JP3378713B2 - Image forming device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus such as a copying machine, a printer and a facsimile which uses an electrophotographic process.

[0002]

2. Description of the Related Art In recent years, there has been a demand for energy saving in image forming apparatuses such as copying machines, printers, and facsimiles using an electrophotographic method. As one of the measures, a fixing device using a self-heating type heating roller is required. Is proposed to be used.

In the conventional heating roller, a halogen heater is installed inside a hollow pipe-shaped roller, and the halogen heater is heated to heat the entire roller.
However, in this type of heating roller, since the air layer is interposed between the roller and the heater, the heating efficiency is poor and it is disadvantageous in energy saving.

On the other hand, in a self-heating type heating roller in which an electric resistor is attached to the outer surface of the roller and is energized to generate heat, heat is generated in the roller surface layer.
It has high heating efficiency and is suitable for energy saving. The fixing device using this type of heating roller has the advantages of higher thermal efficiency than that of a conventional device incorporating a halogen heater and is aimed at high-speed startup. In order to take full advantage of this merit, it is necessary to energize the heater (resistor) only during sheet passing for fixing and not to preheat at other times. However, in order to immediately start up the apparatus when it is used by the user without performing preheating, it is required to shorten the rising time of the self-heating type heating roller as much as possible.

A fixing device using a self-heating type heating roller has a shorter rise time than a conventional fixing device using a halogen heater, but it cannot be said to be sufficiently short and improvement is desired. In addition, commercialization as an electrophotographic device using a self-heating type heating roller has not yet been realized, and although measures to increase the heating efficiency of the roller itself are being considered to further shorten the start-up time, No control method utilizing the characteristics of the heat-generating heating roller has been reported. If considered in the same way as a conventional fixing device using a halogen heater, it is conceivable that the power consumption immediately after power-on (power supplied to the self-heating type heating roller immediately after power-on) should be as close as possible to the maximum power that can be supplied to the fixing device. To be

[0006]

However, in order to shorten the rise time of the fixing device using the self-heating type heating roller, which is not sufficiently short, it is of course necessary to increase the heating efficiency of the roller itself. However, how to effectively use the limited electric power of the device is an issue. However, as described above, if the power consumption immediately after the power is turned on is made as close as possible to the maximum power that can be input to the fixing device, the resistor used in the self-heating type heating roller has a positive characteristic in which the resistance value increases as the temperature rises. Therefore, when the temperature is low, there is a problem that the resistance value is small and an overcurrent flows to the fixing device.

Generally, in the electrophotographic apparatus, although the storage temperature and the use environment (temperature) are defined, the storage temperature is allowed to be considerably lower than the use environment. When the apparatus is brought in below and the power is immediately turned on, the temperature inside the apparatus has not risen sufficiently, and an overcurrent flows through the fixing apparatus, which may damage the apparatus in the worst case. Further, for example, in the winter, when the room in which the electrophotographic apparatus is installed reaches the operating environment temperature when heated, but does not reach the operating environment temperature when not heated,
The same problem occurs when the power is turned on at a temperature lower than the operating environment temperature.

There is no choice not to choose the resistor material having the above-mentioned positive characteristic improved, but the cost will increase. The present invention solves the above-mentioned problems in an image forming apparatus including a fixing device using a self-heating type heating roller, and does not damage the device even when the power is turned on while the temperature inside the apparatus is not sufficiently raised. An object is to provide an image forming apparatus at low cost.

[0009]

According to the present invention, there is provided a fixing device using a self-heating type heating roller.
In an image forming apparatus in which a heating resistor provided on the surface layer of the heating roller has a positive temperature characteristic, the maximum power supplied to the fixing device in the image forming apparatus is Wmax, the lower limit temperature of use of the image forming apparatus is To, When the resistance value of the fixing device at the temperature To of the heating roller is Ro and the standard voltage applied to the fixing device is V, V ² / Ro≤Wmax is set, and the surface temperature of the heating roller or the heating roller is set. A temperature detecting means for detecting a temperature in the vicinity is provided, and when the roller surface temperature detected by the detecting means or the temperature in the vicinity of the roller is equal to or lower than the use lower limit temperature To, the energization to the heating roller is cut off. Will be solved by.

In order to solve the above-mentioned problems, the present invention comprises a fixing device using a self-heating type heating roller,
In an image forming apparatus in which a heating resistor provided on the surface layer of the heating roller has a positive temperature characteristic, the maximum power supplied to the fixing device in the image forming apparatus is Wmax, the lower limit temperature of the image forming apparatus is To, When the resistance value of the fixing device at the temperature To of the heating roller is Ro and the standard voltage applied to the fixing device is V, V ² / Ro ≤Wmax is set, and the surface temperature of the heating roller or the heating roller is set. If there is a temperature detecting means for detecting the temperature in the vicinity, and the roller surface temperature detected by the detecting means or the temperature in the vicinity of the roller is equal to or lower than a predetermined temperature T lower than the lower limit temperature To, the power supply to the heating roller is cut off. When the predetermined temperature T is the resistance value of the heating roller at a certain temperature, R (T), V ² / R (T) = Wmax
It is proposed that the temperature is

Further, in order to solve the above-mentioned problems, the present invention comprises a fixing device using a self-heating type heating roller, and the heating resistor provided on the surface layer of the heating roller has an image having a positive temperature characteristic. In the image forming apparatus, the maximum power supply to the fixing device in the image forming apparatus is Wmax, the lower limit temperature of use of the image forming apparatus is To, the resistance value of the fixing apparatus at the temperature To of the heating roller is Ro, and If the standard applied voltage is V, V ² / Ro ≤Wmax
And a temperature detecting means for detecting the surface temperature of the heating roller or the temperature in the vicinity of the heating roller. The roller surface temperature detected by the detecting means or the temperature in the vicinity of the roller is the lower limit temperature To. In the following cases, it is proposed to energize the heating roller with an applied voltage lower than the standard applied voltage.

In order to solve the above-mentioned problems, the present invention further comprises a fixing device using a self-heating type heating roller, and the heating resistor provided on the surface layer of the heating roller has an image having a positive temperature characteristic. In the image forming apparatus, the maximum power supply to the fixing device in the image forming apparatus is Wmax, the lower limit temperature of use of the image forming apparatus is To, the resistance value of the fixing apparatus at the temperature To of the heating roller is Ro, and If the standard applied voltage is V, V ² / Ro ≤Wmax
And a temperature detecting means for detecting the surface temperature of the heating roller or the temperature in the vicinity of the heating roller. The roller surface temperature detected by the detecting means or the temperature in the vicinity of the roller is the lower limit temperature To. When the temperature is lower than the lower predetermined temperature T, the heating roller is energized with an applied voltage lower than the standard applied voltage, and when the predetermined temperature T is a resistance value of the heating roller at a certain temperature, R (T) is V. It is proposed that the temperature is such that ² / R (T) = Wmax.

Further, in order to solve the above-mentioned problems, the present invention comprises a fixing device using a self-heating type heating roller, and the heating resistor provided on the surface layer of the heating roller has an image having a positive temperature characteristic. In the image forming apparatus, the maximum power supply to the fixing device in the image forming apparatus is Wmax, the lower limit temperature of use of the image forming apparatus is To, the resistance value of the fixing apparatus at the temperature To of the heating roller is Ro, and If the standard applied voltage is V, V ² / Ro ≤Wmax
And a means for detecting the resistance value of the heating roller or its substitute characteristic, and the roller resistance value or its substitute value detected by the detecting means is V ² / R.
When the resistance value R is equal to or less than Wmax, it is proposed to cut off the power supply to the heating roller.

Further, in order to solve the above-mentioned problems, the present invention comprises a fixing device using a self-heating type heating roller, and the heating resistor provided on the surface layer of the heating roller has an image having a positive temperature characteristic. In the image forming apparatus, the maximum power supply to the fixing device in the image forming apparatus is Wmax, the lower limit temperature of use of the image forming apparatus is To, the resistance value of the fixing apparatus at the temperature To of the heating roller is Ro, and If the standard applied voltage is V, V ² / Ro ≤Wmax
And a means for detecting the resistance value of the heating roller or its substitute characteristic, and the roller resistance value or its substitute value detected by the detecting means is V ² / R.
When the resistance value R is equal to or less than Wmax, it is proposed to energize the heating roller with an applied voltage lower than the standard applied voltage.

Further, according to the present invention, in order to solve the above problems, an applied voltage lower than the standard applied voltage V is set to VL.
Then, the voltage VL is VL <Imax.RL, where RL is the resistance value of the fixing device at the storage lower limit temperature of the image forming apparatus and Imax is the maximum allowable current value of the circuit relating to the fixing device of the image forming apparatus. And VL ² / RL <Wma
Suggest to be set to be x.

[0016]

[0017]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a fixing device and its control system in an embodiment of the electrophotographic apparatus according to the present invention. In the fixing device shown in this figure, a self-heating type heating roller 1, a pressure roller 2 that is pressed against the heating roller 1, a thermistor 3 that detects the temperature of the heating roller 1, and power is supplied to the heating roller 1. And a unit case (not shown). The heating roller 1 has electrode portions 1a at both ends thereof, and the power feeding portion 4 is arranged in contact with the electrode portions 1a. The thermistor 3 is arranged in contact with the heating roller 1.

An AC control unit 5 and a system control unit 6 are provided in the main body of the electrophotographic apparatus (not shown). Electric power is supplied to the heating roller 1 via the power supply unit 4 from the AC control unit 5 connected to the AC power supply. Also, the thermistor 3
The temperature detected by is input to the system controller 6, and the power supply to the heating roller 1 is AC-controlled based on the ON / OFF signal generated by the system controller 6 based on the detected temperature of the heating roller 1. It is controlled by the unit 5.

The temperature control of the heating roller 1 at the time of executing the fixing operation is generally ON / O in which the energization is turned ON / OFF when the temperature becomes higher or lower than the arbitrary set temperature by a predetermined temperature.
Even in FF control, it is turned on by the difference from the arbitrary set temperature.
Phase control that changes the duty ratio of / OFF may be used.

The system controller 6 controls the temperature of the heating roller 1 and also controls the sequence of the entire electrophotographic apparatus. As a matter of course, the ON / OFF timing of the drive system including the fixing device drive system is also controlled. Since these controls are the same as those in a general electrophotographic apparatus, description thereof will be omitted.

FIG. 2 is a graph showing the relationship between the power consumption of the fixing device and the temperature of the heating roller 1 in the electrophotographic apparatus of this embodiment. In this figure, the temperature To is the lower limit temperature used in this device. Further, the temperature TL is the storage (lower limit) temperature also set for this device. The power consumption Wmax is the maximum allowable power set for the fixing device of this apparatus.

By the way, since the resistor used in the self-heating type heating roller 1 has a positive characteristic, the resistance value decreases and the current increases as the temperature decreases. That is, if the applied voltage is the same, the lower the temperature, the higher the power consumption of the fixing device. Therefore, as indicated by A in the figure,
When the standard applied voltage V is applied to the fixing device, the lower the temperature, the larger the power consumption. Here, in the fixing device of this embodiment, in order to improve its rising characteristic, the fixing device is set to be as close as possible to the maximum electric power Wmax allowed in the fixing device at the lower limit temperature To. For this reason,
When the temperature of the heating roller 1 becomes lower than the lower limit temperature To, the power consumption gradually increases as indicated by a broken line A'in the figure, and the temperature of the heating roller 1 becomes lower than a certain temperature T (which is called a limit temperature). In this case, the maximum allowable power Wmax will be exceeded. Then, an overcurrent flows through the fixing device, which may damage the device in the worst case. Therefore, in order to prevent this, in this embodiment, the surface temperature of the heating roller 1 detected by the thermistor 3 is used. When the temperature is lower than the lower limit temperature To, the power supply to the heating roller 1 is cut off (power is not supplied), and an error message is displayed on the operation panel (not shown) of the main body. In other words, the fixing device is not energized with the standard applied voltage or higher applied voltage until the temperature of the heating roller 1 becomes higher than the lower limit temperature To.

As a result, it is possible to prevent an overcurrent from flowing through the fixing device, and even if the power consumption immediately after the power is turned on is made as close as possible to the maximum power that can be input to the fixing device, the temperature will be kept high for the improvement of the rising characteristics. When the temperature is low, there is no problem that an overcurrent flows through the fixing device, so there is no risk of damaging the machine even when the machine is brought into the operating environment from a low storage temperature and the power is immediately turned on. Further, since the device damage can be prevented by devising the energization control without requiring a special protection mechanism or the like, the cost does not increase.

The temperature at which the power supply to the fixing device is cut off may be the above-mentioned limit temperature T instead of the lower limit temperature To. This limiting temperature T is V ² / R (T) = Wm, where V is the standard applied voltage, Wmax is the maximum allowable power of the fixing device, and R (T) is the resistance value at a certain temperature of the heating roller 1.
It is defined as the temperature that becomes ax. That is, the temperature T at which this equation holds is the limiting temperature T.

Next, another embodiment of the present invention will be described. As shown in FIG. 3, the electrophotographic apparatus of this embodiment has
As a thermistor for detecting the temperature of the heating roller 1, a thermistor 13 is arranged near the heating roller 1. This embodiment is the same as the above-described embodiment described with reference to FIGS. 1 and 2 except that the thermistor 13 is not in contact with the heating roller 1, so duplicated description will be omitted.

Normally, when the heating roller is heated, the temperature of the roller itself and the ambient temperature in the vicinity thereof are different, but it is considered that the two are in temperature equilibrium when they are stored at a low temperature. It can be said that the detected temperature of the thermistor 3 that contacts the heating roller 1 and the detected temperature of the thermistor 13 that does not contact the heating roller 1 are substantially equivalent. Therefore, the thermistor 13 that is not in contact with the heating roller 1
The energization control similar to that in the above-described embodiment may be performed based on the detected temperature.

Note that the temperature at which the energization to the fixing device is cut off may be the limiting temperature T instead of the lower limit temperature To, as in the above embodiment. Next, still another embodiment of the present invention will be described. As shown in FIG. 4, the electrophotographic apparatus of this embodiment does not include a thermistor for detecting the temperature of the heating roller 1 and utilizes the fact that the resistance value of the heating roller 1 changes depending on the temperature. The substitute value is detected and used for temperature control.

That is, the current detecting section 7 is arranged in the conductor from the AC control section 5 to the one power supply section 4, and the induced current generated by the current flowing in this conductor is input to the system control section 6. When the resistance value of the heating roller 1 changes, the current flowing through the heating roller 1 changes. The change in the current is detected as a change in the induced current by the current detector 7. In this embodiment, the system controller 6 can detect the change in the resistance value of the heating roller 1 from the change in the induced current that has been converted into voltage.

The temperature control of the heating roller 1 during the fixing operation is performed when the resistance value detected by the current detection unit 7 becomes higher or lower by a predetermined value than the resistance value of the heating roller 1 set arbitrarily. ON / OFF to turn ON / OFF energization
Even in control, ON / OFF depends on the difference from the arbitrarily set resistance value.
Phase control that changes the OFF duty ratio may be used.

When the standard applied voltage is V, the maximum allowable power of the fixing device is Wmax, and the resistance value of the heating roller 1 is R, the resistance value detected by the current detection unit 7 is V ² / R = Wm.
When the resistance value R is ax or less, the heating roller 1 is de-energized and an error message is displayed on the operation panel (not shown) of the main unit. In other words, the fixing device is not energized by the standard applied voltage or higher applied voltage until the resistance value of the heating roller 1 detected by the current detection unit 7 becomes higher than R.
The effect of this embodiment is the same as that of the above-described embodiment described with reference to FIGS.

Next, still another embodiment of the present invention will be described. In this embodiment, when the temperature or resistance value of the heating roller 1 falls below a predetermined value, the heating roller 1 is energized at a voltage lower than the standard applied voltage V instead of being cut off. Is. If a voltage lower than the standard applied voltage V is VL, the configuration and method for obtaining the temperature or resistance value of the heating roller 1 to be compared with a predetermined value (reference value) in order to switch the applied voltage from V to VL are as follows: Figure 1,
Any of the above embodiments shown in 3 and 4 may be used. That is, the heating roller 1 may be provided with a contact or non-contact thermistor, and when the temperature detected by the thermistor becomes equal to or lower than a predetermined temperature, current may be supplied with the voltage VL, or instead of providing the thermistor, The resistance value of the heating roller 1 or a substitute value thereof may be detected, and when the detection result becomes equal to or lower than a predetermined resistance value, the current may be supplied with the voltage VL.

FIG. 5 is a graph showing the relationship between the heating roller and the power consumption of the fixing device when the power supply to the fixing device in this embodiment is controlled. In this figure, the applied voltage is switched based on the temperature detected by the thermistor arranged in contact with or close to the heating roller.

As shown in this figure, when the temperature of the heating roller is higher than the lower limit temperature To, the standard applied voltage V is applied to the heating roller, thereby consuming electric power. When the heating roller temperature is equal to or lower than the lower limit temperature of use To and the current is applied at the standard applied voltage V, the power consumption of the fixing device changes as indicated by the broken line in the figure, and the maximum allowable power Wma is lower than the limit temperature T.
It exceeds x. Therefore, in this embodiment, when the temperature of the heating roller is equal to or lower than the lower limit temperature To, the heating roller is energized at a voltage VL lower than the standard applied voltage V.
In that case, the power consumption of the fixing device changes as indicated by B in the figure, and if the temperature is the storage lower limit temperature TL or higher, the maximum allowable power Wmax is not exceeded, and overcurrent does not flow to the fixing device. Does not damage the device.

Here, the voltage VL is VL <ImaxRL, where RL is the resistance value of the fixing device at the storage lower limit temperature of the electrophotographic device and Imax is the maximum allowable current value of the circuit relating to the fixing device of the electrophotographic device. By setting VL so as to satisfy VL ² / RL <Wmax, the heating roller can be heated gradually without damaging the machine when the storage lower limit temperature is maintained. for that reason,
Preheating can be performed from the storage environment, and the apparatus start-up time can be shortened as compared with the case where the heating roller is not energized when the temperature or resistance value is equal to or lower than a predetermined value, as in the above-described embodiments. it can.

The voltage applied to the heating roller is changed from V to V.
The temperature for switching to L may be the limiting temperature T instead of the lower limit temperature To. Further, without providing a thermistor, the resistance value of the heating roller or its substitute value (see, for example, FIG.
The applied voltage may be switched based on the current value detected by the current detection unit 7).

FIG. 6 is a graph showing how the resistance value of the fixing device changes with the temperature of the heating roller 1. As shown in this figure, it is understood that the lower the heating roller temperature, the lower (smaller) the resistance value of the fixing device is. Here, the resistance value of the fixing device is actually a resistance value of the heating roller 1 and a resistance value other than that of the heating roller, for example, a resistance value in a lead wire from the power feeding unit 4 or the AC control unit 5 to the power feeding unit 4 or the like. Is added.

[0037]

As described above, according to the constitutions of claims 1 to 6, since there is no problem that an overcurrent flows through the fixing device when the temperature is low, the machine can be operated from a low storage temperature to an operating environment. There is no risk of damaging the machine even if you bring in the power and immediately turn on the power.

[0038]

When the temperature is low, by energizing the heating roller with an applied voltage lower than the standard applied voltage V, the heating roller can be gradually heated without passing an overcurrent to the fixing device. This is possible, and the device start-up time can be shortened as compared with the case of not energizing.

According to the structure of claim 7, when the storage lower limit temperature is maintained, the heating roller can be gradually heated without damaging the machine, so preheating can be performed from the storage environment. Therefore, the device start-up time can be shortened as compared with the case where no electricity is supplied.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a fixing device and its control system in an embodiment of an electrophotographic apparatus according to the present invention.

FIG. 2 is a graph showing the relationship between the power consumption of the fixing device and the heating roller temperature.

FIG. 3 is an explanatory diagram showing a fixing device and its control system according to another embodiment of the present invention.

FIG. 4 is an explanatory view showing a fixing device and its control system in still another embodiment of the present invention.

FIG. 5 is a graph showing the relationship between the heating roller and the power consumption of the fixing device according to still another embodiment of the present invention.

FIG. 6 is a graph showing changes in the resistance value of the fixing device according to the heating roller temperature in the example.

[Explanation of symbols]

1 heating roller 1a Electrode part 2 pressure roller 3,13 Thermistor 4 power supply 5 AC controller 6 System control unit 7 Current detector To lower limit temperature TL storage (lower limit) temperature Wmax Maximum allowable power of fixing device

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) G03G 13/20 G03G 15/20 H05B 1/00-3/00 375

Claims (7)

(57) [Claims] 1. An image forming apparatus having a fixing device using a self-heating type heating roller, wherein a heating resistor provided on a surface layer of the heating roller has a positive temperature characteristic, wherein the fixing device is provided in the image forming device. The maximum supply power of Wmax, the lower limit temperature of use of the image forming apparatus is To,
If the resistance value of the fixing device at the temperature To of the heating roller is Ro and the standard voltage applied to the fixing device is V, then V ²
/ Ro ≤ Wmax, and has temperature detecting means for detecting the surface temperature of the heating roller or the temperature in the vicinity of the heating roller, and the roller surface temperature detected by the detecting means or the temperature in the vicinity of the roller is An image forming apparatus characterized in that when the temperature is lower than the lower limit temperature of use To, the energization to the heating roller is cut off. 2. An image forming apparatus comprising a fixing device using a self-heating type heating roller, wherein a heating resistor provided on a surface layer of the heating roller has a positive temperature characteristic. The maximum supply power of Wmax, the lower limit temperature of use of the image forming apparatus is To,
If the resistance value of the fixing device at the temperature To of the heating roller is Ro and the standard voltage applied to the fixing device is V, then V ²
/ Ro ≤ Wmax, and has temperature detecting means for detecting the surface temperature of the heating roller or the temperature in the vicinity of the heating roller, and the roller surface temperature detected by the detecting means or the temperature in the vicinity of the roller is When the temperature is equal to or lower than a predetermined temperature T lower than the lower limit temperature To, the power supply to the heating roller is cut off, and when the predetermined temperature T is a resistance value R (T) at a certain temperature of the heating roller, V ² An image forming apparatus characterized in that the temperature is such that / R (T) = Wmax. 3. An image forming apparatus including a fixing device using a self-heating type heating roller, wherein a heating resistor provided on a surface layer of the heating roller has a positive temperature characteristic. The maximum supply power of Wmax, the lower limit temperature of use of the image forming apparatus is To,
If the resistance value of the fixing device at the temperature To of the heating roller is Ro and the standard voltage applied to the fixing device is V, then V ²
/ Ro ≤ Wmax, and has temperature detecting means for detecting the surface temperature of the heating roller or the temperature in the vicinity of the heating roller, and the roller surface temperature detected by the detecting means or the temperature in the vicinity of the roller is An image forming apparatus characterized in that when the temperature is lower than the lower limit temperature of use To, the heating roller is energized with an applied voltage lower than a standard applied voltage. 4. An image forming apparatus comprising a fixing device using a self-heating type heating roller, wherein a heating resistor provided on a surface layer of the heating roller has a positive temperature characteristic. The maximum supply power of Wmax, the lower limit temperature of use of the image forming apparatus is To,
If the resistance value of the fixing device at the temperature To of the heating roller is Ro and the standard voltage applied to the fixing device is V, then V ²
/ Ro ≤ Wmax, and has temperature detecting means for detecting the surface temperature of the heating roller or the temperature in the vicinity of the heating roller, and the roller surface temperature detected by the detecting means or the temperature in the vicinity of the roller is When the temperature is equal to or lower than the predetermined temperature T lower than the lower limit temperature To, the heating roller is energized at an applied voltage lower than the standard applied voltage, and the predetermined temperature T is a resistance value R (T) at a certain temperature of the heating roller. Then, the image forming apparatus is characterized in that the temperature is V ² / R (T) = Wmax. 5. An image forming apparatus comprising a fixing device using a self-heating type heating roller, wherein a heating resistor provided on a surface layer of the heating roller has a positive temperature characteristic. The maximum supply power of Wmax, the lower limit temperature of use of the image forming apparatus is To,
If the resistance value of the fixing device at the temperature To of the heating roller is Ro and the standard voltage applied to the fixing device is V, then V ²
/ Ro ≤ Wmax, and a means for detecting the resistance value of the heating roller or its substitute characteristic, and the roller resistance value or its substitute value detected by the detecting means is V ² / R = The image forming apparatus is characterized in that when the resistance value is equal to or lower than Wmax, the heating roller is turned off. 6. An image forming apparatus comprising a fixing device using a self-heating type heating roller, wherein a heating resistor provided on a surface layer of the heating roller has a positive temperature characteristic. The maximum supply power of Wmax, the lower limit temperature of use of the image forming apparatus is To,
If the resistance value of the fixing device at the temperature To of the heating roller is Ro and the standard voltage applied to the fixing device is V, then V ²
/ Ro ≤ Wmax, and a means for detecting the resistance value of the heating roller or its substitute characteristic, and the roller resistance value or its substitute value detected by the detecting means is V ² / R = The image forming apparatus is characterized in that when the resistance value is equal to or lower than Wmax, the heating roller is energized with an applied voltage lower than a standard applied voltage. 7. If the applied voltage lower than the standard applied voltage V is VL, the voltage VL is the resistance value of the fixing device at the storage lower limit temperature of the image forming device RL, and the voltage is related to the fixing device of the image forming device. The maximum allowable current value of the circuit is I
When max is set, VL <Imax · RL and VL ² / RL
The image forming apparatus according to claim 3, wherein the image forming apparatus is set to satisfy <Wmax.