JP3444455B2 - Fixing heater current control method - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fixing heater current in an electrophotographic image forming apparatus having a fixing heater.
Regarding control method.

[0002]

2. Description of the Related Art For example, in the apparatus disclosed in Japanese Patent Laid-Open No. 1-307787, phase angle control is performed for several cycles of heater current after the apparatus is started, and then zero volt switch control is performed. , Inrush current is suppressed.

[0003]

In the fixing heater control circuit disclosed in Japanese Patent Laid-Open No. 1-307787 of the above-mentioned prior art, the heater temperature is detected by a signal from the fixing thermistor, and the phase angle is detected according to the detected temperature. Although a control signal is output to the control circuit or the zero volt switch circuit to control the inrush current, the fixing heater current is controlled based on only the temperature of the fixing heater. If the environmental conditions of the power supply are bad, or if the electrophotographic image forming apparatus having a plurality of fixing heaters with a large load is connected to the same AC power supply line and the fixing heaters are turned on at the same timing, the There is a drawback that a decrease in voltage causes a problem such as flicker of an indoor light and a start-up failure of a PSU. When the environmental conditions of the AC power supply are bad, the AC power supply system is usually an automatic voltage regulator from a local power company.
Although it is maintained at a constant voltage by (hereinafter referred to as AVR), when the load change is large when the air conditioner is used in summer or when the factory is shut down in the evening, the AVR cannot follow and the AC voltage drops sharply. In this case, a problem occurs such that the recovery time becomes long and a momentary interruption occurs. Further, the startup failure of the PSU means, for example, when the input AC power supply voltage is at the lower limit of the input specification, when the fixing heater is energized, the power supply voltage becomes lower than the input specification and the secondary output of the PSU (+ 5V, + 24V, etc.). Is not output and the device is in operation (copying, transmitting / receiving, etc.), an error occurs. It is a first object of the present invention to solve the above problems and to control the energization of the fixing heater based on the standby mode of the apparatus and the environmental conditions of the AC power source. A second object is to reduce the drop or fluctuation of the AC power supply voltage. A third object is to shorten the rise time (warm-up time) of the fixing heater. A fourth object is to prevent PSU startup failure and secondary output fluctuation.

[0004]

In order to achieve the above-mentioned object, the invention according to claim 1 develops by attaching toner to an electrostatic latent image formed on a photosensitive member by a developing unit and recording the toner. In the fixing heater current control method of the image forming apparatus, in which a visible image is formed by transferring onto paper, and the fixing heater is used to fix the toner onto the recording paper, at least the normal standby
Mode and standby mode to turn off the fixing heater
The standby mode selected on the operation and display of the device.
If the card is in the normal standby mode, the fixing heat
Phase control for a predetermined time when controlling
Performing performs zero-cross control from the standby mode operation and is selected on the display unit of the device, if the standby mode to OFF the fixing heater, ON of the fixing heater
Phase control from the above specified time when turning on / off
It is characterized in that the zero cross control is performed after a long time . The invention according to claim 2 is a photosensitive
Toner is applied to the electrostatic latent image formed on the body by the developing unit.
Visible image by adhering and developing and transferring the toner to recording paper
And then fix the toner on the recording paper using the fixing heater.
In the fixing heater current control method for the image forming apparatus,
At least normal standby mode and low temperature standby mode
The standby mode selected on the operation and display of the device.
Mode is the normal standby mode, the fixing heater
Phase control is performed for a predetermined time when the ON / OFF control of
After performing the zero cross control, operate the device and display
The standby mode selected in the display section is the low temperature standby mode.
If so, when performing the ON / OFF control of the fixing heater
After performing the phase control for a time shorter than the predetermined time,
The feature is that zero-cross control is performed. Well
Further, according to the invention of claim 3, a toner is attached to the electrostatic latent image formed on the photoconductor by a developing unit to develop the latent image, and the toner is transferred to a recording paper to form a visible image, and a fixing heater is provided. In the fixing heater current control method of the image forming apparatus for fixing the toner to the recording paper by using the
In case of ON / OFF control of the fixing heater
Phase control for a certain period of time, and then perform zero-cross control.
If the power supply voltage drops below a predetermined value due to the application of AC voltage to the fixing heater, the phase control is performed to the predetermined value.
Performs time greater than the time, gradually changing the phase angle, so that the peak value of the AC voltage in the range of power supply voltage lower limit and the upper limit value falls, controls the phase angle and the phase control period, It is characterized by displaying a power supply error.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION In the present invention, PSU (DC
A voltage generation unit, a zero-cross detection circuit, a voltage peak detection circuit, a switching element, etc., a fixing unit including a fixing heater and a thermistor, a control board (CPU, I / O unit, R)
The fixing heater current control device is constituted by OM etc.). P
The SU monitors normal voltage fluctuations and voltage fluctuations when fixing is ON, and selects the standby mode (normal mode / energy saving mode / low temperature standby mode) selected by the operator based on the operation of the image forming apparatus / key operation of the display unit. to manage. Since the DC voltage generated by the DC voltage generator of the PSU is affected by the primary side voltage fluctuation, the phase control time (when the primary side voltage is changed by turning on the fixing heater or when the primary side voltage is low) To0) is made larger than usual to reduce the influence on the primary side voltage fluctuation.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram of a heater current control device according to an embodiment of the present invention. As shown in FIG. 1, the PSU 20 of the heater current control device in the image forming apparatus according to the present exemplary embodiment includes a DC voltage generator 21 such as + 5V and + 24V, a zero-cross detection circuit 22 that detects a voltage zero-cross point of an AC power supply, and a voltage. Voltage peak detection circuit 2 for detecting
3 and triacs 24 and 25 which are switching elements for controlling the energization of the fixing heater 11. In addition,
In FIG. 1, the reason for providing two triacs is
When the temperature of the fixing heater is controlled by performing the normal ON / OFF operation of the triac (1) to ensure reliability, and the triac (2) is normally ON, but the heater temperature rises abnormally. This is to ensure the safety of the fixing heater by turning it off when the cover is opened. In addition, the fixing unit 10 includes a fixing heater 11 that generates heat necessary for thermally fixing the toner onto the recording paper.
And a thermistor 12 for detecting the temperature of the fixing portion and a thermal fuse 13 for cutting off the power supply to the fixing heater when the fixing temperature rises above a certain temperature. The control board 30 also includes an A / D converter 3 for converting the temperature signal detected by the thermistor from an analog voltage value into a digital data signal.
5. Operation / display unit (numeric keypad, liquid crystal display, not shown) that detects the standby mode (energy saving mode / normal mode / low temperature standby mode) selected by the operator while inputting the zero-cross signal and outputting the heater energization signal I / O unit 31 for inputting / outputting to / from the above) and ROM 3 storing phase control data corresponding to the environmental conditions of the AC power supply.
3, triac 24 based on zero cross signal, voltage peak signal, thermistor signal and selected standby mode,
It is composed of a CPU 32 that controls ON / OFF of 25. In the present embodiment, by providing the zero-cross detection circuit 22 and the voltage peak detection circuit 23, it is possible to monitor the normal voltage fluctuation and the voltage fluctuation when the fixing is ON,
The standby mode selected by the operator is managed by the control board 30 based on the key operation of the operation / display unit, so that the energization control of the fixing heater 11 corresponding to the standby mode and the environmental conditions of the AC power source is performed.

Now, the fluctuation of the AC power supply voltage (actual value) and the voltage waveform to the fixing heater will be described. In this embodiment, the heater current is controlled according to the fluctuations of the AC power supply voltage (effective value) shown in FIG. FIG. 2 shows a case where the AVR normally operates normally and is in a good power supply environment condition, and instantaneously returns even if a voltage drop occurs.
Indicates the case where the load of the power supply system is large or the load fluctuation is large (when the power supply environment condition is bad), and the AVR does not follow and the power supply voltage lower limit is exceeded. Similarly, when the environmental conditions of the power supply are bad, the time until the voltage returns to the normal value becomes long. Similarly, when the power supply environmental condition is bad, the power supply voltage lower limit is lowered when the fixing heater is energized, or the power supply voltage is reduced to the activation limit region of the PSU. Further, the voltage waveform when the heater is normally energized is as shown in FIG. If the power supply environment condition is good, the voltage peak value when the phase control (phase control time: t0) shifts to zero cross control (zero cross control time: t1) as shown in “voltage waveform 0” is a normal value (x ₀ )become. On the other hand, if the power supply environment condition is bad, the voltage peak value becomes a value smaller than the normal value (x _{1 to} x ₃ ) as shown in “voltage waveform 1”. The relationship between the voltage peak values is as shown in FIG. 4, and the normal value (x ₀ ) is the center value of the power supply voltage in FIG. 4 (3).

Next, the fixing heater current control method in this embodiment will be described. In the present embodiment, in the case of and of FIG. 2, for example, the fixing heater 1 is set in the standby mode of the apparatus.
If the energy saving mode is to turn 1 off, the fixing heater is turned on.
Since a large inrush current sometimes flows, the phase control time (t0) is made longer than usual in order to reduce the inrush current. That is, since the DC voltage generated by the DC voltage generator 21 is affected by the primary side voltage fluctuation, the fixing heater O
When the primary side voltage is changed by N or when the primary side voltage is low, the phase control time (t0) is made longer than usual as shown in FIG. Make it smaller. As described above, when the power source environmental condition is bad, the phase control time (t0) is set to be large and the fixing heater 1
The voltage drop can be prevented by moving to the zero-cross control after the heating wire of No. 1 is heated and the inrush current becomes small. Note that such a control method is described in claim 1.
Corresponding to.

Further, in this embodiment, when the power supply environment condition is good as shown in FIG. 2, the phase control time (t0) is reduced as shown in FIG.
For example, if the standby mode of the apparatus is the low temperature standby mode of the fixing heater 11, the rush current when the fixing heater is ON is small, so the phase control time (t0) can be made shorter than usual. At this time, the load change becomes large, but in an environment where the AVR of the power supply system operates normally, the change in the power supply voltage due to the change in the load is instantly absorbed. Such a control method corresponds to claim 2 .

In the present embodiment, in the case as shown in FIG. 2, the phase control as shown in FIG. 7 is performed to increase the phase control time (t0) and at the same time, 30 °, 60 °, 90 °.
The PSU startup failure is prevented by performing a fine control such as a frequency (or stopping energization of the fixing heater) and further displaying a power supply error to the operator or service person on the operation / display unit. That is, the phase angle and the control time of the phase control are controlled so that the peak value falls within the range of (2) power supply voltage lower limit value and (4) power supply voltage upper limit value shown in FIG. In addition, such control method is claimed
Corresponds to 3 .

[0011]

According to the first aspect of the invention, when the standby mode of the image forming apparatus is the standby mode in which the fixing heater is turned off, the ON / OFF control of the fixing heater is performed.
Since the phase control time is controlled to be longer than that in the normal standby mode, it is possible to reduce the drop or fluctuation of the AC power supply voltage, and prevent problems such as flickering of the room light. According to the second aspect of the present invention, when the standby mode of the image forming apparatus is the low temperature standby mode of the fixing heater, when the ON / OFF control of the fixing heater is normally performed,
Since the phase control time is controlled to be shorter than that in the standby mode , the rise time (warm-up time) of the fixing heater can be shortened. According to the third aspect of the present invention, when the power source voltage is significantly reduced by monitoring the power source voltage and applying the AC voltage to the fixing heater, the normal operation is performed when the fixing heater is turned ON / OFF.
The phase control time is made longer than in the standby mode to change the phase angle stepwise (or the power supply to the fixing heater is stopped), and the power supply error is displayed. It is possible to prevent problems.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a heater current control device according to an embodiment of the present invention.

FIG. 2 is a diagram showing an AC power supply voltage waveform according to a power supply environmental condition of a fixing heater in an image forming apparatus.

FIG. 3 is a diagram showing a voltage waveform to a fixing heater in the image forming apparatus.

FIG. 4 is a diagram showing a relationship between a voltage waveform to a fixing heater and a voltage peak value in the image forming apparatus.

5 is a diagram showing a voltage waveform to a fixing heater in one embodiment of the present invention, and corresponds to FIG.

FIG. 6 is a diagram showing a voltage waveform to the fixing heater in one embodiment of the present invention, which corresponds to FIG.

FIG. 7 is a diagram showing a voltage waveform to the fixing heater in one embodiment of the present invention, which corresponds to FIG.

[Explanation of symbols]

10: Fixing unit, 11: Fixing heater, 12: Thermistor, 13: Thermal fuse, 20: PSU, 21: DC
Voltage generation unit, 22: zero cross detection circuit, 23: voltage peak detection circuit, 30: control board, 31: I / O unit, 3
2: CPU, 33: ROM, 34: RAM, 35: A /
D converter.

Front page continued (58) Fields surveyed (Int.Cl. ⁷ , DB name) G03G 13/20 G03G 15/00 303 G03G 15/20 G03G 21/00 370-502

Claims (3)

(57) [Claims] 1. A toner is attached to an electrostatic latent image formed on a photoconductor by a developing unit for development, the toner is transferred to a recording paper to form a visible image, and a fixing heater is used to remove the toner. In a fixing heater current control method for an image forming apparatus for fixing to a recording sheet, at least a normal standby mode and the fixing heater is turned off.
Has a standby mode of F, and the standby mode selected on the operation and display section of the device
However, if the normal standby mode, the fixing heater
Phase control is performed for a predetermined time when performing ON / OFF control
Perform zero-cross control from the standby mode operation and is selected on the display unit of the device, if the standby mode to OFF the fixing heater,
When controlling the ON / OFF of the fixing heater, the phase control
Control for a time longer than the specified time and then zero crossing
A fixing heater current control method characterized in that control is performed . 2. A developing unit is applied to the electrostatic latent image formed on the photoconductor.
Toner to adhere and develop, then record the toner
Transfer it to paper to form a visible image, then use a fixing heater to
Heater current of the image forming device that fixes the image onto the recording paper
In the control method, At least normal standby mode and low temperature standby mode
Then Standby mode selected on the operation and display of the device
However, if the normal standby mode, the fixing heater
Phase control is performed for a predetermined time when performing ON / OFF control
Then perform zero-cross control, Standby mode selected on the operation and display of the device
However, in the low temperature standby mode, the fixing heater O
When performing N / OFF control, phase control should be
The zero cross control after a shorter time.
A fixing heater current control method characterized by the above. 3. An electrostatic latent image formed on a photoconductor is developed by adhering toner to the electrostatic latent image by a developing unit, transferring the toner to a recording paper to form a visible image, and fixing the toner using a fixing heater. In the fixing heater current control method of the image forming apparatus for fixing to the recording paper, when the power source environment condition is normal, the fixing heater is turned on / off.
When performing OFF control, after performing phase control for a predetermined time
If zero-cross control is performed and the power supply voltage drops below a predetermined value due to the application of AC voltage to the fixing heater, phase control is performed for the predetermined time.
Performs time greater than, gradually changing the phase angle, so that the peak value of the AC voltage in the range of power supply voltage lower limit and the upper limit value falls, controls the phase angle and the phase control period, the power supply A fixing heater current control method characterized by displaying an error.