JP6899076B2 - Image forming device - Google Patents

Description

The present invention relates to an image forming apparatus.

Some image forming devices include a thermistor that detects the temperature of the drive unit, and based on the temperature detected by the thermistor, the operation of the drive unit is stopped or the operation of the cooling fan is started (). For example, see Patent Document 1).

Japanese Unexamined Patent Publication No. 2016-68451

However, in the above-mentioned image forming apparatus, due to the temperature resolution of the thermistor, the detection of the threshold temperature for stopping the operation of the engine part or starting the operation of the cooling fan may be delayed, and the operation of the print engine part is stopped. The length of the cooling mode period at which the operation of the cooling fan is started is not stable and may become long. If the cooling mode is long, the user cannot print during that time, which is inconvenient.

The present invention has been made in view of the above problems, and an object of the present invention is to obtain an image forming apparatus capable of setting a cooling mode period to an appropriate length.

The image forming apparatus according to the present invention includes a printing apparatus, a print engine that controls the printing apparatus, a sensor that detects the in-machine temperature of the image forming apparatus, and an in-flight temperature that monitors the in-machine temperature detected by the sensor. A monitoring unit, a mode control unit that switches the operation mode of the image forming apparatus from one of the normal operation mode and the cooling mode to the other based on the temperature inside the machine, and a controller that transmits a print command to the print engine. Be prepared. When the in-flight temperature exceeds the first threshold value in the normal operation mode, the mode control unit continuously determines whether or not the in-flight temperature exceeds the first threshold value for a predetermined first time, and determines whether or not the in-flight temperature exceeds the first threshold value. When the in-machine temperature exceeds the first threshold value continuously for one hour, the operation mode is switched from the normal operation mode to the cooling mode. Then, in the normal operation mode, the print engine executes the printing operation of the printing device based on the printing command, and in the cooling mode, the printing operation of the printing device is stopped, and the controller controls the cooling. In the mode, the cooling fan that was not operating in the normal operation mode is operated, or the air volume of the cooling fan that was operating in the normal operation mode is increased.

According to the present invention, it is possible to obtain an image forming apparatus in which the period of the cooling mode can be set to an appropriate length.

The above or other objects, features and advantages of the present invention will be further clarified from the following detailed description along with the accompanying drawings.

FIG. 1 is a block diagram showing a configuration of an image forming apparatus according to an embodiment of the present invention. FIG. 2 is a flowchart illustrating the operation of the image forming apparatus shown in FIG. FIG. 3 is a diagram showing an example of changes in the in-flight temperature and sensor measured values in the image forming apparatus shown in FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing a configuration of an image forming apparatus according to an embodiment of the present invention. The image forming apparatus shown in FIG. 1 includes a printing apparatus 1, a print engine 2, an image reading apparatus 3, a communication apparatus 4, and an operation panel 5. The image forming apparatus shown in FIG. 1 is a multifunction device, but may be a printer, a copier, a facsimile machine, or the like.

The printing device 1 is an internal device that prints an image on printing paper. Here, the printing device 1 is an electrophotographic printing device, in which an exposure device forms an electrostatic latent image on a photoconductor drum, and a developing device develops the electrostatic latent image with toner, and the developed toner is used. The image is transferred to the printing paper, and the toner image is fixed on the printing paper with a fixing device.

The print engine 2 is an internal device that controls each part of the printing device 1 to execute printing. The print engine 2 is composed of a circuit such as an ASIC (Application Specific Integrated Circuit) or a microcomputer.

The image reading device 3 is an internal device that optically reads the original image of the original and generates image data of the original image. The communication device 4 is an internal device that executes data communication with an external device such as a host device. The operation panel 5 is an internal device that is arranged on the housing of the image forming device and includes a display device that displays various screens to the user and an input device that accepts user operations.

Further, the image forming apparatus shown in FIG. 1 includes a cooling fan 11, a fan drive circuit 12, a cooling fan 13, a fan drive circuit 14, a sensor 15, a sensor circuit 16, and a controller 17.

The cooling fans 11 and 13 are fans for cooling a predetermined portion and discharging the air inside the machine to the outside of the machine. The fan drive circuits 12 and 14 are circuits for driving the cooling fans 11 and 13, respectively.

The sensor 15 is an element such as a thermistor that is arranged at a specific part in the machine to detect the temperature inside the machine. The sensor circuit 16 outputs an electric signal corresponding to the in-flight temperature detected by the sensor 15.

The controller 17 controls the internal device of the image forming apparatus. For example, the controller 17 supplies a print command to the print engine 2 and causes the print device 1 and the print engine 2 to print an image specified by the print command. The controller 17 is composed of a circuit such as an ASIC or a microcomputer.

The print engine 2 includes an in-flight temperature monitoring unit 21 and a mode control unit 22.

The in-flight temperature monitoring unit 21 monitors the in-flight temperature detected by the sensor 15. Specifically, the in-flight temperature monitoring unit 21 periodically reads the output level of the sensor circuit 16 and specifies the in-flight temperature based on the output level.

The mode control unit 22 switches the operation mode of the image forming apparatus from one of the normal operation mode and the cooling mode to the other based on the temperature inside the machine.

Specifically, in the normal operation mode, when the detected in-flight temperature exceeds the first threshold value (for example, 38 degrees Celsius), the mode control unit 22 continuously performs the in-flight temperature for a predetermined first time (for example, 60 seconds). Determines whether or not the temperature exceeds the first threshold value, and if the detected in-flight temperature exceeds the first threshold value continuously for a predetermined first time, the operation mode is switched from the normal operation mode to the cooling mode.

Further, the mode control unit 22 continues for a predetermined second time (for example, 60 seconds) when the detected in-flight temperature becomes lower than the second threshold value (for example, 37 degrees Celsius) lower than the first threshold value in the cooling mode. It is determined whether or not the in-flight temperature has become lower than the second threshold value, and if the detected in-flight temperature becomes lower than the second threshold value after a predetermined second time, the operation mode is changed from the cooling mode to the normal operation. Switch to mode. The second time may be set to zero if necessary.

Here, the print engine 2 executes the printing operation of the printing device 1 based on the printing command from the controller 17 in the normal operation mode, and stops the printing operation of the printing device 1 in the cooling mode. At this time, when the print engine 2 shifts from the normal operation mode to the cooling mode, the controller 17 notifies the controller 17 that the mode has shifted to the cooling mode, and the controller 17 does not supply the print command to the print engine 2 in the cooling mode. Further, in the cooling mode, the controller 17 operates the cooling fans 11 and 13 that were not operating in the normal operation mode, or increases the air volume of the cooling fans 11 and 13 that were operating in the normal operation mode. For example, if the cooling fan 11 is operating and the cooling fan 13 is stopped at the time of shifting to the cooling mode, the cooling fan 13 starts operating. Further, all the cooling fans 11 and 13 may be operated to maximize their air volume. When the print engine 2 shifts from the cooling mode to the normal operation mode, the controller 17 notifies the controller 17 that the mode has shifted to the normal operation mode, and when the print engine 2 returns to the normal operation mode, the controller 17 resumes supplying print commands to the print engine 2. ..

Next, the operation of the image forming apparatus will be described. FIG. 2 is a flowchart illustrating the operation of the image forming apparatus shown in FIG.

The print engine 2 starts printing in the normal operation mode according to the print command from the controller 17 (step S1). When printing is started, the temperature inside the machine rises due to heat generated by the fixing device, the drive unit, and the like in the printing device 1. After the start of printing, the print engine 2 monitors the in-flight temperature with the in-flight temperature monitoring unit 21, repeatedly determines whether or not the in-flight temperature exceeds the first threshold value (step S2), and whether or not printing is completed. Is determined (step S3).

When it is determined that the in-flight temperature exceeds the first threshold value, the in-flight temperature monitoring unit 21 determines whether or not the in-flight temperature continuously exceeds the first threshold value for a predetermined first time (step S4). For example, the in-flight temperature monitoring unit 21 repeats in step S2 at predetermined time intervals, specifies the in-flight temperature, determines whether or not the in-flight temperature exceeds the first threshold value, and in step S4, the time is shorter than in step S2. It may be repeated at intervals to specify the in-flight temperature and determine whether or not the in-flight temperature continuously exceeds the first threshold value.

If the in-flight temperature does not continuously exceed the first threshold for the predetermined first hour (that is, if the time for which the first threshold is continuously exceeded is less than the first hour), the process returns to step S2 and printing is performed. The engine 2 continues the above-mentioned monitoring.

On the other hand, when the in-machine temperature continuously exceeds the first threshold value for a predetermined first time, the mode control unit 22 switches the operation mode from the normal operation mode to the cooling mode and stops printing (step S5).

When printing is stopped, the heat generated by the printing device 1 is reduced, so that the temperature inside the machine is lowered. After the printing is stopped, the in-machine temperature monitoring unit 21 monitors the in-machine temperature and repeatedly determines whether or not the in-machine temperature is less than the second threshold value (step S6).

When it is determined that the in-flight temperature exceeds the second threshold value, the in-flight temperature monitoring unit 21 determines whether or not the in-flight temperature has been continuously below the second threshold value for a predetermined second time (step S7). For example, in step S6, the in-flight temperature monitoring unit 21 repeats at predetermined time intervals, identifies the in-flight temperature, determines whether or not the in-flight temperature is less than the second threshold value, and in step S7, the time is shorter than in step S6. It may be repeated at intervals to specify the in-flight temperature and determine whether or not the in-flight temperature is less than the second threshold value.

If the in-flight temperature does not continuously exceed the second threshold value for a predetermined second time (that is, if the time that has been continuously less than the second threshold value is less than the second time), the process returns to step S6 and the in-flight temperature is increased. The temperature monitoring unit 21 continues the above-mentioned monitoring.

On the other hand, when the in-machine temperature is continuously below the second threshold value for a predetermined second time, the mode control unit 22 switches the operation mode from the cooling mode to the normal operation mode, and resumes printing stopped in step S5. (Step S8). After that, the process returns to step S2, and the print engine 2 continues the above-mentioned monitoring.

As described above, according to the above embodiment, the print engine 2 controls the printing device 1. The sensor 15 detects the temperature inside the machine. The in-flight temperature monitoring unit 21 monitors the in-flight temperature detected by the sensor 15. The mode control unit 22 switches the operation mode of the image forming apparatus from one of the normal operation mode and the cooling mode to the other based on the temperature inside the machine. Specifically, in the normal operation mode, when the in-flight temperature exceeds the first threshold value, the mode control unit 22 continuously determines whether or not the in-flight temperature exceeds the first threshold value for a predetermined first time, and determines whether or not the in-flight temperature exceeds the first threshold value. When the in-flight temperature exceeds the first threshold value continuously for 1 hour, the operation mode is switched from the normal operation mode to the cooling mode.

This makes it possible to set the duration of the cooling mode to an appropriate length. That is, when a sensor having a low resolution such as a thermistor is used for the sensor 15, the detection temperature fluctuates near the first threshold value, so that the cooling mode is started after the first threshold value is continuously exceeded for a predetermined first time. By doing so, the variation in the actual in-flight temperature at the time of shifting to the cooling mode is reduced, and by extension, the variation in the cooling mode period is reduced. Therefore, by appropriately setting the first threshold value and the first time, it is possible to set the time during which printing is stopped in the cooling mode to a desired time (for example, several minutes) or less.

FIG. 3 is a diagram showing an example of changes in the in-flight temperature and sensor measured values in the image forming apparatus shown in FIG. In the case of FIG. 3, the sensor 15 is installed in the developing device, and the in-machine temperature is separately measured by a thermometer. In the example shown in FIG. 3, the first threshold is set to 38 degrees Celsius, the second threshold is set to 37 degrees Celsius, and the first and second times are set to 60 seconds. Is about 3 minutes.

It should be noted that various changes and modifications to the above-described embodiments will be apparent to those skilled in the art. Such changes and modifications may be made without departing from the intent and scope of the subject and without diminishing the intended benefits. That is, such changes and amendments are intended to be included in the claims.

The present invention is applicable to, for example, an image forming apparatus.

1 Printing device 2 Print engine 11, 13 Cooling fan 15 Sensor 17 Controller 21 In-flight temperature monitoring unit 22 Mode control unit

Claims (2)

In the image forming apparatus
Printing equipment and
A print engine that controls the printing device,
A sensor that detects the temperature inside the image forming device and
An in-flight temperature monitoring unit that monitors the in-flight temperature detected by the sensor,
A mode control unit that switches the operation mode of the image forming apparatus from one of the normal operation mode and the cooling mode to the other based on the temperature inside the machine .
It is equipped with a controller that sends print commands to the print engine.
When the in-flight temperature exceeds the first threshold value in the normal operation mode, the mode control unit continuously determines whether or not the in-flight temperature exceeds the first threshold value for a predetermined first time, and determines whether or not the in-flight temperature exceeds the first threshold value. When the in-flight temperature exceeds the first threshold value continuously for one hour, the operation mode is switched from the normal operation mode to the cooling mode .
In the normal operation mode, the print engine executes the printing operation of the printing device based on the printing command, and in the cooling mode, stops the printing operation of the printing device.
In the cooling mode, the controller operates a cooling fan that was not operating in the normal operation mode, or increases the air volume of the cooling fan that was operating in the normal operation mode.
An image forming apparatus characterized by. In the cooling mode, when the in-flight temperature becomes lower than the second threshold value lower than the first threshold value, the mode control unit continuously lowers the in-flight temperature below the second threshold value for a predetermined second time. When it is determined whether or not the temperature in the machine becomes lower than the second threshold value continuously for the second time, the operation mode is switched from the cooling mode to the normal operation mode.
The image forming apparatus according to claim 1.

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