the color toner is melted and fixed on the sheet by heat and pressure. The fixing unit 12 includes a roller 32 with a built-in heater 30, a roller 34, a belt 36 spanned between these rollers, and a pressure roller 38, and melts the color toner satisfactorily. Moreover, it has a configuration that does not cause problems such as offset.
The fixed sheet is discharged to the discharge tray 42 by the discharge roller pair 40 and stacked.
[0025]
And providing a fixing unit 12 to the device top and monitor, each laser beam writing means 8a, 8b, 8c, 8d are to be positioned sufficiently away from the fixing unit 12 downward, the sheet extending from the transfer unit 10 to the fixing section 12 Therefore, the temperature rise in the apparatus due to the temperature rise around the fixing unit 12 by the heater 30 built in the fixing unit 12 is sufficiently small without requiring any special parts. Can be suppressed.
For this reason, even if the resin-molded lens 18 and the resin-molded lens 24 are used for the laser beam writing means 8a, 8b, 8c, and 8d, the lens external shape change due to thermal expansion and the refractive index change of the material are small, and the minute spot diameter is small. There is little fluctuation and fluctuation of the imaging position value.
Therefore, image quality deterioration such as color misregistration can be suppressed, and the use of the resin molded lenses 18 and 24 can greatly reduce the cost. Even when either one is a resin-molded lens, a sufficient cost reduction can be achieved compared to the conventional case.
Since a long sheet conveyance path is not provided between the transfer unit 10 and the fixing unit 12 and the influence of heat from the fixing unit 12 is avoided, the size of the apparatus is not increased.
[0026]
The temperature rise around the fixing unit 12 is mainly caused by heat transfer by natural convection through the structure and cover around the heater 30, and the temperature rise at the upper part of the apparatus is the largest, and the surroundings are affected. Heat transfer hardly contributes to the direction, and only a slight temperature rise due to heat radiation is a problem.
In this embodiment, since the sheet conveyance path is configured to be substantially vertical, the arrangement is sufficiently advantageous from the viewpoint of avoiding thermal influence. However, the laser beam writing means 8a, 8b, The sheet conveyance path may be inclined in a range where 8c and 8d are downward .
[0027]
Next, another embodiment will be described with reference to FIGS. The same parts as those in the above embodiment are denoted by the same reference numerals, and redundant description is omitted unless otherwise necessary (the same applies to the other embodiments below).
In the present embodiment, not only temperature rise is prevented but also color shift is prevented by reducing or eliminating the temperature difference between the lenses, that is, the temperature difference between the laser beam writing means 8a, 8b, 8c and 8d. The purpose is that.
[0028]
The imaging position shift due to the temperature change is considered to exhibit the same fluctuation if the conditions are the same between the laser beam writing means 8a, 8b, 8c, and 8d having substantially the same configuration. Therefore, it is important not only to suppress the temperature rise but also to reduce the temperature difference between the laser beam writing means 8a, 8b, 8c and 8d.
As shown in FIG. 3, each laser beam writing means 8a, 8b, 8c, 8d is supported by a writing stay 48 supported between the apparatus main body front side plate 44 and the apparatus main body rear side plate 46.
[0029]
Also, each laser beam writing means 8a, 8b, 8c, the left and right side of 8d includes a plate 50 shown in FIG. 4, are shielded by the plate 52 shown in FIG. 5, the device body front plate 44, the apparatus main body rear plate 46 The laser beam writing means 8a, 8b, 8c, and 8d are enclosed by the plate 50 and the plate 52 so as to isolate the laser beam writing means 8a, 8b, 8c, and 8d inside the apparatus, and a cooling duct 54 that opens up and down is formed. Plate 52 you shield the laser beam writing means 8a, 8b, 8c, and 8d from radiation heat of the fixing means 12.
There is one cooling duct 54, which is common to each laser beam writing means 8a, 8b, 8c, 8d . In FIG. 3, the transfer unit 10, the fixing unit 12, and the like are omitted.
[0030]
In the cooling duct 54, a vertical air flow is generated by natural convection. Accordingly, the temperature conditions by the airflow flowing through the common becomes uniform, because it is cut off from the temperature variation of the apparatus, the laser beam writing means 8a, 8b, 8c, the temperature of the resin forming the lens 18, 24 of 8d to airflow temperature The temperature becomes substantially the same, and the temperature difference between the resin molded lenses 18 and 24 of the laser beam writing means 8a, 8b, 8c and 8d is reduced.
Since the laser beam writing means 8a, 8b, 8c, 8d are separated below the fixing means 12, and the temperature difference between the resin molded lenses 18, 24 of each laser beam writing means 8a, 8b, 8c, 8d is small. It is possible to prevent image position misalignment (color misregistration).
[0031]
As shown in FIG. 5, the plate 52 but that have been formed a slit 52a for the beam to pass through, due to uneven or toner dust temperature of the cooling duct 54 air flow from the slit 52a is flows in and out dirt In order to eliminate this, the slit 52a may be closed with dust-proof glass, or the housing 25 and the plate 52 of each laser beam writing means 8a, 8b, 8c, 8d may be brought into close contact with each other.
It is also effective to limit holes other than the slits 52a for attaching harnesses and parts as much as possible, or to close the holes with a sponge-like member or the like.
In the present embodiment, the air flow by the natural convection is generated in the cooling duct 54. However, the air duct may be forcibly generated by providing a blowing means.
[0032]
Although the cooling duct 54 may be formed using a dedicated member, as described above, the apparatus main body front side plate 44 and the apparatus main body rear side plate 46 are a part thereof, in other words, the cooling duct 54 is provided with the laser beam writing means. If the apparatus main body front side plate 44 and the apparatus main body rear side plate 46, which are structures supporting the 8a, 8b, 8c, and 8d, are combined, it is advantageous in terms of cost, assembly, and miniaturization .
Alternatively, a duct-like structure that integrally supports the laser beam writing means 8a, 8b, 8c, and 8d may be unitized and attached to the apparatus main body in units. In this case, it is more preferable to use a unit that also serves as the polygon mirror 16 and the like and has a unit with a reduced number of parts.
[0033]
Next, another embodiment will be described with reference to FIG. The object of the present embodiment is to reliably cool by natural convection without using a blowing means that requires power.
The common cooling duct 56 surrounding each laser beam writing means 8a, 8b, 8c, 8d is formed so that the air flow path passes through a part of the fixing means 12, and the exhaust part 56a is located above the fixing means 12. An intake portion 56b is opened on the lower side surface of the apparatus . The exhaust part 56 a is formed so as to include the heater 30.
The air at the upper end of the duct warmed by the residual heat of the fixing means 12 rises from the exhaust part 56a, and the outside air flows in sequentially from the intake part 56b. An air flow is generated in the cooling duct 56 by the so-called chimney effect, so that the temperature deviation between the resin molded lenses 18 and 24 of the laser beam writing means 8a, 8b, 8c and 8d can be reduced.
Since the airflow by natural convection stronger than the said Example can be produced, a ventilation means is unnecessary.
[0034]
The intake portion 56b is not limited to the side surface of the lower portion of the apparatus shown in FIG. 6, and may be formed on the bottom surface or another side surface. Further, the exhaust part 56a is not limited to the upper surface of the apparatus, and may be configured to be guided to the side surface.
In this embodiment, the upper part of the duct is formed so as to include the heater 30. However, even if it is formed so as to be adjacent to the periphery of the fixing unit 12, a similar function can be obtained by heat conduction.
Also in this embodiment, if the cooling duct 56 also serves as a structure that supports the laser beam writing means 8a, 8b, 8c, and 8d, it is advantageous in terms of cost, ease of assembly, and downsizing .
[0035]
Next, another embodiment will be described with reference to FIG. The present embodiment aims to effectively minimize the temperature deviation between the lenses by generating a forced airflow against the temperature distribution in the vertical direction in the apparatus.
In general, not only the heat generated from the fixing unit 12 but also the heat generated from the heat source in the apparatus causes natural convection, and the temperature tends to increase toward the upper part of the apparatus closed by the cover. In such an environment, when a cooling airflow is generated from below to above, in some cases, the temperature of the cooling airflow is rapidly heated by the surroundings so that sufficient temperature uniformity cannot be maintained. Conceivable.
In order to deal with such a case, in this embodiment, a cooling fan 60 as a blowing unit is provided below a common cooling duct 58 surrounding each laser beam writing unit 8a, 8b, 8c, 8d .
[0036]
Due to the operation of the cooling fan 60, outside air flows in from the intake portion 58a that opens to the upper surface of the apparatus, and is exhausted from the exhaust section 58b that opens to the lower side surface of the apparatus, thereby generating a cooling airflow in the opposite direction to the case of natural convection.
In the initial stage when the airflow temperature is low, the temperature is heated from the periphery of the relatively high temperature duct, and thereafter, the temperature condition is not so high. Therefore, the temperature deviation of the plurality of laser beam writing means 8a, 8b, 8c, 8d should be kept small. Image stabilization.
[0037]
The air intake portion 58a is not limited to the upper surface of the apparatus, and may be formed on the side surface. Further, the exhaust part 58b is not limited to the lower side surface of the apparatus, but may be configured to be guided to the bottom surface or other side surfaces. If the exhaust gas is guided to the bottom surface, it is possible to prevent the working environment from deteriorating due to an unpleasant air flow around the apparatus. The position of the cooling fan 60 is not limited to the lower part of the apparatus, and may be provided on the intake side or on both sides.
Also in this embodiment, if the cooling duct 58 also serves as a structure that supports the laser beam writing means 8a, 8b, 8c, and 8d, it is advantageous in terms of cost, ease of assembly, and miniaturization .
[0038]
【The invention's effect】
According to the present invention, the advantage of low cost can be fully utilized without increasing the size of the apparatus while using a resin molded lens, and image quality deterioration can be suppressed.
[Brief description of the drawings]
FIG. 1 is a schematic front view of a color image forming apparatus according to an embodiment of the present invention.
2A and 2B are diagrams showing laser beam writing means as writing means, where FIG. 2A is a schematic plan view, and FIG. 2B is a schematic front view.
FIGS. 3A and 3B are diagrams of a color image forming apparatus according to another embodiment, in which FIG. 3A is a partially omitted schematic plan view, and FIG. 3B is a partially omitted schematic front view;
4 is a perspective view of a plate constituting a part of a cooling duct in the embodiment shown in FIG. 3. FIG.
5 is a perspective view of a plate constituting a part of a cooling duct in the embodiment shown in FIG. 3. FIG.
FIG. 6 is a schematic front view of a color image forming apparatus according to another embodiment.
FIG. 7 is a schematic front view of a color image forming apparatus according to another embodiment.
[Explanation of symbols]
14a, 14b, 14c, 14d Photoconductors 8a, 8b, 8c, 8d as image carriers Laser beam writing means 10 as writing means Transfer means 12 Fixing means 18, 24 Resin molded lenses 54, 56, 58 Cooling duct 60 Air blow Cooling fan as a means

Claims (5)

A plurality of image forming means provided in a stacked state in the vertical direction ;
A plurality of laser beam writing means horizontally disposed corresponding to the plurality of image forming means ,
Transfer means for sequentially transferring toner images to the sheet from the plurality of image forming means;
Fixing means for fixing the toner image after transfer ;
In an image forming apparatus having
Each of the plurality of laser beam writing means has a resin molded lens in the housing ,
A plate which is arranged vertically between the plurality of image forming means and the plurality of laser beam writing means, and in which a slit for allowing the beam to pass is formed;
Two side plates extending in the vertical direction and supporting both sides of the plate,
The color image forming apparatus, wherein the plate and the two side plates constitute a duct common to the plurality of laser beam writing means . The color image forming apparatus according to claim 1.
The color image forming apparatus, wherein the plate shields the plurality of laser beam writing means from the fixing means. The color image forming apparatus according to claim 2 .
A color image forming apparatus, wherein the duct is provided with a fan . The color image forming apparatus according to claim 1 .
A color image forming apparatus, wherein the fixing unit is provided in an upper part of the apparatus, and the upper part of the duct includes a part of the fixing unit . The color image forming apparatus according to any one of claims 1 to 4 ,
The color image forming apparatus , wherein the fixing unit is provided above the uppermost image forming unit among the plurality of image forming units.

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