JP3102029B2 - Electrophotographic equipment - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to an electrophotographic apparatus such as a laser printer.

[Background of the Invention]

The prior art will be described with reference to FIG. In a laser printer or the like, the laser device 6 is driven by a print signal sent from the control device 1, and a laser beam 7 emitted from the laser device 6 is aligned on the same straight line in the axial direction on the photosensitive drum 9 by a rotating multi-plane boundary 8. And the photosensitive drum 9 is rotated to form a latent image of a character or a figure on the surface of the photosensitive drum 9. Switching of the printing density in a laser printer or the like is performed by switching the rotation speed of the rotary multi-faceted boundary 8 and the modulation time of the print signal. The higher the print density, the shorter the modulation time of the print signal. The modulation time of the print signal has a close relationship with the line width of a straight line perpendicular to the rotation axis direction of the photosensitive drum, that is, the vertical line. That is,
As shown in FIG. 5, if the vertical line width d ₁ drawn by modulation time t ₁ of the print signal, a vertical line width if the modulation time t _2, which is half of t ₁ is d ₁ D ₂ which is almost half of. Therefore,
A method of adjusting the vertical line width by adjusting the modulation time of the print signal has been conventionally used. FIG. 3 shows an example of a vertical line width adjustment circuit including the delay circuit 2, the switch 3, and the AND circuit 10. When printing is performed at a print density at which the modulation time of the print signal is 40 ns, the print signal a having the modulation time of 40 ns in the signal diagram of FIG. 4 sent from the control device 1 is input to the AND circuit 10 and the delay circuit 2. The delay circuit 2 outputs a signal delayed by 5 ns to 30 ns at intervals of 5 ns with respect to the input signal. If the switch 4-4 'is connected as shown in FIG. 3, the output signal b of the delay circuit 2 delayed by 20 ns from the print signal a is input to the AND circuit 10, and the print signal a and the signal b Is the output signal c of the AND circuit 10. By driving the laser device 6 with this signal c, a vertical line width shorter by an amount equivalent to 20 ns is finally obtained with respect to the print signal a having a modulation time of 40 ns. Next, when the print density is switched to twice, the modulation time of the print signal d sent from the control device 1 is generally 20 ns which is half of the print signal a. Accordingly, the input of the AND circuit 10 becomes the print signal d and the signal e which is delayed by 20 ns from the print signal d, so that the output of the AND circuit 10 becomes the modulation time 0 as shown by the signal f, and the laser device 6 can be driven. Disappears. That is, if the printing density is doubled, printing becomes impossible. Modulation delay time 20ns
If it is reduced to 5 ns, printing is possible even if the printing density is doubled, but there is a problem that the vertical line width becomes too thick due to a short delay time.

[Object of the invention]

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electrophotographic apparatus which eliminates the drawbacks of the prior art and provides a stable vertical line width according to the printing density even when the printing density is switched.

[Summary of the Invention]

The above object is to provide a control for selectively outputting a first print signal defined by a first modulation time and a second print signal defined by a second modulation time shorter than the first modulation time. Means, a first print signal or a second print signal output from the control means, and a first print signal or a second print signal output from the control means and output through a delay circuit. An AND circuit that forms a laser drive signal based on the laser drive signal, a light source that is turned on / off based on the laser drive signal, and a scanning unit that scans light from the light source to form a latent image on the surface of the photoconductor. In the electrophotographic apparatus, the delay circuit includes a first delay time for delaying the first print signal and a second delay time for delaying the second print signal shorter than the first delay time. Sets the time in advance, is achieved by providing a first delay time and the delay time switching means for switching the second delay time on the basis of the print signal output from said control means.

(Example of the invention)

FIG. 1 shows an embodiment of the present invention. The delay circuit 2 outputs a signal delayed by 5 ns to 30 ns at intervals of 5 ns with respect to the input signal,
The switch 3 selects the output of the delay circuit 2 and sets the delay time of the modulation time. For selector 4, SEL / B is logic 0
Then, inputs A1, A2, and A3 are output to outputs Y1, Y2, and Y3, respectively, and when SEL / B is set to logic 1, inputs B1, B2, and B3 are output to outputs Y1, Y2, and Y3, respectively. The logical product of the output of the selector 4 and the print signal output from the control device 1 is
The output signal of the AND circuit 5 is input to the laser device 6. Hereinafter, description will be made with reference to the signal diagram of FIG. When printing is performed at a print density that is a print signal modulation time of 40 ns, the modulation time 40 sent from the control device 1 is used.
The print signal g of ns is input to the AND circuit 5 and the delay circuit 2. The setting of the switch 3 is changed as shown in FIG.
If 4 'is connected and the others are left open, a signal delayed by 10 ns from the print signal g is input to A2 of the selector 4 and a signal h delayed by 20 ns is input to B1 of the selector 4. At this time, SEL
If / B is set to logic 1, the signal h is output to the output Y1 of the selector 4, and the inputs Y2 and Y3 become logic 1 because the inputs B2 and B3 are open. Therefore, the output of the AND circuit 5 is the logical product of the print signal g and the signal h, and becomes the signal i with a modulation time of 20 ns.
When the signal i drives the laser device 6, the modulation time 40
A vertical line width equivalent to 20 ns, which is a half of the print signal of ns, is obtained. Next, when the print density is doubled, the control device 1 sends a print signal j with a modulation time of 20 ns. At this time, if SEL / B of the selector 4 is set to logic 0, the signal h delayed by 10 ns from the output of the delay circuit 2 with respect to the print signal j becomes the Y2 output of the selector 4 and is input to the AND circuit 5, and the signals Y1, Y3 output is logic 1 because inputs A1 and A3 are open
Becomes Therefore, the input of the AND circuit 5 is the print signal j and the signal K, and the others are logic 1, so that the output of the AND circuit 5 becomes the signal 1 with the modulation time of 10 ns by driving the laser device 6. , Half of the modulation time of the print signal j for 20 ns, 10
A vertical line width corresponding to ns is obtained. As described above, by switching the delay time of the modulation time according to the print density, the vertical line width can be adjusted according to each print density, and a stable vertical line can always be obtained.

〔The invention's effect〕

According to the electrophotographic apparatus of the present invention, since the delay time of the modulation time is switched according to the print density, it is possible to obtain a stable vertical line width that does not disappear or become thick depending on the print density.

[Brief description of the drawings]

FIG. 1 is a schematic view of a scanning optical system of a laser printer according to an embodiment of the present invention, FIG. 2 is a signal diagram in FIG. 1, FIG. 3 is a diagram showing a conventional technique, FIG. It is a signal diagram in FIG. In the figure, 1 is a control device, 2 is a delay circuit, 3
Is a switch, 4 is a selector, 5 is an AND circuit, 6 is a laser device, 7 is a laser beam, 8 is a rotating multi-plane, 9 is a photosensitive drum, and 10 is an AND circuit.

Continuation of front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G02B 26/10 B41J 2/44

Claims (1)

(57) [Claims] A control for selectively outputting a first print signal defined by a first modulation time and a second print signal defined by a second modulation time shorter than the first modulation time. And a first print signal or a second print signal output from the control means and a first print signal or a second print signal output from the control means and output through a delay circuit. An AND circuit that forms a laser drive signal based on the laser drive signal, a light source that is turned on / off based on the laser drive signal, and a scanning unit that scans light from the light source to form a latent image on the surface of the photoconductor. In the electrophotographic apparatus, the delay circuit may further include a first delay time for delaying the first print signal, and a second delay time shorter than the first delay time.
A delay time switching unit that presets a second delay time for delaying the print signal and switches between the first delay time and the second delay time based on the print signal output from the control unit. An electrophotographic apparatus characterized by the following.