JPH10133528A - Genuine replacing part consumed state identification device and image forming device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To recognize the use states of consumables by stopping operation or recording the use states in supplying/using the consumables held in genuine parts. SOLUTION: A genuine replacing part is provided with a data carrier 3 for keeping the consumption data of the consumables. A data writing/reading unit 9 for writing/reading the data is provided in a device body 1. Further, for detecting the consumption of the consumables, a consumption detecting part, 10 is provided. During use, the consumption data is read out of the data carrier and it is discriminated whether the read consumption data coincides with the consumption detected by the consumption detecting part 10 or not. When the coincidence is obtained, the operation is executed because a normal part is attached as it is and after the operation is completed, the consumption data is recorded in the data carrier.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used in an apparatus which makes a consumable part such as a copying machine or a printer detachable as a replaceable replacement part. The present invention relates to an identification device and an image forming device.

[0002]

2. Description of the Related Art In a conventional copying machine or the like, copying is performed by replenishing consumables such as ink and toner with an ink bottle or a toner cartridge. In such a copying machine, the ink bottle and the like are detachable, and the ink is replenished by exchanging the ink bottle and the cartridge according to the disappearance of the ink and the toner. In such a case, it is desirable that the maker of the copying machine use a genuine ink bottle or a genuine toner cartridge whose performance is guaranteed.

However, unlike a so-called genuine product supplied by a maker in a copying machine or the like, replacement parts such as consumables may be supplied at a lower price than other manufacturers. The user of the copier sometimes purchases non-genuine parts from an economic viewpoint. Since ink and the like are consumables, they are easily imitated, and even if similar ink bottles or non-genuine ink bottles are used, a certain level of copying performance can be secured. However, in many cases, the performance of the copying machine cannot be fully exhibited, and this has caused trouble.

[0004] In order to determine whether or not such a genuine replacement part is mounted, a method of identifying a genuine replacement part has conventionally been proposed. For example, Japanese Patent Laying-Open No. 5-224479 proposes an identification method in which a bar code label is attached to a replacement part so that the apparatus operates normally only when designated data is read. In Japanese Patent Application Laid-Open No. 2-73264, a pressurized conductor having a complicated shape is provided in a replacement part so as to be distinguished from a non-genuine replacement part. A method has been proposed in which a genuine replacement part is identified by detecting this with a sensor or a magnetic sensor.

[0005]

However, such a method using a bar code label, a mark, or a conductor having a specific shape has a drawback that a third party can easily imitate and it is difficult to completely eliminate non-genuine parts. there were. If the replacement parts are disposable, a third party can obtain the replacement parts that have been discarded, so that only consumables such as toner can be injected again and put on the market again as a new product. Replacement parts containing goods cannot be excluded.
Further, when a non-genuine part is used, the use state cannot be recognized, and there is a disadvantage that maintenance becomes difficult.

The present invention has been made in view of such a conventional problem, and when the consumables held by genuine parts are supplied and used, the operation is stopped or the use state is stopped. An object of the present invention is to record the information so that the use state can be recognized.

[0007]

According to the first aspect of the present invention, there is provided a genuine replacement part consumption state identifying apparatus used in an apparatus having a detachable replacement part, the amount of consumption of the consumable part being attached to the replacement part. A data carrier for holding data and having a data communication function, a data writing / reading unit provided in the apparatus main body for reading and writing data on the data carrier, and a consumable item held by the genuine replacement part Consumption amount detecting means for detecting the consumption amount of the data, and comparing the consumption amount data read by the data writing / reading unit with the consumption amount detected by the consumption amount detecting means, and outputting a comparison result. A result output unit, and a write unit that writes the consumption data detected by the consumption detection unit when the operation is stopped to the data carrier via the write / read unit. It is characterized in that it comprises a stage, a.

[0008] The invention of claim 2 of the present application is a genuine replacement part wear state discriminating apparatus used for an apparatus having a detachable replacement part, which is attached to the replacement part, holds the consumption amount data of the consumable part, and performs data communication. A data carrier having a function, a data writing / reading unit provided in the apparatus main body for reading and writing data of the data carrier, and detecting a consumption amount of a consumable held by the genuine replacement part. Consumable amount detecting means; replacement part identification means for reading in advance the consumable amount data of the data carrier via the data writing / reading unit when the apparatus operates, and identifying whether or not a genuine replacement part is mounted; When the mounting of the genuine part is not identified by the replacement part identification means, and when the consumption data read from the data writing / reading unit is An operation control unit for inhibiting the operation when the consumption amount detected by the consumption amount detection unit does not coincide with the consumption amount; and a write / read unit for reading the consumption amount data detected by the consumption amount detection unit when the operation is stopped. And writing means for writing the data carrier through the data carrier.

The invention according to claim 3 of the present application is a genuine replacement part wear state identification device used for an apparatus having a detachable replacement part, which is attached to the replacement part and holds the consumption amount data of the consumable part and performs data communication. A data carrier having a function, a data writing / reading unit provided in the apparatus main body for reading and writing data of the data carrier, and detecting a consumption amount of a consumable held by the genuine replacement part. When the consumption data read by the data writing / reading unit and the consumption detected by the consumption detecting unit do not match, the write / read unit outputs a mismatch result. Writing to the data carrier via the data carrier, and using the consumption data detected by the consumption data detecting means when the operation is stopped via the write / read unit. It is characterized in that it comprises a writing means for writing the data carrier, the.

[0010] In the invention according to claim 4 of the present application, the genuine replacement part has a fluctuating part whose position fluctuates according to the consumption amount, and the data carrier is attached to the fluctuating part of the genuine replacement part. Wherein the consumable amount detecting means detects a consumable of the genuine replacement part based on a drive current of the write / read unit which changes according to a distance between the write / read unit and the data carrier. It is characterized in that the amount of consumption is detected.

According to a fifth aspect of the present invention, there is provided the genuine replacement part wear state identification device according to the first aspect, wherein image formation is stopped by a mismatch output from the comparison result output means. It is.

According to the first aspect of the present invention having such a feature, during operation, the consumption data of the data carrier attached to the genuine replacement part is read through the data writing / reading unit. A comparison is made as to whether the read consumption data matches the consumption data detected by the consumption detection means, and a comparison result is output. Here, the coincidence of the consumption amount is not an exact coincidence but includes an error range of the resolution of the consumption amount detecting means. According to the second aspect of the present invention, the consumption data is read through the data writing / reading unit to determine whether or not a genuine replacement part is mounted. When a genuine replacement part is not identified, and when the consumption amount detected by the consumption amount detecting means does not match the consumption amount data read from the data carrier, the operation is prohibited. Claim 3
According to the invention, in addition to the effect of the first aspect, when the consumption amounts do not match, the mismatch result is written to the data carrier. According to the fourth aspect of the present invention, the data carrier is attached to the changing portion whose position changes according to the amount of consumption of the replacement part. The distance from the data carrier can be determined based on the drive current of the write / read unit, and the amount of consumables consumed is detected based on the distance. Claim 5 applies the present invention to an image forming apparatus such as a printer or a copying machine, and stops the image formation when the consumption amount data do not match.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a block diagram showing a configuration in which a replacement part consumption state identifying apparatus according to a first embodiment of the present invention is applied to a copying machine as an image forming apparatus. In this figure, a copier body 1 has an ink bottle 2 as a replacement part.
Are detachably attached. The ink bottle 2 is provided with a data carrier 3 for holding data on the amount of consumption of ink as a consumable. Further, the copying machine body 1 is provided with a display panel 4 and an operation unit 5 for guiding the operation state to the user. Further, a control unit 7 for controlling copying of the copying mechanism unit 6 by an operation from the operation unit 5 and a memory 8 for holding an operation state are provided. Further, a data writing / reading unit 9 is provided at a position facing the data carrier 3, and an ink consumption detecting unit 10 for detecting the amount of ink consumption, in this embodiment, the remaining amount in the copying machine body 1. Is provided. A clock / calendar unit 11 for generating use date and time data is connected to the control unit 7. In the first embodiment, the control unit 7 determines whether or not a genuine replacement part is mounted at the time of operation, and determines whether or not the non-genuine replacement part is mounted and the consumption amount does not match. The function of the operation control means for inhibiting the operation and the function of the writing means for writing the ink consumption amount for each operation and writing the abnormal use when the consumption amount does not match are achieved.

FIG. 2 is a block diagram showing a configuration of the data carrier 3 attached to the ink bottle of the present embodiment. As shown in the figure, the data carrier 3 has a diode bridge 12 and a constant voltage circuit 13 connected to a resonance circuit 11 including a coil L1 and a capacitor C1, and supplies a constant voltage to each unit in the IC circuit by the constant voltage circuit 13. The resonance circuit 11 is also connected to an ASK data demodulation circuit 14 for demodulating a data clock. These carrier pulses and data clock signals are applied to Schmitt trigger circuits 15 and 16.
Is input to the communication logic unit 17 in the IC via the. The communication logic unit 17 includes a nonvolatile E ² PROM memory 1
8 are connected. Further, a voltage detecting circuit 19 for detecting the voltage of the constant voltage circuit is connected in the IC, and when the voltage reaches a predetermined value, a communication operation is started. Communication logic unit 1
Numeral 7 is for writing or reading data to or from the E ² PROM memory 18 based on a given command, and a MOSFET constituting a shunt circuit based on the read data.
And so on, both ends of the resonance circuit 11 are short-circuited via the switching element 20. It is assumed that data indicating the type of the genuine replacement part to which the data carrier is to be attached is written in the E ² PROM memory 18 in advance.

FIG. 3 is a memory map showing the stored contents held in the E ² PROM memory 18. In this memory, data of the type of ink and the amount of consumed ink are held.
In addition to this, this embodiment has an area for holding the date of manufacture of the ink bottle, the start of use, the end of use, and the number of prints. Further, an area for writing whether the consumption amount of the ink bottle is normal or abnormal is provided.

Next, in the data writing / reading unit 9, as shown in FIG. 4, a signal processing circuit 31 is connected to a data modulation section 32 and an oscillation section 33. The data modulating unit 32 transmits a signal to the data carrier 3 via the antenna coil L2 by changing a constant cycle or a duty ratio according to data to be transmitted and interrupting the oscillation of the oscillating unit 33. The receiving unit L3 is connected to the receiving coil L3.
The receiving unit 34 receives a signal from the data carrier 3 depending on the presence or absence of reverberation, demodulates the signal by the data demodulating unit 36, and inputs the demodulated signal to the signal processing circuit 31. The signal processing circuit 31 is connected to the control unit 7 in the copying machine body 1 and sends out a data read command based on a command from the control unit 7. The outputs the received data to the control unit 7 has a function of writing the data to the E ² PROM memory 18 of the data carrier 3.

Next, an example of the ink consumption detecting section 10 will be described with reference to FIG. The ink bottle 2 is, for example, a cylindrical bottle, and has a cylindrical ink supply portion 2a formed with a thread groove for supplying ink downward. When the ink is filled in the ink bottle 2, the inner lid 2b, which is a variable portion, is at the uppermost position, and the inner lid 2b gradually decreases as the amount of ink consumption decreases. It is composed of A metal piece 41 is attached to one end of the inner lid 2b. The ink consumption detecting unit 10 according to this embodiment has a proximity sensor for detecting the level of the inner cover 2b on the main body side to which the ink bottle is attached. That is, a plurality of proximity sensors 42a are provided at positions close to the metal piece 41 in accordance with the level change on the side wall of the ink bottle 2.
~ 42n are attached. Then, the amount of ink consumed in the ink bottle can be detected depending on which proximity sensor detects the metal piece 41. These proximity sensors 42a to 42
The output of n is determined by the determining unit 43 and output to the control unit 7 as an ink bottle consumption amount signal.

Next, the operation of this embodiment will be described with reference to the flowchart of FIG. When the operation is started, first, in step S1, the data carrier (DC) 3
The data of the ink consumption amount is read out. Then, it is checked in step S2 whether or not the ink consumption data has been normally read out. If the data has not been read out normally, for example, if the data carrier 3 is not attached to the ink bottle 2, the process proceeds to step S3 to proceed to step S3. Is displayed as a warning that the ink bottle 2 is not attached, and the process returns to step S1. If the consumption amount of the ink bottle has been normally read, the process proceeds to step S4, and the ink consumption amount is measured by the ink consumption amount detection unit 10. In step S5, it is determined whether or not the ink consumption data read from the data carrier and the measured ink consumption are substantially at the same level. If they are not at the same level, there is a possibility that only the ink has been injected into the ink bottle for reuse or the like, so that an abnormal state of the ink is displayed (step S6). Then, an abnormal state is written to the data carrier 3 in step S7, and the process returns to step S1. If the level of the consumption amount data and the measured amount of ink consumption substantially coincide with each other in step S5, the process proceeds to step S8, where printing is enabled, and it is determined whether or not an operation for starting printing has been performed. When the print execution start button is pressed, printing is executed in step S9. Then, the process proceeds to step S10, where it is determined whether the printing is completed or interrupted, and printing is performed until the printing is completed or interrupted. When the printing is completed or interrupted, the process proceeds to step S11, in which the ink consumption amount is measured again by the ink consumption amount detection unit 10, and the process proceeds to step S12, where the ink consumption amount data is written in the data carrier 3, and the process returns to step S8. At this time, the number of prints may be added to the data of the print number area of the data carrier and then written. In this way, the final ink consumption data is always held in the data carrier after printing is completed. By holding the ink consumption amount in the data carrier attached to the ink bottle 2 in this manner,
Even if a third party refills the ink into the ink bottle, the data is different, so that such use can be prevented beforehand.

In this embodiment, if there is an abnormality in the amount of consumed ink, the information is written to the data carrier so that printing is not performed. However, even if an abnormal state is identified, the print execution process is performed. Is also good. In this case, as a result of the comparison, the fact that a mismatch has occurred is output to the outside.
The output to the outside includes, for example, a process of displaying the state on the display panel 4 and writing the information on a data carrier. In this case, the control unit 7 functions as a comparison result output unit.

FIG. 7 is a diagram showing a configuration of a write / read unit according to a second embodiment of the present invention. In this embodiment, a detecting unit for detecting the amount of consumed ink is connected to the writing / reading unit. In the data writing / reading unit 51, a data modulating unit 53 and an oscillating unit 54 are connected to a signal processing circuit 52 as shown in FIG. Data modulator 5
Numeral 3 is for transmitting a signal to the data carrier 3 via the transmitting antenna coil L2 by interrupting the oscillation of the oscillating unit 54 in accordance with the data to be transmitted. The receiving unit 55 is connected to the receiving coil L3. Receiver 55
Receives a signal from the data carrier 3, demodulates it by the data demodulation unit 56, and inputs it to the signal processing circuit 52. In this embodiment, as shown in FIG. 11, the data carrier 3 is mounted on the inner lid 2b, which is a variable portion of the ink bottle 2. A transmitting antenna coil L2 and a receiving coil L3 are attached below the ink supply section 2a of the ink bottle 2. In this way, the impedance as viewed from the oscillating unit 54 changes depending on the distance from the data carrier 3, and the current changes when the driving voltage is fixed. Therefore, by detecting the current, the distance to the data carrier 3, that is, the amount of consumed ink can be detected. Therefore, the ink consumption data for the current value is calibrated in advance to the antenna coil L2 as shown in the drawing, and can be output as the ink consumption data by referring to the table.

Next, a description will be given based on a circuit diagram of a peripheral circuit section of the transmitting antenna coil L2 connected to the oscillation section 54 and a resonance circuit of the data carrier. As shown in FIG. 8, a series resonance circuit including a resistor R2 and a capacitor C2 is connected to the oscillation unit 54 in addition to the antenna coil L2. Then, via the mutual inductance M, the coil L1, the capacitor C1, and the load impedance RL of the data carrier.
Is connected. This circuit is shown as an equivalent circuit in FIG.
It becomes what is shown in. Here, V _IN : power supply (for power transmission) of the antenna coil portion R2: resistance of the antenna coil L2: inductance of the antenna coil C2: capacitor capacitance of the antenna head portion M: coil L2 of the antenna coil and coil L1 of the data carrier. L1: Coil inductance of data carrier C1: Capacitance of data carrier RL: Load impedance of data carrier

Assuming that the load impedance of the data carrier is a pure resistance here, the impedance Z viewed from V _IN is expressed by the following equation.

(Equation 1) Here, s is a Laplace operator, which indicates s = jω. Ω is an angular frequency, and here ω = 1 / √ (L1C1) = 1 / √
(L2C2). From the equation (1), the impedance Z is expressed by the following equation.

(Equation 2) That is, the impedance Z is a function of the mutual inductance M.

Next, the mutual inductance is equal to the transmission coil L2.
It is shown as a function of the distance between the data carrier and the coil L1 of the data carrier. Mutual inductance is determined by Neumann's formula. As an example, the mutual inductance M of the coaxial isometric square ring shown in FIG. 10 is expressed by the following equation.

(Equation 3) Here, a and b are the sizes of two sides of the rectangle, and d is the interval between the coils.

Therefore, as shown in FIG. 11, the data carrier 3 is attached to the inner lid 2b of the ink bottle 2. Then, the transmitting antenna coil L2 and the receiving coil L3 of the writing / reading unit 51 are mounted below the mounting position of the ink bottle. In this way, it is understood from the equation (3) that the mutual inductance M changes depending on the distance between the antenna coil L2 and the coil L1 of the data carrier. As described above, the mutual inductance M changes depending on the level of the inner lid 2b, so that the current value changes. For this reason, as shown in FIG.
In addition, by detecting the current value to the ink consumption amount by the current-ink consumption amount conversion unit 59 by detecting by the current detection unit 58, the ink consumption amount detection unit 10 is not provided as in the first embodiment. The ink consumption can be detected using the data carrier. The operation after the detection of the amount of consumed ink is the same as in the first embodiment.
Here, the current sensor 57, the current detection unit 58, and the current-ink consumption amount conversion unit 59 constitute consumption amount detection means for detecting the consumption amount of ink.

Next, a third embodiment of the present invention will be described. This embodiment has a feature in the mounting position of the data carrier 3. In the first embodiment described above, the data carrier 3 is attached near the ink supply unit 2a of the ink bottle 2, but the data carrier 3 may be embedded near this. In this case, since the data carrier does not protrude outside the ink bottle, it is possible to prevent the data carrier from being destroyed from an impact during transportation. Further, if the cap 2c is attached to the ink bottle 2, the data carrier 3 can be completely sealed, and the data carrier can be protected from a shock during transportation. In this case, as shown in FIG. 12C, the data carrier 3 and the antenna coil can be mounted close to each other when the ink bottle is mounted, and the communication distance can be reduced. Further, even when the ink supply unit is formed inward of the ink bottle, by mounting a data carrier near the ink supply unit, it is possible to prevent a shock at the time of transportation and to reduce a communication distance.

In the embodiment described above, the ink bottle of the copying machine has been described as an example of a replacement part. However, the present invention is applicable to various products that require the use of replacement parts for holding consumables, such as toner cartridges. It goes without saying that the present invention can be applied to an image forming apparatus of a printer which is a replacement part.

[0027]

As described above in detail, according to the first aspect of the present invention, the consumption data of the consumables held in the data carrier can be compared with the consumption from the consumption detecting means. In addition, it is possible to determine whether or not the consumable has been supplied to the genuine replacement part and output the result. According to the second aspect of the present invention, when a genuine replacement part is not attached or when consumables are replenished, the operation can be prohibited, and supply of non-genuine replacement parts and consumables can be eliminated. According to the third aspect of the present invention, when it is determined that the consumables are replenished, the mismatch result can be written and recorded. According to the fourth aspect of the present invention, since the data carrier is attached to the variable part of the genuine replacement part, the configuration of the consumption detecting means can be simplified. According to the fifth aspect of the present invention, an effect is obtained that the image forming operation of a printer, a copying machine, or the like can be prohibited when consumables are supplied.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a genuine replacement part consumption state identification device according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a data carrier.

FIG. 3 is a memory map showing storage contents of a data carrier.

FIG. 4 is a block diagram showing a configuration of a data write / read unit.

FIG. 5 is a schematic diagram illustrating a configuration example of an ink consumption amount detecting unit.

FIG. 6 is a flowchart showing an operation of the first exemplary embodiment of the present invention.

FIG. 7 is a block diagram showing a configuration of a data writing / reading unit and a consumption amount detecting means of a genuine replacement part consumption state identification device according to a second embodiment of the present invention.

FIG. 8 is a schematic circuit diagram showing the periphery of a coil portion of a data write / read unit and a data carrier.

FIG. 9 is an equivalent circuit showing a data write / read unit and the periphery of a coil portion of a data carrier.

FIG. 10 is a diagram showing mutual inductance when a rectangular coil is brought close to the coil.

FIG. 11 is a schematic diagram showing a mounting position of a data carrier according to a second embodiment of the present invention.

FIG. 12 is a schematic diagram showing a mounting position of an ink bottle of a data carrier according to a third embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Copier 2 Ink bottle 2a Ink supply part 2b Inner lid 3 Data carrier 4 Display panel 5 Operation part 6 Copying mechanism part 7 Control part 8 Memory 9 Data writing / reading unit 10 Ink consumption detecting part 11 Clock / calendar part 41 Metal pieces 42a to 42n Proximity sensor 43 Determination unit 51 Write / read control unit 52 Signal processing unit 53 Data modulation unit 54 Oscillator 55 Receiver 56 Data demodulation unit 57 Current sensor 58 Current detection circuit 59 Current-ink consumption amount conversion unit

Claims (5)

[Claims] 1. A genuine replacement part wear state identification device for use in an apparatus having a detachable replacement part, comprising: a data carrier attached to the replacement part and holding a consumption amount data of the consumable part and having a data communication function; A data writing / reading unit provided in the apparatus main body for reading and writing data of the data carrier, a consumption amount detecting means for detecting a consumption amount of consumables held in the genuine replacement part, A comparison result output unit for comparing the consumption amount data read by the data writing / reading unit with the consumption amount detected by the consumption amount detection unit, and outputting a comparison result; and the consumption amount detection unit when operation is stopped. Writing means for writing the consumption data detected by the data carrier to the data carrier via the writing / reading unit. Replacement Parts Consumable state identification device. 2. A genuine replacement part wear state identification device for use in an apparatus having a detachable replacement part, comprising: a data carrier attached to the replacement part and holding a consumption data of the consumable part and having a data communication function; A data writing / reading unit provided in the apparatus main body for reading and writing data on the data carrier; a consumption amount detecting means for detecting a consumption amount of consumables held in the genuine replacement part; Replacement part identification means for reading in advance the consumption amount data of the data carrier via the data writing / reading unit at the time of the operation and identifying whether or not a genuine replacement part is mounted; and a genuine part by the replacement part identification means. And when the wear amount data read from the data writing / reading unit and the wear amount detecting means are not identified. Operation control means for prohibiting the operation when the amount of consumption detected does not coincide with the detected amount of consumption, and the amount of consumption data detected by the amount of consumption detected when the operation is stopped is transmitted to the data via the write / read unit. A genuine replacement part consumption state identification device, comprising: a writing means for writing to a carrier. 3. A genuine replacement part wear state identification device for use in an apparatus having a detachable replacement part, comprising: a data carrier attached to the replacement part and holding a consumption amount data of the consumable part and having a data communication function; A data writing / reading unit provided in the apparatus main body for reading and writing data of the data carrier, a consumption amount detecting means for detecting a consumption amount of consumables held in the genuine replacement part, When the consumable amount data read by the data write / read unit and the consumable amount detected by the consumable amount detection unit do not match, a mismatch result is written to the data carrier via the write / read unit. Writing the consumption data detected by the consumption detection means to the data carrier via the write / read unit when the operation is stopped. Genuine replacement parts-consumption state identification system, characterized by comprising: a Mushokomi means. 4. The genuine replacement part has a fluctuating part whose position varies according to the amount of wear, the data carrier is attached to the fluctuating part of the genuine replacement part, The amount detecting means detects an amount of consumables of the genuine replacement part based on a drive current of the write / read unit which changes according to a distance between the write / read unit and the data carrier. The genuine replacement part wear state identification device according to any one of claims 1 to 3, wherein: 5. An image forming apparatus to which the genuine replacement part wear state identification device according to claim 1 is attached, and wherein image formation is stopped by a mismatch output from said comparison result output means.