JP2002328566A - Power saving device for image forming device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the temperature rise of the ambient members of a fixing part after shifting to a power saving mode. SOLUTION: As for the image forming device provided with a fixing part 23 for fixing a transferred toner image to transfer paper by the heat of a heater 23c which is heated up to a fixation temperature, and a cooling fan 26 which is driven with a 1st cooling ability so as to exhaust the heat around the fixing part 23, in the case instructions to form an image are not continuously given for a prescribed time, the device mode is shifted by a control part 4 to the power saving mode of stopping the heating action of the heater 23c up to the fixation temperature, and also, the cooling fan 26 is stopped to be driven later than the device mode is shifted to the power saving mode, and in the case instructions to form an image are given after the device mode is shifted to the power saving mode, a copying operation is made in an stably state until the temperature of the fixing part 23 returns to the fixation temperature, and the copying operation is started when the temperature returns to the fixation temperature.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power saving device for reducing the power consumption of an image forming apparatus.

[0002]

2. Description of the Related Art In a conventional image forming apparatus, a toner image formed by an image forming section including a photoreceptor or the like is transferred onto a transfer sheet fed from a sheet feeding section to a photoreceptor, and then fixed. The sheet is fixed on the transfer paper at the section and discharged.

The fixing unit generally employs a heat roller fixing system including a heating roller and a pressure roller in terms of speeding up and safety. In the heat roller fixing method, the pressure roller is pressed against the heat roller with a predetermined pressure, and the transfer paper on which the toner image has been transferred is passed between the heat roller and the pressure roller and heated to the fixing temperature. The toner image is fused and fixed on the transfer paper by heat from the heating roller and pressure of the pressure roller. As the heater of the heating roller, a heater having a large heat capacity and a large power consumption to prevent a change in heat is employed. Further, the image forming apparatus includes a cooling fan in the vicinity of the fixing unit, and suppresses a rise in temperature of a member disposed around the fixing unit by releasing heat with the fan. .

On the other hand, it is known that the time during which the image forming apparatus is not used even after the main power is turned on is not short. Therefore, conventionally, in order to save power of the image forming apparatus, when the unused state continues for a predetermined time, the image forming apparatus is configured to shift from the standby state to the power saving mode. In this power saving mode, the heater is brought into a completely stopped state or a preheating state in which the temperature level is lower than the fixing temperature, and the operation of the fan and the like is stopped, and only the display indicating that the mode is the power saving mode is performed. Was.

[0005]

However, in the above-described conventional image forming apparatus, the level of the power supply to the heater and the stop of the operation of the fan are simultaneously performed by shifting to the power saving mode. As a result, heat is dissipated due to the heat capacity of the fixing member, and the temperature of the peripheral member of the fixing portion rises, thereby affecting the peripheral member made of synthetic resin such as thermal deformation and thermal fatigue.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a power saving device for an image forming apparatus which prevents the temperature of peripheral members of a fixing unit from rising after shifting to a power saving mode.

Another object of the present invention is to provide a power saving device of an image forming apparatus which saves power as much as possible.

[0008]

According to one aspect of the present invention, a fixing unit for fixing a transfer toner image to transfer paper by the heat of a heater heated to a fixing temperature is provided. A cooling unit driven by the cooling capacity of 1 to discharge heat around the fixing unit.
A mode control means for shifting to a power saving mode for stopping the heating operation of the heater to the fixing temperature when an instruction for image formation is not continuously performed for a predetermined time; and a time point for shifting to the power saving mode. A stop control unit for stopping the driving of the cooling unit with a delay from the above, and when there is an instruction to execute image formation after the shift to the power saving mode, the copying operation is continued until the fixing unit returns to the fixing temperature. Image forming control means for waiting for the start and starting the copying operation when the fixing temperature is restored.

According to this configuration, when an instruction for image formation is not given continuously for a predetermined time, the mode shifts to the power saving mode, the heating operation to the fixing temperature by the heater is stopped, and the mode shifts to the power saving mode. , The driving of the cooling means is stopped. Therefore, power saving can be achieved by stopping the heating operation of the heater in the power saving mode, and adverse effects due to a rise in the temperature of the fixing unit can be prevented. Further, when there is an instruction to execute image formation after the transition to the power saving mode, the start of the copying operation is waited until the fixing unit returns to the fixing temperature, and the copying is performed when the fixing temperature is restored. Since the operation is started, the occurrence of a copy failure can be reliably prevented. Further, since other operations can be performed during the time until the fixing unit returns to the fixing temperature, the workability can be improved.

[0010] The invention described in claim 2 is the same as the claim 1.
In the power saving device for an image forming apparatus according to (1), in the power saving mode, the heater is heated to a temperature level lower than the fixing temperature.

According to this configuration, compared with the case of the power saving mode in which the heating operation of the heater is completely stopped, the fixing of the fixing unit when there is an instruction to execute image formation after the transition to the power saving mode is performed. The time required to return to the temperature can be reduced.

Further, the invention described in claim 3 is the first invention.
3. The power saving device of the image forming apparatus according to claim 2, further comprising a cooling control unit configured to reduce a cooling capability of the cooling unit to a second cooling capability lower than the first cooling capability when the mode shifts to the power saving mode. It is provided.

According to this configuration, when the mode shifts to the power saving mode, the cooling capacity of the cooling means is reduced from the first cooling capacity to the second cooling capacity, whereby power consumption for driving the cooling means is reduced. You.

The invention described in claim 4 is the first invention.
4. The power saving device of the image forming apparatus according to claim 3, wherein a temperature detection unit that detects a temperature inside the device main body, and a temperature detected last time by the temperature detection unit after shifting to the power saving mode. 5. Determining means for determining whether or not the temperature detected this time shows a tendency to level off, and when the determining means determines that the temperature detected last time and the temperature detected this time are trending flat, the stop control means The driving of the cooling means is stopped.

According to this configuration, when the temperature in the apparatus main body is detected and the temperature detected last time and the temperature detected this time show a tendency to level off after shifting to the power saving mode, the driving of the cooling means is stopped. As a result, a rise in the temperature of the fixing unit is prevented, and the power consumption is further reduced.

The invention described in claim 5 is the first invention.
5. The power saving device for an image forming apparatus according to claim 4, further comprising: a temperature detection unit configured to detect a temperature in the device main body; and a temperature detected by the temperature detection unit after a transition to the power saving mode. Discriminating means for discriminating whether or not the temperature rise rate of the currently detected temperature is gradual; when the discriminating means determines that the temperature rise rate of the previously detected temperature and the current detected temperature is gradual, The stop control means stops driving of the cooling means.

According to this configuration, the temperature in the apparatus main body is detected, and when the temperature rise rate of the previously detected temperature and the currently detected temperature becomes gentle after the shift to the power saving mode, the driving of the cooling means is stopped. Therefore, power consumption is further reduced.

[0018]

FIG. 3 is a front view showing an embodiment of the internal structure of an image forming apparatus to which the present invention is applied.

The apparatus main body 1 of the image forming apparatus includes a sheet feeding unit 10 disposed at a lower portion, a sheet transporting unit 20 disposed at an upper portion thereof, and an image forming unit 30 disposed at an upper portion thereof. , An optical unit 40 disposed at the top, a contact glass 2 disposed at the center of the upper surface, and a document holder 3 for pressing a document on the contact glass 2.

The paper supply unit 10 includes a paper supply cassette 11 for storing transfer paper and a paper supply roller 12 disposed at the right end of the paper supply cassette 11. Paper cassette 1
1 is provided with a paper loading plate 13 urged upward, and transfer papers are stacked and loaded on the paper loading plate 13. The paper feed roller 12 has a half-moon shape in cross section, and is disposed with a flat portion facing downward in a stopped state.
1 does not hinder the attachment and detachment.

The optical section 40 includes an exposure lamp 41 and a reflection plate 4.
2, reflecting mirrors 43a, 43b, 43c, 43d, 43e,
43f and a lens unit 44, and the exposure lamp 41, the reflector 42 and the reflector 43a, and the reflectors 43b and 43c are reciprocally driven in the left and right directions at a predetermined speed. The original image is scanned during forward movement to generate an optical image of the original.

The image forming section 30 has a photoreceptor 31 rotatably supported, and has a main charging section 32, a developing section 33, a transfer separation section 34, a cleaning section around the photoreceptor 31 from the upstream side in the rotation direction. 35 and a static elimination unit 36. The main charging unit 32 uniformly charges the surface of the photoconductor 31 to a predetermined potential. An area for exposing a light image of the document is provided immediately downstream of the main charging unit 32. An electrostatic latent image is formed on the surface of the photoconductor 31 by the light image. It is supposed to be. The developing unit 33 performs development by attaching toner to the electrostatic latent image.
The transfer / separation unit 34 transfers the toner image on the surface of the photoconductor 31 to transfer paper and separates the transfer paper after transfer from the photoconductor 31. The cleaning unit 35 is for cleaning the toner remaining on the surface of the photoconductor 31 after the transfer. The charge removing section 36 is for erasing residual charges on the surface of the photoconductor 31.

The paper transport section 20 is located at the upstream side in the transport direction.
A pair of transport rollers 21 for transporting the transfer paper fed from the paper supply unit 10 toward the photoconductor 31, a pair of registration rollers 22 driven in synchronization with the scanning timing of the optical unit 40, and separated from the photoconductor 31 The image forming apparatus includes a fixing unit 23 that conveys the transfer toner image on the transfer paper while fixing the transfer toner image, and a discharge roller pair 25 that discharges the transfer paper onto a discharge tray 24.

The fixing section 23 includes a heating roller 23a and a pressure roller 23b. The heating roller 23a includes a heater 23c disposed inside the roller, and a temperature sensor (not shown) for detecting the temperature of the roller surface. The on / off control of the heater 23c allows the transfer toner image to be suitably formed on the transfer paper. It is maintained at the fixing temperature for fixing. Pressure roller 23
b is made of a material whose surface is slightly softer than the surface of the heating roller 23a, and is pressed against the heating roller 23a with a required urging force.

Further, the apparatus main body 1 includes a cooling fan 26 disposed at an appropriate position above the fixing unit 23 and a temperature sensor 37 disposed at an appropriate position of the image forming unit 30. The cooling fan 26 suppresses a rise in the temperature of the fixing unit 23 and members disposed around the fixing unit 23 by blowing air outward from an unillustrated ventilation hole formed in the apparatus main body 1. The temperature sensor 37 includes a thermistor or the like, and detects a temperature inside the apparatus main body 1.

FIG. 1 is a block diagram showing a control configuration of the image forming apparatus.

The image forming apparatus includes a control unit 4 including a microcomputer having a timer function and the like, and the control unit 4 controls the operation of each unit.

The operation unit 50 is disposed at an appropriate position on the surface of the apparatus main body 1 and has a print key 5 for starting a copying operation.
1. Operation keys such as a copy number setting key 52 for setting the number of copies for each document and a magnification setting key 53 for setting a copy magnification are provided.

The display section 60 is provided at an appropriate position on the surface of the apparatus main body 1 and is composed of an LCD panel, an LED, and the like. The display section 60 displays the number of copies set by the copy number setting key 52 and the copy magnification set by the magnification setting key 53. Is what you do. In addition, the display unit 60 includes a power saving mode display unit 61 for displaying the effect of shifting to a power saving mode described later.

The control unit 4 includes a ROM 4a for storing control programs and the like and a RAM 4 for temporarily storing various data.
b, and when the print key 51 is pressed, the paper transport unit 20, the image forming unit 30, and the optical unit 40 are controlled according to the contents set by operating the operation keys such as the magnification setting key 53 to perform the copying operation. Is to start.

When the operation of the operation keys of the operation unit 50 is not continuously performed for a predetermined time, the control unit 4
The image forming apparatus is shifted to a power saving mode according to a procedure described later. The control unit 4 returns the image forming apparatus to a normal operation state when an operation on the operation key of the operation unit 50 is performed in the power saving mode.

In the power saving mode, the power saving mode display section 6
Only one display operation is performed, and other display operations of the display unit 60 and operations such as an operation of energizing the heater 23c of the heating roller 23a are stopped. After the shift to the power saving mode, the rotational drive of the cooling fan 26 is stopped with a delay as described later.

Further, the control unit 4, the cooling controls the rotation of the fan 26, under normal operating conditions is rotated at the first rotation speed V _1, the first from the transition point to the power-saving mode in the second lower than the rotational speed V ₁ of the rotational speed V ₂ to perform the rotation of the cooling fan 26. Incidentally, it is set to V ₂ = V _1/2 in this embodiment.

When the print key 51 is pressed in the power saving mode, the start of the copying operation is waited until the heating roller 23a returns to the fixing temperature, and the copying operation is started when the heating roller 23a returns to the fixing temperature. ing. As a result, the occurrence of a copy failure can be reliably prevented. In addition, since other operations can be performed during the time from when the print key 51 is pressed to when the print key 51 is restored, workability can be improved.

Next, the operation of the image forming apparatus having the above configuration will be described.

When the copy magnification is set by the magnification setting key 53, the number of copies is set by the copy number setting key 52, and the print key 51 is pressed, the copying operation is started.
That is, the light from the exposure lamp 41 is reflected by the original placed on the contact glass 2 and the reflected light is reflected by the reflecting mirror 4.
After being guided to the lens unit 44 through 3a to 43c, the photosensitive member 31 is exposed through the reflecting mirrors 43d to 43f. At this time, the surface of the photoconductor 31 is uniformly charged by the charging unit 32, and the transfer area of the photoconductor 31 is exposed by the optical unit 40 to form an electrostatic latent image. Next, the charged toner supplied from the developing unit 33 to the photoconductor 31 adheres to the electrostatic latent image and development is performed.

On the other hand, the paper feed roller 1 on which the uppermost transfer paper of the transfer paper stacked and mounted on the paper mounting plate 13 is driven to rotate.
The sheet is fed in contact with the second cylindrical portion, and is conveyed to the registration roller pair 22 by the conveyance roller pair 21. Next, the transfer paper is transported by the registration roller pair 22 in synchronization with the operation of the optical unit 40, and is transported to the gap between the photoconductor 31 and the transfer separation unit 34.

The transfer / separation unit 34 causes the photosensitive member 31
Is then transferred from the photosensitive member 31 and conveyed to the fixing unit 23. The transfer paper is transported between the heating roller 23a and the pressure roller 23b which rotate in the fixing unit 23, and the toner image transferred onto the transfer paper is heated by the heat roller 23a and the pressure roller 23b.
Is fused and fixed on the transfer paper by the pressure of
5 and is stacked on the discharge tray 24.

FIG. 2 is a flowchart showing a procedure for shifting to the power saving mode.

First, a timer count is started (step S100), and then it is determined whether any operation key of the operation unit 50 has been operated (step S11).
0), if any operation key is operated (step S
If YES at 110, the timer count is stopped and this routine ends (step S115).

On the other hand, if none of the operation keys is operated (NO in step S110), it is determined whether a predetermined time has elapsed (step S120), and if the predetermined time has not elapsed (NO in step S120). Returning to step S110, the determination of the presence or absence of the operation and the timer count are performed in parallel.

When a predetermined time has elapsed without operating the operation keys (YES in step S120), the mode shifts to the power saving mode, and the power supply to the heater 23c is stopped.
While the display of the power saving mode display section 61 is turned on,
The rotation speed of the cooling fan 26 is decelerated from the first rotation speed V ₁ to a second rotational speed V ₂ (step S130).

Subsequently, the temperature is detected by the temperature sensor 37 (step S140), and it is determined whether or not the current detected temperature is lower than the previous detected temperature (step S150). If the temperature has not dropped (NO in step S150), it is determined whether any operation key of operation unit 50 has been operated (step S16).
0), if any operation key is operated (step S
160 (YES), return from the power saving mode to the normal state, and terminate this routine (step S170).

On the other hand, if none of the operation keys is operated (NO in step S160), the flow returns to step S140, and the temperature detection is repeated for each predetermined sampling time. If it has decreased (YES in step S150), cooling fan 26 is stopped (step S180).

As described above, at the time of shifting to the power saving mode,
Since the cooling fan 26 is not stopped at the same time as the heater 23c, the temperature rise of the fixing unit 23 and the peripheral members can be suppressed, and the adverse effect on the peripheral members due to the temperature rise of the fixing unit 23 can be reliably prevented. be able to. Further, after the transition to the power saving mode can be because the rotation speed of the cooling fan 26 and the first rotational speed V ₁ so as to decelerate the second rotation speed V _2, to reduce power consumption.
Further, since the temperature in the apparatus main body 1 is detected and the rotation of the cooling fan 26 is stopped after the temperature shows a tendency to decrease, power saving can be further achieved.

In the power saving mode, the control unit 4
The heater 23c may be heated to a temperature level lower than the fixing temperature. In this case, the time required to return to the fixing temperature when the operation key is operated can be reduced.

Further, as the temperature sensor 37, a temperature sensor for controlling the toner density of the developing unit 33 may be used.

In the above-described embodiment, the fan 26 is stopped after the detected temperature shows a tendency to decrease in the power saving mode. However, the present invention is not limited to this, and the detected temperature tends to be flat. At this time, or when the rate of increase in the detected temperature becomes gentle, the fan 26 may be stopped.

[0049]

As described above, according to the first aspect of the present invention, when an instruction for image formation is not continuously given for a predetermined time, the mode shifts to the power saving mode, and the fixing temperature by the heater is reduced to the fixing temperature. The heating operation is stopped, and the driving of the cooling means is stopped with a delay from the shift to the power saving mode. by this,
By stopping the heating operation of the heater in the power saving mode, power can be saved, and adverse effects due to a rise in the temperature of the fixing unit can be prevented. Further, when there is an instruction to execute image formation after shifting to the power saving mode, the start of the copying operation is waited until the fixing unit returns to the fixing temperature,
Since the copying operation is started when the temperature returns to the fixing temperature, it is possible to reliably prevent the occurrence of a copying failure. Further, since other operations can be performed during the time until the fixing unit returns to the fixing temperature, the workability can be improved.

According to the second aspect of the present invention, in the power saving mode, the heater is heated to a temperature level lower than the fixing temperature, so that the heating operation of the heater is completely stopped. Compared with the case, the time required for the fixing unit to return to the fixing temperature when an instruction to execute image formation is issued after the transition to the power saving mode can be reduced.

According to the third aspect of the present invention, when the mode shifts to the power saving mode, the cooling capacity of the cooling means is reduced from the first cooling capacity to the second cooling capacity, so that the power consumption for driving the cooling means is reduced. The power can be reduced.

According to the fourth aspect of the present invention, the temperature in the apparatus main body is detected, and when the temperature detected last time and the current detected temperature show a tendency to be flat after shifting to the power saving mode, the driving of the cooling means is stopped. Therefore, the power consumption can be further reduced while preventing the temperature of the fixing unit from rising.

According to the fifth aspect of the present invention, the temperature in the apparatus main body is detected, and the drive of the cooling means is performed when the temperature rise rate between the previous detected temperature and the present detected temperature becomes gentle after the shift to the power saving mode. Since the operation is stopped, power consumption can be further reduced.

[Brief description of the drawings]

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

FIG. 2 is a flowchart illustrating an operation procedure in a power saving mode.

FIG. 3 is a front view showing the internal configuration of the embodiment.

[Explanation of symbols]

4 Control Unit (Mode Control Unit, Stop Control Unit, Cooling Control Unit, Discriminating Unit, Image Forming Control Unit) 10 Paper Feeding Unit 20 Paper Conveying Unit 23 Fixing Unit 23c Heater 26 Cooling Fan (Cooling Unit) 30 Image Forming Unit 37 Temperature Sensor (Temperature detecting means) 40 Optical unit 50 Operation unit 60 Display unit 61 Power saving mode display unit

Continuation of the front page (72) Inventor Junichi Takamatsu 1-2-28 Tamazo, Chuo-ku, Osaka-shi F-term in Kyocera Mita Corporation (reference) 2H027 DA12 DA13 DA40 DE07 DE09 EA11 EA12 EC06 EC09 ED25 EE01 EF16 EJ19 JA11 JB16 JB24 JC01 JC08 2H033 AA32 BA25 BA29 BA30 BB01 BB28 CA07 CA08 CA30 CA32

Claims (5)

[Claims] 1. A fixing unit for fixing a transfer toner image to transfer paper by heat of a heater heated to a fixing temperature, and a cooling unit driven by a first cooling capacity to discharge heat around the fixing unit. A mode control unit that shifts to a power saving mode in which an operation of heating the heater to the fixing temperature is stopped when an instruction for image formation is not continuously performed for a predetermined time in the image forming apparatus provided with: A stop control unit for stopping the driving of the cooling unit with a delay from the time point of transition to the power saving mode; and, when there is an instruction to execute image formation after the transition to the power saving mode, the fixing unit operates at the fixing temperature. And an image forming control means for starting the copying operation when the fixing temperature is restored, and for starting the copying operation when the fixing temperature is restored. 2. The power saving device according to claim 1, wherein the heater is heated to a temperature level lower than the fixing temperature in the power saving mode. 3. A cooling control means for reducing the cooling capacity of said cooling means to a second cooling capacity lower than said first cooling capacity when shifting to said power saving mode. A power saving device for the image forming apparatus according to claim 2. 4. A temperature detecting means for detecting a temperature in the apparatus main body, and a determination is made as to whether or not the previous temperature detected by the temperature detecting means and the current temperature detected by the temperature detecting means show a tendency to be flat after the shift to the power saving mode. Determining means for stopping the driving of the cooling means when the determining means determines that the temperature detected last time and the temperature detected this time tend to be flat. The power saving device for an image forming apparatus according to claim 1. 5. A temperature detecting means for detecting a temperature in the apparatus main body, and whether or not a temperature rise rate between a temperature detected last time and a temperature detected this time by the temperature detecting means after the shift to the power saving mode is gentle. Determining means for determining whether the temperature rise rate of the previously detected temperature and the current detected temperature is gentle, and the stop control means stops driving of the cooling means. The power saving device for an image forming apparatus according to claim 1, wherein