JPH078213Y2 - LED printer head - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention is an LED that can be used in copiers and various printers.
The present invention relates to a printer head, and more particularly, to an LED printer head that has improved print quality or image quality by reducing voltage fluctuations in a power supply line inside the LED printer head.

[Conventional technology]

Conventionally, LED (light emitting diode) printer heads have been used in image recording devices such as electrophotographic copying machines and optical printers. In such an LED printer head, since there is a load current change due to a difference in lighting rate and a power supply line drop due to the change, a constant power supply voltage is difficult and an exposure amount varies. When such a variation in the exposure amount occurs, the thickness of the printed line varies, which adversely affects the image quality.

A specific example of the conventional LED printer head will be described with reference to FIG. For example, in the case of an LED printer head with a structure in which an FPC (flexible printed circuit board) is pressure-welded, the current per element is 10 mA and the total number of dots is 3584 dots.
And the current is 10/1000 × 1 = 0.01A depending on the lighting rate.
It fluctuates within the range of 10/1000 × 3584 = 35.84A. The drop of the power supply line is suppressed to 10mΩ by using the FPC, but this causes a fluctuation of 0 to 0.36V depending on the lighting rate.

In this case, the horizontal axis of FIG. 2 shows the power supply voltage fluctuation rate of 0 as an origin, and the origin is 5V.

Therefore, a variation of 0 to 0.36V results in a variation of 0 to -7.2% as indicated by the dotted line, and a variation rate of the LED emission intensity at this time is 0 to -28%.

Such a conventional LED printer head has been used not for the background lighting system, that is, for the positive, but for the negative image printing system. Since it is for negative use, the LED lighting rate is generally small, and it was not necessary to consider the fluctuation of the power supply voltage. However, in general, when the LED printer head is used for negative, the printing quality is not good, so it has been considered to use it for positive. When the LED printer head as described above is actually used for positive purposes, the quality as shown in FIG. 3 is obtained.

FIG. 3 (A) is a diagram showing a test chart. This test chart T is provided with a thin black straight line LN in the center and is symmetrical with respect to this straight line LN.
A test pattern in which thick black portions BL ₁ , BL ₂ , BL ₃ ... Are arranged, each having a different length in the scanning direction (X direction in the drawing), is drawn. Note that Y indicates the sub-scanning direction, and WH indicates the white portion.

Now, when this test pattern is printed using a positive LED printer head, it becomes as shown in FIG. 3 (B). As you can see from the figure, the thick black areas BL ₁ , BL ₂ , BL
₃ is reproduced almost as it is, like BL ₁ ′, BL ₂ ′, and BL ₃ ′, respectively. However, for the thin line LN, the variation in the line thickness is large.

That is, if there are few black parts in one line with respect to the scanning direction X (the uppermost part of the figure), the thin line LN becomes thick like LN ', and if there are many black parts, no thin line is printed. (BL ₁ in FIG 'or between), or is printed a thin line from the test pattern (figure BL _2' between, BL ₃ 'between).

[Problems to be solved by the invention]

In the conventional LED printer head as described above, there is a drawback that when printing, the line thickness fluctuates and the image quality deteriorates.

That is, in the negative LED printer head, there is a drawback that the image quality is deteriorated based on the difference in the lighting rate of the LED.
If this is used in the positive writing method, there is a drawback that the line thickness within a 1-dot line in the scanning direction greatly changes and the pattern may not be reproduced accurately.

Especially, the more the black part in 1 dot line,
There was a defect that the reproducibility of thin lines was poor.

The present invention has been made in order to solve such a conventional drawback, and an object thereof is to prevent fluctuations in light quantity due to load fluctuations, line drops, etc. and improve print quality or image quality.

[Means and Actions for Solving Problems]

In order to achieve the above-mentioned object, the present inventor studied the cause of print quality or image quality deterioration in a conventional LED printer head. As a result, it was clarified that the cause was the voltage fluctuation in the power supply line inside the LED printer head.

For example, as shown in FIG. 3 above, when a positive type LED is used, if there are many black parts in one dot line, the LED
Since the lighting rate is low, the current is low and the line voltage is high.

Therefore, in this case, the lit LED illuminates brightly, the thin line becomes thinner, and finally no printing is performed. On the other hand, if the black portion is small, many LEDs are lit, so the line voltage is low and the lit LEDs are dark.

For this reason, when there are few black portions within one dot line, the printed line becomes thick. Thus, it was found that when the line voltage in the LED printer head fluctuates, the print quality or image quality deteriorates.

The present invention was made with this point in mind.
A pair of monitor terminals (remote sensing) for detecting a voltage are provided on the power supply line inside the printer head, and the detected voltage is fed back to the power supply device through a pair of conducting wires to control the power supply voltage. .

By doing so, the power supply line inside the LED printer head can be made to have a constant voltage, so that it is possible to prevent deterioration of printing quality or image quality due to voltage fluctuation.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings. First
FIG. 1 is a schematic explanatory view of an LED printer head which is an embodiment of the present invention. In the figure, 1 is an FPC (flexible printed circuit board) of an LED printer head, 2 is an LED array, 3 is a power supply device such as a constant voltage device, and 4 and 5 are copper (C).
u) A conductor made of foil or the like, for example, + Vcc voltage for driving the LED is applied to the conductor 4, and the conductor 5 is used for grounding.

Reference numerals 6 and 7 are monitor terminals for detecting the line voltage. For example, 6 is used for detecting the + Vcc voltage and 7 is used for detecting the ground side. Then, the monitor voltage is introduced from the monitor terminals 6 and 7 to the power supply device 3 by the conductors 8 and 9.

Next, the operation will be described. From the power supply 3,
LED printer head power is supplied via conductors 4 and 5.

The drive IC operates with this power, and LED array 2
Is driven to perform a predetermined printing operation. At this time, the power supply line inside the LED printer will fluctuate due to the lighting state of the LED. However, this voltage fluctuation is detected by the pair of monitor terminals 6 and 7, and the pair of conducting wires 8 and 9 is detected.
Is fed back to the power supply device 3 via.

Based on the detected voltage fed back in this way, a predetermined control is performed in the power supply device 3, the output voltage output through the conductors 4 and 5 is adjusted, and the power supply line inside the LED printer head is constantly controlled. It is controlled so that it becomes a voltage.

As one specific example, when the driving voltage of the LED printer head is 5V, the power supply voltage fluctuation is 0 to -2%, that is, 0 to 0.1%.
It could be suppressed within the range of [V].

[Effect of device]

As described above, according to the present invention, since the voltage of the power supply line inside the LED printer head can be controlled so as to be always a constant value, deterioration of print quality or image quality due to voltage fluctuation of the power supply line is prevented. There is an effect that can be lost.

In particular, the printed thin line always has a constant line width, which has the effect of improving the printing quality and the like.

Moreover, since the voltage detected from the pair of monitor terminals is fed back to the power supply unit with a pair of conducting wires, the power supply unit can
Even when the printer head is separated from the printer head, the constant voltage control can be effectively performed.

Further, even in the case of the positive writing method, the voltage fluctuation can be reduced, so that the fluctuation of the light quantity is small, and good printing can be performed.

[Brief description of drawings]

FIG. 1 is a schematic explanatory view of an LED printer head according to an embodiment of the present invention, FIG. 2 is a characteristic diagram of a conventional LED printer head, and FIG. 3 is a description of print quality by the conventional LED printer head. FIG. 1 ... FPC of LED printer head 2 ... LED array, 3 ... power supply device 4 ... conductor (Cu foil), 5 ... conductor (Cu box) 6 ... monitor terminal, 7 ... monitor terminal 8 ... Conductor, 9 ... Conductor

Front page continuation (72) Inventor Hideki Hirao 3-201 Minamiyoshikata, Tottori City, Tottori Prefecture Santo Electric Co., Ltd. (56) References Japanese Patent Publication Sho 60-198872 (JP, B2)

Claims (1)

[Scope of utility model registration request] 1. A power supply line inside an LED printer head,
A pair of monitor terminals for detecting the voltage is provided, and the pair of monitor terminals and the power supply device for driving the LED printer head are connected by a pair of conductors to detect the voltage at the monitor terminal. An LED printer head characterized in that a power supply line inside the LED printer head is controlled by a constant voltage by feeding back to the power supply device with a pair of conducting wires.