JPS63300272A - Heat fixing device equipped with cleaning device - Google Patents

Abstract

PURPOSE:To remove toner sticking on a heat fixing roller at all times by making the separation performance of a small-diameter cleaning roller larger than that of a large-diameter cleaning roller, and making both rollers different in hardness. CONSTITUTION:A heat fixing device consists of a heat fixing roller 1 which rotates associatively with a driving source, the small-diameter cleaning roller 3 which is driven by abutting on the roller 1, and the large-diameter cleaning roller 4 which is driven by abutting on the roller 3. Then the respective rollers differ in hardness alternately and the releasing performance of the roller 3 is made larger than that of the roller 4. Namely, the rollers are arranged in the releasing performance relation of roller 1 >= roller 3 > roller 4 and in low-high-low hardness order. Consequently, the toner sticking on the roller 1 is transferred to the roller 3 by surface temperature differences, differences in releasing performance, and differences in hardness among the rollers, and further transferred to the roller 4, where the toner is held and accumulated.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application 1 The present invention relates to a heat fixing device having a cleaning device.

[Prior Art] A conventional heat fixing device with a cleaning device includes a heat fixing roller for fixing toner images on copy paper by heating and applying pressure, a pressure fixing roller, and a heat fixing roller or pressure fixing roller. It consists of a coating roller that comes into contact with one side of the fixing roller and applies a release agent such as silicone oil to prevent offset.

[Problems to be Solved by the Invention] In the conventional heat fixing device with a cleaning device, a release agent such as silifoil is applied to either the heat fixing roller or the pressure fixing roller. When the copy paper is passed between the two, the copy paper may be stained by the release agent.

An object of the present invention is to prevent offset from occurring without applying a release agent such as silicone oil to either the heat fixing roller or the pressure fixing roller in a heat fixing device.

[Means for Solving the Problems] A heat fixing device having a cleaning device of the present invention includes a heat fixing roller, a small diameter cleaning roller that comes into contact with the heat fixing roller, and a large diameter cleaning roller that comes into contact with the small diameter cleaning roller. The hardness of each roller is such that if one of the rollers in contact has a high hardness, the other roller has a low hardness,
Further, the small-diameter cleaning roller has a mold releasability greater than that of the surface portion of the large-diameter cleaning roller.

[Function of the Invention] Each surface of the heat fixing roller, small diameter cleaning roller, and large diameter cleaning roller of the present invention has an I! ! An appropriate nip width is formed to cause rubbing. Furthermore, due to the temperature difference between the heating fixing roller and the small-diameter cleaning roller, the small-diameter cleaning roller has a strong adhesive effect on the toner. Therefore, the toner adhering to the heat-fixing roller is transferred to the small-diameter leaning roller whose surface temperature is low. Further, this transferred toner is retained and accumulated on the large diameter cleaning roller due to the difference in releasability between the surface portion of the small diameter cleaning roller and the surface portion of the large diameter cleaning roller, and the difference in hardness between the two.

Therefore, the surface of the heat fixing roller is always kept free of toner stains. Further, since the toner transferred from the heat fixing roller is not accumulated on the surface of the small diameter cleaning roller, the small diameter cleaning roller is always maintained in a state where it can remove the toner adhering to the heat fixing roller.

[Embodiments] First Embodiment A first embodiment of a thermal fixing device having a cleaning device of the present invention will be described with reference to FIG. 1, which shows a partial cross section.

The heat fixing device having a cleaning device includes a heat fixing roller 1 that rotates in conjunction with a drive source (not shown), a small diameter cleaning roller 3 that comes into contact with the heat fixing roller 1 and is driven by the heat fixing roller 1.
It consists of a large-diameter cleaning roller 4 that contacts and follows a small-diameter cleaning roller 3.

In addition, the heating fixing roller 1 and the small diameter cleaning roller 3
The releasability of the material (described later) of the surface portions 12, 31, and 42 forming the surface of each roller of the large-diameter cleaning roller 4 is determined in the following order: heat fixing roller 1≧small-diameter cleaning roller 3>large-diameter cleaning roller 4. It's different. Therefore, the arrangement of the rollers by hardness is in the order of low hardness, high hardness, and low hardness. It should be noted that high hardness refers to rubber hardness of 90Hs-JISA or higher, measured by spring hardness H8-JIS△ based on LIIS spring type hardness test*m. Hereinafter referred to as rubber hardness. ), and low hardness means a rubber hardness of 80H.
s-J ISA or below.

The heat fixing roller 1 is used in combination with a pressure fixing roller 2 that applies pressure from the back side of the copy paper 7 on which the toner image 6 is formed. The heating fixing roller 1 fixes the toner image 6.
The toner image 6 is fixed onto the copy paper 7 by heating and applying pressure.

Further, the heat fixing roller 1 has a core bar 10 made of cylindrical aluminum.
A low hardness layer 111 made of foamed silicone rubber covers the outer circumferential surface of the core bar 10, and a surface portion 12 made of a Teflon tube covers the outer circumferential surface of the low hardness layer 11.

Further, the heating fixing roller 1 has a built-in heater 14 in the hollow portion 110 of the core metal 10 in order to heat the surface thereof. Further, a thermistor 15 for controlling the amount of heat generated by the heater 14 is arranged so as to be in constant contact with the surface of the heat fixing row 51.

This thermistor 15 controls the current υj111 to the heater according to the surface temperature of the heating and fixing roller 1, and maintains a predetermined fixing temperature (
(usually within the range of 150°C to 220°C).

The pressure fixing roller 2 includes a cylindrical aluminum core 20,
It is formed of a rubber 1ii21 made of foamed silicone rubber that covers the outer peripheral surface of the core bar 20.

Further, a carry-in conveyor device 8 that feeds the copy M7 to the copy paper 7 receiving side between the heat fixing roller 1 and the fixing roller 2 is provided.
0 and a carry-in guide 81 are provided. Furthermore, a separating claw 82 is provided for separating the copy M7 with the toner image 6 fixed onto the copy paper 7 delivery side of the heat fixing roller 1 and the pressure fixing roller 2 from the heat fixing roller 1, and A delivery guide 83, 84 and delivery rollers 85, 86 for guiding the copy paper 7 in the delivery direction are provided.

The small diameter cleaning roller 3 has a cylindrical aluminum core 3
0 and a surface portion 31 made of a Teflon coating layer covering the outer peripheral surface of the core metal 30.

The large-diameter cleaning roller 4 includes a cylindrical aluminum core 40, a low hardness layer 41 made of foamed silicone rubber that covers the outer peripheral surface of the core 40, and a pulp layer that covers the outer peripheral surface of the low hardness layer 41. It is formed with a surface portion 42 consisting of. Further, the surface portion 42 of the large-diameter cleaning roller 4 is formed of a valve layer having a lower mold release property than the Teflon coating layer forming the surface portion 31 of the small-diameter cleaning roller 3.

Therefore, the heat fixing device having the cleaning device of the first embodiment has a heat fixing roller 1, a small diameter cleaning roller 3,
The releasability of the surface portions 12, 31, and 42 forming the surfaces of the large-diameter cleaning roller 4 is as follows: heat-fixing roller 1≧small-diameter cleaning roller 3>large-diameter cleaning roller 4. Further, the rollers are arranged in the order of low hardness, high hardness, and low hardness. Furthermore, the relationship between the surface temperatures is such that heat from the heating fixing roller 1 equipped with the heater 14 is transmitted to the small diameter cleaning roller 3 and from the small diameter cleaning roller 3 to the large diameter cleaning roller 4. Cleaning roller 3> becomes second large-diameter cleaning roller 4.

When a heat fixing device having a cleaning device having such a structure is used, the adhesion force of the surface portion 12, 31, 42 of each roller to the 1-ner varies depending on the surface temperature.

Furthermore, the difference in surface temperature between each roller is greatest between the heating fixing roller 1 and the small diameter cleaning roller 3, and the heating fixing roller 1 and the small diameter cleaning roller 3 have strong adhesion to the small diameter cleaning roller 3, which has a lower surface temperature. action occurs. Therefore, the toner adhering to the surface of the heat fixing roller 1 is transferred to the small diameter cleaning roller 3 whose surface temperature is lower than that of the heat fixing roller 1. In this case, the heat fixing roller 1 has a lower hardness than the small diameter cleaning roller 3, as described above. Therefore, both surface portions 12.31 maintain a constant nip width due to the difference in hardness. Since the small-diameter cleaning roller 3 rotates in a driven manner with respect to the heat-fixing roller 1, it generates slippage and acts to scrape off toner adhering to the heat-fixing roller 1 due to nip friction. The toner adhering to the surface portion 12 of the heat fixing roller 1 in this manner is transferred to the surface portion 31 of the small diameter cleaning roller 3 due to the adhesion effect due to the temperature difference between the rollers 1 and 3 and the friction due to the hardness difference. After that, 1-i'- of the surface portion 31 of the small-diameter cleaning roller 3 is determined by the difference in releasability between the surface portion 31 of the small-diameter cleaning roller 3 and the surface portion 42 of the large-diameter cleaning roller 4 and the surface portion 31. Due to the difference in hardness of 42 rf, 'm, the particles are transferred from the small-diameter cleaning roller 3 to the large-diameter cleaning roller 4. Further, the transferred removed toner is reliably held on the large-diameter cleaning roller 4 whose mold releasability is lower than that of the small-diameter cleaning roller 3, and is accumulated on the large-diameter cleaning roller 4.

Therefore, the removed toner once held and accumulated on the large-diameter cleaning roller 4 is not reversely transferred from the large-diameter cleaning roller 4 side to the small-diameter cleaning 3 side.

(Experiment example) An experimental example of the first embodiment of the present invention will be explained below.

As experimental conditions, the diameter of the heating fixing roller 1 was set to 971 m, the diameter of the pressure fixing roller 2 was set to 80 m, the diameter of the small diameter cleaning roller 3 was set to 501 m, and the diameter of the large diameter cleaning roller 4 was set to 90111 m. Also, U of the heat fixing roller 1
11 degrees is a low rubber hardness of 80 or less, the hardness of the small diameter cleaning roller 3 is set to a high rubber hardness of 90 or more, and the hardness of the large diameter cleaning roller 4 is set to a low rubber hardness of 80 or less. Note that the nip width formed between the heat fixing roller 1 and the small diameter cleaning roller 3 is approximately 4 m.
The nip width formed between the m0 small-diameter cleaning roller 3 and the large-diameter cleaning roller 4 is approximately 3 mm.

(Experimental Results) Under the above conditions, when 100,000 sheets of copy paper 7 of size △3 were copied and fixed at a speed of 60 sheets/minute, the results were as follows: Image noise and copy paper 7 passing through the pressure fixing roller 2
No offset to the WM surface occurred, and furthermore, there was no toner adhesion to the surface portion 31 of the small diameter cleaning roller 3.

(Second Embodiment) Next, a second embodiment of a heat fixing device having a cleaning device of the present invention will be described with reference to FIG.

A heat fixing device having a cleaning device according to a second embodiment shown in FIG. 2 includes a heat fixing roller 1a that rotates in conjunction with a drive source (not shown), and a small diameter cleaning roller 3a that contacts and follows the heat fixing roller 1a. , and a large-diameter cleaning roller 4a that contacts and follows the small-diameter cleaning roller 3a. Further, the heating fixing roller 1a, the small diameter cleaning roller 53a, and the large diameter cleaning roller 4
Each surface portion 11a132a forming each roller surface of a1
, 41a, the releasability of the material of heating fixing roller 1a≧small diameter cleaning roller 3a>large diameter cleaning roller 4a
The order is different. Furthermore, the heat fixing roller 1a has a high hardness, the small diameter cleaning roller 3a has a low hardness, and the large diameter cleaning roller 4a has a high hardness. Therefore, the arrangement of each roller by hardness is reverse to that of the first embodiment.
Ranked by low hardness and high hardness.

The heat fixing roller 1a has a core metal 10 made of cylindrical aluminum.
8, and a surface portion 11a made of polytetrafluoroethylene 641 which covers the outer peripheral surface of the core metal 10a.

Further, since the heating fixing roller 1a heats its surface,
A heater 14 is built in a hollow portion 110a of the core metal 10a. Further, a thermistor 15 for controlling the heat generating unit of the heater 14 is arranged so as to be in constant contact with the surface of the heat fixing roller 1. This thermistor 15 controls the current to the heater υ11 according to the surface temperature of the heating fixing roller 1.
11, and a predetermined fixing temperature (usually within the range of 150°C to 220°C).

The pressure fixing roller 2a has a cylindrical aluminum core 20.
a, and a rubber layer 21a made of silicone rubber that covers the outer peripheral surface of the core bar 20a.

The small diameter cleaning roller 3a includes a cylindrical aluminum core 30a, a low hardness layer 31a made of foamed silicone rubber covering the outer peripheral surface of the core 30a, and a low hardness layer 31a made of foamed silicone rubber.
It is formed of a surface portion 32a made of a tube of polytetrafluoroethylene resin that covers the outer peripheral surface of 1a. The surface portion 32a is formed of a polytetrafluoroethylene resin tube having the same releasability as the surface portion 11a of the heat fixing roller 1a.

The large-diameter cleaning roller 4a is formed of a cylindrical aluminum core 40a and a surface portion 41a made of a pulp layer covering the outer peripheral surface of the core 40a. In addition, this surface portion 42a is formed of a valve layer having lower mold releasability than polytetrafluoroethylene forming the surface portion 32a of the first small-diameter cleaning roller 3a.

The operation of the second embodiment configured as described above is the same as that of the first embodiment, so the explanation thereof will be omitted.

(Third Embodiment) Next, a third embodiment of a heat fixing device having a cleaning device of the present invention will be described with reference to FIG.

A heat fixing device having a cleaning device according to a third embodiment shown in FIG. 3 includes a heat fixing roller 1a that rotates in conjunction with a drive source (not shown), and a first small-diameter cleaning roller that contacts and follows the heat fixing roller 1a. 3b, a first large-diameter cleaning roller 4b that contacts and follows the first small-diameter cleaning roller 3b, a second small-diameter cleaning roller 3C that contacts and follows the first large-diameter cleaning roller 4b, and a second small-diameter cleaning roller 3C that contacts and follows the first large-diameter cleaning roller 4b.
It is composed of a second large-diameter cleaning roller 4C that contacts and follows the small-diameter cleaning roller 3C. or,
The heating fixing roller 1a, the first small-diameter cleaning roller 3b, the first large-diameter cleaning roller 4b, the second small-diameter cleaning roller 3c, and the second large-diameter cleaning roller 4C
Each surface portion 11a, 32b, 4 forming the surface of each roller of
1b, 32C141C material has heat-fixed O-
La 1a≧First small diameter cleaning roller 3b>First large diameter cleaning roller 4b>Second small diameter cleaning roller 3
The order is c<second large-diameter cleaning roller 4C. Furthermore, the heat fixing roller 1a has a high hardness, the first small diameter cleaning roller 3b has a low hardness, the first large diameter cleaning roller 4b has a high hardness, the second small diameter cleaning roller 3C has a low hardness, and the second large diameter cleaning roller 4C has a high hardness. has high hardness. Therefore, the arrangement of the rollers by hardness is in the order of high hardness, low hardness, high hardness, and low hardness.

The first small-diameter cleaning roller 3b includes a cylindrical aluminum core 30b, a low-hardness layer 1li31b made of foamed silicone rubber that covers the outer circumferential surface of the cored metal 30b, and a volite layer 1-1 that covers the outer circumferential surface of the low-hardness layer 31b. The surface portion 32b is made of a tube of lafluoroethylene resin. Moreover, this surface portion 32b is connected to the heating fixing roller 1.
It is formed of a polytetrafluoroethylene resin tube having the same releasability as the surface portion 11b of b.

The first large-diameter cleaning roller 4b is formed of a cylindrical aluminum core 40b and a surface portion 41b made of a valve layer that covers the outer peripheral surface of the core 40b. In addition, this surface portion 41b is formed of a valve layer having lower mold releasability than polytetrafluoroethylene forming the surface portion 32b of the first small-diameter cleaning roller 3b.

The second small-diameter cleaning roller 3C is made of a cylindrical aluminum core 30c and a foamed silicone rubber covering the outer peripheral surface of the core 30G. 31C, and a surface portion 32c that covers the outer peripheral surface of this low hardness) 131c. In addition, this surface portion 32C is made of a material that has lower mold releasability than the first large-diameter cleaning roller 4b and the second large-diameter cleaning roller 4C described in the diagram, and has a toner retention ability, such as a resin of the same type as the toner (polyester or
(styrene acrylic, etc.). In this way, the second
The small-diameter cleaning roller 3C has an increased adhesion force to the toner, and the surface portion 4 of the first large-diameter cleaning roller 4b is
It can have the force to peel off the toner attached to 1b.

The second large-diameter cleaning roller 4C is formed of a cylindrical aluminum core metal 40c and a surface portion 41C made of a valve layer that covers the outer peripheral surface of the core metal 400. Note that this second large-diameter cleaning roller 4C has the same configuration as the first large-diameter cleaning roller 4b.

As described above, in the case of the third embodiment, in addition to the structure of the second embodiment, the number of cleaning rollers used is further increased. For this reason, a second small diameter cleaning roller 3C and a second large diameter cleaning roller 4C are added. Also, the temperature gradient is as follows: heating fixing roller 1a > first small diameter cleaning roller 3b
The relationship is:>first large diameter cleaning roller 4b>second small diameter cleaning roller 3c>second large diameter cleaning roller 4C.

The operation of the heat fixing device having the cleaning device of the second embodiment configured as described above will be described below.

In the third embodiment, the toner adhering to the heat fixing roller 1a is transferred to the first small-diameter cleaning roller 3b and removed in the same manner as in the first and second embodiments. The removed toner □- transferred to the first small-diameter cleaning roller 3b is further transferred to the first large-diameter cleaning roller 4b. In this case, before a large amount of toner is accumulated on the first large-diameter cleaning roller 4, the toner on the first large-diameter cleaning roller 4b is transferred to the second small-diameter cleaning roller 3C by the adhesive action of the second small-diameter cleaning roller 3C. After that, the particles are further transferred from the second small-diameter cleaning roller 3C to the second large-diameter cleaning roller 4c and accumulated.

In this way, in the case of the third embodiment, the heating fixing roller 1a
The toner removed by the first large-diameter cleaning roller 4
It is dispersed and accumulated at two locations: b and second large-diameter cleaning roller 4C. As a result, more toner can be stored than the toner storage 8Im in the first embodiment. Further, once each cleaning roller is combined with the heat fixing roller 1a, the cleaning effect of the heat fixing roller 1b can be exerted for a long period of time.

Furthermore, too much toner accumulated on the first large-diameter cleaning roller 4b can be prevented from falling, and conversely, it can be prevented from being reversely transferred to the first small-diameter cleaning roller 31b.

(Fourth Embodiment) Furthermore, in the structure shown in the above-mentioned embodiment, the combinations shown in Table 1 are possible as materials that can be used for the surface portion of the heating fixing roller and the surface portion of the small diameter cleaning roller that comes into contact with the surface portion. It is. In this case, the releasability of the surface portion of each roller differs in the order of small diameter cleaning roller≧heat fixing roller>large diameter cleaning roller. Therefore, the difference in release properties between the small-diameter cleaning roller and the large-diameter cleaning roller can be increased, so the removed toner transferred to the small-diameter cleaning roller is more reliably held by the large-diameter cleaning roller, and is once retained and accumulated. This prevents the removed toner from being reversely transferred to the small-diameter cleaning roller side. In addition, although the heated fixing roller has lower mold releasability, due to the degree difference in Table 1, a stronger adhesive action occurs on the small-diameter cleaning roller side, so the toner adhering to the surface of the heating roller will reliably reach the small-diameter cleaning roller. metastasize. Furthermore, in this case, there is a wide temperature range in which the low-temperature offset of the high-frequency off-cellar 1-1 does not occur, and offset due to roller charging does not occur.

In addition, each of the above fruits 1i! In example i, the toner scraping effect due to the friction of the nip of each cleaning roller that is driven by the heat fixing roller is reduced by 1% due to the rotational slip that naturally occurs due to the rotational resistance during the driven rotation of each cleaning roller.
'%reru.

Here, various braking actions may be applied to each cleaning roller so that the rotational slip can be effectively generated in advance.

For example, in order to slightly reduce the driven rotational force of each cleaning roller, it is conceivable to change the bearing of the rotating shaft to one with greater rotational resistance than usual.

Alternatively, the weight of the entire roller may be increased by increasing the thickness of the roller core metal.

[Effects of the Invention] According to the heat fixing device having the cleaning device of the present invention,
Toner scraping occurs due to the adhesion effect due to the difference in surface temperature between the heating fixing roller and the small-diameter cleaning roller, and between the small-diameter cleaning roller and the large-diameter cleaning roller, and the friction of the nip formed by the difference in releasability and the difference in hardness. Toner that has adhered to the surface of the heat fixing roller due to handling or the like can be removed by being transferred to a small diameter cleaning roller. The removed toner transferred to the small diameter cleaning roller is further transferred to the large diameter cleaning roller, and the removed toner can be held and accumulated by the large diameter cleaning roller.

Therefore, toner adhering to the surface of the heat fixing roller can be removed, and the surface of the heat fixing roller is always kept clean for a long period of time. This prevents offset caused by toner adhering to the surface of the heated constant load roller. Further, during warming up prior to use of the heat fixing device, toner remelting does not occur between the heat fixing roller and the small diameter cleaning roller. Further, no offset occurs even when the thermal constant table device is started after warming up.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing a first embodiment of the invention, and FIG. 2 is a sectional view showing a second embodiment of the invention. FIG. 3 is a sectional view showing a third embodiment of the present invention. 1.1a... Heat fixing roller 2.2a... Pressure fixing roller

Claims (1)

[Claims] (1) A heating fixing roller, a small-diameter cleaning roller that comes into contact with the heating fixing roller, and a large-diameter cleaning roller that comes into contact with the small-diameter cleaning roller. 1. A thermal fixing device having a cleaning device, wherein the other contacting roller has a low hardness, and the small-diameter cleaning roller has a greater mold releasability than the surface portion of the large-diameter cleaning roller.