This application is based on and claims the benefit of priority from Japanese Patent application No. 2017-121180 filed on Jun. 21, 2017, which is incorporated by reference in its entirety.
The present disclosure relates to a fixing device which fixes a toner image on a sheet and an image forming apparatus including the fixing device.
An electrophotographic type image forming apparatus, such as a copying machine and a printer, is provided with a fixing device which fixes a toner image transferred on a sheet on the sheet. The fixing device includes a fixing member to be heated and a pressing member being pressed against the fixing member to form a pressing area. By making the sheet pass through the pressing area, the toner image is heated and pressed and then fixed on the sheet.
The fixing member includes a thin tube and a coating layer provided around the thin tube. The thin tube is made of aluminum or iron, and the coating layer is made of PFA or PTFE. The coating layer eliminates an adhesion of the toner on the fixing member and charging of the fixing member. In order to prevent occurrence of wrinkle on the sheet, the fixing member may be formed in an inverted crown shape in which an outer diameter is smaller at the center portion than at the both end portions in a sheet width direction perpendicular to a sheet conveying direction. The fixing device further includes a separating claw which comes into contact with the fixing member with a predetermined pressure and separates the sheet from the fixing member. The separating claw is made of polyimide resin coated with PFA, for example.
In order to reduce energy consumption of the fixing device with recent energy saving, a low melting point toner and a fixing member having a low heat capacity are developed. As a specific method to make the fixing member have a low heat capacity, the fixing member is made to have a small diameter or a thin thickness. Additionally, as a heater for heating the fixing member, an inexpensive halogen heater is conventionally used. Corresponding to a high-speed image forming apparatus, a plural of heaters may be used. The plural of heaters include a main heater heating the center portion in the sheet with direction and a sub heater heating the both end portions in the sheet width direction. In view of fixing ability at continuous printing, a power consumption of the main heater is made to be higher than that of the sub heater.
In a case where the plural of heaters are used, because rush current increases if they are turned on at the same time, the heaters are turned on with time difference. Conventionally, the sub heater is firstly turned on and then the main heater is turned on after one cycle of a lighting time of the heater (for example, 200 ms in case of 50 Hz) elapses. However, if the heaters are turned on at such a timing, because the main heater has a power consumption larger than that of the sub heater, a period in which a temperature of the center portion rises to a fixing allowable temperature is shorter than a period in which a temperature of the both end portions rises to the fixing allowable temperature. Then, until the temperature of the both end portions rises to the fixing allowable temperature and the fixing member is uniformly heated in the sheet width direction, it is required to wait the start of the fixing operation. During the waiting time, in order to keep the temperature of the center portion the fixing allowable temperature, the main heater is turned on and off at a constant interval, and unnecessary power is consumed by the turn on/off of the main heater during the waiting time.
The fixing device is sometimes configured to turn on a heat source having a smaller power consumption first among a plural of heat sources. Alternatively, the fixing device is sometimes configured to include a first heater having a small rush current and a second heater having a large rush current and fast temperature rising time, and to turn on the first heater first.
In the fixing devices having the above configurations, it becomes possible to eliminate the increasing of the rush current. However, they have no consideration about the temperature unevenness due to a difference in the temperature rising period between the center portion and the both end portions and about increasing of the power consumption.
In accordance with an aspect of the present disclosure, a fixing device includes a fixing member, a pressing member, a heat source, a detecting part and a control part. The pressing member forms a pressing area with the fixing member. A sheet is conveyed through the pressing area. The heat source includes a main heating part heating a center portion of the fixing member in a sheet width direction perpendicular to a conveying direction of the sheet and a sub heating part heating both end portions of the fixing member in the sheet width direction. The detecting part detects a temperature of the end portion of the fixing member. The control part determines operation timings of the main heating part and the sub heating part based on the temperature detected by the detecting part such that the center portion and the both end portions of the fixing member are heated to a constant temperature.
In accordance with an aspect of the present disclosure, an image forming apparatus includes an image forming part and the fixing device. The image forming part forms a toner image on a sheet. The fixing device fixes the toner image on the sheet.
The above and other objects, features, and advantages of the present disclosure will become more apparent from the following description when taken in conjunction with the accompanying drawings in which a preferred embodiment of the present disclosure is shown byway of illustrative example.
Hereinafter, with reference to the attached drawings, a fixing device and an image forming apparatus according to one embodiment of the present disclosure will be described.
With reference to
An apparatus main body 1a of the printer 1 is provided with a sheet feeding cassette 3 storing a sheet S, a sheet feeding device 5 feeding the sheet S from the sheet feeding cassette 3, an image forming part 7 forming a toner image on the sheet S, a fixing device 9 fixing the toner image on the sheet S, an ejecting device 11 ejecting the sheet S and an ejected sheet tray 13. In the apparatus main body 1a, a conveying path 15 for the sheet S is formed so as to extend from the sheet feeding device 5 to the ejecting device 11 through the image forming part 7 and the fixing device 9. On the conveying path 15, a sheet detecting sensor 17 and a pair of resist rollers 19 are provided between the sheet feeding device 5 and the image forming part 7. As shown in
The control part 21 controls the sheet feeding device 5, the image forming part 7, the fixing device 9 and the ejecting device 11 to perform the following image forming operation. The sheet feeding device 5 feeds the sheet S from the sheet feeding cassette 3 to the conveying path 15 when a printing start signal is received. After the sheet detecting sensor 17 detects the sheet S and then outputs a secondary feeding start signal, the pair of resist rollers 19 corrects a skew of the sheet S and then sends the sheet S to the image forming part 7. The image forming part 7 forms a toner image on the sheet S and then sends the sheet S to the fixing device 9. The fixing device 9 fixes the toner image on the sheet S and then sends the sheet S to the ejecting device 11. The ejecting device 11 ejects the sheet S on which the toner image is fixed to the ejected sheet tray 13.
With reference to
As shown in
The fixing roller 31 is formed in an inverted crown shape in which a diameter of the center portion in a sheet width direction perpendicular to a sheet conveying direction is smaller than that of the both end portions in the sheet width direction. The fixing roller 31 includes a cylindrical core metal 31a and a release layer 31b provided around the core metal 31a via an adhesion layer. The core metal 31a is made of aluminum, and has an outer diameter of 30 mm and a thickness of 0.6 mm, for example. The release layer 31b is made of tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer (PFA), for example. The fixing roller 31 is rotatably supported around the core metal 31a.
The pressing roller 33 includes a rotating shaft 33a, an elastic layer 33b provided around the rotating shaft 33a and a release layer 33c provided around the elastic layer 33b via an adhesion layer. The rotating shaft 33a is made of a core metal and has a diameter of 23 mm, for example. The elastic layer 33b is made of silicon rubber, and has a thickness of 6 mm, for example. The release layer 33c is made of PFA tube, for example.
The pressing roller 33 is rotatably supported around the rotating shaft 33a. The pressing roller 33 is pressed against the fixing roller 31 from the lower side to form the pressing area N between the rollers 31 and 33. When the sheet S is passed through the pressing area N, the toner image is fixed on the sheet S.
With reference
As shown in
As shown in
The main heater 41 and the sub heater 43 are arranged with the main heater 41 at the upstream side and the sub heater 43 at the downstream side in the conveying direction, and are stored in a hollow space of the fixing roller 31. When power is applied to the main heater 41 and the sub heater 43, the heaters 41 and 43 are turned on to radiate radiation heat to an inner circumferential face of the fixing roller 31 and to heat the fixing roller 31. In detail, the main heater 41 mainly heats the center portion R1 of the fixing roller 31 in the sheet width direction, and the sub heater 43 mainly heats the both end portions R2 of the fixing roller 31 in the sheet width direction.
With reference to
An operation of the fixing device 9 having the above configuration will be described with reference to
First, the delay time will be described. In a case where the center temperature and the end temperature of the fixing roller 31 are the same, because a heating value of the main heater 41 is larger than that of the sub heater 43 as described above, when the heaters 41 and 43 are turned on at the same time, a temperature rising time until the temperature rises to a fixing allowable temperature (for example, 180° C.) is shorter at the center portion than at the both end portions. Thereby, it is necessary to wait the start of the fixing operation until the end temperature rises to the fixing allowable temperature by a difference in the temperature rising time between the center portion and the both end portions. The difference in the temperature rising time between the center portion and the both end portions is defined to the delay time. Then, after the sub heater 43 is turned on, the main heater 41 is turned on after the delay time elapses, and the center temperature and the end temperature rise to the fixing allowable temperature at substantially the same time.
With reference to
On the other hand, when it is determined that the end temperature is not higher than the 150° C. at step S1, it proceeds to step S4. At step S4, the control part 21 determines whether the end temperature is higher than 80° C. or not. When, at step S4, it is determined that the end temperature is 80° C. or higher, it proceeds to step S5. At step S5, the control part 21 sets the delay time to 0.2 seconds based on the table shown in
Then, it proceeds to step S6. At step S6, the sub heater 43 is turned on and then it proceeds to step S7. At step S7, the main heater 41 is turned on after the set delay time of 0.2 seconds elapses.
When it is determined that the end temperature is not higher than 80° C. at step S4, it proceeds to step S8. At step S8, the control part 21 determines whether the end temperature is higher than 50° C. or not. When it is determined that the end temperature is 50° C. or higher at step S8, it proceeds to step S9. At step S9, the control part 21 sets the delay time to 1 second based on the table shown in
When it is determined that the end temperature is not higher than the 50° C. at step S8, it proceeds to step S10. At step S10, the control part 21 determines whether the end temperature is higher than 35° C. or not. When it is determined that the end temperature is 35° C. or higher, it proceeds to step S11. At step S11, the control part 21 sets the delay time to 2 seconds based on the table shown in
When it is determined that the end temperature is not higher than the 35° C. at step S10, it proceeds to step S12. At step S12, the control part 21 sets the delay time to 4 seconds based on the table shown in
For example, in a case of the end temperature less than 35° C., the sub heater 43 is turned on and then the main heater 41 is turned on after 4 seconds elapses. Then, after 12 seconds elapses, the center temperature and the end temperature rise to the fixing allowable temperature at substantially the same time. A temperature distribution of this case is shown in a graph of
As shown in the graph, the center portion and the end portions of the fixing roller 31 are uniformly heated to about 180° C. The pressing roller 3 which comes into contact with the fixing roller 31 and is heated is heated to about 110 to 120° C. substantially uniformly in the width direction.
As described above, according to the fixing device 9 of the present disclosure, because the temperature rising rate of the end portion of the fixing roller 31 is rate limitation of the fixing operation, operating timings of the main heater 41 and the sub heater 43 are determined based on the end temperature, and then the center portion and the end portion are heated to a constant temperature (the fixing allowable temperature) at substantially the same time. Accordingly, it is not required to generate heat consumption for tuning on/off of the main heater 41 until the sub heater 43 heats the end portions to the fixing allowable temperature.
Specifically, in a case of the end temperature lower than the fixing allowable temperature, the main heater 41 is turned on after the sub heater 43 is turned on, and the center portion and the end portions are heated to the fixing allowable temperature at substantially the same time. Additionally, because the delay time becomes long as the end temperature is low, it becomes possible to heat the fixing roller 31 suitably depending on the environment of the fixing device 9. Additionally, it becomes possible to control the printing timing in response to the timing when the center portion and the end portions are heated to the fixing allowable temperature at the same time. Therefore, the fixing device 9 usable without giving stress to a user can be provided.
Additionally, because the main heater 41 and the sub heater 43 are turned on by time difference, it becomes possible to eliminate increasing the rush current.
Additionally, because the fixing roller 31 is formed in an inverted crown shape, a length of the pressing area in the rotating direction of the fixing roller 31 is longer at the both end portions than at the center portion. Then, if the fixing roller 31 is heated with a constant heating value, a fixing ability (an ability for heating the toner and fixing the toner on the sheet) is larger at the both end portions than at the center portion. Accordingly, in a case of the relatively low end temperature, it becomes possible to heat the fixing roller 31 uniformly without increasing the delay time excessively.
In the present embodiment, the delay time is determined based on the table shown in
The delay time (Dt)=(the fixing allowable temperature of the end portions (Te)−the detected temperature of the end portion (Tx))/the temperature rising rate of the end portion (ΔTe)−(the fixing allowable temperature of the center portion (Tc)−the detected temperature of the end portion (Tx)/the temperature rising rate of the center portion (ΔTc)=(150−50)/10−(180−50)/20=3.5.
In the present embodiment, the main heater 41 and the sub heater 43 as the heat source are the halogen heaters. As the heat source, an IH heater may be used. In this case, the IH heater is configured to heat the center portion and the both end portions separately, and set heat amount of the center portion larger than that of both end portions.
While the above description has been described with reference to the particular illustrative embodiments of the fixing device and the image forming apparatus according to the present disclosure, a technical range of the disclosure is not to be restricted by the description and illustration of the embodiment.
Number | Date | Country | Kind |
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2017-121180 | Jun 2017 | JP | national |