JPS6043676A - Electrostatic developing device - Google Patents

Abstract

PURPOSE:To prevent toner sticking to the back surface of recording paper and development irregularity, and supply toner to a sleeve smoothly by rotating only the sleeve forward until the rear edge of the recording paper is detected, and rotating a magnet roller in the same direction as well after the rear edge is detected. CONSTITUTION:The nonmagnetic sleeve 2 is driven by the 1st motor to rotate, and the magnet roller 1 is inserted into the sleevel 2 and driven by the 2nd motor. When the recording paper 6 reaches a development position between the sleeve 2 and a hold roller 5, the napping part of the roller 1 stops opposite to the hold roller 5, and toner 3 jogging clockwise by the rotation of the sleeve 2 contacts the recording paper 6 where the napping at the napping part is high, eliminating development irregalarity. Further, when the recording paper 6 moves forth until its rear edge is detected by a detector S1, the roller 1 and sleeve 2 rotate in the same direction and the toner 3 on the sleeve 2 jogs counterclockwise to coincide with the speed of the recording paper 6, so the toner 3 never sticks to the back surface.

Description

DETAILED DESCRIPTION OF THE INVENTION A) Field of Industrial Application The present invention relates to an electrostatic developing device used in facsimile machines, electronic copying machines, and the like.

(b) Prior Art FIGS. 1 and 2 are cross-sectional views of an electrostatic developing device for explaining the prior art. In these figures, (
1) is a magnetic redraw roller that rotates in the direction of the arrow (counterclockwise), in which N-pole magnets and 5FTi magnets are alternately arranged in a ring shape. This Magne Ridroller (1) has
An immovable sleeve (2) made of a non-magnetic material such as aluminum is loosely fitted.

Note that when the drying roller (1) rotates counterclockwise, the toner (3) roughly moves clockwise. A magnetic toner (4) containing magnetic toner (3) is fixed above the sleeve (2). (5) is a holding roller that holds the back surface of the recording paper (6) on which the electrostatic latent image is formed.

In such an electrostatic developing device, in order to perform clear development, the circumferential speed (2) of the toner (3) needs to be greater than the moving speed (V) of the recording paper (6).

If the circumferential speed is smaller than the moving speed V, toner (3
The downstream edge (front edge) of the recording paper (6) sticks into the spiked portion of the recording paper (6), and toner also adheres to the back surface (lower surface) of the recording paper (6). Furthermore, as shown in the figure, only the portions corresponding to the magnetic poles are spiky, and there is a risk that only the areas of the recording paper (6) that are in contact with the spiky portions will be darkly developed, resulting in so-called uneven development. Furthermore, in the above case, when the upstream edge (trailing edge) of the recording paper (6) is developed, the speed of the toner (3) is higher than that of the recording paper (6), so the recording paper ( Toner also adheres to the back (lower surface) of 6).

In addition, there is also a device in which the magnetic re-roller (1) does not rotate and only the sleeve (2) rotates clockwise.

In this case, since the spike portion does not move, uneven development may not occur, and adhesion of the toner (3) to the back surface of the recording paper (6) cannot be prevented. Further, since there is no change in magnetic force, there is a drawback that the supply of toner (3) from the printer (4) cannot be carried out smoothly.

It is an object of the present invention to realize an electrostatic developing device which can prevent image unevenness and can smoothly supply toner to a sleeve.

B) Structure of the Invention The present invention is provided with means for detecting the upstream edge of the recording paper, and until the upstream edge of the recording paper is detected, only the sleeve rotates in the forward feeding direction of the recording paper. After the upstream edge of the recording paper is detected, the sleeve rotates in the forward feeding direction of the recording paper, and the magnetic redraw roller also rotates in the same direction as the sleeve.

Embodiment Figure 3 The following figures show one embodiment of the present invention. Figure 3 is a cross-sectional view, Figure 4 is a longitudinal cross-sectional view showing the sleeve and Magne Ridroller, and Figure 5 is a Pro Lift roller. FIG. 6 is a time chart.

In these figures, the same parts as in the conventional example are given the same reference numerals, and detailed explanations are omitted.

A rotating shaft (7) is fitted to one end of the sleeve (2) made of a non-magnetic material, and this rotating shaft (7) is connected to the base (8).
is rotatably held via a bearing (9).

Further, the rotating shaft (7) is connected to a first motor (1) serving as one rotational driving means via a timing belt (10).
1) is connected to the rotating shaft (121).

Magne Citrola (1) is bearing (13) (1
3) rotatably inserted into the sleeve (2),
The rotating shaft (14) has a bearing 051 on the base body (8).
It is rotatably held through the A rotational position detection plate (16) having a notch in a part is fixed to the rotation axis of the Magnecitrol (1), and the emitter (1η) and the light receiver ttta face each other with this detection plate α6) in between. , a position detector (Sl) of the magnet roller (1) is constructed.

Further, the rotating shaft (14) of the magnetic redo roller (1) is connected to the rotating shaft 011 of the second motor (20) serving as the other rotational driving means via a timing bell (19).

(22) □□□ is a pair of paper feed rollers provided on the upstream side of the developing device, and i'! 3 (23) is a pair of paper ejection rollers provided on the downstream side. 21J-bu (2) and paper feed roller pair (
221 (22), there is a scratch on the emitter Cil and the receiver)
are opposed to each other, and constitute a detection device (Sl) for the upstream edge (trailing edge) of the recording paper (6).

Next, the operation will be explained. In FIG. 3, the recording paper (6) fed by the paper feed roller pair (221(a)) is
inserted between the sleeve (2) and the holding roller (5),
Reach the development position. At this time, the sleeve (2) rotates clockwise and the holding roller (5) rotates counterclockwise.
Magne... 1 troller (1) has a holding roller (
5) is stopped in a position facing the Therefore, due to the rotation of the sleeve (2), the toner (3) that has been moved in the clockwise direction by τ comes into contact with the recording paper (6) at the highest point of the spike. , and the development will not match.

The rotational speed of the sleeve (2) at this time is set to be greater than the circumferential speed (2) of the toner (3) or the moving speed (V) of the recording paper (6).

Then, as the development of the recording paper (6) progresses and its upstream edge (trailing edge) is detected by the detection device (Sl),
The second motor (20) rotates and the magnetic lid roller (
1) also rotates in the same direction (clockwise) as the sleeve (2). When the Magne Ridroller (1) rotates clockwise,
Since the toner (3) 4 on the sleeve (2) is stirred counterclockwise, the circumferential speed (2) of the toner (3) decreases. Therefore,
By appropriately selecting the rotation speed of the magnet roller (1), the circumferential speed (2) of the toner (3) can be made to match the moving speed V of the recording paper (6).

In this way, when developing the upstream edge (trailing edge) of the recording paper (6), the peripheral speed V of the toner (3) and the recording paper (6)
), the spine 1' of recording paper (6)
- Surface toner (3) does not adhere.

Furthermore, when the magnetic redraw roller (1) rotates, the strength of the magnetic lines of force near the discharge port of the hopper (4) changes, and the toner (3) is smoothly supplied onto the sleeve (21).

Next, the operation will be explained based on a program diagram and a time chart. First, when the power is turned on, a rese-read pulse is output from the rese-read circuit, which causes the rese-read pulse (FFi) and (F F 2.)
is lysed/ridden (at T1). Next, when a start pulse is output, Fri-Rip-Fro-Rip (F F 1
') is connected to the sleeve (2).
The motor (11) rotates and toner (3) is supplied (72 o'clock). When the downstream edge (front edge) of the recording paper (6) is detected by the detection device (Sl), the output level changes from low to high (at time T3).

Thereafter, when the L-side edge (trailing edge) of the recording paper is detected by the detection device (S1), a fall detection pulse is output from the fall detection circuit, and
F2) is read (at T4). Then, Magne
The second motor Ql) connected to the redraw roller (1) rotates, and the circumferential speed (2) of the toner (3) on the sleeve (2) is reduced to become equal to the moving speed I+ of the paper (6). At the same time, the timer circuit is set and a pulse is output to the sear (at Ts). Then, the position detector (S2) detects that the magnet roller (1) has reached a predetermined position t1f, and the difference between the detected pulse and the output pulse from the timer circuit is taken. and,
Ryofuri Ripfuro Rip (F F 1 )' (,F
F 2 ) is regenerated and regenerated, and both motors (+ ]l
f2[1] stops rotating and raises (16 o'clock). Follow-C1
The sleeve (2) and the magnetic redraw roller (1) stop rotating, and the series of developing operations ends. ) (f) Effects of the Invention In the present invention, the magnet roller and the sleeve are each provided with a rotation drive means, and when the downstream side of the recording paper is being developed, the circumferential speed of the toner is faster than the moving speed of the recording paper. Since the speeds are the same when developing the upstream edge of the recording paper, toner does not adhere to the back surface of the recording paper.

Furthermore, since most of the recording paper is developed by rotating only the sleeve, uneven development does not occur.

Furthermore, since the magnetic redraw roller is rotated intermittently, toner can be smoothly supplied onto the sleeve.

[Brief explanation of drawings]

1 and 2 are cross-sectional views showing a conventional example, FIGS. 3 to 6 show an embodiment of the present invention, FIG. 3 is a cross-sectional view, FIG. 4 is a vertical cross-sectional view, and FIG. Figure 5 is a professional drawing, and Figure 6 is a time chart. 11)
...first motor, (20) ...second motor, (
SL)...Recording paper detection device, (S2) Magne redo roller position detector.

Claims (1)

[Claims] 1. A non-magnetic sleeve connected to one rotational driving means, a magnet roller connected to the other rotational driving means and rotatably inserted into the sleeve, and the sleeve In an electrostatic developing device equipped with a means for scanning recording paper on which an electrostatic latent image has been formed in the vicinity, a means for detecting an upstream edge of the recording paper is provided, and a means for detecting an upstream edge of the recording paper is provided. Until it is detected, only the sleeve rotates in the forward feeding direction of the recording paper, and after the upstream edge of the recording paper is detected, the sleeve rotates in the forward feeding direction of the recording paper. An electrostatic developing device characterized by rotating in the same direction as the sleeve.