JPH0611997A - Fixing device - Google Patents

Abstract

PURPOSE:To prevent bad fixing due to DO loop directly after copy running, or degradation of rubber of a soft roll due to overshoot after completing copy running and toner offset during running directly after that, and further improve productivity. CONSTITUTION:This fixing device is constituted so as to be provided with a temperature detecting means 8 to detect the surface temperature of a heating roll 1, and a control means 12 to compare the temperature detected by the temperature detecting means 8, with the first control temperature T at stand-by of the heating roll 1, to set a heating source ON/OFF and also to compare it with the second control temperature T2 lower than the first control temperature T1 at the time of detecting the surface temperature rise of the heating roll 1 directly after beginning of fixing process to set the heating source ON/ OFF, and further to compare it with the first control temperature at the time when the surface temperature of the heating roll 1 reaches the first control temperature T1 after completing fixing process to set the heating source 4 ON/OFF.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fixing device used in an image forming apparatus such as an electrophotographic copying machine or a printer.

[0002]

2. Description of the Related Art Heretofore, as a fixing device of this type, when fixing an unfixed toner image, in order to improve the image quality by preventing fixing defects and making the gloss of the copy uniform, a metal fixing device is used. The mainstream is a fixing roll, which is a so-called soft roll, in which a core is coated with a heat-resistant elastic body such as silicone rubber, and is still widely used especially in full-color electrophotographic copying machines.

However, when controlling the temperature of the soft roll, as the number of transfer sheets that can be fixed per unit time increases, the temperature curve shown in FIG. ), A rapid decrease in the roll surface temperature, and after the end of continuous copying, a rapid temperature increase called OVERSHOOT occurs even if the lamp heating the roll is off. Therefore, the soft roll temperature control prevents droop immediately after the start of copy running and overshoot after the end of continuous copy running, resulting in poor fixing and offset caused by these droop and overshoot, and deterioration of the rubber of the soft roll. It was necessary to prevent the secondary failure of the.

Therefore, as a technique capable of preventing the above-mentioned overshoot, a technique relating to Japanese Patent Laid-Open No. 60-225182 has been already proposed.

The technique disclosed in Japanese Patent Application Laid-Open No. 60-225182 relates to a temperature control method of a preheater arranged on the upstream side of a fixing device. However, a paper on which unfixed toner is placed is preheated. In a printing device having a mechanism for preheating with, and heating and pressurizing with a heating roll and a pressure roll to fix the image, by stopping the power supply to the preheater for a certain time or more before the printing operation is finished,
It is configured to prevent the occurrence of overshoot.

[0006]

However, the above-mentioned prior art has the following problems. That is, in the case of the apparatus according to the above proposal, although the occurrence of overshoot can be prevented to some extent by stopping the power supply to the heater for a certain time or more before the printing operation is finished, the power supply to the heater is controlled by the time. Therefore, there is a problem that the control according to the actual heat generation amount of the fixing roll cannot be performed and the occurrence of overshoot cannot be effectively prevented. Further, in the case of the device according to the above proposal, there is a problem that droop which occurs immediately after the start of copy running cannot be prevented at all.

Therefore, the present invention was made in order to solve the above-mentioned problems of the prior art. The purpose of the present invention is to fix the defective fixing due to the droop immediately after the copy running.
Alternatively, another object of the present invention is to provide a fixing device which can prevent deterioration of the rubber of the soft roll due to overshoot after the end of the copy running and toner offset during the running immediately after that, and which has a higher productivity.

[0008]

The above-mentioned technical problems are as follows.
In the fixing device according to the present invention, in a fixing device for fixing an unfixed image on a transfer material by bringing a pressure roll into pressure contact with a heating roll having a heating source inside, a temperature detection for detecting the surface temperature of the heating roll. Means and the temperature detected by the temperature detecting means are compared with the first control temperature when the heating roll is on standby, the heating source is turned on and off, and immediately after the fixing process is started, an increase in the surface temperature of the heating roll is detected. At the time point, the heating source is turned on and off in comparison with the second control temperature lower than the first control temperature, and after the fixing process, the surface temperature of the heating roll is compared with the first control temperature when the surface temperature reaches the first control temperature. And a control means for turning the heating source on and off.

[0009]

According to the present invention, the surface temperature of the heating roll is detected by the temperature detecting means, and the temperature detected by this temperature detecting means is set to the first value when the heating roll is on standby.
Turns the heating source on and off compared to the control temperature,
Immediately after starting the fixing process, when the rise in the surface temperature of the heating roll is detected, the heating source is turned on and off as compared with the second control temperature lower than the first control temperature, and after the fixing process is finished, the surface temperature of the heating roll is The control means controls to turn on and off the heating source as compared with the first control temperature when the first control temperature is reached.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to illustrated embodiments.

FIG. 2 shows an embodiment of the fixing device according to the present invention.

In the figure, reference numeral 1 is a heating roll, and this heating roll 1 is constructed by coating a metal roll 2 with a relatively thin elastic layer 3 made of silicon rubber or the like having heat resistance. . A halogen lamp 4 as a heating source is housed inside the heating roll 1, and the surface of the heating roll 1 is heated from the inside to a predetermined temperature. A pressure roll 5 is pressed against the heating roll 1, and the pressure roll 5 has a relatively thick elastic layer 7 made of silicon rubber or the like having heat resistance on the surface of the metal roll 6. It is configured by coating.

Further, on the surface of the heating roll 1, a temperature detecting sensor 8 for detecting the surface temperature of the heating roll 1 is provided.
Are arranged so as to make light contact with each other. As shown in FIG. 3, the temperature detecting sensor 8 has a temperature detecting element 9 such as a thermistor thinly covered with a heat-resistant elastic material 10, and the surface of the elastic material 10 is covered with a heat-resistant synthetic resin film 11. It is configured to cover and lightly contact the surface of the heating roll 1. The temperature detection sensor 8
Is arranged in the non-sheet passing portion of the heating roll 1, for example,
Of course, the temperature detecting sensor 8 may be arranged in the sheet passing portion of the heating roll 1 by using a cleaner or the like. The temperature detection sensor 8 detects, for example, the surface temperature of the heating roll 1 as a change in resistance value.

As shown in FIG. 4, the temperature detecting sensor 8 is connected to a control CPU 12 which converts the temperature detected by the temperature detecting sensor 8 into a digital value and inputs it. It has become. Further, the control CPU 12 controls the temperature detected by the temperature detection sensor 8 at a predetermined time interval (for example, several tens of msec to several se).
In addition to sampling every c), the data of the previous time is compared to determine whether the surface temperature of the heating roll 1 is rising or falling.

Further, the control CPU 12 is connected to a solid state relay (SSR) 13, and the SSR 13 controls ON / OFF of energization from the power source 14 to the halogen lamp 4.

Further, as shown in FIG. 1, the control CPU 12 controls so that the surface temperature of the heating roll 1 becomes equal to the first control temperature T ₁ even during normal standby and immediately after the start of copy running. The surface temperature of the heating roll 1 is decreased to some extent immediately after the start of copying, and then, when it starts to rise, the surface temperature of the heating roll 1 is set to the first control temperature T.
_The temperature is controlled to be equal to the second control temperature T ₂ which is lower than the predetermined temperature T ₁ by a predetermined temperature, and when the surface temperature of the heating roll 1 reaches the first control temperature T ₁ after completion of the copy traveling, the first control temperature T ₂ is reached. It is configured to control to be equal to ₁ .

Here, the first control temperature T ₁ is controlled to a temperature slightly higher than the surface temperature of the conventional heating roll 1, but slightly lower than the maximum temperature reached by overshooting after the end of copy running. Temperature, for example, 175 ° C
It is set to a degree. In addition, the second control temperature T
₂ is set slightly higher than the lowest temperature of the droop, and is set to about 165 ° C., for example.

The first and second control temperatures T ₁ and T ₂ or the droop and overshoot characteristics are the thickness of the elastic layer of the heating roll 1 used, the thermal conductivity, and the use during copying. Heat capacity of the lamp, the number of copies per unit time, the size of the transfer paper 15, the paper quality,
Also, since it is influenced by various factors such as the fixing characteristics of the toner used, the optimum state is set in consideration of these factors.

In the fixing device according to the present embodiment having the above-described structure, the fixing failure due to the droop immediately after the copy running, or the deterioration of the rubber of the soft roll due to the overshoot after the copy running and immediately after that are performed in the following manner. The toner offset during the running of the printer is prevented. That is, in the above fixing device, the surface temperature of the heating roll 1 is controlled by the control CPU 12 to be equal to the first control temperature T _{1 as} shown in FIG. Is also controlled at the same first control temperature T ₁ .

At this time, with the start of copy running, the fixing device is driven to rotate both rolls in a state where the pressure roll 5 is in pressure contact with the heating roll 1 and the heating roll 1
Is heated from inside by the halogen lamp 4. Then, as shown in FIG. 2, the transfer paper 15 carrying the unfixed toner image is passed through the nip portion between the heating roll 1 and the pressure roll 5 to heat the toner image on the transfer paper 15 by heat and pressure. It has become established.

Since the heat of the surface of the heating roll 1 is gradually taken away by the transfer paper 15 when continuous copy running is started, the surface temperature of the heating roll 1 is, as shown in FIG. Immediately after the start, it drops relatively rapidly. At this time, since the surface temperature of the heating roll 1 is controlled by the _first control temperature T ₁ , the halogen lamp 4 is in the energized state even if the surface temperature of the heating roll 1 is lower than the _second control temperature T _2. The heating of the heating roll 1 is continued. Therefore, the surface temperature of the heating roll 1 starts to gradually rise thereafter.

The surface temperature of the heating roll 1 is constantly detected by the temperature detection sensor 8. The surface temperature of the heating roll 1 detected by the temperature detection sensor 8 is converted into a digital signal and sent to the control CPU 12. Sent.
Then, the control CPU 12 determines whether the surface temperature of the heating roll 1 itself and the surface temperature of the heating roll 1 are increasing or decreasing.

Then, the control CPU 12 changes the control temperature of the heating roll 1 from the first control temperature T ₁ to the first control temperature T ₁ at the time when the temperature rise of the surface temperature of the heating roll 1 is detected.
The control temperature T ₂ is switched to the second control temperature T ₂ which is lower than the control temperature T ₁ by a predetermined temperature. After that, the surface temperature of the heating roll 1 is controlled by the _second control temperature T ₂ , and during the copy running,
The surface temperature of the heating roll 1 is maintained at the _second control temperature T ₂ .

Next, when the copy running is completed, the heat loss on the surface of the heating roll 1 due to the transfer paper 15 disappears, and the surface temperature of the heating roll 1 becomes relatively high due to the heat accumulated inside as shown in FIG. Rises sharply. At this time, the control temperature of the heating roll 1 remains at the second control temperature T ₂ . As a result, the surface temperature of the heating roll 1 is the second
Since the control temperature T ₂ is exceeded, the halogen lamp 4 is de-energized at the same time when the copy traveling is completed.

After that, the surface temperature of the heating roll 1 further rises, and when it passes the first control temperature T ₁ , the control C
The PU 12 switches the control temperature of the heating roll 1 from the second control temperature T ₂ to the first control temperature T ₁ , and the heating roll 1
Is the first control temperature T ₁ during the original standby.
Controlled and maintained at.

In this embodiment, as described above, even if the droop phenomenon occurs in which the surface temperature of the heating roll sharply decreases immediately after the start of the copy running, the surface temperature of the heating roll remains at the standby state and immediately after the start of the copy running. Since the temperature is controlled at the first control temperature T ₁ which is slightly lower than the maximum temperature reached by overshoot after the end of the copy running, the decrease in the surface temperature of the heating roll caused by the droop phenomenon is It can be suppressed to a smaller value, and it is possible to reliably prevent defective fixing due to the droop phenomenon. After that, since the surface temperature of the heating roll is controlled and maintained at the _second control temperature T ₂ which is set slightly higher than the lowest temperature of the droop, copying is continued without causing fixing failure. It Therefore, the temperature will not drop during copying, etc.
It is possible to improve the productivity of the fixing process.

Immediately after the end of the copy running, the transfer sheet 1
Since the heat loss on the surface of the heating roll 1 due to No. 5 disappears, the surface temperature of the heating roll 1 exhibits an overshoot phenomenon in which it rises relatively rapidly as shown in FIG. Immediately after the start of running, the temperature is slightly higher than the lowest temperature of the droop and is controlled by the second control temperature T ₂ which is set to a temperature lower than the conventional control temperature. The current to 4 is immediately cut off, and the starting temperature of the overshoot phenomenon is lower than the conventional temperature. Therefore, a large overshoot as in the past does not occur as shown in FIG.
When the surface temperature of the heating roll 1 is equal to the first control temperatures T _1, since it is switched to the first control temperatures T ₁ again, the control of the temperature during the original standby, ready for the next copying operation . Therefore, it is possible to prevent the deterioration of the rubber forming the elastic layer of the heating roll 1 due to a large overshoot as in the prior art and the toner offset during running immediately after that.

The temperature control as described above may of course be performed all the time, but when the number of copies is small, the same control as the conventional one is performed, and when the number of copies is a predetermined number or more, the control is performed as in the above embodiment. You may do it.

Further, in the above embodiment, the temperature detected by the temperature detecting means is compared with the first control temperature when the heating roll is on standby to turn the heating source on and off, and immediately after the start of the fixing process, the surface of the heating roll. When the temperature rise is detected, the heating source is turned on and off as compared with the second control temperature lower than the first control temperature, and after the fixing process is completed, the heating roll surface temperature reaches the first control temperature. Although the heating source is turned on / off as compared with the first control temperature, an auxiliary control temperature may be introduced in addition to the first control temperature and the second control temperature.

That is, between the standby time and the start of the fixing process, for example, when the copy start is instructed, the surface temperature of the heating roll is set to the third control temperature higher than the first control temperature, and the fixing is performed. Immediately after the start of the treatment, similarly to the above-described embodiment, when the rise in the surface temperature of the heating roll is detected, the control is performed by comparing with the second control temperature lower than the first control temperature. Immediately before the end of the fixing process, when the remaining number of copies reaches a predetermined number or before a copy end time reaches a predetermined time, the surface temperature of the heating roll is controlled to be lower than the second control temperature by the fourth control. The temperature may be set, and after the fixing process is finished, the temperature may be controlled to be equal to the first control temperature when the surface temperature of the heating roll reaches the first control temperature.

In this case, the control becomes a little complicated,
It is possible to further suppress the droop immediately after the copy traveling and further suppress the overshoot after the end of the copy traveling.

[0032]

According to the present invention, which has the above-described configuration and operation, the fixing failure due to the droop immediately after the copy running or the deterioration of the rubber of the soft roll due to the overshoot after the copy running and the running immediately after the running are performed. Toner offset can be prevented, and a fixing device with high productivity can be provided.

[Brief description of drawings]

FIG. 1 is a graph showing a state of temperature control showing an embodiment of a fixing device according to the present invention.

FIG. 2 is a block diagram showing an embodiment of a fixing device according to the present invention.

FIG. 3 is a configuration diagram showing a temperature detection sensor.

FIG. 4 is a block diagram showing a configuration of a temperature control circuit.

FIG. 5 is a graph showing a state of temperature control in a conventional fixing device.

[Explanation of symbols]

1 heating roll, 4 halogen lamp, 5 pressure roll, 8 temperature detection sensor, 12 control CPU, 13
SSR, T ₁ first control temperature, T ₂ second control temperature.

Claims (1)

[Claims] 1. A fixing device for fixing a non-fixed image on a transfer material by bringing a pressure roll into pressure contact with a heating roll having a heating source therein, and temperature detecting means for detecting the surface temperature of the heating roll. The temperature detected by the temperature detecting means is compared with the first control temperature when the heating roll is on standby, the heating source is turned on and off, and immediately after the fixing process is started, when the rise in the surface temperature of the heating roll is detected. The heating source is turned on / off as compared with the second control temperature lower than the first control temperature, and after the fixing process, the first control temperature is reached when the surface temperature of the heating roll reaches the first control temperature. A fixing device comprising: a control means for turning on and off a heating source in comparison.