JPH05158375A - Method for cleaning rotating body for fixing - Google Patents

Abstract

PURPOSE:To improve a cleaning effect by keeping the surface temperature of a rotating body at a temperature higher than a fixing temperature to a transfer material when a cleaning sheet passes through a nip part. CONSTITUTION:A cleaning sheet 6 is constituted of the transfer material of A3-size where a solid black image is formed. When a cleaning start key is pressed, a temperature control means starts power supply to a halogen heater 3. The surface temperature of a heating roller 1 rises to a cleaning temperature from the fixing temperature. Since the heating roller 1 is kept at the higher temperature than the fixing temperature while the cleaning sheet 6 passes through the nip part, toner adhering to the surfaces of the heating roller 1, a pressuring roller 2, a thermistor 4 and a safety device 5 is melted and caught by the cleaning layer 7 of the cleaning sheet 6.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of cleaning a fixing rotary member provided in a fixing device of an image forming apparatus such as an electrophotographic copying apparatus and an electrostatic information recording apparatus.

[0002]

2. Description of the Related Art In a system in which an unfixed toner image formed on a transfer material is fixed as a permanent image on the transfer material, the unfixed toner image is transferred onto the transfer material at a nip formed by a pair of fixing rotators. There are methods such as a heat roller method for fixing and a pressure fixing method.

As a fixing device of the above heat roller system,
A heating roller whose surface is heated by a heating source, a pressure roller rotatably pressed against the heating roller, a temperature detection element for detecting the surface temperature of the pressure roller, and a temperature detection element for detecting the temperature. Temperature control means for controlling energization of the heating source and stop thereof based on the detected temperature, and a safety device for interrupting energization of the heating source when the surface temperature of the heating roller reaches a temperature higher than a set temperature. And an unfixed toner image on the transfer material is heated and pressed at a nip portion formed by the heating roller and the pressure roller to fix the unfixed toner image on the transfer material. .. The temperature detecting element is pressed against an area of the heating roller corresponding to the image forming area of the transfer material, and the surface of the temperature detecting element is covered with a polyimide tape. Similar to the temperature detecting element, the safety device is pressed against the area of the heating roller and its surface is covered with a polyimide tape.

The material of the heating roller or the like used in the fixing device is selected in consideration of the releasability of the toner, the transportability of the transfer material, the charging property and the heat resistance. As the number of times of use increases, the amount of toner, paper powder, etc. that adheres to the surface of the heating roller or pressure roller increases, so the image on the transfer material is contaminated by the toner adhered on the heating roller or pressure roller. And the backside of the transfer material is stained, and the transfer accuracy of the transfer material is deteriorated. Therefore, a method has been proposed in which the cleaning member is brought into contact with the surface of the heating roller to remove the toner and the like adhering to the surface of the heating roller.

However, with this cleaning method, it is difficult to reduce the size of the apparatus for realizing the method, and it is difficult to maintain the cleaning performance of the cleaning member for a long period of time. Therefore, a cleaning method using a cleaning sheet instead of the cleaning member has been proposed. In the cleaning method using this cleaning sheet, a cleaning sheet having a cleaning layer exhibiting adhesiveness on one surface is used. The width of the cleaning layer of the cleaning sheet is set to be narrower than the width of the maximum-sized transfer material that is normally fed and wider than the maximum printable area, and the cleaning range of the cleaning sheet is set as wide as possible.

The cleaning sheet is periodically inserted into the nip portion, for example, every 10,000 sheets of paper. While the cleaning sheet is passing through the nip portion, the cleaning layer of the cleaning sheet comes into contact with the heating roller, and the contact causes the cleaning layer to exhibit tackiness. Toner and the like adhered to the surface of the heating roller are collected in the cleaning layer of the cleaning sheet.

Further, by forming the cleaning layers on both sides of the cleaning sheet, it is possible to clean the surface of the heating roller and the surface of the pressure roller at the same time.

[0008]

However, in the cleaning method in which the cleaning sheet is used, the cleaning sheet is periodically inserted into the nip portion, so that the cleaning sheet is inserted until the next cleaning sheet is inserted. Toner accumulates between the heating roller and the polyimide tape covering the temperature detecting element and the safety device within the period, and the accumulated toner cannot be removed by the cleaning sheet. Therefore, the amount of toner deposited between the polyimide tape and the heating roller increases as the number of sheets of the transfer material on which the unfixed toner image is formed increases, and a part of the deposited toner is transferred to the polyimide tape. And the above heating roller is rubbed off, and the transfer material to be fixed later is stained.

An object of the present invention is to provide a cleaning method for a fixing rotator which can improve the cleaning effect of the cleaning sheet on the surface of the fixing rotator of the fixing device.

[0010]

According to the present invention, the above object is to heat and apply an unfixed developer image on a transfer material at a nip portion of a pair of fixing rotators whose surface temperatures are controlled. A cleaning sheet used in a fixing device for fixing the unfixed developer image to the transfer material by pressing, and having at least one surface formed with a cleaning layer exhibiting adhesiveness, at least one of the rotating bodies. In the method for cleaning a rotating body for fixing which cleans the surface of the rotating body, the surface temperature of the rotating body is maintained at a cleaning temperature higher than the fixing temperature for the transfer material when the cleaning sheet passes through the nip portion. Achieved by.

[0011]

In the cleaning method for the fixing rotary member of the present invention, when the cleaning sheet passes through the nip portion, the surface temperature of the rotary member is maintained at a cleaning temperature higher than the fixing temperature for the transfer material.

During the passage of the cleaning sheet through the nip portion, the toner adhering to the rotating body is heated from the time of fixing, and a part of the toner is melted. The toner is easily separated from the rotating body, and more toner is collected in the cleaning layer of the cleaning sheet.

[0013]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing a heat roller type fixing device in which the cleaning method of a fixing rotary member of the present invention is used, and FIG. 2 is a control for cleaning the heating roller of the fixing device of FIG. 1 with a cleaning sheet. FIG. 3 is a plan view showing an example of a cleaning sheet used in the method for cleaning the fixing rotary member of the present invention, showing a temporal change in the surface temperature of the heating roller.

A heat roller type fixing device incorporated in a laser printer which is an image forming apparatus is shown in FIG.
As shown in FIG. 3, a heating roller 1 made of an aluminum cored bar whose surface is coated with a fluororesin, and a stainless steel roller which is rotated while being pressed against the heating roller 1 and has an elastic layer formed on the surface thereof. The pressure roller 2 is made of a core metal. The pressure roller 2 cooperates with the heating roller 1 to form a nip portion for conveying the transfer material under pressure.

A halogen heater 3 as a heat source is arranged in the heating roller 1. The operation of the halogen heater 3 is controlled by temperature control means (not shown). The temperature control means supplies electric power to the halogen heater 3 and stops the electric power supply while monitoring the surface temperature of the heating roller 1 detected by the thermistor 4. The surface temperature of the heating roller is 1 during fixing.
The fixing temperature T ₁ of 70 ° C. is maintained and 2 during cleaning.
The cleaning temperature T ₂ of 00 ° C. is maintained.

The surface of the thermistor 4 is covered with a polyimide tape (hereinafter referred to as "PI tape"). The thermistor 4 is the heating roller 1 corresponding to the image area of the transfer material.
Is contacted with a predetermined force at the substantially central portion thereof. The pressing force of the thermistor 4 against the transfer material is about 100 g.

The heating roller 1 is provided with a safety device 5,
The safety device 5 stops power supply to the halogen heater 3 when the surface temperature of the heating roller 1 reaches an abnormal temperature due to abnormal heating of the halogen heater 3. The surface of the safety device 5 is covered with PI tape, and the safety device 5 is arranged at a position adjacent to the thermistor 4. The pressing force of the safety device 5 against the heating roller 1 is about 50 g. The fixing device is not provided with a cleaning member for cleaning the surface of the heating roller 1 or the pressure roller 2.

Next, a method of cleaning the heating roller 1 of the fixing device will be described.

First, a paper passing test is conducted with a laser printer incorporating this fixing device. In the paper passing test, the fixing temperature T ₁ is 170 ° C., and the fine particle toner (particle diameter: about 6 μm) is used as the developer. A4 size transfer paper (grammage: 64 g / m ² ) is continuously fed laterally at a speed of 8 sheets per minute, and a test pattern image with characters with a print ratio of about 5% is transferred. Form on paper. About 1000
When 0 sheets of the transfer material are passed, the surface of the heating roller 1, the surface of the PI tape of the thermistor 3 that faces the heating roller 1 and the surface of the heating tape 1 of the PI tape of the safety device 5 that faces the heating roller 1 are free from toner, paper dust, and the like. Adhesion was recognized, and 2000
At the time of passing 0 sheets, the surface of the heating roller 1 and each of the above PIs
The dirt on the surface of the tape becomes severe and the dirt on the surface of the pressure roller 2 is confirmed. Further, the stains on the image formed on the transfer material and the stains on the back surface of the transfer material are generated, and the stains are generated at a position where the adhered toner on the surface of the heating roller 1 is gradually grown and hardened. Such as the position of the member in contact with.

Next, the surface of the heating roller 1, the surface of the pressure roller 2, the surface of the PI tape of the thermistor 4 facing the heating roller 1 and the surface of the PI tape of the safety device 5 facing the heating roller 1 are attached. Cleaning is performed to remove toner, paper dust, and the like. The cleaning time is determined based on the toner adhesion state confirmed in advance. For example, when the number of passing transfer materials reaches a preset number, a display for instructing execution of cleaning is displayed.

A cleaning sheet 6 is used for cleaning to remove toner, paper dust and the like. As shown in FIG. 3, the cleaning sheet 6 is made of an A3 size transfer material on which a solid black image is formed. A cleaning layer 7 is formed on both sides of the cleaning sheet 6, and the cleaning layer 7 exhibits tackiness when coming into contact with a roller such as the heating roller 1. As shown in FIGS. 1 and 3, the width Wc of the cleaning layer of the cleaning sheet 6 is set to be narrower than the width W of the maximum size transfer material that is normally fed and wider than the dimension L indicating the maximum printable area. The cleaning range of the cleaning sheet 6 is as wide as possible.

When the cleaning instruction is displayed,
The cleaning sheet 6 is set in the manual paper feeding section. Next, when the cleaning key instructing the start of cleaning is pressed, as shown in FIG. 2, the temperature control means starts the supply of electric power to the halogen heater 3 (time point t ₀ ).

The surface temperature of the heating roller 1 rises from the fixing temperature T ₁ to the cleaning temperature T _2, and as the surface temperature of the heating roller 1 rises, the surface temperature of the pressure roller 2 becomes higher than the fixing temperature. Then, the feeding of the cleaning sheet 6 of the manual paper feeding portion is started. Immediately after the surface temperature of the heating roller 1 reaches the cleaning temperature T ₂ (time point t ₁ ), the leading end of the cleaning sheet 6 in the feeding direction reaches the nip portion,
The cleaning sheet 6 passes through the nip portion while one of the cleaning layers 7 is in contact with the heating roller 1 and the other cleaning layer 7 is in contact with the pressure roller 2.

While the cleaning sheet 6 is passing through the nip portion,
Since the surface temperature of the heating roller 1 is kept higher than the fixing temperature T _1, it adheres to the surface of the heating roller 1, the surface of the pressure roller 2, the PI tape surface of the thermistor 4 and the PI tape surface of the safety device 5. Since the toner contained therein is melted, the toner is easily peeled off, and the toner on the surface of the heating roller 1, the surface of the pressure roller 2 and the surface of each PI tape is reliably collected in the cleaning layer 7 of the cleaning sheet 6.

After the cleaning sheet 6 has passed through the nip portion (time point t ₂ ), the surface temperature of the heating roller 1 is lowered to the fixing temperature T ₁ again by the temperature control means.

After the completion of cleaning, the sheet passing test was continued until the total number of sheets to be passed reached 100,000 while the cleaning sheet 6 was cleaned after every 5000 sheets of the sheet of transfer material were passed. It has been confirmed that there is no stain on the back of the transfer material.

When the cleaning sheet 6 is inserted into the nip portion while maintaining the surface temperature of the heating roller 1 at the fixing temperature T ₁ , the toner on the surface of the pressure roller 2 is collected in the cleaning layer 7 of the cleaning sheet 6. However, it has been confirmed that the toner on the surface of the heating roller 1 and the surface of each PI tape is hardly removed.

[0029] In this embodiment, although select 200 ° C. as the cleaning temperature T _2, the temperature T ₃ which leads to occurrence of high-temperature offset phenomenon in place of the temperature (e.g., 220
Temperature in the range from ° C.) to the fixing temperature T ₁ of can be selected as the cleaning temperature T _2.

In addition, in order to sufficiently raise the surface temperature of the pressure roller 2, when the surface temperature of the heating roller 1 is increased from the fixing temperature T ₁ to the cleaning temperature T ₂ , before the multi-rotation (before feeding the cleaning sheet) The cleaning effect can also be enhanced by rotating the pair of fixing rotators.

Next, another fixing device using the cleaning method using a cleaning sheet will be described.

Another fixing device is made of an aluminum core metal whose surface is coated with a fluororesin, and is rotated while being in pressure contact with a heating roller having a halogen heater, and the surface is covered with a PFA tube. Power supply to the halogen heater and power supply stop while monitoring the surface temperature of the pressure roller and the heating roller detected by the thermistor with the elastic layer made of silicone rubber formed on the stainless steel cored bar A temperature control means, a safety device that stops the power supply to the halogen heater when the surface temperature of the heating roller reaches an abnormal temperature due to abnormal heating of the halogen heater, and a drive control means that controls the rotational drive of the heating roller. With.

When the image forming mode is selected, the halogen heater is controlled by the temperature control means so that the surface temperature of the heating roller is maintained at the fixing temperature T _1, and the rotational drive of the heating roller is controlled by the drive control means. It When the cleaning mode is selected, the operation of the halogen heater is controlled so that the surface temperature of the heating roller is maintained at the cleaning temperature T _2, and the driving of the heating roller is performed by the drive control means for cleaning the rotation of the heating roller and its stop. It is controlled to repeat 5 times while the sheet is passing through the nip portion.

Next, a method of cleaning the heating roller of the fixing device with the cleaning sheet 6 (shown in FIG. 3) will be described.

First, a paper passing test is carried out with a laser printer incorporating this fixing device. In the paper passing test, an A4 size transfer material is fed laterally while intermittently passing it at a speed of 2 sheets per minute. A test pattern image is formed on the transfer material.

P of the thermistor, which is a member that is in contact with the surface of the heating roller at the time of passing about 10,000 transfer materials.
Adhesion of toner, paper dust, etc. was observed on the surface of the I tape and the PI tape of the safety device, but almost no stain due to the adhesion of toner, paper dust, etc. was observed on the surface of the pressure roller. At the time of passing 20,000 sheets, it is confirmed that the surface of the heating roller and the surfaces of the respective PI tapes are heavily soiled and the surface of the pressure roller is also soiled. In addition, stains on the image formed on the transfer material and stains on the backside of the transfer material occur. The stains are generated on the surface of the heating roller where the adhered toner gradually grows and hardens, and the contact of the heating roller occurs. The position of the member that is being used.

Next, the heating roller surface, the pressure roller surface,
Cleaning is performed to remove toner, paper dust, etc. adhering to the surface of the thermistor facing the heating roller of the PI tape and the surface of the safety device facing the heating roller of the PI tape. The cleaning time is determined based on the toner adhesion state confirmed in advance. For example,
When the number of passed transfer materials reaches a preset number, a display for instructing execution of cleaning is displayed.

When the number of passing transfer materials reaches a preset number, a cleaning execution instruction is displayed. The cleaning mode is selected, and the cleaning sheet is set in the manual feed section. Next, when the cleaning key instructing the start of cleaning is pressed, the temperature control means starts the supply of electric power to the halogen heater.

The surface temperature of the heating roller rises from the fixing temperature T ₁ to the cleaning temperature T _2, and as the surface temperature of the heating roller rises, the surface temperature of the pressure roller becomes higher than the fixing temperature T ₁ . Then, the feeding of the cleaning sheet of the manual feed section is started. Immediately after the surface temperature of the heating roller reaches the cleaning temperature T ₂ (time point t ₁ ), the leading end of the cleaning sheet in the feeding direction reaches the nip portion, and the cleaning sheet passes through the nip portion while bringing the cleaning layer into contact with the heating roller. To do.

Since the surface temperature of the heating roller is kept higher than the fixing temperature T ₁ while passing through the nip portion of the cleaning sheet, the heating roller surface, the pressure roller surface, the PI tape surface of the thermistor and the safety device. PI
Since the toner adhering to the tape surface is melted, the toner is easily peeled off, and a part of the toner adhering to the PI tape surface is rubbed off between each PI tape and the heating roller. Further, during the passage of the cleaning sheet through the nip portion, the heating roller is repeatedly rotated and stopped five times, so that a frictional force is generated between the PI tape surface of the thermistor and the PI tape surface of the safety device and the heating roller surface. Thus, due to the frictional force, the toner adhered to the surface of the PI tape rubs off between each PI tape and the heating roller. As a result, a large amount of the toner adhered on the surface of the heating roller, the surface of the pressure roller, and the surface of each PI tape is collected in the cleaning layer of the cleaning sheet, and the cleaning effect can be further enhanced.

After passing through the nip portion of the cleaning sheet, the surface temperature of the heating roller is fixed again to the fixing temperature T _{1 by the} temperature control means.
It is lowered to the state where it can be fixed again.

After the cleaning was completed, the sheet passing test was continued because the total number of sheets to be passed reached 200,000 while cleaning with the cleaning sheet after every 10,000 sheets of the transfer material were passed. Dirt on the back of the material,
It has been confirmed that there are no problems with transportation.

In this embodiment, the number of repetitions of rotation and stop of the heating roller is set to 5, but it is preferable to appropriately set the number of times according to the fixing conditions of the fixing device. Considering the possibility of the offset phenomenon in which the toner on the transfer material is transferred to the heating roller during driving, the heating roller should be cleaned and rotated at least once after repeating the rotation and stopping of the heating roller for a predetermined number of times. Is preferred. Further, the cleaning effect can be further enhanced by providing a means for changing the magnitude of the frictional force between the PI tape and the heating roller, such as changing the driving speed of the heating roller while the cleaning sheet is passing through the nip portion. ..

Next, another cleaning sheet used for cleaning the fixing roller such as the heating roller will be described with reference to FIG. FIG. 4 is a plan view showing another example of the cleaning sheet used in the cleaning method for the fixing rotary member of the present invention.

The other cleaning sheet 8 has a sheet base material 9 made of polyethylene terephthalate, as shown in FIG. The width dimension of the sheet base material 9 is 310 mm, the length dimension thereof is 420 mm, and the thickness dimension thereof is 100 μm. An adhesive layer 10 and an antistatic layer 11 are formed on one surface of the sheet base material 9. Adhesive layer 1
0 and the antistatic layer 11 are arranged in the sheet passing direction of the cleaning sheet 8 (direction indicated by an arrow in the figure).
The thickness dimension of the adhesive layer 10 is about 10 μm, and the length dimension along the sheet passing direction is 200 mm. Similarly, the thickness dimension of the antistatic layer 11 is about 10 μm, and the length dimension along the sheet passing direction is 200 mm.

The adhesive layer 10 is an acrylic emulsion of an aqueous adhesive (manufactured by ThreeBond Co., Ltd., ThreeBond # 15).
49), which is formed by applying the acrylic emulsion to the sheet base material 9 and then drying it. The antistatic layer 11 is made of a fluorine-based surfactant (EF122A manufactured by Mitsubishi Metals Co., Ltd.) and is formed by applying the fluorine-based surfactant to the sheet base material 9.

The cleaning sheet 8 is used for cleaning the heating roller and the pressure roller of the fixing device (shown in FIG. 1) incorporated in the laser printer.

When the cleaning sheet 8 is passed in the direction shown by the arrow in FIG. 4 at the time of passing 10,000 sheets, the dirt on the surface of the heating roller and the dirt on the surface of the pressure roller are removed to the same extent as the cleaning sheet 6 or more. Before passing the cleaning sheet 8, the surface potential of the pressure roller is -2 KV.
Therefore, electrostatic offset is likely to occur due to electrostatic force acting on the toner. However, since the surfactant forming the antistatic layer 11 is applied to the heating roller and the pressure roller as the cleaning sheet 8 passes through the nip portion, the pressure roller is particularly prevented from being charged, and the surface of the pressure roller is prevented. The potential drops to about -500V. As a result, the performance of suppressing the occurrence of the offset phenomenon is restored to the initial state after the cleaning sheet 8 passes through the nip portion.

In the paper passing test, while the cleaning sheet 8 is passed once for every 10,000 sheets,
It has been confirmed that there is no image stain on the transfer material, which is a practical problem, before the completion of sheet feeding.

The width dimension of the cleaning sheet 8 is A
It is also possible to distinguish the cleaning sheet 8 from other transfer materials by making it larger than the width size of three sizes and automatically execute a series of operations at the same time when the cleaning sheet 8 is set in the manual paper feeding section. is there.

[0051]

As described above, according to the cleaning method of the fixing rotary member of the present invention, the toner adhering to the rotary member during the passage of the cleaning sheet through the nip portion is better than that at the time of fixing. By heating, the toner is easily separated from the rotating body, so that a large amount of toner is collected in the cleaning layer of the cleaning sheet, and the cleaning effect of the cleaning sheet can be further improved.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing a heat roller type fixing device in which a cleaning method for a fixing rotary member of the present invention is used.

FIG. 2 is a diagram showing a temporal change in the surface temperature of the heating roller controlled when cleaning the heating roller of the fixing device of FIG. 1 with a cleaning sheet.

FIG. 3 is a plan view showing an example of a cleaning sheet used in the cleaning method for the fixing rotary member of the present invention.

FIG. 4 is a plan view showing another example of the cleaning sheet used in the cleaning method for the fixing rotary member of the present invention.

[Explanation of symbols]

 1 Heating Roller 2 Pressure Roller 3 Halogen Heater 4 Thermistor 5 Safety Device 6,8 Cleaning Sheet 7 Cleaning Layer 9 Sheet Base Material 10 Adhesive Layer 11 Antistatic Layer

Claims (2)

[Claims] 1. An unfixed developer image on a transfer material is heated and pressed at a nip portion of a pair of fixing rotators whose surface temperatures are controlled, so that the unfixed developer image is transferred onto the transfer material. A method for cleaning a fixing rotator, which is used in a fixing device for fixing, and cleans the surface of at least one of the above-mentioned rotators with a cleaning sheet having a cleaning layer exhibiting adhesiveness on at least one surface. 3. The method for cleaning a fixing rotator, wherein the surface temperature of the rotator is maintained at a cleaning temperature higher than the fixing temperature for the transfer material when the cleaning sheet passes through the nip portion. 2. The method of cleaning a fixing rotator according to claim 1, wherein the fixing rotator is repeatedly rotated and stopped while the cleaning sheet is passing through the nip portion of the fixing rotator.