JP6760201B2 - Image forming device - Google Patents

Description

The present invention relates to an image forming apparatus including removable replacement parts.

Generally, the image forming apparatus includes replacement parts such as a toner container, a developer (development unit), a photoconductor (photoreceptor unit), and an ink cartridge.

The replacement part may be provided with a wireless tag in which unique information of the replacement part (for example, model number, serial number, toner or ink color, etc.) is stored. The communication unit provided in the main body of the image forming apparatus can receive the unique information from the wireless tag by wireless communication. The image forming apparatus determines whether or not the type of the replacement part is correct based on the unique information. Further, in the image forming apparatus, the image forming conditions may be changed according to the type of the replacement part based on the unique information.

As a technique related to the wireless tag, an RFID system for searching whether or not an RFID (Radio Frequency IDentification) tag exists in a communicable area of a reader / writer is known (for example, Patent Document 1). reference).

Japanese Unexamined Patent Publication No. 2011-6806

By the way, if the image forming apparatus operates in a state where the replacement part deviates from a predetermined proper position in the main body, a malfunction may occur. Therefore, in order to determine whether or not the replacement part is correctly mounted in the proper position, a push switch or an optical sensor for detecting the position of the replacement part may be provided in the image forming apparatus. However, if the switch or the sensor is provided, the cost of the image forming apparatus increases accordingly.

An object of the present invention is to provide an image forming apparatus capable of determining whether or not a replacement part is mounted in the correct position without requiring a switch or a sensor for detecting the position of the replacement part. It is in.

The image forming apparatus according to one aspect of the present invention includes a main body, replacement parts, a wireless tag, a communication unit, and a determination processing unit. The main body portion has an image forming portion that forms an image on the sheet. The replacement part is removable from the main body. The wireless tag is provided on the replacement part and stores unique information of the replacement part. The communication unit is provided in the main body unit, and receives the unique information from the wireless tag by wireless communication with the wireless tag. The determination processing unit determines whether or not the replacement component is correctly mounted at a predetermined appropriate position in the main body based on the success or failure of the wireless communication.

According to the present invention, there is provided an image forming apparatus capable of determining whether or not the replacement part is mounted in the correct position without requiring a switch or a sensor for detecting the position of the replacement part. ..

FIG. 1 is a block diagram showing a system configuration of an image forming apparatus according to an embodiment of the present invention. FIG. 2 is a block diagram showing a configuration of a wireless tag in the image forming apparatus according to the embodiment of the present invention. FIG. 3 is a block diagram showing a configuration of a communication unit in the image forming apparatus according to the embodiment of the present invention. FIG. 4 is a diagram showing a replacement part in a state of being correctly mounted at an appropriate position in the image forming apparatus according to the embodiment of the present invention. FIG. 5 is a diagram showing a replacement part in a state of being deviated from an appropriate position in the image forming apparatus according to the embodiment of the present invention. FIG. 6 is a flowchart showing an example of a procedure for mounting state determination processing executed in the image forming apparatus according to the first embodiment of the present invention. FIG. 7 is a flowchart showing an example of a procedure for mounting state determination processing executed in the image forming apparatus according to the second embodiment of the present invention. FIG. 8 is a flowchart showing an example of a procedure for mounting state determination processing executed in the image forming apparatus according to the third embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings for the purpose of understanding the present invention. The following embodiments are examples that embody the present invention, and do not limit the technical scope of the present invention.

[First Embodiment]
First, the first embodiment of the present invention will be described. As shown in FIG. 1, the image forming apparatus 1 according to the first embodiment includes an operation display unit 10, an ADF (Auto Document Feeder) 11, an image reading unit 12, an image forming unit 13, a communication I / F 14, and a storage unit. It includes 15, a communication unit 16, and a control unit 17. Specifically, the image forming apparatus 1 is a multifunction device having a printer function, a scanner function, a copy function, a facsimile function, and the like. The present invention is not limited to multifunction devices, and can be applied to any image forming apparatus such as a copier, a printer, and a facsimile apparatus.

The operation display unit 10 includes a display unit such as a liquid crystal display that displays information, and an operation unit such as a touch panel and operation buttons that accept user operations.

The ADF 11 is an automatic document transporting device that includes a document setting unit, a transport roller, a document retainer, and a paper ejection section, and transports a document to be read by the image reading unit 12.

The image reading unit 12 includes a platen, a light source, a mirror, an optical lens, and a CCD (Charge Coupled Device), and can read an image of a document and output it as image data.

The image forming unit 13 can execute a printing process based on the image data by an electrophotographic method or an inkjet method, and forms an image on the sheet based on the image data. For example, when the image forming unit 13 is an electrophotographic image forming unit, the image forming unit 13 includes a photoconductor drum, a charging device, an exposure device, a developing device, a transfer device, a fixing device, and the like.

The communication I / F14 executes communication processing according to a predetermined communication protocol with an external facsimile machine or an information processing device such as a personal computer via a communication network such as a telephone line, the Internet, or a LAN. Is a possible communication interface.

The storage unit 15 is a non-volatile storage unit such as a hard disk or EEPROM (registered trademark). Various control programs executed by the control unit 17, various data, and the like are stored in the storage unit 15.

The communication unit 16 performs wireless communication with the wireless tag 2. The wireless tag 2 is a passive electronic tag provided in a replacement component 3 such as a toner container, a developing unit, and a photoconductor unit. The replacement part 3 is removable from the main body 4 of the image forming apparatus 1. The replacement component 3 is, for example, a unit including at least one of a toner container, a developing device, and a photoconductor. When the image forming apparatus 1 is an inkjet type image forming apparatus, the replacement component 3 may include an ink cartridge.

The wireless tag 2 stores unique information of the replacement part 3 (for example, model number, serial number, toner or ink color, etc.), and the communication unit 16 communicates with the wireless tag 2 by short-range wireless communication. It is possible to receive the unique information from the wireless tag 2.

The image forming apparatus 1 determines whether or not the type of the replacement component 3 is correct based on the unique information. Further, in the image forming apparatus 1, the image forming conditions in the image forming unit 13 may be changed according to the type of the replacement component 3 based on the unique information.

FIG. 2 is a block diagram showing an example of the configuration of the wireless tag 2. As shown in FIG. 2, the wireless tag 2 includes an antenna 21 for short-range wireless communication, a power supply circuit 22, a signal conversion circuit 23, a microprocessor 24, and a computer-readable non-volatile data storage unit 25.

The data storage unit 25 is, for example, a flash memory or the like. The data storage unit 25 stores in advance unique information (for example, model number, serial number, toner or ink color, etc.) of the replacement component 3.

The power supply circuit 22 rectifies the received signal received by the antenna 21 and applies a DC voltage to the microprocessor 24. The signal conversion circuit 23 demodulates the received signal received by the antenna 21 and transmits the demodulated received signal to the microprocessor 24. Further, the signal conversion circuit 23 modulates the transmission signal output by the microprocessor 24 and transmits the modulated transmission signal to the antenna 21. The transmission signal is output from the antenna 21 as a transmission radio wave.

The microprocessor 24 performs data communication with the communication unit 16 through the antenna 21 and the signal conversion circuit 23. Specifically, when the microprocessor 24 receives a read command from the communication unit 16, the microprocessor 24 transmits the data stored in the data storage unit 25 to the communication unit 16. Further, when the microprocessor 24 receives the write command and the data from the communication unit 16, the microprocessor 24 stores the received data in the data storage unit 25.

The communication unit 16 is a device that reads data from the wireless tag 2 and writes data to the wireless tag 2 by the short-range wireless communication. The communication unit 16 is provided in the main body 4 of the image forming apparatus 1 (see FIG. 4). When the replacement component 3 is mounted on the image forming apparatus 1, the communication unit 16 can read out the unique information of the replacement component 3 from the wireless tag 2 provided on the replacement component 3.

As shown in FIG. 3, the communication unit 16 includes an antenna 161, a signal conversion circuit 162, a microprocessor 163, and a communication I / F 164.

The signal conversion circuit 162 modulates the transmission signal output by the microprocessor 163, and transmits the modulated transmission signal to the antenna 161. The transmission signal is output from the antenna 161 as a transmission radio wave. Further, the signal conversion circuit 162 demodulates the received signal received by the antenna 161 and transmits the demodulated received signal to the microprocessor 163.

The microprocessor 163 performs data communication with the wireless tag 2 through the antenna 161 and the signal conversion circuit 162. Specifically, when reading data from the wireless tag 2, the microprocessor 163 transmits the read command to the wireless tag 2 through the signal conversion circuit 162 and the antenna 161. Further, when writing data to the wireless tag 2, the microprocessor 163 transmits the write command and the data to the wireless tag 2 through the signal conversion circuit 162 and the antenna 161.

The communication I / F 164 is a communication device that performs data communication with the control unit 17. For example, the communication I / F 164 transfers the data read from the wireless tag 2 by the microprocessor 163 to the control unit 17. Further, the communication I / F 164 receives data from the control unit 17 and transfers the received data to the microprocessor 163. As a result, the microprocessor 163 executes the process of writing data to the wireless tag 2.

The control unit 17 includes control devices such as a CPU, ROM, and RAM. The CPU is a processor that executes various arithmetic processes. The ROM is a non-volatile storage unit in which information such as a control program for causing the CPU to execute various processes is stored in advance. The RAM is a volatile or non-volatile storage unit used as a temporary storage memory (work area) for various processes executed by the CPU.

By the way, if the image forming apparatus 1 operates in a state where the replacement component 3 is deviated from a predetermined proper position in the main body 4, a malfunction may occur. Therefore, in order to determine whether or not the replacement component 3 is correctly mounted in the proper position, a switch or a sensor for detecting the position of the replacement component 3 may be provided in the image forming apparatus 1. However, if the switch or the sensor is provided, the cost of the image forming apparatus 1 increases accordingly. On the other hand, according to the image forming apparatus 1 according to the present embodiment, whether or not the replacement part 3 is mounted at the correct position without the need for a switch or a sensor for detecting the position of the replacement part 3. Can be determined.

Specifically, the control unit 17 includes a determination processing unit 171, a notification processing unit 172, and a correction processing unit 173. The control unit 17 functions as each of these processing units by executing various processing according to the control program. Further, the control unit 17 may include an electronic circuit that realizes a part or a plurality of processing functions of each of these processing units.

The determination processing unit 171 determines whether or not the replacement component 3 is correctly mounted in a predetermined appropriate position in the main body unit 4 based on the success or failure of the wireless communication between the communication unit 16 and the wireless tag 2. To do. For example, the determination processing unit 171 determines that the replacement component 3 is correctly mounted at the proper position when the wireless communication between the communication unit 16 and the wireless tag 2 is successful. On the other hand, when the wireless communication fails, the determination processing unit 171 determines that the replacement component 3 is not correctly mounted at the proper position. As described above, in the image forming apparatus 1, is the replacement component 3 correctly mounted in a predetermined appropriate position in the main body 4 based on the success or failure of the wireless communication between the communication unit 16 and the wireless tag 2. Whether or not it is determined. Therefore, it is possible to determine whether or not the replacement part 3 is mounted in the correct position without requiring a switch or a sensor for detecting the position of the replacement part 3.

FIG. 4 shows a state in which the replacement part 3 is correctly mounted at an appropriate position (hereinafter, referred to as “appropriate state”). The replacement part 3 is inserted in the right direction in FIG. The proper state is a state in which the tip end portion (right end portion in FIG. 4) of the replacement part 3 is in contact with the regulation portion 4 b provided on the main body portion 4. In the proper state, the distance between the communication unit 16 (antenna 161) and the wireless tag 2 is a predetermined distance D1 (for example, 5 mm).

On the other hand, FIG. 5 shows a state in which the replacement part 3 is displaced from the proper position (hereinafter, referred to as a “position-displaced state”). In the misaligned state, the distance between the communication unit 16 and the wireless tag 2 is a distance D2 longer than the distance D1.

In addition, in FIGS. 4 and 5, the insertion / removal direction of the replacement part 3 is the horizontal direction, but in other embodiments, the insertion / removal direction of the replacement part 3 may be the vertical direction or the oblique direction. Further, in FIGS. 4 and 5, the wireless tag 2 is provided at the tip of the replacement part 3, but in other embodiments, wireless is applied to a surface other than the tip (for example, a side surface, a lower surface, an upper surface, etc.). The tag 2 may be provided. In this case, the communication unit 16 (antenna 161) is arranged in the main body 4 so that the antenna 161 and the wireless tag 2 are substantially opposed to each other, for example, when the replacement component 3 is correctly mounted at the proper position. To.

In the image forming apparatus 1 according to the first embodiment, the wireless communication is successful when the replacement component 3 is located at the proper position, and the wireless communication is performed when the replacement component 3 is displaced from the proper position. It is configured to fail. Specifically, the image forming apparatus 1 is configured so that the communicable distance of the wireless communication substantially matches the distance between the communication unit 16 and the wireless tag 2 in the proper state. As a result, for example, when the distance between the communication unit 16 and the wireless tag 2 is the distance D1 as shown in FIG. 4, the wireless communication is successful, and as shown in FIG. 5, the communication unit 16 and the communication unit 16 If the distance to the wireless tag 2 is longer than the distance D1 (that is, in the half-inserted state where the replacement component 3 is insufficiently inserted), the wireless communication fails. Therefore, the determination processing unit 171 can determine whether or not the replacement component 3 is correctly mounted in the proper position based on the success or failure of the wireless communication.

The communicable distance of the wireless communication varies depending on the characteristics of the communication unit 16, the characteristics of the wireless tag 2, the characteristics of the members located around the communication unit 16, and the like. Therefore, it is possible to change the communicable distance of the wireless communication to a desired distance by appropriately changing these characteristics at the design stage of the image forming apparatus 1. For example, the resonance frequency (specifically, the capacitance of the capacitor) of the communication unit 16 may be determined by simulation or actual measurement so that the communicable distance of the wireless communication is the distance D1.

When the determination processing unit determines that the replacement component 3 is not correctly mounted in the proper position, the notification processing unit 172 notifies that the replacement component 3 is not correctly mounted in the proper position. For example, the notification processing unit 172 causes the operation display unit 10 to display a warning message indicating that the replacement component 3 is not correctly mounted at the proper position.

The communicable distance of the wireless communication may change over time due to factors such as deterioration of the capacitor of the communication unit 16. If the communicable distance of the wireless communication changes over time, it may be erroneously determined that the replacement part 3 is not correctly mounted in the proper position even though the replacement part 3 is correctly mounted in the proper position. is there. Therefore, in order to suppress such an erroneous determination due to aging, the image forming apparatus 1 may be provided with a correction processing unit 173.

The correction processing unit 173 corrects the intensity of the radio wave output from the communication unit 16 based on the correction information based on the prediction result of the secular change of the communication range of the wireless communication. The correction information is generated based on simulation or actual measurement, and is stored in advance in a non-volatile memory such as the ROM or the storage unit 15. For example, when it is predicted that the communicable distance of the wireless communication will be gradually shortened based on simulation or actual measurement, the correction for gradually increasing the intensity of the radio wave output from the communication unit 16. Information is generated and stored in advance in the non-volatile memory.

Next, an example of the procedure of the mounting state determination process executed by the control unit 17 in the first embodiment will be described with reference to FIG. Here, steps S1, S2 ... Represent the number of the processing procedure (step) executed by the control unit 17. The mounting state determination process is started, for example, when the power of the image forming apparatus 1 is turned on, and is terminated when the power of the image forming apparatus 1 is turned off.

<Step S1>
First, in step S1, the control unit 17 determines whether or not the determination timing for determining the mounting state of the replacement component 3 has arrived. Examples of the determination timing include the timing immediately after the power of the image forming apparatus 1 is turned on, the timing immediately after the cover member of the image forming apparatus 1 is opened and closed, and the timing when it is detected that the replacement component 3 has been replaced. , Timing immediately before the start of the image forming process by the image forming unit 13. Then, when it is determined that the determination timing has arrived (S1: Yes), the process proceeds to step S2. On the other hand, if it is determined that the determination timing has not arrived (S1: No), the process of step S1 is repeated until it is determined that the determination timing has arrived.

<Step S2>
In step S2, the control unit 17 causes the communication unit 16 to transmit radio waves. For example, the control unit 17 causes the communication unit 16 to transmit a radio wave including a command requesting a response from the wireless tag 2.

<Step S3>
In step S3, the control unit 17 determines whether or not the wireless communication between the communication unit 16 and the wireless tag 2 is successful. For example, when the communication unit 16 receives the radio wave from the wireless tag 2, the control unit 17 determines that the wireless communication has succeeded. Then, when it is determined that the wireless communication is successful (S3: Yes), the control unit 17 (determination processing unit 171) determines that the replacement component 3 is correctly mounted at the proper position, and the processing is performed. Return to step S1. On the other hand, when it is determined that the wireless communication has failed (S3: No), the control unit 17 (determination processing unit 171) determines that the replacement component 3 is not correctly mounted at the proper position, and the process is stepped. Move to S4.

<Step S4>
In step S4, the control unit 17 (notification processing unit 172) causes the operation display unit 10 to display a warning message indicating that the replacement component 3 is not correctly mounted at the proper position. The warning message is, for example, a message such as "The replacement part is not mounted on the main body or is deviated from the proper position. Please correctly mount the replacement part in the proper position." Then, the process returns to the step S1.

As described above, in the first embodiment, the wireless communication succeeds when the replacement component 3 is located at the proper position, and the wireless communication fails when the replacement component 3 deviates from the proper position. As such, the image forming apparatus 1 is configured. Then, the determination processing unit 171 determines whether or not the replacement component 3 is correctly mounted at the appropriate position based on the success or failure of the wireless communication. Therefore, according to the first embodiment, it is possible to determine whether or not the replacement part 3 is mounted in the correct position without requiring a switch or a sensor for detecting the position of the replacement part 3. ..

[Second Embodiment]
Next, the second embodiment of the present invention will be described. In the second embodiment, the description of the configuration and operation common to the first embodiment will be omitted.

In the second embodiment, the control unit 17 further includes a change processing unit 174 (see FIG. 1) in addition to the determination processing unit 171, the notification processing unit 172, and the correction processing unit 173.

The change processing unit 174 can change the communicable distance of wireless communication between the communication unit 16 and the wireless tag 2 between at least the first distance and a second distance longer than the first distance. is there. For example, the change processing unit 174 changes the communicable distance by changing the frequency or intensity of the radio wave output from the communication unit 16. For example, when the communication unit 16 is provided with a plurality of capacitors having different capacities and a switch for switching between these capacitors, the change processing unit 174 outputs from the communication unit 16 by controlling the switch. The frequency of radio waves can be switched. Further, the change processing unit 174 can switch the intensity of the radio wave output from the communication unit 16 by switching the set voltage of the communication unit 16. When the frequency or intensity of the radio wave output from the communication unit 16 changes, the communicable distance also changes accordingly.

The change processing unit 174 sets the communicable distance to the first distance when the determination by the determination processing unit 171 is performed. The first distance is, for example, a distance (for example, 5 mm) that substantially coincides with the distance between the communication unit 16 and the wireless tag 2 in the proper state. Therefore, the determination processing unit 171 can determine whether or not the replacement component 3 is correctly mounted in the proper position based on the success or failure of the wireless communication.

Further, the change processing unit 174 changes the communicable distance from the first distance to the second distance after the determination processing unit 171 determines that the replacement component 3 is correctly mounted at the proper position. The second distance is, for example, a distance sufficient for stable wireless communication between the communication unit 16 and the wireless tag 2. By changing the communicable distance to the second distance, subsequent wireless communication (for example, writing data to the wireless tag 2) can be performed more stably.

Next, an example of the procedure of the mounting state determination process executed by the control unit 17 in the second embodiment will be described with reference to FIG. 7.

<Step S11>
First, in step S11, the control unit 17 determines whether or not the determination timing has arrived. Then, when it is determined that the determination timing has arrived (S11: Yes), the process proceeds to step S12. On the other hand, if it is determined that the determination timing has not arrived (S11: No), the process of step S11 is repeated until it is determined that the determination timing has arrived.

<Step S12>
In step S12, the control unit 17 (change processing unit 174) sets the communicable distance of wireless communication between the communication unit 16 and the wireless tag 2 to the first distance. For example, the control unit 17 changes the communicable distance by changing the frequency or intensity of the radio wave output from the communication unit 16. For example, the control unit 17 controls a switch (a switch for switching a plurality of capacitors having different capacities) provided in the communication unit 16 to change the capacitor used for the wireless communication into a predetermined first capacitor. Switch. Alternatively, the control unit 17 switches the set voltage of the communication unit 16 to a predetermined first set voltage. In this way, the communicable distance is set to the first distance.

<Step S13>
In step S13, the control unit 17 causes the communication unit 16 to transmit radio waves.

<Step S14>
In step S14, the control unit 17 determines whether or not the wireless communication between the communication unit 16 and the wireless tag 2 is successful. Then, when it is determined that the wireless communication is successful (S14: Yes), the control unit 17 (determination processing unit 171) determines that the replacement component 3 is correctly mounted at the proper position, and the process is stepped. Move to S15. On the other hand, when it is determined that the wireless communication has failed (S14: No), the control unit 17 (determination processing unit 171) determines that the replacement component 3 is not correctly mounted at the proper position, and the process is stepped. Move to S16.

<Step S15>
In step S15, the control unit 17 (change processing unit 174) changes the communicable distance of wireless communication between the communication unit 16 and the wireless tag 2 from the first distance to the second distance. For example, the control unit 17 controls the switch provided in the communication unit 16 to switch the capacitor used for the wireless communication to a predetermined second capacitor. Alternatively, the control unit 17 switches the set voltage of the communication unit 16 to a predetermined second set voltage. In this way, the communicable distance is changed from the first distance to the first distance. Then, the process returns to the step S11. The process of step S15 may be executed immediately before the next wireless communication (for example, writing data to the wireless tag 2) between the communication unit 16 and the wireless tag 2 is performed.

<Step S16>
In step S16, the control unit 17 (notification processing unit 172) causes the operation display unit 10 to display a warning message indicating that the replacement component 3 is not correctly mounted at the proper position. Then, the process returns to the step S11.

As described above, in the second embodiment, when the determination processing unit 171 makes a determination, the communicable distance is set to the first distance, and the determination processing unit 171 correctly mounts the replacement component 3 at the proper position. After it is determined that the distance has been set, the communicable distance is changed from the first distance to the second distance. Therefore, according to the second embodiment, it is possible to determine whether or not the replacement part 3 is mounted in the correct position without requiring a switch or a sensor for detecting the position of the replacement part 3. .. Further, subsequent wireless communication (for example, writing data to the wireless tag 2) can be performed more stably.

[Third Embodiment]
Next, a third embodiment of the present invention will be described. In the third embodiment, the description of the configuration and operation common to the first embodiment or the second embodiment will be omitted.

The change processing unit 174 can change the communicable distance of wireless communication between the communication unit 16 and the wireless tag 2 at least between the first distance and a third distance longer than the first distance. Is. The third distance may be the same as the second distance or may be different from the second distance.

When the determination processing unit 171 makes a determination, the change processing unit 174 sequentially switches the communicable distance between the first distance and the third distance. For example, the change processing unit 174 may first set the communicable distance to the first distance, and then change the communicable distance from the first distance to the third distance. Alternatively, the change processing unit 174 may first set the communicable distance to the third distance, and then change the communicable distance from the third distance to the first distance.

In the determination processing unit 171, the wireless communication fails when the communicable distance is set to the first distance, and the wireless communication succeeds when the communicable distance is set to the third distance. If so, it is determined that the replacement part 3 is deviated from the proper position. That is, the determination processing unit 171 determines that the replacement part 3 is attached but not correctly attached at the proper position. The third distance is, for example, a distance sufficient for successful wireless communication between the communication unit 16 and the wireless tag 2 provided on the replacement component 3 mounted offset from the proper position (for example). 5 mm or more).

When the determination processing unit 171 determines that the replacement component 3 is deviated from the proper position, the notification processing unit 172 notifies that the replacement component 3 is deviated from the proper position. For example, the notification processing unit 172 causes the operation display unit 10 to display a warning message indicating that the replacement component 3 is displaced from the proper position.

Next, an example of the procedure of the mounting state determination process executed by the control unit 17 in the third embodiment will be described with reference to FIG.

<Step S21>
First, in step S21, the control unit 17 determines whether or not the determination timing has arrived. Then, when it is determined that the determination timing has arrived (S21: Yes), the process proceeds to step S22. On the other hand, if it is determined that the determination timing has not arrived (S21: No), the process of step S21 is repeated until it is determined that the determination timing has arrived.

<Step S22>
In step S22, the control unit 17 (change processing unit 174) sets the communicable distance of wireless communication between the communication unit 16 and the wireless tag 2 to the first distance.

<Step S23>
In step S23, the control unit 17 causes the communication unit 16 to transmit radio waves.

<Step S24>
In step S24, the control unit 17 determines whether or not the wireless communication between the communication unit 16 and the wireless tag 2 is successful. Then, when it is determined that the wireless communication is successful (S24: Yes), the control unit 17 (determination processing unit 171) determines that the replacement component 3 is correctly mounted at the proper position, and the processing is performed. Return to step S21. At this time, the control unit 17 (change processing unit 174) sets the communicable distance of wireless communication between the communication unit 16 and the wireless tag 2 from the first distance to the second distance, as in the second embodiment. May be changed to. On the other hand, when it is determined that the wireless communication has failed (S24: No), the control unit 17 (determination processing unit 171) determines that the replacement component 3 is not correctly mounted at the proper position, and the process is stepped. Move to S26.

<Step S25>
In step S25, the control unit 17 (change processing unit 174) changes the communicable distance from the first distance to the third distance.

<Step S26>
In step S26, the control unit 17 causes the communication unit 16 to transmit radio waves.

<Step S27>
In step S27, the control unit 17 determines whether or not the wireless communication between the communication unit 16 and the wireless tag 2 is successful. Then, when it is determined that the wireless communication is successful (S27: Yes), the control unit 17 (determination processing unit 171) determines that the replacement component 3 is deviated from the proper position, and the process proceeds to step S28. Transition. On the other hand, when it is determined that the wireless communication has failed (S27: No), the control unit 17 (determination processing unit 171) determines that the replacement component 3 is not mounted on the main body 4, and the process is step S29. Move to.

<Step S28>
In step S28, the control unit 17 (notification processing unit 172) causes the operation display unit 10 to display a first warning message indicating that the replacement component 3 is displaced from the proper position. The first warning message is, for example, a message such as "The replacement part is out of the proper position. Please insert the replacement part firmly as far as it will go." Then, the process returns to the step S21.

<Step S29>
In step S29, the control unit 17 (notification processing unit 172) causes the operation display unit 10 to display a second warning message indicating that the replacement component 3 is not mounted on the main body unit 4. The second warning message is, for example, a message such as "The replacement part is not mounted on the main body. Please mount the replacement part on the main body." Then, the process returns to the step S21.

As described above, in the third embodiment, the wireless communication fails when the communicable distance is set to the first distance, and the communicable distance is set to the third distance. When the wireless communication is successful, it is determined that the replacement component 3 is displaced from the proper position. On the other hand, if the wireless communication fails even when the communicable distance is set to the third distance, it is determined that the replacement component 3 is not mounted on the main body 4. Then, the warning message is changed depending on whether the replacement part 3 is not mounted on the main body 4 or the replacement part 3 is mounted on the main body 4 but is not correctly mounted at the proper position. Therefore, it is possible to display a more specific warning message according to the current state.

1 Image forming device 10 Operation display unit 13 Image forming unit 16 Communication unit 17 Control unit 171 Judgment processing unit 172 Notification processing unit 173 Correction processing unit 174 Change processing unit 2 Wireless tag 3 Replacement part 4 Main unit

Claims (7)

A main body having an image forming portion for forming an image on a sheet,
Replacement parts that can be attached to and detached from the main body
A wireless tag provided on the replacement part and storing unique information of the replacement part,
A communication unit provided in the main body and receiving the unique information from the wireless tag by wireless communication with the wireless tag.
A determination processing unit that determines whether or not the replacement part is correctly mounted in a predetermined appropriate position in the main body based on the success or failure of the wireless communication.
A correction processing unit that corrects the intensity of radio waves output from the communication unit based on correction information based on a prediction result of a secular change in the communication range of the wireless communication.
An image forming apparatus comprising. The wireless communication is successful when the replacement part is located at the proper position, and fails when the replacement part is displaced from the proper position.
The image forming apparatus according to claim 1. Further, a change processing unit for changing the communicable distance of the wireless communication between at least the first distance and a second distance longer than the first distance is provided.
When the determination processing unit makes a determination, the change processing unit sets the communicable distance to the first distance, and the determination processing unit correctly mounts the replacement part at the proper position. After the determination, the communicable distance is changed from the first distance to the second distance.
The image forming apparatus according to claim 1. A change processing unit for changing the communicable distance of the wireless communication between at least the first distance and a third distance longer than the first distance is further provided.
The change processing unit sequentially switches the communicable distance between the first distance and the third distance when the determination by the determination processing unit is performed.
In the determination processing unit, the wireless communication fails when the communicable distance is set to the first distance, and the wireless communication succeeds when the communicable distance is set to the third distance. If this is the case, it is determined that the replacement part is out of the proper position.
The image forming apparatus according to claim 1. When the determination processing unit determines that the replacement part is deviated from the proper position, the determination processing unit further includes a notification processing unit that notifies that the replacement part is deviated from the proper position.
The image forming apparatus according to claim 4 . The change processing unit changes the communicable distance by changing the frequency or intensity of the radio wave output from the communication unit.
The image forming apparatus according to any one of claims 3 to 5 . The replacement component comprises at least one of a toner container, a developer, a photoconductor, and an ink cartridge.
The image forming apparatus according to any one of claims 1 to 6 .

Images