JPH065425B2 - Transfer drum of copier - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a transfer drum in a color copier.

2. Description of the Related Art In a color copying machine, a manuscript image is divided into three primary colors of paint, that is, yellow, magenta, and cyan, exposed, and developed for each color. There is. For example, first, the original image is exposed on the photosensitive surface through a blue filter having a complementary color relationship with yellow to form an electrostatic latent image corresponding to the intensity of the yellow component, and the latent image is developed with yellow toner to be visualized. After that, transfer to recording paper. Next, through a green filter having a complementary color relationship of magenta, the original image is exposed on the photosensitive surface to form an electrostatic latent image corresponding to the intensity of the magenta component, and after developing with magenta toner to visualize,
Transfer from the yellow toner image onto the same recording paper. Further, the cyan toner image is similarly transferred onto the same recording paper from above the yellow and magenta toner images through the red filter.

Therefore, in order to obtain one full-color copy, three exposure-development-transfer steps are required, but additive mixing by these three color toner images is originally the same. Since the image is decomposed into each component, it must be transferred at exactly the same position. Therefore, a transfer drum around which recording paper is wound is used in this type of color copying machine. This is a drum in which a recording paper is wound around and fixed to a cylindrical wall whose peripheral length is equal to the peripheral length of the photoconductor of the photoconductor drum. The photosensitive surface of the photoconductor drum and the recording paper of the transfer drum are in light contact with each other at the transfer position, and transfer can be performed on the recording paper while rotating in opposite directions in synchronization. A perspective view of the photosensitive drum and the transfer drum is shown in FIG. 2a.

Generally, this type of transfer drum has means for fixing the end portion of the recording paper, and electrostatically attracts the recording paper by using a dielectric on the cylindrical wall.

By the way, at the transfer position, if the contact pressure is insufficient and the recording paper floats from the photosensitive surface, transfer failure will occur, and if the contact pressure is strong, the photosensitive member will be pressed against the photosensitive drum body. However, problems such as peeling of the existing photoconductor may occur. Further, if the transfer drum is a rigid body (used in the sense that the required elasticity cannot be obtained / the same applies below), the photosensitive surface is damaged by the carrier mixed during development, which accelerates deterioration of the photosensitive body.

As a solution to the above-mentioned inconvenience, JP-A-54-1975
There are two publications. In this case, a flexible dielectric film is wound by using a cylinder (hereinafter, such a cylinder is referred to as an offset cylinder) that is cut so that an annular end is connected to both ends of a rod-shaped connecting portion as a support frame. An attached transfer drum is disclosed. In this transfer drum, as shown in FIG. 2a, 1 is an annular end portion at both ends, 2 is a connecting portion for connecting them, and a flexible dielectric film 3 is wound around a support frame made of these. There is. When the offset cylinder is used as the support frame of the transfer drum, the recording paper winding portion can be made of a flexible dielectric film, so that the elasticity can bring the photosensitive surface into contact with the recording paper at an appropriate contact pressure. . Further, even when a carrier is mixed during development, the force of the convex portion is absorbed by the elasticity of the dielectric film, and the photosensitive surface is not damaged.

An ideal embodiment that fully utilizes the advantages of such an offset cylinder transfer drum is the width of the recording paper <
The condition that the width of the photosensitive surface <the width of the flexible portion of the transfer drum is satisfied, and in particular, the width of the flexible portion of the transfer drum must be sufficiently wider than the width of the photosensitive surface. In FIG. 2a, l ₁ is the width of the recording paper, l ₂ is the width of the photosensitive surface, and l ₃ is the width of the flexible portion of the transfer drum. FIG. 3 shows a sectional view taken along the line IC-IC in FIG. 2a when the above conditions are followed. Third
As shown in the figure, the elasticity of the dielectric film brings the recording paper 4 into contact with the photosensitive surface 28 with an appropriate contact pressure. Further, since there is no unnecessary contact with the photosensitive surface 28, there is no cause for accelerating the deterioration of the photosensitive member. However, in such an offset cylinder, there is a problem in strength because the elements of the supporting frame forming the shape of the drum are only two ends and the connecting part, and the ends have a certain width in the cylindrical direction. Will be required. Further, when the width l' _{3 of the} flexible portion of the transfer drum cannot be wide enough, the bending force is A.
The thickness of the flexible dielectric film must be increased because it tends to be broken at points. Therefore, if this transfer drum is implemented in an ideal mode as shown in FIG. 3, the copying machine itself becomes too large, which is a major obstacle to downsizing and cost reduction.

Further, if the width of the cutout portion of the cylinder is made close to the width of the recording paper, the size can be reduced.
Shown in the figure. As can be seen, the width l _{2 of the} photosensitive surface>
Since the width of the flexible portion of the transfer drum is l ₃ , the photosensitive member is pressed against the rigid portion of the transfer drum, causing peeling of the photosensitive layer and causing leaks during development. Further, since the contact pressure is determined by the pressure contact portion,
The thickness of the recording paper is not completely absorbed by the flexing of the flexible dielectric film. Therefore, near the edge, the contact pressure becomes large and the edge of the recording paper bites into the photoconductor,
In the vicinity of the center, the contact pressure becomes insufficient, resulting in transfer failure due to non-uniform contact pressure.

Due to these problems, it was difficult to miniaturize the transfer drum by using the offset cylinder.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a transfer drum which can make full use of elasticity of a flexible dielectric film and can be downsized.

In order to achieve the above object, in the present invention, the width of the end portion of the offset cylinder is set to a width at which sufficient strength can be obtained, and a part of the end portion around which the flexible dielectric film is wound, A taper extending from the outside to the inside of the region facing the photoconductor is provided to form a gap with the flexible dielectric film.

According to this, the flexible dielectric film is wrapped around the cylindrical portion of the end portion, but the flexible portion is not the width of the cutout portion of the cylindrical portion, but the taper start position between the two end portions. Since the width is wide, it is possible to obtain a wider width, and it is possible to downsize an ideal transfer drum under the above conditions. Further, since the strength of the offset cylinder can be obtained as the rigidity of the entire end portion, the transfer drum can be downsized.

In a preferred embodiment of the present invention, the offset
Make the taper of the cylinder curved.

Embodiment of the Invention FIG. 1 shows an outline of the mechanism of a color copying machine embodying the present invention in one mode. A color copier separates a color image of an original into yellow, magenta, and cyan components and develops each color. Therefore, a single copying process is performed three times as much as the copying process of an ordinary single-color (black) copying machine. Complete a copy of. For this reason,
The developing section is composed of three times as many elements as a monochromatic copying machine.
Hereinafter, description will be given with reference to the drawings.

In FIG. 1, reference numeral 12 is a contact glass on which a document is placed, and the document is brought into close contact with the pressing plate 10 from above.
The original document on the contact glass 10 is sequentially scanned in the horizontal direction in the drawing by a scanner 15 provided with an exposure lamp 14, a first mirror 16 and the like on the same carriage, and the reflected light is reflected by the first mirror 16 and the second mirror 18. , Lens 20,
An image is formed on the photosensitive surface 28 of the photosensitive drum 27 via the third mirror 22, the fourth mirror 24 and the filter plate (26B in the figure) of the filter unit 26. In scanning by the scanner 15, the second length is set so that the optical path length from the reflection position 13 of the document to the photosensitive surface 28 is always constant.
The mirror is driven in the scanning direction at half the speed of the scanner 15, and is returned after the scanning is completed. The optical system drive motor 58 drives these optical systems. The filter unit 26 is a blue filter plate 2
6B, a green filter plate 26G, a red filter plate 26R, and end plates supporting these filter plates,
The filter plate 26B, 26G, 26R is composed of a shaft, a drive solenoid, a filter position sensor and the like.
Are selectively positioned in the exposure light path.

Around the photosensitive drum 27, a charge eliminating corona generator (charge eliminating charger) 30, a charging corona generator (charging charger) 32, an erase lamp 34, and a yellow developing device 36.
Y, magenta developing unit 36M, cyan developing unit 36C, transfer drum 38, cleaning unit 39 and the like are arranged.

The photosensitive surface 28 of the photosensitive drum 27 has a charge removing charger 30.
After being discharged by the charging charger 32 and uniformly charged by the charging charger 32, the erase lamp 34 discharges and discharges the electric charge in the portion outside the recording paper width, and when the preparation for exposure is completed, the reflection of the original document passing through the filter plate (26B) is completed. Exposure is started by light. The photoconductor drum 27 rotates (counterclockwise in the figure) in synchronization with the scanner 15, and the photoconductor surface 28 receives the reflected light from the document, and its surface potential changes according to the intensity of the light, so that the electrostatic charge is generated. A latent image is formed. This electrostatic latent image is visualized (hereinafter referred to as a toner image) by each toner in any one of the yellow developing device 36Y, the magenta developing device 36M, and the cyan developing device 36C. First
In the figure, since the filter plate 26B is inserted in the exposure optical path, the yellow developing device 36Y is selected, and yellow toner is attached and visualized.

This toner image is transferred to the recording paper 5 wound around the transfer drum 38 just below a transfer corona generator (transfer charger) 40. Details of the transfer drum 38 are shown in FIG. 2a. The transfer drum 38 is a cylindrical wall made of mylar (translucent / flexible dielectric film) 3 wound around an offset cylinder made of aluminum and composed of an end portion 1 and a connecting portion 2. The recording paper 4 is charged and attracted.
The connecting portion 2 is provided with a clamper 5 that presses one end of the recording paper 4, and the clamper 5 is provided with a cam 5 via a cam shaft 5b.
a is engaged and can be opened and closed in a fan shape around the cam shaft 5b.

The operation of winding the recording paper 4 around the transfer drum 38 will be described.

The recording paper 4 is fed from the paper feed cassette 44 by the paper feed roller 42 at a predetermined timing, and is fed to the registration roller 46 at a constant speed. When a paper sensor (not shown) in the registration roller 46 detects the arrival of the recording paper 4, the registration motor 46 is driven by the pulse motor 48, and the recording paper 4 is accelerated at double speed and opened. It collides with 5 and is clamped. Clamper 5
Is opened and closed mechanically by a push-up pin (not shown) provided around the transfer drum 38 and the cam 5a. Acceleration by the registration roller 46 makes the clamp highly reliable.

At this time, if two or more sheets of recording paper are fed (double-fed), the mylar 3 and the photosensitive surface 28 may be scratched or mechanically distorted, or paper jam may occur due to tearing of the recording paper. Become. For this reason, a sensor (not shown) for double feed detection is arranged on the conveyance path of the recording paper to the transfer drum 38.
When double feed is detected, feeding is stopped.

This copying apparatus is provided with a mode for performing monochrome copying, which can be performed by designating yellow, magenta, and cyan. For example, when monochromatic copying with cyan is designated, the red filter plate 26R, which is the complementary color, is set in the exposure optical path, and development with cyan toner for energizing the cyan developing device 36C is performed. That is, the photosensitive surface 28 is exposed by the reflected light of the original that has passed through the red filter plate 26R to form an electrostatic latent image, which is developed with cyan toner in the cyan developing device 39C and wound around the transfer drum. It is transferred to the recording paper 4. The recording paper 4 on which the cyan toner image has been transferred is separated from the transfer drum by the charge-eliminating corona generator 66 that also functions as a separation charger and a separation claw (not shown), and is sent to the fixing device 50 by a conveyance roller (not shown). . Fuser 50
At, the cyan toner image on the recording paper 4 is fixed by the fixing roller 62 having a built-in heater, and the cyan toner image is discharged to the copy tray 52 via a discharging roller (not shown). After the transfer of the toner (cyan) image, the photosensitive drum makes one further rotation, is cleaned by the cleaner 39, and then is at the home position so that the next copying process can be performed.

When the mode for performing color copying is designated, the photosensitive drum 27 is rotated and the photosensitive surface 38 is removed by the charge removal charger 30.
To eliminate static electricity, and to uniformly charge and erase with the charger 32.
The lamp 34 removes the charge on the outer portion of the exposure. First, in the first exposure-development-transfer step, the filter plate drive solenoid selects the blue filter plate 26B, and the reflected light of the original document passing through this selects an electrostatic latent image of a blue complementary color yellow on the photosensitive surface. It is formed. This electrostatic latent image is
Recording paper 4 visualized with yellow toner on 36Y
Is transcribed to.

After the transfer of the yellow toner image, the cleaner 39 cleans, erases, charges and erases the photosensitive surface 28, and then in the second exposure-development-transfer step, the filter plate driving solenoid operates the green filter plate 26G.
On the recording paper 4 on which the electrostatic latent image of magenta, the complementary color of green, formed on the photosensitive surface by the reflected light of the original passing therethrough is visualized with magenta toner at 36M and the yellow toner image is transferred. Is transcribed to.

After cleaning, charge removal, charging and erasing of the photosensitive surface 28,
Further, in the third exposure-development-transfer process, the red filter plate 26R is selected, and the reflected light of the original that passes through the red filter plate 26R forms an electrostatic latent image of red complementary color cyan on the photosensitive surface. The toner image visualized by the cyan toner in the cyan developing device 36C is transferred onto the recording paper 4 on which the yellow and magenta toner images have been transferred, and the yellow, magenta, and cyan additive colors are mixed to produce a full toner image.
A color image is formed, which is separated from the transfer drum by the separation charger 66 and the separation claw, is fixed in the fixing device 50, and is discharged to the copy tray 52 via the discharge roller. Finally, the photosensitive drum is rotated once more to remove the charge, and after cleaning by the cleaner 39,
It becomes the home position in preparation for the next copying process.

In FIG. 1, 54 is a main motor, 56 is a developing motor, 60 is a fixing motor, and 66 is a precharge motor.
The corona generator 68 is a fan motor.

By the way, it should be noted that in FIG. 2a, a part of the inside of the end portion 1 of the offset cylinder around which the mylar 3 is wound (direction toward the pair of frame portions) is tapered with a width a.

In this case, the width of the flexible portion of the mylar wrapped around the offset cylinder is the width at the start position of the taper in a drooping manner continuous to the two ends. That is, the width can be expanded by 2a as compared with the conventional transfer drum in which the width of the flexible portion is between the cutout portions of the cylinder.

Since l ₁ is the width of the recording paper, l ₂ is the width of the photosensitive surface, and the width of the flexible portion of the Mylar is l ₃ , the above-mentioned ideal condition,
It becomes possible to obtain l ₁ <l ₂ <l ₃ .

FIG. 2b shows a sectional view taken along the line IC-IC in FIG. 2a. Second
As can be seen from the diagram b, the contact pressure between the recording paper 4 and the photosensitive surface 28 can be obtained by the elasticity of the mylar, and the width of the photosensitive surface 28 is sufficiently secured within the width of the flexible portion of the mylar 3. As a result, unnecessary pressure contact with the photosensitive member does not occur. The strength of the offset cylinder is
Since it can be obtained by the entire width of the end portion 1 including the tapered portion, it becomes a small-sized transfer drum having sufficient strength for practical use.

Further, in a preferred embodiment of the present invention, the taper is a curved surface that rotates about the axis of the cylinder so that the end portion of the surface can be smoothly changed from the peripheral surface of the cylinder. As a result, the bending force of the Mylar is dispersed, so that an unreasonable force is less likely to be applied and the life of the Mylar can be extended.

EFFECTS OF THE INVENTION As described above, according to the present invention, the transfer drum is used as a flexible dielectric film, and the end portion of the offset cylinder, which is a support body that supports the transfer drum in a cylindrical shape, is continuously tapered,
Since the gap is provided between the dielectric film and the dielectric film, the elasticity of the dielectric film can be fully utilized, and a small transfer drum that does not apply unnecessary pressure contact to the photoconductor can be obtained.

[Brief description of drawings]

FIG. 1 is a front view showing a schematic configuration of a color copying machine embodying the present invention in one embodiment. 2a is a perspective view showing the photosensitive drum and the transfer drum of FIG. 1, and FIG. 2b is a sectional view taken along the line IC-IC of FIG. 2a. FIG. 3 is a sectional view showing an example of a conventional technique. FIG. 4 is a sectional view showing a drawback of the conventional technique. 1: End part 2: Connection part 3: Mylar (flexible dielectric) 4: Recording paper 5: Clamper 10: Holding plate 12: Contact glass 14: Exposure lamp 15: Scanner 20: Lens 16, 18, 22, 24: Mirror 26: Filter Unit 27: Photosensitive Drum 28: Photosensitive Surface 30: Charge Removal Charger 32: Charging Charger 34: Erase Lamp 36Y, 36M, 36C: Developing Device 38: Transfer Drum 40: Transfer Charger 42: Paper Feed Roller 44: Paper feed cassette 46: Registration roller 48, 54, 56, 58, 60, 68: Motor 50: Fixer 52: Copy tray

Claims (1)

[Claims] 1. A transfer drum in which a tubular flexible dielectric is attached to the annular end of a support body having annular ends connected to both ends of a rod-shaped connecting portion. Is a width extending inward from the outside of the region facing the cylindrical photoconductor that the cylindrical body faces in the direction in which the central axis of the cylindrical body composed of them and the cylindrical flexible dielectric extends. And a ring-shaped peripheral surface that supports the flexible dielectric, and a linear or curved shape that is inside the ring-shaped peripheral surface and that is continuous with and separate from the flexible dielectric, A transfer drum of a copying machine, which has a tapered peripheral surface extending from the outside to the inside of a region facing the photoconductor.