JPS6319676A - Electrostatic recorder - Google Patents

Abstract

PURPOSE:To preclude a defect in latent image formation and a decrease in the life of a hotosensitive body by mounting a grid on an electrostatic charging means and grounding the grid through an impedance element. CONSTITUTION:A corotron 7 for electrostatic charging which charges the photosensitive drum 1 uniformly and electrostatically is provided below an exposure light source 4 and this corotron 7 for electrostatic charging is constituted by extending a discharging wire in a shield case 8 and also extending the mesh type metallic grid 10 in the opening surface of the shield case 8. The grid 10 is grounded through a varistor 11 as the impedance element. Therefore, even when the photosenitive body 1 is charged electrostatically and repeatedly, a current flows through the grid 10 and varistor 11 to hold the electrostatic charging voltage on the photosensitive drum 1 at about 750V, and the electrostatic charging potential never rises above constant level to eliminate a defect in latent image formation and the shortening of the life of the photosensitive body.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to an electrostatic recording device in which at least a charging means and a transfer means are connected to a -based high voltage generating means.

(b) Conventional technology An electrostatic recording device in which charging means and transfer means are connected to a single high voltage generating means is disclosed in, for example, Japanese Patent Laid-Open No. 61-73972.
It is shown in the publication No.

The electrostatic recording device disclosed in this publication includes a charging means for charging a photoreceptor, and an image of an original on the charged photoreceptor.
an exposure means for irradiating a hand-photographed image, a developing means for developing a latent image formed on the photoreceptor, and a transfer means for transferring the developed image onto paper; At least the charging means and the transfer means are biased by one high voltage generating means.

In the conventional technology, since the charging means and the transfer stage are connected to the high voltage generating means, naturally, a high voltage potential is applied to the charging means and the transfer means at the same time. A specific portion of the surface is charged to a constant potential by the charging means, and then further charged by the transfer means, resulting in a significant increase in surface potential.

The graph in FIG. 2 shows this state.

As is clear from this figure, the number 9 on the photoreceptor when charged only by the transfer means is 700
v, but the band 1'ig is further superimposed by the charging means.
When the voltage is increased, the charged potential rises to 1500V.

C) Problems to be Solved by the Invention As mentioned above, in the conventional technology, since the charging means and the transfer means operate simultaneously, a part of the photoreceptor is charged to an abnormally high voltage. This has led to poor latent image formation and a shortened lifespan of the photoreceptor in this area.

(D) Means for Solving the Problems The present invention provides a charging means for charging a photoreceptor, and a light image is projected onto the photoreceptor charged by the charging means. a latent image forming means for forming a latent image, a developing means for developing the electrostatic latent image on the photoreceptor with a trowel, and a toner image formed by this developing means on a recording paper. A potential of the same type as that of the charging means for transfer is applied t.
In an electrostatic recording apparatus, the charging means is equipped with a grid, and the grid is equipped with an impedance element. This electrostatic recording device is characterized in that it is grounded through the ground.

(E) Function In the present invention, since the charging means is equipped with a grid and the grid is grounded through an impedance element, a specific portion of the photoreceptor is covered with an overlapping band 1jtF by the transfer means and the charging means. Even if the photoreceptor is exposed, the current will escape through the grid and the impedance element, and the potential above a certain level will not be applied to the photoreceptor.

Embodiment FIG. 1 is a block diagram schematically showing an electronic copying machine according to an embodiment of the present invention, and FIG. 3 is a time chart showing the operation of each part. 4(a) to 4) are configuration diagrams showing the operating portions at each point in time (a) to t) in FIG. 3. FIG. Further, FIG. 5 is a circuit diagram of the high voltage generating means, and FIG. 6 is a plan view showing the charging means (charging corotron). FIG. 7 is a graph showing the relationship between the charging potential on the photoreceptor and the injection current.

In FIGS. 1 and 4, (1) is a photoreceptor drum that is rotatably mounted in the main body of the apparatus (not shown), and is made of amorphous silicon or the like on the circumferential surface of a metal cylindrical body. A layer of photoconductive material is coated and the cylinder is grounded.

Above the photoreceptor drum (1), there is a transparent glass document table (1tHt) that scans the document back and forth from side to side.
2) is installed between this YG, the manuscript table (2), and the top of the photoreceptor drum (1) for projecting and forming the original image onto the photoreceptor drum (1). Short focus lens row (3)
is provided.

An exposure light source (4) for exposing the surface of the document is provided to the right of the short focus lens row (3).

This exposure light source (4) is provided with a through hole (6) at the bottom of the reflecting mirror (5) in order to also expose the upstream side of the short focus lens array (3>).

A charging corotron (7) for uniformly charging the photoreceptor drum (1) is provided below the exposure light g (4). As shown in Fig. 6, this charging corotron (7) has a discharge wire 9) stretched inside a shield case 8), and a mesh-like metal The grid (10) is stretched over the grid. The grid (10) is grounded via a varistor (11) as an impedance element.

A charge eliminating lamp (12) is provided on the downstream side (to the left) of the short focus lens row (3) for eliminating unnecessary charged potential on the photoreceptor drum (1).
On the downstream side of 12), the electrostatic latent image formed on the photosensitive drum (1) by a charging corotron (7), short focus lens array (3), etc. is developed with toner (13). A developing device (14) is provided for this purpose.

A transfer flotron (16) is provided at the bottom of the photosensitive drum (1) for transferring the toner image (13) on the photosensitive drum (1) onto a recording paper (15).

(17) is a cleaning blade that removes untransferred toner (13) that has not been completely transferred to the recording paper (15) and remains on the photosensitive drum (1).

The charging flotron (7) and the transfer corotron (16)
) is connected to a constant voltage control circuit (19) via a high voltage generation circuit (18) including a transformer (T), as shown in FIG. Further, a developing bias is applied to the developing device (14) in order to urge the toner <13) toward the photoreceptor drum (1), and this developing bias is also supplied from the high voltage generating circuit (18). taken out.

In Fig. 5, the output voltage Vc-8KV, the current IT times 2
Assuming that the resistance R1 is 50μA and 2MΩ, the input voltage to the charging corotron (7) is FEVc-6KV.

Input to transcription co-tron (16) TtIEV T =
Vc -■〒×R1 san 5.5KV. Also, resistors VR+-6MΩ, R2-100MΩ, R3-14MΩ
Then, the developing bias V n -Vc ・VR1/(
R2+R3+VR1)-0.3KV.

Next, the operation of the apparatus of this embodiment will be explained according to FIGS. 3 and 4.

First, when the copy start button is swept, the document table return clutch (not shown) operates and the document table (2) is activated.
When the platen (2) moves to the right, the 7 bulb (12) that greatly removes static electricity lights up (te), and when the document table (2) moves by a predetermined distance, the exposure light source (4) lights up and this exposure light i ( A part of the light rays emitted from 1. ,z! A of the light drum (1)
Static electricity is removed from the upstream side of the point (Fig. 4 (a)), and then
When the document table (2) further moves to the right, the voltage generating circuit (18) operates, and the 4RM corotron (7) and the C1i copy corotron (16) operate, and at the same time the developing device 14 operates. A developing bias is also applied to the photoreceptor drum (1), and the upstream sides of points B and D of the photoreceptor drum (1) are charged by the respective corotrons (7) (Us) (Fig. 4 (b)).
). Note that at this time, the developing device (
Since an electrostatic latent image has not yet been formed on the portion facing the toner (14), even if a developing bias is applied, the toner (13)
> will not adhere to the photoreceptor drum (1).

After the original platen (2) temporarily stops at the rightmost position, the original platen feed clutch (not shown) operates, and the original platen (2) starts moving to the left, and the photoreceptor drum (1) An electrostatic latent image corresponding to the original image is formed upstream of point C (fourth point).
Figure (c)).

When the electrostatic latent image formed on the upstream side of point C of the photoreceptor drum (1) passes through the front of the developing device (14), the electrostatic latent image is developed by the toner (13). , fIc@ below point C is the static elimination lamp <
12), the toner will not adhere to this part (FIG. 4(c)).

Thereafter, point C of the photoreceptor drum (1), that is, the downstream end of the toner image (13) is
At the same time as reaching the part facing the paper (16), the recording paper (1
5) is supplied, and the toner image (13) is completely transferred to the recording paper (15) (Fig. 4 (2)). The document table (2) moves to the left and scans the document sheet (2). When the entire surface is exposed,
The original platen field clutch becomes inactive, and at the same time, the original platen return clutch operates, and the original platen (2)
starts moving to the right again (2). Note that the area where the electrostatic latent image is formed is up to point E on the photoreceptor drum (1).

Upstream A of the electrostatic latent image...1 end, that is, E of the photoreceptor drum (1)
Immediately after the point passes the front surface of the static elimination lamp (12), the static elimination lamp (12) is turned on, and the upstream side of the photosensitive drum (1) from the point E is exposed and static electricity is eliminated (see Fig. 4).
Ho)).

While the document table (2) is moving to the right again, the oil exposure lamp (4) goes out (see Figure 4), so the upper nt side of point C of the photoreceptor drum (1) is , exposure lamp (4)
Therefore, the charging corotron (16) charges the transfer corotron (16) and the charging flotron (7) superimposes the charge (Fig. 4 (g)). At this time, as mentioned above, the charging 1 corotron (7) has a grid (10
) is attached, and this grid (10) is attached to the barista (11
), the grid (10) and varistor (1) are grounded even if the photosensitive drum (1) is charged repeatedly.
1), the voltage at the band t'' on the photosensitive drum (1) becomes approximately 750V, as shown in the graph of FIG.

After the toner image (13) on the photosensitive drum (1) has been completely transferred to the recording paper (15), the high pressure generation circuit (
18) stops operating, and the charging corotron (7),
At the same time as the transfer corotron (16) stops, the development Sl
The developing bias to position (14) is also released (FIG. 4(g)).

After the copying operation is completed, in order to eliminate the residual potential on the photoreceptor drum (1), the charge removal lamp (12) is turned on until the point F of the photoreceptor drum (1) passes through the charge removal lamp (12) again.
12) continues to be lit, and after the entire area of the photoreceptor drum (1) has been neutralized, the static elimination lamp (12) is turned off (N).

(G) Effects of the Invention In the present invention, a grid is attached to the charging means, and this grid is grounded through an impedance element such as a varistor, so that the charging means and the transfer means operate simultaneously and are superimposed on the photoreceptor. Even if the band is completely charged, the potential of the band TIt does not rise above a certain level, and the latent image formation does not occur or the life of the photoreceptor is shortened.

4. I! ! Brief Explanation of Page 0 111 is a block diagram showing an outline of an electronic copying machine as an embodiment of the present invention, and FIG. 3 is a timing sheet showing the operation of each part. FIG. 2 is a graph for explaining a conventional example. FIG. 4 is a configuration diagram showing the operating state at each time point (a) to g) in FIG. 3. Further, FIG. 5 is a circuit diagram of the high voltage generating means, and FIG. 6 is a plan view showing the charging means (charging corotron). Figure 7 shows exposure 1
It is a graph showing the relationship between the charging potential on the book and the injection X flow.

(1)...Photoconductor drum, (2)...Document stand, (3
)...Short focus lens array, (4)...Exposure light source, (7
)... Charged layer corotron, (10)... Grid,
(11)...Varistor (impedance element>, (1
2)... Static elimination lamp, <13)... Toner, toner image, (14)... Developing device, 15)... Recording paper, (16)... Flotron for transfer.

Claims (1)

[Scope of Claims] 1. Charging means for charging a photoreceptor, and latent image forming means for forming an electrostatic latent image by projecting and forming an optical image on the photoreceptor charged by the charging means. a developing means for developing the electrostatic latent image on the photoreceptor with toner; and a developing means for transferring the toner image formed by the developing means onto recording paper.
In an electrostatic recording apparatus, the electrostatic recording device includes a transfer means to which a potential of the same type as that of the charging means is applied, and at least one high voltage generating means connected to the charging means and the transfer means, wherein the charging means is provided with a grid. An electrostatic recording device characterized in that a grid is attached to the grid and the grid is grounded via an impedance element. 2. The electrostatic recording device according to claim 1, wherein the impedance element is a varistor. 3. The electrostatic recording device according to claim 1 or 2, wherein the high voltage generating means is also connected to the developing device in order to apply a developing bias to the developing device.