JP2002031974A - Image forming device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming device constituted so that the heating of a heating roller can be performed with high energy efficiency. SOLUTION: In this image forming device having a fixing device equipped with the heating roller having a heating source inside, the heating element of the heating source is constituted of a carbon heater lamp consisting of carbon material, and a roller body constituting the heating roller is made of infrared ray absorbing material having high absorption characteristic to an infrared ray (hereinafter referred to as 'specified infrared ray') radiated from the carbon heater lamp. The roller body is constituted by forming an infrared ray absorbing layer having the high absorption characteristic to the specified infrared ray on the inner peripheral surface of base substance, or it is constituted by forming the infrared ray absorbing layer having the high absorption characteristic to the specified infrared ray on the outer peripheral surface of the base substance having high transmittance to the specified infrared ray.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to an image forming apparatus having a fixing device provided with a heating roller having a heating source therein.

[0002]

2. Description of the Related Art Generally, in an image forming apparatus of an electrophotographic type, a heating roller and a heating roller arranged to be pressed against the heating roller in order to fix an unfixed toner image on a recording material such as transfer paper. A fixing device including a pressure roller is widely used.

A heating roller in such a fixing device is generally composed of a metal base made of, for example, aluminum and a coating layer formed on the surface of the metal base, made of, for example, silicone rubber or fluororesin. In addition, a heater lamp including a halogen lamp (hereinafter, referred to as “halogen heater lamp”) is provided as a heating source inside.

In such a fixing device, the temperature of the heating roller is maintained in a predetermined temperature range required for fixing (hereinafter, referred to as a "set temperature range"), and the warm-up time is shortened. In addition, a halogen heater lamp having a high heat output is used. In a certain type of fixing device, a heating source is constituted by a plurality of halogen heater lamps. The lighting state of the halogen heater lamp is controlled on and off by appropriate control means to control the temperature of the heating roller.

However, in the fixing device described above, when the halogen heater lamp is turned on, a considerably large rush current flows at the same time as the start of energization, and a large voltage fluctuation occurs in the lighting circuit. There is a problem that flickering ("flicker" felt by humans) occurs in lighting devices and the like connected to a common power supply system.

[0006]

DISCLOSURE OF THE INVENTION The present invention has been made based on the above circumstances, and its object is to provide:
An object of the present invention is to provide an image forming apparatus capable of heating a heating roller with high energy efficiency.

[0007]

According to the present invention, there is provided an image forming apparatus having a fixing device provided with a heating roller having a heating source therein, wherein the heating source comprises a carbon material having a heating element made of a carbon material. Consisting of heater lamps,
The roller body constituting the heating roller is made of an infrared absorbing material having high absorption characteristics for infrared rays emitted from the carbon heater lamp.

The image forming apparatus according to the present invention is an image forming apparatus having a fixing device provided with a heating roller having a heating source therein, wherein the heating source comprises a carbon heater lamp having a heating element made of a carbon material. The roller body constituting the heating roller is characterized by comprising a base and an infrared absorbing layer formed on the inner peripheral surface of the base and having high absorption characteristics for infrared rays emitted from the carbon heater lamp. I do.

The image forming apparatus according to the present invention is an image forming apparatus having a fixing device provided with a heating roller having a heating source therein, wherein the heating source comprises a carbon heater lamp having a heating element made of a carbon material. The roller main body constituting the heating roller has a base having high transparency to infrared rays radiated from the carbon heater lamp, and a base formed on an outer peripheral surface of the base, with respect to infrared rays radiated from the carbon heater lamp. And an infrared absorbing layer having high absorption characteristics.

In the above-described image forming apparatus, it is preferable that the heating element of the carbon heater lamp constituting the heating source has at least one flat heat radiation surface and its direction is regulated. .

[0011]

According to the image forming apparatus of the present invention, since the heating source of the heating roller in the fixing device is constituted by a carbon heater lamp whose heating element is made of a carbon material, for example, a halogen heater lamp having the same power consumption is used. Since a sufficiently large heat-generating effect is exhibited as compared with the case of (1), heating of the heating roller can be performed with high energy efficiency.

The roller body constituting the heating roller in the fixing device is formed of an infrared absorbing material having a high absorption characteristic for infrared rays (hereinafter, also referred to as "specific infrared rays") emitted from the carbon heater lamp. As a result, most of the specific infrared rays are absorbed by the roller body, so that a sufficiently high utilization factor for the specific infrared rays is obtained, and the temperature of the roller body is rapidly increased, so that the temperature control of the heating roller is performed. Can be done quickly. As a result, for example, the time required for raising the heating roller to the set temperature range, that is, the warm-up time is shortened, and a state in which the fixing process can be performed in a short time can be obtained, and the heat is consumed for heating. Heat energy can be reduced. Further, for example, even if the temperature of the heating roller decreases due to the recording material passing through the fixing region, the temperature of the roller body is rapidly increased, so that the degree of the temperature decrease is small, and stable temperature control can be performed. it can.

[0013] A roller body constituting a heating roller in the fixing device comprises a base having high thermal conductivity, and an infrared absorbing layer formed on the inner peripheral surface of the base and having high absorption characteristics for specific infrared rays. In this case, the specific infrared ray is absorbed by the infrared ray absorbing layer with high absorption efficiency, so that the heating roller can be quickly heated.

A roller body constituting a heating roller in the fixing device has a base having high transparency to a specific infrared ray and a high absorption characteristic for a specific infrared ray formed on an outer peripheral surface of the base. In the case where the infrared absorbing layer is constituted by the infrared absorbing layer, a specific infrared ray passes through the substrate and is absorbed by the infrared absorbing layer. Heated. In addition, since the infrared absorbing layer is disposed at a position near the surface of the heating roller, heat can be quickly transmitted to the surface of the heating roller. as a result,
The heating roller is quickly heated, and the amount of heat energy required for heating is reduced.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings. FIG. 1 is an explanatory view showing an example of a main part of the configuration of the image forming apparatus of the present invention, and FIG. 2 is a sectional view for explaining an example of the configuration of a fixing device in the image forming apparatus of FIG. The image forming apparatus includes a drum-shaped photoreceptor 11 on which an electrostatic image is formed, a charging unit 12 for charging the photoreceptor 11, and a toner image formed by visualizing the electrostatic image formed on the photoreceptor 11. A developing unit 13 for forming an image; a transfer unit 14 for transferring the toner image formed on the photoconductor 11 onto a recording material 29; a separating unit 15 for separating the recording material 29 in close contact with the photoconductor 11; And a fixing device 20 for fixing the unfixed toner image transferred to the surface of the fixing device.
In FIG. 1, reference numeral 17 denotes a transport mechanism, and reference numeral 18 denotes a cleaning unit.

The fixing device 20 has a surface on which the unfixed toner image of the recording material 29 is carried (in the drawing, for example, the recording material 29).
And a pressure roller 26 provided so as to be pressed against the heat roller 21, and a fixing area (nip portion) formed by the heat roller 21 and the pressure roller 26. 28 are formed.

The heating roller 21 is provided with a recording material 29 to be conveyed.
And a release layer 23 made of, for example, fluororesin, formed on the outer peripheral surface of the roller body 22.

Inside the heating roller 21, a carbon heater lamp 30 is arranged as a heating source so as to extend in the longitudinal direction of the heating roller 21, and the temperature of the outer peripheral surface of the heating roller 21 to be directly heated is controlled. The lighting state is turned on / off by control means (not shown) so as to maintain the temperature in the set temperature range.

The carbon heater lamp 30 has an elongated strip-shaped heating element 31 extending along the tube axis in a straight tubular enclosure made of, for example, quartz glass. Are held by a power supply section (not shown) provided at each of both ends of the sealing body to form a power supply structure and are hermetically sealed. Then, for example, argon gas is sealed in the sealed body.

The carbon heater lamp 30, for example, as shown by a curve A in FIG. 3, has a higher radiation intensity in a longer wavelength range than the radiation intensity characteristic of a halogen heater lamp (curve B) having the same power consumption. As can be understood from the fact that it has a radiation intensity characteristic having a peak and the entire waveform transitions in the direction of a long wavelength region, a heat ray in a long wavelength region having a large exothermic effect is radiated with a high radiation intensity.

The heating element 31 of the carbon heater lamp 30 of the fixing device 20 is, for example, a flat plate having two flat heat radiation surfaces 31A and 31B. As shown in FIG. 31, a heat radiation surface 31A,
31B has a high heat generation intensity in the front direction at the center in the width direction, that is, in the vertical direction (the vertical direction in FIG. 4) at the center in the width direction. In FIG. 4, reference numeral 33 denotes an isothermal heat intensity line.

Then, one heat radiation surface 31 of the heating element 31
B faces the heating roller 2 with respect to the conveyance path of the recording material 29.
1, the carbon heater lamp 30 is tilted so as to face the position upstream of the fixing region 28 in the heating roller 2.
1.

The roller body 22 of the heating roller 21 is
The whole is infrared radiation emitted from the carbon heater lamp 30.
Infrared absorbing material with high absorption characteristics for radiation
It is configured. Here, the infrared absorbing material is, for example, a wave
Absorption rate for infrared rays having a length of 2 to 5 μm is 90% or more
Are preferred. As such infrared absorbing material
Is, for example, PTFE (polytetrafluoroethylene)
Heat resistance of silicone resin, polyamide resin, etc.
Disperse black pigment such as carbon black in resin
Or SLMA (Sr_0.8La _0.2MnAl
₁₁O₁₉), LSM (La_0.7Sr_0.3MnO_Three)
It is obtained by molding and firing a powder material of an inorganic compound.
Can be used.

Examples of the fluororesin forming the release layer 23 include PTFE (polytetrafluoroethylene) and PFA (tetrafluoroethylene-perfluoroalkylvinyl ether copolymer).

The pressure roller 26 is formed by forming a coating layer 261 made of an elastic material on the surface of a metal core 262. The elastic body constituting the coating layer 261 is not particularly limited, but includes various soft rubbers such as urethane rubber and silicone rubber and sponge rubber, and has good heat resistance such as LTV, RTV and HTV. It is preferable to use a suitable silicone rubber and silicone sponge rubber. The material constituting the metal core 262 is not particularly limited, and examples thereof include metals such as aluminum, iron, and copper or alloys thereof.

The above-described image forming apparatus operates as follows. That is, when the power switch is turned on, the carbon heater lamp 30 is turned on by the heater lamp lighting control circuit (not shown), and the heating of the heating roller 21 is started. Most of the infrared radiation emitted from the carbon heater lamp 30 is made of a roller body 22 made of an infrared absorbing material having a high absorption characteristic with respect to the infrared radiation.
As a result, the temperature of the heating roller 21 is rapidly raised to reach the set temperature range, and the fixing process of the toner image carried on the recording material 29 conveyed is performed.

According to the above-described image forming apparatus, by using the carbon heater lamp 30 as a heating source of the heating roller 21 in the fixing device 20, for example, compared with a halogen heater lamp having the same power consumption, Since a sufficiently large heating effect is exhibited, the heating roller 21 can be heated with high energy efficiency. As described above, the carbon heater lamp has a radiation intensity characteristic having a radiation intensity peak in a wavelength region longer than that of the halogen heater lamp, and has a longer wavelength region in which the heating roller 21 and the recording material 29 have a larger heat generating action. Is emitted with high radiation intensity. Furthermore, according to the carbon heater lamp, since the resistance value of the heating element 31 at a low temperature is large,
As a result of the inrush current accompanying the lighting of the carbon heater lamp being zero or extremely small, no large voltage fluctuation occurs, and flicker can be reduced as compared with the case where a halogen heater lamp is used.

Further, by regulating the directions of the heat radiation surfaces 31A, 31B of the heating element 31 of the carbon heater lamp 30, which exhibit high directivity in the heat intensity distribution,
Heating of a required local position in the heating roller 21 can be performed with high efficiency, so that the intended fixing can be reliably performed. In particular, since the carbon heater lamp 30 is held so that the front surface of the one heat radiation surface 31B of the heating element 31 faces the position upstream of the fixing region of the heating roller, the heating is concentrated immediately before the fixing region 23. Since the determined upstream position immediately reaches the fixing region 23, it is easy to always maintain the temperature of the fixing region 23 within the set temperature region, and the fixing process can be performed with higher efficiency.

The heating roller 2 in the fixing device 20
1 is formed of an infrared-absorbing material having a high absorption characteristic for a specific infrared ray, most of the specific infrared ray is absorbed by the roller main body 22. As a result, a sufficiently high utilization factor can be obtained, and the temperature of the roller body 22 can be rapidly increased, so that the temperature control of the heating roller 21 can be performed quickly. As a result, for example, the time required for raising the heating roller 21 to the set temperature range, that is, the warm-up time is shortened, and a state in which the fixing process can be performed in a short time can be obtained, and the heat consumption can be reduced. The amount of heat energy to be performed can be reduced. Further, for example, even if the temperature of the heating roller 21 decreases due to the recording material 29 passing through the fixing region 28, the temperature of the heating roller 21 is rapidly increased. And stable temperature control can be performed.

FIG. 5 is an explanatory sectional view showing another example of the configuration of the fixing device in the image forming apparatus of the present invention. The heating roller 41 in the fixing device 40 includes a cylindrical roller body 42 extending in the width direction of the recording material 29 to be conveyed, and a release layer 43 made of, for example, a fluororesin formed on the outer peripheral surface of the roller body 42. The roller main body 42 includes a base 44 made of a material having high heat conductivity.
And an infrared absorbing layer 45 formed on the inner peripheral surface of the base body 44 and having high absorption characteristics for specific infrared rays. As a material constituting the base 44,
Although not particularly limited, for example, aluminum,
Examples thereof include metals such as iron and copper or alloys thereof.

The infrared absorbing layer 45 is made of, for example, PTFE
(Polytetrafluoroethylene), silicone resin,
An infrared-absorbing material in which a black pigment such as carbon black is dispersed in a heat-resistant resin such as a polyamide resin is applied to the inner peripheral surface of a cored bar, which is then baked, or SL
MA (Sr _0.8 La _0.2 MnAl ₁₁ O ₁₉ ), LSM (L
a _0.7 Sr _0.3 MnO ₃ ) or other paste-like inorganic compound applied to the inner peripheral surface of a cored bar and baked.
Alternatively, it is formed of a metal black body such as gold black obtained by vapor deposition in a low vacuum.

According to the above-described image forming apparatus, the roller body 42 constituting the heating roller 41 is provided on the inner peripheral surface of the base body 44 having high thermal conductivity to absorb infrared rays having high absorption characteristics for specific infrared rays. By forming the layer 45, specific infrared rays are absorbed by the infrared absorbing layer 45 with high absorption efficiency, and as a result, similarly to the image forming apparatus shown in FIG. Can be done with The infrared absorbing material layer 45
Is formed, the conditions for the material constituting the base body 44 are relaxed, so that the selection range is widened.

FIG. 6 is an explanatory sectional view showing still another example of the configuration of the fixing device in the image forming apparatus of the present invention. The heating roller 51 in the fixing device 50 includes a cylindrical roller body 52 extending in the width direction of the recording material 29 being conveyed.
And a release layer 53 made of, for example, a fluororesin formed on the outer peripheral surface of the roller main body 52. The roller main body 52 has a base 54 having high transparency to specific infrared rays, An infrared absorbing layer 55 having high absorption characteristics for specific infrared rays formed on the outer peripheral surface of the base 54. Examples of a material forming the base 54 include glass and translucent ceramics.

As the infrared absorbing material constituting the infrared absorbing layer 55, the above-mentioned materials can be used.

According to the above-described image forming apparatus, the roller main body 52 constituting the heating roller 51 is provided on the outer peripheral surface of the base 54 having a high transmittance for a specific infrared ray, with a high absorption characteristic for the specific infrared ray. The infrared ray absorbing layer 55 having
4 and is absorbed by the infrared absorption layer 55, so that the infrared absorption layer 55 can be heated with high efficiency without being substantially affected by the heat capacity of the base 54. In addition, since the infrared absorbing layer 55 is disposed at a position near the surface layer of the heating roller 51, heat is quickly transmitted to the surface layer of the heating roller 51. As a result, the heating roller can be quickly heated,
The amount of heat energy required for heating can be reduced.

Although the embodiment of the present invention has been described above, the present invention is not limited to the above embodiment.
Various changes such as the following can be made. (1) The number of carbon heater lamps provided as a heating source of the heating roller in the fixing device is not particularly limited, and a carbon heater lamp may be provided at a position close to the pressure roller. (2) As a heating source of the heating roller, a halogen heater lamp may be provided separately from the carbon heater lamp. (3) The shape of the heating element in the carbon heater lamp is
The shape is not limited to a flat plate, but may be various shapes. (4) The material forming the release layer in the heating roller is not particularly limited, and the release layer may not be formed.

[0037]

According to the image forming apparatus of the present invention, by using a carbon heater lamp as a heating source of a heating roller in a fixing device, a sufficiently large amount of heat is generated as compared with, for example, a halogen heater lamp having the same power consumption. Since the function is exhibited, the heating roller can be heated with high energy efficiency.

Further, since the roller body constituting the heating roller in the fixing device is made of an infrared absorbing material having a high absorption characteristic for a specific infrared ray, most of the specific infrared ray is absorbed by the roller body. As a result, a sufficiently high utilization factor with respect to specific infrared rays is obtained, and the temperature of the roller body can be rapidly increased. As a result, the temperature of the heating roller can be quickly controlled. Therefore, for example, the time required for raising the heating roller to the set temperature range, that is, the warm-up time is shortened, and a state in which the fixing process can be performed in a short time can be obtained, and the heat is consumed for heating. The amount of heat energy can be reduced. Further, even if the temperature of the heating roller is lowered by, for example, the recording material passing through the fixing area, the temperature of the heating roller is rapidly increased. And stable temperature control can be performed.

According to the image forming apparatus of the present invention, the roller body constituting the heating roller is provided with an infrared absorbing layer having high absorption characteristics for specific infrared rays on the inner peripheral surface of the base having high thermal conductivity. By being formed, specific infrared rays are absorbed by the infrared absorption layer with high absorption efficiency, and heating of the heating roller can be performed with high energy efficiency. Further, since the infrared absorbing material layer is formed, the conditions for the material constituting the base are relaxed, so that the range of choice is widened.

According to the image forming apparatus of the present invention, the roller body constituting the heating roller has a high absorption characteristic with respect to a specific infrared ray on an outer peripheral surface of a substrate having a high transmittance with respect to a specific infrared ray. Since the specific infrared ray is transmitted through the substrate and absorbed by the infrared absorbing layer by being formed with the infrared absorbing layer, the infrared absorbing layer is substantially unaffected by the heat capacity of the substrate and has a high infrared absorbing layer. It can be heated with efficiency. In addition, since the infrared absorbing layer is disposed at a position near the surface of the heating roller, heat can be quickly transmitted to the surface of the heating roller.
As a result, the heating roller can be quickly heated, and the amount of thermal energy required for heating can be reduced.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram illustrating an example of a main part of a configuration of an image forming apparatus of the present invention.

FIG. 2 is an explanatory cross-sectional view illustrating a configuration example of a fixing device.

FIG. 3 is a graph showing radiation intensity characteristics of a carbon heater lamp.

FIG. 4 is an explanatory diagram showing a heat generation intensity distribution of the carbon heater lamp in FIG. 2;

FIG. 5 is an explanatory cross-sectional view illustrating another configuration example of the fixing device.

FIG. 6 is an explanatory cross-sectional view showing still another configuration example of the fixing device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Drum-shaped photoreceptor 12 Charging part 13 Developing device 14 Transfer part 15 Separation part 17 Transport mechanism 18 Cleaning part 20 Fixing device 21 Heating roller 22 Roller body 23 Release layer 26 Pressure roller 261 Coating layer 262 Core metal 28 Fixing area ( Nip portion) 29 Recording material 30 Carbon heater lamp 31 Heating element 31A, 31B Heat radiation surface 33 Isoradiation intensity line 40, 50 Fixing device 41, 51 Heating roller 42, 52 Roller body 43, 53 Release layer 44, 54 Base 45 , 55 Infrared absorbing layer

 ──────────────────────────────────────────────────の Continued on the front page (72) Inventor Yuji Tamura 2970 Ishikawacho, Hachioji-shi, Tokyo Konica Corporation (72) Inventor Shinobu Kishi 2970 Ishikawacho, Hachioji-shi, Tokyo Konica Corporation (72) Inventor Uminami Soma 2970 Ishikawa-cho, Hachioji-shi, Tokyo Konica Corporation (72) Inventor Akira Matsubara 2970 Ishikawa-cho, Hachioji-shi, Tokyo Konica Corporation F-term (reference) 2H033 AA32 AA41 BA25 BB03 BB13 BB17 3K058 AA02 BA18 CE03 CE13 CE19 DA02 DA26 GA06 3K092 PP18 QA02 QA05 QB14 QB31 QC25 RA03 RC02 RD11 RD18 RF03 RF23 SS33 UB04 VV16

Claims (4)

[Claims] 1. An image forming apparatus having a fixing device provided with a heating roller having a heating source therein, wherein the heating source comprises a carbon heater lamp having a heating element made of a carbon material, and a roller constituting the heating roller. An image forming apparatus, wherein the main body is made of an infrared absorbing material having a high absorption characteristic for infrared rays emitted from the carbon heater lamp. 2. An image forming apparatus having a fixing device provided with a heating roller having a heating source therein, wherein the heating source comprises a carbon heater lamp having a heating element made of a carbon material, and a roller constituting the heating roller. An image forming apparatus comprising: a main body; and an infrared absorbing layer formed on an inner peripheral surface of the base and having high absorption characteristics for infrared rays emitted from the carbon heater lamp. 3. An image forming apparatus having a fixing device provided with a heating roller having a heating source therein, wherein the heating source comprises a carbon heater lamp having a heating element made of a carbon material, and a roller constituting the heating roller. The main body has a base having high transparency to infrared rays radiated from the carbon heater lamp, and a high absorption characteristic formed on an outer peripheral surface of the base and absorbing infrared rays radiated from the carbon heater lamp. An image forming apparatus comprising an infrared absorbing layer. 4. A carbon heater lamp constituting a heating source, wherein the heating element has at least one flat heat radiation surface, and its direction is regulated. The image forming apparatus according to claim 3.