JP2005070342A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To restart a job immediately after eliminating an error in an image forming apparatus. <P>SOLUTION: A copying machine 1 is equipped with a halogen lamp 43 for heating the heat roller 41 of a fixing unit 40, sensors 24, 53, 64, 82, 95, 96 and 97 each functioning as error detection means, a plurality of covers or the like 5, 11, 12, 44 and 81 attached to be opened/closed, and sensors 13, 14, 45, 54 and 83 each functioning as means for detecting the opening/closing of the covers or the like, and is controlled so that energizing the lamp 43 is stopped when the error is caused, and energizing the lamp 43 is restarted when only the covers or the like 5, 11, 12 and 81 unrelated to the fixing unit 40 are opened thereafter. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an image forming apparatus provided with a fixing device.

  2. Description of the Related Art Conventionally, an electrophotographic image forming apparatus employing a heat roller fixing method is known and applied to a printer, a copier, a facsimile, and the like. Such an image forming apparatus is provided with a plurality of covers and paper cassettes that can be opened and closed. When an error occurs, these covers and cassettes are free from consumables such as recording paper and toner. Or when a jam (paper jam) occurs.

  At the time of image formation, since the fixing unit is heated to a high temperature, if an error occurs at this time, the energization to the heat roller of the fixing unit is controlled to be stopped. Then, after opening the cover and cassette, replenishing and replacing consumables, or jamming, when the cover was closed, the energization of the heat roller was resumed and the fuser was heated. .

  However, when the energization of the heat roller is resumed after the error is eliminated, there is a problem that it takes a long time for the heat roller to reach a fixing temperature. In other words, when the error is solved and the heating of the heat roller is resumed after the cover or cassette is closed, the operator has to wait for a while until the job is resumed after the error is resolved.

The reason for stopping the energization of the heat roller of the fixing device when an error occurs is to cool the fixing device so that the operator can touch the fixing device to perform the error elimination work.
However, for example, when the paper cassette is opened and the recording paper is replenished when the paper runs out, the cover of the fixing device remains closed, so that even if the heat roller is heated, the operator There is no possibility of touching the fuser directly. Therefore, in this case, if energization to the heat roller is resumed while the recording paper is being replenished, the job can be resumed immediately after the recording paper is replenished, which is efficient. In addition, for example, when the cover of the fixing device is closed as in the case of jam processing in the reverse conveyance path for double-sided printing, in this case as well, energization of the heat roller is performed during the jam processing. If the job is resumed, the job can be resumed immediately after the jam is resolved, which is efficient.

  In Patent Document 1, when a jam occurs in the fixing device, the image can be satisfactorily jammed even if a predetermined time has elapsed since the occurrence of the jam by heating the heat roller to a predetermined temperature. A forming apparatus is disclosed.

JP 2002-341893 A

  Therefore, an object of the present invention is to provide an image forming apparatus capable of resuming a job immediately after eliminating an error such as out of paper or jamming.

The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.
In other words, in the image forming apparatus including a plurality of covers that can be opened and closed, a heating unit that heats the fixing device, and an error detection unit that detects an error, the plurality of covers include: The cover includes a cover related to the fixing device and a cover not related to the fixing device, and each of the plurality of covers is provided with a cover open / close detection means for detecting opening / closing of the cover, and an error detection signal is received from the error detection means. In the case of an input, when the energization to the heating unit is stopped and a detection signal indicating that the cover has been opened is input only from the cover open / close detection unit of the cover not related to the fixing device. And a control means for controlling the energization of the heating means to resume.
In the image forming apparatus configured as described above, when an error occurs, the heating of the fixing device by the heating unit is stopped, and the temperature of the fixing device decreases with time. After that, if only the cover unrelated to the fixing device is opened to eliminate the error, heating of the fixing device by the heating means is resumed even during the error elimination work, and the temperature of the fixing device rises with time. To do.
As a result, the rise time until the fixing device reaches a fixing temperature can be shortened, and the job can be resumed immediately after the error is resolved, thereby improving workability.

According to a second aspect of the present invention, the control means is configured that the cover is closed from the cover open / close detection means that outputs the detection signal within a predetermined time after the detection signal indicating that the cover is opened is input. When no detection signal is input, the energization to the heating means is stopped.
In the image forming apparatus configured as described above, in order to eliminate an error, when the cover once opened is not closed within a predetermined time, the heating of the fixing device by the heating unit is stopped, and the temperature of the fixing device is reduced. Decreases over time.
As a result, when it takes a long time to eliminate the error, heating of the fixing device is stopped to save energy.

The image forming apparatus according to claim 3, comprising an openable / closable sheet feeding unit, a heating unit for heating the fixing device, and an error detection unit for detecting an error. In addition, when an error detection signal is input from the error detection unit, power supply to the heating unit is stopped, and further, the paper supply unit open / close detection is performed. When a detection signal indicating that the paper feeding unit has been opened is input from the unit, the control unit is configured to control to resume energization of the heating unit.
In the image forming apparatus configured as described above, when an error occurs, the heating of the fixing device by the heating unit is stopped, and the temperature of the fixing device decreases with time. Thereafter, in order to eliminate the error, when the paper feeding unit is opened, the heating of the fixing device by the heating unit is resumed even when the error is being solved, and the temperature of the fixing device rises with time.
As a result, the rise time until the fixing device reaches a fixing temperature can be shortened, and the job can be resumed immediately after the error is resolved, thereby improving workability.

According to a fourth aspect of the present invention, the control means receives a detection signal indicating that the cassette has been closed from the paper feed unit opening / closing detection means within a predetermined time after the detection signal indicating that the cassette has been opened. If not, the power supply to the heating means is stopped.
In the image forming apparatus configured as described above, in order to eliminate an error, when the paper feeding unit once opened is not closed within a predetermined time, the heating of the fixing unit by the heating unit is stopped, and the fixing unit The temperature decreases over time.
As a result, when it takes a long time to eliminate the error, heating of the fixing device is stopped to save energy.

  In the image forming apparatus of the present invention, when an error occurs, the rise time until the heat roller reaches the fixing temperature can be shortened, and the job can be resumed immediately after the error is resolved. Improves. In addition, when it takes a long time to eliminate the error, heating of the heat roller is stopped to save energy.

Next, the best mode for carrying out the invention will be described with reference to the accompanying drawings.
A schematic configuration of a copier as an embodiment to which the image forming apparatus of the present invention is applied is shown in FIG. 1, and a control configuration of the copier is shown in FIG. The image forming apparatus according to the present embodiment is configured in an electrophotographic system, and is applied to, for example, a printer, a facsimile machine, and a multifunction machine in addition to a copier. In the following description, the front-rear and left-right directions will be described with the direction of the arrow A shown in FIG.

  A sheet feeding cassette 5 is provided below the copier 1, and an image forming apparatus 2 is provided above the sheet feeding cassette 5. The paper feed cassette 5 is detachable (openable and closable) in the direction perpendicular to the paper surface of FIG. 1 with respect to the apparatus main body of the copier 1. 1 is drawn to the front side of the drawing. A paper feed roller 52 is provided near the paper feed opening 51 of the paper feed cassette 5, and the recording paper stored in the paper feed cassette 5 is fed one by one by the paper feed roller 52. The recording paper fed from the paper feed cassette 5 is transported to the paper discharge outlet 61 along a recording paper transport path 9 described later, and is discharged to the paper discharge tray 6.

  The paper feed cassette 5 is provided with a paper out sensor (paper out detection means) 53 for detecting that there is no recording paper in the paper cassette 5, that is, out of paper. 53 is connected to the MPU 101 described later. The paper feed cassette 5 is provided with a paper feed cassette open / close sensor (paper feed opening / closing detection means) 54 for detecting the open / close of the paper feed cassette 5, and the paper feed cassette open / close sensor 54 will be described later. Connected to the MPU 101.

  Further, an image reading device 3 is provided above the image forming device 2, and an ADF device (automatic document feeder) 8 is attached to the upper surface of the document pressing cover 4 of the image reading device 3. The ADF device 8 is provided with a document conveyance path for conveying the document set on the ADF device 8 to the document table of the image reading device 3. The image reading device 3 reads a document placed on the document table or a document set on the ADF device 8 and conveyed to the document table, and sends image information of the read document to the image memory 104. An ADF cover 81 is attached to the ADF apparatus 8 so as to be rotatable (openable / closable), and the ADF cover 81 is opened when the ADF apparatus 8 performs jam processing.

  The ADF device 8 is provided with an ADF jam sensor (ADF jam detection means) 82 for detecting a jam occurring in the ADF device 8, and the ADF jam sensor 82 is connected to an MPU 101 to be described later. Further, the ADF device 8 is provided with an ADF cover opening / closing sensor (ADF cover opening / closing detecting means) 83 for detecting opening / closing of the ADF cover 81, and the ADF cover opening / closing sensor 83 is connected to the MPU 101 described later. Yes.

  The operation unit of the copier 1 is provided on the left and right ends of the image reading apparatus 3, and various operation keys are arranged on the operation unit and a display unit 108 is provided.

  A side cover 11 (not shown in FIG. 1) is attached to one side of the left and right side surfaces of the image forming apparatus 2 so that the side cover 11 can be rotated (opened and closed). The left and right sides of the apparatus 2 (above the paper feed cassette 5) are opened. The side cover 11 is provided with a side cover opening / closing sensor (side cover opening / closing detection means) 13 for detecting opening / closing of the side cover 11, and the side cover opening / closing sensor 13 is connected to an MPU 101 described later. . The side cover opening / closing sensor 13 may be attached to the apparatus main body of the image forming apparatus 2.

  Further, a jam processing cover 12 is attached to the rear surface of the image forming apparatus 2 so as to be rotatable (openable / closable). When the jam processing cover 12 is opened, the rear side of the image forming apparatus 2 is opened. A transfer roller 32, a first feed roller 72, second feed rollers 73 and 74, and a registration roller 94, which will be described later, are rotatably supported on the jam processing cover 12, and these rollers 32, 72, 73, and 74 are rotatably supported. 94 rotates with the jam handling cover 12. The jam processing cover 12 is provided with a jam processing cover open / close sensor (jam processing cover open / close detection means) 14 for detecting the opening / closing of the jam processing cover 12, and the jam processing cover open / close sensor. 14 is connected to an MPU 101 described later. The jam processing cover opening / closing sensor 14 may be attached to the apparatus main body of the image forming apparatus 2.

The image forming apparatus 2 transfers the image information onto the recording paper fed from the paper feed cassette 5, further performs fixing, and discharges the recording paper to the paper discharge tray 6. A recording paper conveyance path 9 is formed inside the image forming apparatus 2, and each roller pair is disposed opposite to the recording paper conveyance path 9. Each pair of rollers feeds the recording paper fed from the paper feed cassette 5 to the paper discharge tray 6 along the recording paper conveyance path 9.
In this embodiment, the copying machine 1 is capable of duplex printing, and the recording paper conveyance path 9 includes a first conveyance path 9A in which an image forming unit for image formation (printing) on the recording paper is arranged. The second transport path 9B for transporting the recording paper whose transport direction is reversed by the paper discharge rollers 62 and 63 during double-sided printing. The second conveyance path 9B branches from the first conveyance path 9A at the branching portion 92 on the downstream side of the image forming unit of the first conveyance path 9A, and the first conveyance path 9A at the junction 91 on the upstream side of the image forming unit. To join.

  Specifically, the recording sheet is conveyed in the first conveyance path 9A in the downstream direction from the sheet feeding port 51 of the upstream sheet feeding cassette 5 through the merging unit 91, the image forming unit, and the branching unit 92. The direction is toward the paper discharge port 61 of the paper discharge tray 6. In the first transport path 9A, a paper feed roller 52, a pair of registration rollers 93 and 94, an image forming unit, and a pair of paper discharge rollers 62 and 63 are arranged in order from the upstream side to the downstream side. The registration rollers 93 and 94 are provided to straighten the conveyance direction of the recording paper and correct the skew.

  On the other hand, the direction in which the recording paper is conveyed in the second conveyance path 9B is a direction from the branching unit 92 toward the joining unit 91 without passing through the image forming unit. In the second transport path 9B, a pair of first feed rollers 71 and 72 and a pair of second feed rollers 73 and 74 are disposed in order from the upstream side to the downstream side.

In the vicinity of the paper discharge rollers 62 and 63 of the paper discharge port 61, a paper discharge port jam sensor (paper discharge port jam detection means) 64 for detecting a jam at the paper discharge port 61 is attached. The mouth jam sensor 64 is connected to the MPU 101 described later.
In the first conveyance path 9 </ b> A, a paper feed sensor 95 is disposed in the vicinity of the downstream side of the junction portion 91, and a paper discharge sensor 96 is disposed in the vicinity of the downstream side of the branch portion 92. Further, a fixing device jam sensor 97 is disposed in the vicinity of the upstream side of the fixing device unit 40. These sensors 95, 96, and 97 are connected to the MPU 101, which will be described later, and are provided to detect the start and completion of the passage of the recording paper. Functions as jam detection means. Note that the branching unit 92 is provided with a switching member 98 for switching the conveyance direction of the recording paper during double-sided printing.

In the copying machine 1, when printing on only one side, the recording paper is transported along the recording paper transporting direction in the first transport path 9A.
On the other hand, when performing double-sided printing, first, the recording paper is conveyed to the paper discharge rollers 62 and 63 along the aforementioned conveyance direction along the first conveyance path 9A. Then, the recording paper is nipped by the paper discharge rollers 62 and 63, and the rotation direction of the paper discharge rollers 62 and 63 is switched to reverse the recording paper conveyance direction in the first conveyance path 9A. Next, the reversed recording paper is switched by the switching member 98 in the branching section 92 and flows into the second transport path 9B, transported along the transport direction described above, and further, the first transport path 9A again in the joining section 91. To the paper discharge tray 6.

  In the image forming section disposed in the first transport path 9A, the developing unit 20, the photosensitive unit 30, and the fixing unit 40 are disposed in the downstream direction along the first transport path 9A.

The developer unit 20 includes a developer carrying member (developing roller) 21 that develops toner on the photosensitive drum 31, a supply roller 22 that supplies toner to the developer carrying member 21, a toner container 23 that contains toner, and the like. Is provided. In the developing unit 20, the toner supplied to and attached to the developing roller 21 is regulated by a blade or the like and is carried on the developing roller 21 as a thin layer having a certain thickness.
The toner container 23 can be attached to and detached from the apparatus main body of the image forming apparatus 2. When the toner stored in the toner container 23 runs out, the toner container 23 is opened with the side cover 11 opened. Replace 23. The toner container 23 is provided with a toner amount sensor (toner amount detection means) 24 for detecting the amount of toner contained in the toner container 23. The toner amount sensor 24 is an MPU 101 described later. Connected with.

  The photosensitive unit 30 includes a photosensitive drum 31 that contacts the recording paper and transfers the toner, a transfer roller 32 that is disposed so as to contact the outer peripheral surface of the photosensitive drum 31 with the first conveyance path 9A interposed therebetween, and a photosensitive member. A charging roller 33 for charging the surface of the photosensitive drum 31 to a negative potential; a cleaning device 34 for cleaning the surface of the photosensitive drum 31; and a laser scanner unit which is an exposure means for forming an electrostatic latent image on the photosensitive drum 31. 35 etc. are provided.

  The laser scanner unit 35 includes a laser oscillator, a polygon mirror, and the like, and is disposed on the side of the photosensitive drum 31. Image information stored in the image memory 104 is transmitted to the laser scanner unit 35 by the MPU 101 described later. As a result, the laser scanner unit 35 performs exposure based on the received image information, in other words, based on the image information read by the image reading device 3, and scans the photosensitive drum 31 to thereby detect the photosensitive drum. An electrostatic latent image is formed on 31. Then, the photosensitive drum 31 on which the electrostatic latent image is formed and the developing roller 21 carrying the toner thin layer are in sliding contact with each other, whereby a toner image is formed on the photosensitive drum 31, and the toner image is transferred. The image is transferred onto the recording paper by the roller 32. Instead of the laser scanner unit 35, the exposure means may be configured as an LED.

  The fixing unit 40 includes a heat roller 41, a press roller 42 disposed so as to be in contact with the outer peripheral surface of the heat roller 41 with the recording paper conveyance path 9 interposed therebetween. The hollow heat roller 41 is made of a metal having good thermal conductivity such as aluminum, and a halogen lamp 43 as a lamp heater as a heating means is inserted on the same axis. When the heat generated when the halogen lamp 43 is energized is transmitted to the outer periphery of the heat roller 41, the heat roller 41 is heated. On the other hand, when the halogen lamp 43 is turned off, the heat roller 41 is cooled by the ambient air. . Instead of the halogen lamp 43, the heating means may be configured as a hot cathode fluorescent lamp or the like.

  The press roller 42 is formed by press-fitting a rubber body formed of silicon rubber, ethylene propylene rubber, or the like to the rotation shaft core so as not to be relatively rotatable. The press roller 42 is indirectly connected by heat conduction from the heat roller 41. Heated. As described above, the fixing unit 40 is configured in a heat roller fixing system, and the recording paper holding the toner image is heated and pressed by the heat roller 41 and the press roller 42 along the recording paper conveyance path 9. The toner image is fixed on the recording paper as a permanent image.

The heat roller 41 is rotatably supported by the main body of the image forming apparatus 2. On the other hand, the press roller 42 is rotatably supported by a fixing device cover 44 that covers the fixing device unit 4 from behind. The first feed roller 71 is also rotatably supported by the fixing device cover 44.
The fixing device cover 44 is supported so as to be rotatable with respect to the main body of the image forming apparatus 2, and after opening the jam processing cover 12, a nip release lever (attached to the fixing device cover 44 ( Operate (not shown) to rotate. When the fixing device cover 44 is rotated, the press roller 42 is rotated together with the fixing device cover 44, thereby releasing the nip between the heat roller 41 and the press roller 42.
The fixing device cover 44 is provided with a fixing device cover opening / closing sensor (fixing device cover opening / closing detection means) 45 for detecting opening / closing of the fixing device cover 44, and the fixing device cover opening / closing sensor 45 is an MPU 101 described later. Connected with. The fixing device cover open / close sensor 45 may be attached to the main body of the image forming apparatus 2.

  The control unit of the copier 1 includes an MPU 101, a ROM 102, a RAM 103, and an image memory (DRAM) 104, which are control means, and the above-described units are communicably connected via a bus 110.

  The MPU 101 is a control unit that controls each unit of the copier 1 based on an input operation to the operation unit, a control program, and the like. The ROM 102 stores a control program for controlling the copy machine 1 and the like. The RAM 103 temporarily stores various information such as the control state of the copier 1, and the document image read by the image reading device 3 is temporarily stored in the image memory 104.

Further, the laser scanner unit 35 of the image forming apparatus 2, the image reading apparatus 3, the power switch 106, the timer 107, the display unit 108, and the like are communicably connected to the MPU 101 serving as the control unit via the bus 110.
Further, the MPU 101 includes a toner amount sensor 24, an out-of-paper sensor 53, a paper discharge jam sensor 64, an ADF jam sensor 82, a paper feed sensor 95, a paper discharge sensor 96, a fixing device jam sensor 97, a cover as an abnormality detecting means. A side cover open / close sensor 13 as an open / close detection means, a jam processing cover open / close sensor 14, a fixing device cover open / close sensor 45, an ADF cover open / close sensor 83, and a paper feed cassette open / close sensor 54 as a paper feed section open / close detection means are connected. ing.

The power switch 106 is provided to supply / shut off power to the halogen lamp 43. The MPU 101 outputs an on / off signal to the power switch 106 and switches the power switch 106 on and off, thereby controlling the energization of the halogen lamp 43 and controlling the surface temperature of the heat roller 41. That is, the power switch 106 is turned on to supply power to the halogen lamp 43 (energization) to heat the heat roller 41, while the power switch 106 is turned off to turn the halogen lamp 43 on. The heat roller 41 is cooled by shutting off the power to 43 (stopping energization).
When the toner image is fixed on the recording paper, the MPU 101 controls energization of the halogen lamp 43 so that the temperature of the surface of the heat roller 41 becomes equal to the average temperature. Specifically, based on the surface temperature of the heat roller 41 detected by a temperature detection element such as a thermistor attached to the outer peripheral surface of the heat roller 41, the surface temperature of the heat roller 41 is a predetermined level required for fixing. The temperature (fixing temperature) is controlled to be maintained.

Next, in the copying machine 1, control when an abnormality (error) is detected by the abnormality detection means (error detection means) will be described.
Specifically, the control in the copying machine 1 according to the present embodiment is control for stopping energization of the halogen lamp 43 when the MPU 101 determines that an error has occurred. Here, “abnormality (error)” means a state in which the image forming operation cannot be continued in the copying machine 1. More specifically, in this embodiment, there is no recording paper in the paper feeding cassette 5, no toner in the toner container 23, ADF device 8, paper feeding port 51, paper discharge port 61, and recording paper. This is a state in which a jam has occurred in the conveyance path 9.

  The occurrence of these errors is detected as follows by the sensors 24, 53, 64, 82, 95, 96, and 97 functioning as error detection means.

  The absence of recording paper in the paper feed cassette 5 (out of paper) is detected by a paper out sensor 53. When out of paper is detected by the out of paper sensor 53, a “out of paper” detection signal is output to the MPU 101. As a result, the MPU 101 determines that a sheet has run out in the sheet feeding cassette 5.

  The toner amount sensor 24 detects that the toner container 23 has run out of toner (out of toner). When the toner amount sensor 24 detects toner out, a “toner out” detection signal is output to the MPU 101. As a result, the MPU 101 determines that the toner container 23 has run out of toner.

  A jam occurring in the ADF device 8 is detected by the ADF jam sensor 82. When the ADF jam sensor 82 detects that a jam has occurred in the ADF device 8, an “ADF jam” detection signal is output to the MPU 101. As a result, the MPU 101 determines that a jam has occurred in the ADF device 8.

A jam that occurs in the paper feed port 51 and the recording paper conveyance path 9 is detected by a paper feed sensor 95 that functions as a jam detection sensor, a paper discharge sensor 96, and a fixing device jam sensor 97. The jam that occurs in the recording paper conveyance path 9 is a jam that occurs in the fixing unit 40, a jam that occurs in a portion other than the fixing unit 40 in the first conveyance path 9A (for example, a jam that occurs due to the registration rollers 93 and 94, There is a jam that occurs in the second conveyance path 9B in the case of double-sided printing. Among them, a fixing device jam sensor 97 is provided on the upstream side of the fixing device unit 40 in order to detect a jam occurring particularly in the fixing device unit 40.
The paper feed sensor 95, the paper discharge sensor 96, and the fixing device jam sensor 97 detect the start and end of passage of the recording paper, respectively. Each of the sensors 95, 96, and 97 is configured as a feeler sensor that detects the passage of the recording paper by touching the recording paper, for example, and the sensors 95, 96, and 97 are turned off before the leading edge of the recording paper passes. In this state, the signal is output to the MPU 101 by switching to the ON state while the recording paper is passing and switching to the OFF state after passing the trailing edge of the recording paper. Then, when the leading edge of the recording paper passes by the sensors 95, 96, and 97, the start of passage is detected, and a “passing start” detection signal is output to the MPU 101. Further, when the trailing edge of the recording paper passes, the completion of passage is detected, and a “passing completion” detection signal is output to the MPU 101.

  A jam that occurs at the paper feed port 51 is detected when the paper feed sensor 95 does not detect the start of passage of recording paper, that is, when the “passage start” detection signal from the paper feed sensor 95 is not input. As a result, the MPU 101 determines that a jam has occurred at the paper feed port 51.

  A jam occurring in the fixing unit 40 is detected when the start of the recording paper passage is detected by the fixing device jam sensor 97 and the completion of the passage of the recording paper is not detected by the paper discharge sensor 96, that is, from the fixing device jam sensor 97. This is detected when the “passing start” detection signal is input and the “passing completion” detection signal from the paper discharge sensor 96 is not input. As a result, the MPU 101 determines that a jam has occurred in the fixing unit 40.

  A jam that occurs in a portion other than the fixing unit 40 of the first transport path 9A is detected when the start of the recording paper is detected by the paper feed sensor 95 and the start of the recording paper is not detected by the fixing device jam sensor 97. That is, it is detected when the “passing start” detection signal from the paper feed sensor 95 is input and the “passing start” detection signal from the fixing device jam sensor 97 is not input. As a result, the MPU 101 determines that a jam has occurred in a portion other than the fixing unit 40 of the first transport path 9A.

  In the case of double-sided printing, a jam that occurs in the second transport path 9B is detected by the paper discharge sensor 96 after the paper transport direction of the recording paper is reversed by the paper discharge rollers 62 and 63, and the completion of the passage of the recording paper is detected. When the paper feed sensor 95 does not detect the passage start of the recording paper, that is, the “passing completion” detection signal from the paper discharge sensor 96 is input, and the “passing start” detection signal from the paper feed sensor 95 is not input. If detected. As a result, the MPU 101 determines that a jam has occurred in the second transport path 9B in the case of duplex printing.

  Note that a jam also occurs at the paper discharge port 61 when the recording paper is discharged to the paper discharge tray 6 or when the recording paper conveyance direction is reversed by the paper discharge rollers 62 and 63 during duplex printing. In some cases, it is detected by the paper discharge outlet jam sensor 64. When the paper discharge outlet jam sensor 64 detects that a paper jam has occurred at the paper discharge outlet 61, a “paper discharge outlet” jam detection signal is output to the MPU 101, and the MPU 101 detects that a paper jam has occurred at the paper discharge outlet 61. judge. However, in this case, the jamming can be resolved without opening the cover or the like by pulling out the recording paper sandwiched between the paper discharge rollers 62 and 63 from the paper discharge port 61. Not done.

  As described above, when it is determined in the copier 1 that an error has occurred, the MPU 101 stops energizing the halogen lamp 43. In this case, the MPU 101 switches off the power switch 106 of the halogen lamp 43. When the power switch 106 is switched off, the energization to the halogen lamp 43 is stopped, and as a result, the heat roller 41 is cooled, and the surface temperature of the heat roller 41 decreases with time.

  In addition, the MPU 101 displays an error occurrence and an error occurrence location on the display unit 108. In this case, a notification unit may be provided to notify the occurrence of an error by the notification unit. As a result, the operator opens the paper feed cassette 5 and the covers 11, 12, 44, 81 (hereinafter referred to as “covers”) corresponding to the location where the error has occurred, and eliminates the error.

However, depending on the location where the error occurs, there are cases where the work is performed with only the cover or the like unrelated to the fixing unit 40 opened. Here, the cover or the like not related to the fixing unit 40 means a cover or the like that is not likely to be directly touched by the operator when the cover or the like is opened. To do. In this embodiment, the paper feed cassette 5, the side cover 11, the jam processing cover 12, and the ADF cover 81 are provided.
Conversely, a cover or the like related to the fixing unit 40 means a cover or the like that may be directly touched by the operator when the cover or the like is opened. To do. In this embodiment, the fixing device cover 44 is used.

  When it is determined that an error has occurred, the energization of the halogen lamp 43 is stopped so that the operator can directly touch the fixing unit 40 to perform the error elimination work. This is for cooling. Therefore, when only the cover or the like unrelated to the fixing unit 40 is opened and the cover or the like related to the fixing unit 40 is not opened, it is not necessary to stop the energization to the halogen lamp 43 continuously. For this reason, the following description is divided into a case where only a cover unrelated to the fixing unit 40 is opened to eliminate the error, and a case where a cover related to the fixing unit 40 is opened to eliminate the error.

  When the error is solved by opening only a cover or the like not related to the fixing unit 40, the MPU 101 resumes energization to the halogen lamp 43 that has been stopped. This will be specifically described below.

The paper cassette 5 is opened (drawn) when the MPU 101 determines that the paper cassette 5 has run out of paper or when the paper feed slot 51 determines that a jam has occurred. The operator opens the paper feed cassette 5 and replenishes the recording paper when the paper is out, and removes the jammed recording paper when the paper feed opening 51 is jammed. In this case, when the paper feed cassette 5 is opened, the paper feed cassette open / close sensor 54 detects that the paper feed cassette 5 has been opened. When the paper feed cassette opening / closing sensor 54 detects that the paper feed cassette 5 has been opened, a “paper feed cassette open” detection signal is output to the MPU 101. As a result, the MPU 101 determines that the paper feed cassette 5 has been opened.
Then, the MPU 101 resumes energization to the halogen lamp 43 that has been stopped. That is, the MPU 101 switches on the power switch 106 of the halogen lamp 43. When the power switch 106 is turned on, energization of the halogen lamp 43 is started. As a result, the heat roller 41 is heated, and the surface temperature of the heat roller 41 increases with time. Thereafter, when the surface temperature of the heat roller 41 rises to near the fixing temperature, control is performed so as to maintain the fixing temperature.

When the operator finishes supplying the recording paper, the operator closes (pushes back) the paper feed cassette 5. Further, when the jam processing at the paper feed port 51 is finished, the paper feed cassette 5 is closed. In this case, the paper feed cassette open / close sensor 54 detects that the paper feed cassette 5 has been closed, and a “paper feed cassette close” detection signal is output to the MPU 101. Thereby, the MPU 101 determines that the paper feed cassette 5 is closed. In this case, if the “paper cassette closed” detection signal is not input within a predetermined time after the “paper cassette open” detection signal is input, the MPU 101 switches the power switch 106 to OFF, The energization of the resumed halogen lamp 43 is stopped. As a result, the heat roller 41 is cooled, and the surface temperature of the heat roller 41 decreases with time.
The predetermined time is preset and stored in the ROM 102, and is measured by the timer 107. The MPU 101 activates the timer 107 when the “paper cassette open” detection signal is input, and switches off the power switch 106 of the halogen lamp 43 when the elapsed time is measured by the timer 107.

The side cover 11 is opened when the MPU 101 determines that the toner container 23 has run out of toner. The operator opens the side cover 11 and replaces the toner container 23. In this case, when the side cover 11 is opened, the side cover opening / closing sensor 13 detects that the side cover 11 has been opened. When the side cover opening / closing sensor 13 detects that the side cover 11 is opened, a “side cover open” detection signal is output to the MPU 101. As a result, the MPU 101 determines that the side cover 11 has been opened.
Then, the MPU 101 resumes energization to the halogen lamp 43 that has been stopped. That is, the MPU 101 switches on the power switch 106 of the halogen lamp 43. When the power switch 106 is turned on, energization of the halogen lamp 43 is started. As a result, the heat roller 41 is heated, and the surface temperature of the heat roller 41 increases with time. Thereafter, when the surface temperature of the heat roller 41 rises to near the fixing temperature, control is performed so as to maintain the fixing temperature.

When the operator finishes replacing the toner container 23, the operator closes the side cover 11. In this case, the side cover opening / closing sensor 13 detects that the side cover 11 is closed, and a “side cover closed” detection signal is output to the MPU 101. Thereby, the MPU 101 determines that the side cover 11 is closed. In this case, if the “side cover closed” detection signal is not input within a predetermined time after the “side cover open” detection signal is input, the MPU 101 restarts by switching the power switch 106 to OFF. The energization of the halogen lamp 43 is stopped. As a result, the heat roller 41 is cooled, and the surface temperature of the heat roller 41 decreases with time.
The predetermined time is preset and stored in the ROM 102, and is measured by the timer 107. The MPU 101 activates the timer 107 when the “side cover open” detection signal is input, and turns off the power switch 106 of the halogen lamp 43 when the elapse of a predetermined time is measured by the timer 107.

The ADF cover 81 is opened when the MPU 101 determines that a jam has occurred in the ADF device 8. The operator opens the ADF cover 81 and removes the jammed recording paper. In this case, when the ADF cover 81 is opened, the ADF cover opening / closing sensor 83 detects that the ADF cover 81 has been opened. When the ADF cover open / close sensor 83 detects that the ADF cover 81 is opened, an “ADF cover open” detection signal is output to the MPU 101. As a result, the MPU 101 determines that the ADF cover 81 has been opened.
Then, the MPU 101 resumes energization to the halogen lamp 43 that has been stopped. That is, the MPU 101 switches on the power switch 106 of the halogen lamp 43. When the power switch 106 is turned on, energization of the halogen lamp 43 is started. As a result, the heat roller 41 is heated, and the surface temperature of the heat roller 41 increases with time. Thereafter, when the surface temperature of the heat roller 41 rises to near the fixing temperature, control is performed so as to maintain the fixing temperature.

When the operator finishes the jam processing, the operator closes the ADF cover 81. In this case, the ADF cover open / close sensor 83 detects that the ADF cover 81 is closed, and an “ADF cover closed” detection signal is output to the MPU 101. Thereby, the MPU 101 determines that the ADF cover 81 is closed. In this case, if the “ADF cover closed” detection signal is not input within a predetermined time after the “ADF cover open” detection signal is input, the MPU 101 restarts by switching the power switch 106 to OFF. The energization of the halogen lamp 43 is stopped. As a result, the heat roller 41 is cooled, and the surface temperature of the heat roller 41 decreases with time.
The predetermined time is preset and stored in the ROM 102, and is measured by the timer 107. The MPU 101 activates the timer 107 when the “ADF cover open” detection signal is input, and switches off the power switch 106 of the halogen lamp 43 when the elapse of a predetermined time is measured by the timer 107.

The jam processing cover 12 is opened when the MPU 101 determines that a jam has occurred in a portion other than the fixing unit 40 of the first transport path 9A, and the jam is generated in the second transport path 9B during duplex printing. This is a case where it is determined that it has occurred. Further, this is a case where it is determined that a jam has occurred in the fixing unit 40. However, if it is determined that a jam has occurred in the fixing unit 40, the fixing unit cover 44 is opened together with the jam processing cover 12, and therefore, the following control is not performed and the control described later is performed.
The operator opens the jam processing cover 12 and removes the jammed recording paper. In this case, when the jam processing cover 12 is opened, the jam processing cover open / close sensor 14 detects that the jam processing cover 12 has been opened. When the jam processing cover opening / closing sensor 14 detects that the jam processing cover 12 is opened, a “jam processing cover open” detection signal is output to the MPU 101. As a result, the MPU 101 determines that the jam processing cover 12 has been opened.
Then, the MPU 101 resumes energization to the halogen lamp 43 that has been stopped. That is, the MPU 101 switches on the power switch 106 of the halogen lamp 43. When the power switch 106 is turned on, energization of the halogen lamp 43 is started. As a result, the heat roller 41 is heated, and the surface temperature of the heat roller 41 increases with time. Thereafter, when the surface temperature of the heat roller 41 rises to near the fixing temperature, control is performed so as to maintain the fixing temperature.

When the operator finishes the jam processing, the operator closes the jam processing cover 12. In this case, the jam processing cover opening / closing sensor 14 detects that the jam processing cover 12 is closed, and a “jamm processing cover closed” detection signal is output to the MPU 101. Accordingly, the MPU 101 determines that the jam processing cover 12 is closed. In this case, if the “jam processing cover closed” detection signal is not input within a predetermined time after the “jam processing cover open” detection signal is input, the MPU 101 switches the power switch 106 to OFF. Then, the energization of the resumed halogen lamp 43 is stopped. As a result, the heat roller 41 is cooled, and the surface temperature of the heat roller 41 decreases with time.
The predetermined time is preset and stored in the ROM 102, and is measured by the timer 107. The MPU 101 activates the timer 107 when a “jam processing cover open” detection signal is input, and switches the power switch 106 of the halogen lamp 43 to OFF when a predetermined time has elapsed.

As described above, when a cover unrelated to the fixing unit 40 is opened when the error is eliminated, the MPU 101 eliminates the error by energizing the halogen lamp 43 that has been stopped due to the occurrence of the error. Even during the operation, the heating roller 41 is resumed to resume the heating of the heat roller 41, and after the error is resolved, the heat roller 41 reaches the fixing temperature as soon as possible. As a result, in the copying machine 1, the rise time until the heat roller 41 reaches the fixing temperature can be shortened, and after the error is resolved (that is, after replenishing the recording paper, after replacing the toner, or after the jam processing), as much as possible. The job can be resumed promptly. The copying machine 1 can be made efficient and easy to use.
Further, when the cover or the like unrelated to the fixing unit 40 is opened and cannot be closed within a predetermined time, the energization of the resumed halogen lamp 43 is stopped. When it takes a long time to eliminate an error such as jamming, it is not necessary to maintain the heat roller 41 at the fixing temperature, and therefore the energization of the halogen lamp 43 is stopped. Thereby, useless power consumption in the fixing unit 40 can be suppressed, and energy saving of the copying machine 1 can be achieved.

  On the other hand, when the error is solved by opening a cover or the like (in this embodiment, the fixing device cover 44) related to the fixing device unit 40, the operator first opens the jam processing cover 12, Further, the fixing device cover 44 is opened to remove the jammed recording paper. In this case, even if the fixing device cover 44 is opened, energization to the halogen lamp 43 is stopped. Then, after the jam processing is completed and the fixing device cover 44 is closed, energization to the halogen lamp 43 is resumed. Specifically, when the fixing device cover 44 is closed, the fixing device cover opening / closing sensor 45 detects that the fixing device cover 44 has been closed, and a “fixing device cover close” detection signal is output to the MPU 101. As a result, the MPU 101 determines that the fixing device cover 44 is closed, and turns on the power switch 106. As a result, the heat roller 41 is heated, and the surface temperature of the heat roller 41 increases with time.

1 is a side sectional view showing an embodiment of an image forming apparatus to which the present invention is applied. FIG. 3 is a block diagram illustrating a control configuration of the image forming apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Copy machine 2 Image forming apparatus 5 Paper feed cassette 11 Side cover 12 Jam processing cover 13 Side cover opening / closing sensor 14 Jam processing cover opening / closing sensor 24 Toner amount sensor 40 Fixing unit 41 Heat roller 43 Halogen lamp 44 Fixing unit cover 45 Fixer cover open / close sensor 53 Out of paper sensor 54 Paper feed cassette open / close sensor 81 ADF cover 82 ADF jam sensor 83 ADF cover open / close sensor 95 Paper feed sensor 96 Paper discharge sensor 97 Fixer jam sensor 101 MPU
106 Power switch

Claims (4)

In an image forming apparatus comprising a plurality of covers that can be opened and closed, a heating means for heating the fixing device, and an error detection means for detecting an error,
The plurality of covers include a cover related to the fixing device and a cover not related to the fixing device, and each of the plurality of covers is provided with a cover open / close detection means for detecting opening / closing of the cover,
When an error detection signal is input from the error detection means, the energization to the heating means is stopped, and the cover is opened only from the cover open / close detection means of the cover not related to the fixing device. An image forming apparatus, comprising: a control unit that controls to resume energization of the heating unit when a detection signal is input.   The control means does not receive a detection signal indicating that the cover has been closed from a cover opening / closing detection means that has output the detection signal within a predetermined time after the detection signal indicating that the cover has been opened. 2. The image forming apparatus according to claim 1, wherein energization to the heating unit is stopped in the case of occurrence. In an image forming apparatus provided with an openable and closable sheet feeding unit, a heating unit for heating the fixing device, and an error detection unit for detecting an error,
The paper feed unit is provided with paper feed unit open / close detection means for detecting opening / closing thereof,
When an error detection signal is input from the error detection unit, the energization to the heating unit is stopped, and further, a detection signal indicating that the paper feed unit has been opened is input from the paper feed unit open / close detection unit. An image forming apparatus comprising a control unit that controls to resume energization of the heating unit.   If the detection signal indicating that the cassette has been closed is not input from the paper feed unit opening / closing detection means within a predetermined time after the detection signal indicating that the cassette has been opened is input. The image forming apparatus according to claim 3, wherein energization of the heating unit is stopped.

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