JP2000298711A - Reflected wave analyzing system and reflected wave scanner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for detecting whether a part mounted on equipment or an exchanged consumable article is a genuine article. SOLUTION: For example, a reflected wave scanner 11 is set near the cartridge chamber of a copying machine 31, and an LC resonance tag 1 indicating that this article is a genuine article is mounted on a genuine toner cartridge 32. At loading of the genuine cartridge 32 on the copying machine 31, the reflected waves of the LC resonance tag 1 are analyzed by the reflected wave scanner 11, and it is determined that this article is a genuine article, and a message such as 'ready to copy' is displayed at the display part of the copying machine 31 and a stand-by state is obtained. At loading of a non-genuine toner cartridge, the reflected waves of the LC resonance tag can not be detected, and it is determined that this article is a non-genuine article, and a message such as 'please exchange the toner cartridge' is displayed at the display part of the copying machine 31.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reflected wave analyzing system, and more particularly, to detecting a resonance frequency of a LC resonance tag and a frequency pattern of a reflected wave by a reflected wave scanner to specify the type of the LC resonance tag. The present invention relates to a reflected wave analysis system.

[0002]

In office equipment, transportation equipment such as automobiles, and various other fields, genuine consumables and third-party products other than genuine parts and copy products are sometimes used. Non-genuine products other than genuine third-party products licensed by genuine manufacturers often infringe on industrial property rights, and use of non-genuine products may cause equipment failure or malfunction. In such a case, a dispute regarding repair or warranty may occur between the device manufacturer and the user, and as a genuine manufacturer, it is necessary to grasp or control the use of non-genuine products in order to avoid the dispute.

In order to save resources, it is required to collect and recycle mechanical products and consumables. However, many products have a limited number of times and range in which they can be recycled and used. In order to adjust product performance by recycling or the like, or to regulate or automate the disposal of parts and products, means for easily discriminating and managing the number of times of recycling, types of recycled parts, and the like are required.

[0004] Therefore, there is a technical problem to be solved in order to detect whether or not a part attached to an apparatus or a replaced consumable is a genuine one, and to reliably detect the number of times of recycling of parts and the like. Problems arise, and an object of the present invention is to solve the above problems.

[0005]

SUMMARY OF THE INVENTION The present invention has been proposed to achieve the above object, and has an LC resonance circuit in which a conductor spiral pattern is formed on one or both surfaces of a dielectric film to constitute an LC resonance circuit. A sweep wave is transmitted from the tag and the frequency sweep transmitter, and the waveform received by the receiver is compared with the transmission waveform. Based on the comparison result, the presence or absence of the LC resonance tag in the transmission electric field and the resonance frequency of the LC resonance tag are determined. A reflected wave analysis system comprising a reflected wave scanner for detecting, a built-in reflected wave scanner in a product to which a genuine part is to be attached, a specific LC resonance tag attached to the genuine part, and a unique LC resonance tag. An object of the present invention is to provide a reflected wave analysis system that determines whether or not a component mounted on a product is genuine based on the presence or absence of a reflected wave.

Further, at the time of manufacturing a component, one or more LC resonance tags or L having a plurality of resonance frequencies are added to the component.
Attach the C resonance tag and destroy one LC resonance tag each time a part is collected, or change the resonance frequency of the LC resonance tag with multiple resonance frequencies and reship it. An object of the present invention is to provide a reflected wave analysis system that determines the number of recycles by detecting the number of resonance tags or the resonance frequency.

Further, a reflected wave scanner is built in a transponder of a toy system including a toy and a transponder, a specific LC resonance tag is attached to the toy, and the reflected wave scanner generates a reflected wave unique to the LC resonance tag. When detected, the reflected wave analysis system is configured such that the transponder performs a response such as display of preset voice information and image information, and a reflected wave scanner inside an information home appliance such as a personal computer. And attach an LC resonance tag as a security key to a medium such as an IC card or a magnetic card provided for accessing specific content on the communication network, and the reflected wave scanner emits a reflected wave unique to the LC resonance tag. When detected, the information appliance can access and download specific content on the communication network. There is provided a reflected wave analysis system adapted.

Further, a reflected wave scanner of the above reflected wave analysis system, wherein an IC constituting a reflected wave scanner circuit is mounted on a substrate to form a module, and a reflected wave scanner is mounted on a substrate having an antenna pattern formed thereon. It is an object of the present invention to provide a reflected wave scanner of the reflected wave analyzing system, wherein an integrated circuit is mounted on an integrated circuit.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below in detail with reference to the drawings. The reflected wave analysis system used in the present invention includes a reflected wave scanner and an LC resonance tag, like the cafeteria fee calculation device and the stationary article monitoring device that have already been proposed by the present applicant.

FIG. 1 shows an LC resonance tag 1 having a double-sided pattern as an example of an LC resonance tag. Metal conductors 4 and 5 are adhered to both surfaces of a dielectric film 2 via an adhesive 3 to form a thin sheet. Have been. LC resonance tag 1 with double-sided pattern
Are the conductors 4 and 4 as shown in FIGS.
Reference numeral 5 denotes a relatively large area capacitor pattern portion 4b, 4b, 4a at the outer end of the rectangular spiral coil pattern portion 4a, 5a.
5b are continuous, and the coil pattern portions 4a, 5
a, the inner peripheral ends of which are connected by a conductor 6 shown in FIG.
The inductance of the coil pattern portions 4a and 5a and the capacitor pattern portion 4 opposed to each other with the dielectric film 2 interposed therebetween.
An LC series resonance circuit is formed by the capacitances b and 5b. The resonance frequency of the LC resonance tag 1 varies depending on the number of turns of the coil pattern portions 4a and 5a and the area of the capacitor pattern portions 4b and 5b. Create and use.

The conductors 4 and 5 are formed by means such as etching or printing of a conductor paste, and the conductor film 2 is made of PP (polypropylene), PET (polyethylene terephthalate), PI (polyimide) or the like. The adhesive 3 is preferably made of a material having a dielectric constant substantially equal to that of the dielectric film 2.

FIG. 3 shows a circuit block configuration of the reflected wave scanner 11. The output of the VCO 13 controlled by the sequence controller 12 is amplified by the transmission amplifier 14 and transmitted from the transmission antenna 15. Here, the frequency band from the short wave band to the ultra high frequency band is used, and the scan of the set frequency band is repeated at a constant scan interval.

When the transmitted radio wave is reflected by the LC resonance tag 1 that resonates at a certain frequency within the sweep frequency band of the reflected wave scanner 11, the reflected wave enters the receiving antenna 16. The reception wave is amplified by the reception amplifier 17 and input to the phase comparator 18 together with the output of the transmission amplifier 14. The output of the phase comparator 18 is sampled by the A / D converter 19 in synchronization with the reference clock, and noise is removed.
The received waveform data subjected to the binarization processing is sent to the sequence controller 1
2 is written to the second memory.

The memory of the sequence controller 12 stores sweep frequency band data, scan interval data, and a waveform pattern analysis program. The sequence control unit 12 has a comparative analysis function using a pattern matching method generally used in the field of image processing, and compares the reference waveform pattern data with the received waveform pattern data. Further, by connecting a host computer to the reflected wave scanner 11, the computer can newly write or rewrite reference waveform pattern data or display data in the memory of the sequence controller 12.

The sequence control unit 12 outputs analysis data to a control unit such as a copying machine or the like, on which the reflected wave scanner 11 is mounted, based on the result of the comparison analysis of the reflected waves. To display the analysis results.

As shown in FIG. 4, the reflected wave scanner 11 includes a hybrid IC module 21 in which a plurality of ICs constituting the above-mentioned circuit are mounted on one substrate 20 on which a transmitting / receiving antenna pattern (not shown) is formed. An IC module equipped with a monolithic IC in which the above-described circuits are integrated, or as shown in FIG. 5, is made as small as possible as an IC module to which a separate transmitting / receiving antenna 22 is connected. It aims to reduce the occupied space when mounted on equipment, automobiles, and the like.

When a control unit of a copying machine, an automobile, or the like can be used as a main control device of the reflected wave scanner 11,
The reflected wave analysis function and the memory function of the sequence control unit can be omitted, and the size can be further reduced.

Next, the operation of the reflected wave analysis system will be described. Here, the transmission frequency band of the reflected wave scanner is set to 1
It is assumed that 10 types of LC resonance tags are used, which are divided into 0 channels and whose resonance frequency is a frequency substantially in the middle of the band of each channel.

The reflected wave scanner uses a CH-
The frequency band from 1 (one channel) to CH-10 (10 channels) is sequentially scanned. Each channel has, for example, 17 levels (fn00 to fn16 (n =
1, 2, ‥ 10)), and is not an analog sweep in which the frequency changes continuously, but is controlled by a sequence control unit to control the 5.00 MHz, 5.01 MHz,
The frequency is changed stepwise as in 5.02 MHz, 5.03 MHz, and ‥, and sweeping is performed in 17 steps for each channel.

Further, as shown in the figure, each of the 17 frequencies fn (i) is transmitted for a certain period of time T2 (several μsec), and a certain repetition timing T1 (several tens of seconds) in order to secure the noise performance. After the transmission is intermittently repeated a plurality of times in (μsec), the process shifts to transmission of the next frequency fn (i + 1).

FIG. 3 shows the timing of the transmission output gate, A shows the waveform of a radio wave transmitted from the transmission antenna, and B shows the input waveform of the reception antenna when no LC resonance tag exists in the sensing area of the reception antenna.

On the other hand, when an LC resonance tag that resonates at the frequency of the transmission radio wave is present in the sensing area of the antenna, the echo wave of the LC resonance tag is superimposed on the radio wave that directly reaches the reception antenna from the transmission antenna. Then, it is incident on the receiving antenna, and has a waveform like C.

At this time, in the section P1 (within the transmission time), the phase difference with respect to the transmission waveform A is different between B and C. (AB ≠ AC). In C, an echo wave delayed by the LC resonance tag is observed in the section of P2 following P1.

The reception level of the delayed portion (P2) of only the echo wave at the same frequency transmitted a plurality of times at a fixed timing is integrated, and each frequency (fn0) in one channel is integrated.
7 to fn16), the echo wave reception level is A / D converted and sampled to obtain a resonance level pattern as shown in FIG.

The reflected wave scanner repeats the transmission of the same frequency fn (i) to remove white noise and impulse noise, so that a phase difference of C with respect to B is recognized in a section of P1 such as C, and in a section of P2. The resonance level pattern is
When a predetermined numerical value is satisfied in the resonance sharpness based on d1 and d2 shown in FIG. 7 and the allowable error range with respect to the design frequency shown in d3, the frequency channel of the LC resonance tag is specified, and the ID information of the LC resonance tag is identified. Output to host computer.

Here, the types of the LC resonance tags are limited to 10 types, and one type of L of the 10-channel LC resonance tags is selected.
In the case of a system in which a C resonance tag is attached to an object, the identification types are 10 types, but in the case of a system in which five types of LC resonance tags of 10 channel LC resonance tags are combined and attached to the object, The type that can be identified is ₁₀ C ₅ = 252 by the formula of the permutation combination. Also, if any 6 channels out of ₄₂ channels are combined, the types that can be identified are ₄₂ C ₆ = 5, 245,786. As described above, by increasing the transmission / reception channel and the frequency channel of the LC resonance tag as needed, the identification types can be extended almost infinitely, and it is possible to individually detect various types of components.

Next, a method of determining a genuine part by the above reflected wave analysis system will be described. In FIG. 8, reference numeral 31 denotes a copying machine in which a toner cartridge 32 is loaded. The reflected wave scanner 11 is installed near the cartridge chamber of the copying machine 31.
1 is connected to the control unit of the copying machine.

An LC resonance tag 1 indicating that the cartridge is a genuine product is attached to the toner cartridge 32. The sticking position of the LC resonance tag 1 may be the outer surface of the toner cartridge 32 or the inner wall surface that is not visible from the outside, or may be embedded in the wall of the resin cartridge by insert molding.

Copying the genuine toner cartridge 32 to the copying machine 31
Of the toner cartridge 3
The reflected wave scanner 11 located close to 2 analyzes the reflected wave of the LC resonance tag 1 and determines that it is a genuine product, and the control unit of the copying machine 31 displays a message such as "Can be copied" on the display unit. Is displayed, and the copying machine 31 enters a standby state.

On the other hand, if a non-genuine toner cartridge not equipped with a predetermined LC resonance tag is loaded, the reflected wave scanner 11 cannot detect the reflected wave and determines that it is a non-genuine product. , A message such as "Please replace the toner cartridge" is displayed, and the copier 31 is in the start prohibition state.

In this way, use of non-genuine replacement parts such as toner cartridges and drum cartridges in copiers, printers, facsimile machines and the like can be prevented.

The above-described genuine part determination method can be applied to a wide range of fields. For example, a dedicated LC resonance tag is attached to a genuine part of a home electric appliance or a car, and a reflected wave is placed near a place where the part is incorporated. By installing a scanner, it is possible to prevent the use of replacement parts other than genuine parts, which is effective for safety measures.

The data ROM and the control program RO of an ATM or a cash dispenser of a bank or the like.
Attach a dedicated LC resonance tag to each of the parts such as M,
If a reflected wave scanner is installed near the place where the part is installed, the control unit such as an ATM can monitor the replacement of the ROM and other parts and save the part attachment / detachment history in the memory, which is effective for security management. It is a target.

Next, a method of judging the number of recycling by the reflected wave analysis system will be described. For example, when a toner cartridge of a copying machine is recycled four times, the simplest is to attach four LC resonance tags 1 to the toner cartridge 32 as shown in FIG. The plurality of LC resonance tags 1 may have different resonance frequencies or may have the same resonance frequency. this is,
When a plurality of LC resonance tags are in the vicinity of one reflected wave scanner, the received waveform combined by the mutual interference of the LC resonance tags at different positions has a unique pattern regardless of the difference in the resonance frequency of each. When the number of LC resonance tags decreases from this state, the received waveform pattern changes. By storing the received waveform patterns for each number of LC resonance tags in the reflected wave scanner 11, the number of LC resonance tags can be reduced. This is because it can be detected.

In the toner cartridge manufacturer,
Each of the unused toner cartridges 32 is shipped with four LC resonance tags attached, and each time the toner cartridge 32 is collected, one LC resonance tag is cut or punched with a cutter, a punch, a laser beam, or the like. Destroyed, filled with toner by a predetermined recycling process, and shipped. Thus, the toner cartridge 32 to be recycled for the second time is shipped with three LC resonance tags, and the toner cartridge 32 to be shipped for the fourth time is used.
Has one LC resonance tag.

On the user's side, at the time of the first to fourth recycle use, the reflected wave scanner 11 in the copying machine detects the LC resonance tag 1 as described above, and genuine product information and recycle count information are obtained.

Since the toner cartridge 32 collected after the prescribed use four times is equipped with one LC resonance tag 1, the manufacturer uses the reflected wave scanner 11 to complete the prescribed number of uses. And the process goes to a disposal process or a resin material recycling process. Further, similarly to the genuine part determination method described above, it goes without saying that the present invention can be applied not only to the field of office equipment such as a copying machine, various machines, electronic equipment, control equipment and the like but also to a wider field.

Further, one LC resonance tag having a plurality of resonance frequencies is attached to the component, and each time the component is collected, one of the plurality of resonance circuits is destroyed by a laser beam, a punch, a cutter, or the like. The configuration may be such that the resonance frequency pattern of the resonance tag is changed.

As another embodiment, for example, a reflected wave scanner 1 is provided in a transponder of a toy system including a doll and a transponder.
1 and a specific LC resonance tag 1 attached to the toy,
When the reflected wave scanner detects a reflected wave unique to the LC resonance tag, the transponder performs display of predetermined audio information and image information, and other operations, so that various novelties can be realized. It is possible to provide a toy system that performs various operations.

In an information home appliance such as a personal computer, a reflected wave scanner is provided inside the personal computer or the like to access a specific content on a communication network or distribute an IC card for downloading the content, a magnetic card, or the like. An LC resonance tag can be added to media such as cards, barcode cards, and password numeric cards to enhance the security of the media itself. Keys that are distributed separately from the media and are only used by users Also available as

If a means for destroying the LC resonance tag by means of a laser beam or a punch or a means for changing the resonance frequency or a means for changing the resonance frequency are provided inside a personal computer or the like together with a reflected wave scanner, the LC resonance tag can be used for download information on a network. It can be used as a temporary opening key and is effective as an information security measure.

The present invention is not limited to the above-described embodiment, and various modifications are possible within the technical scope of the present invention, and it goes without saying that the present invention extends to those modifications. is there.

[0043]

As described above, according to the present invention, an LC resonance tag is attached to parts, consumables and the like, and a reflected wave scanner detects an echo wave from the LC resonance tag to determine whether or not the part is a genuine part. In this configuration, the number of times of recycling is determined. The reflected wave analysis system is a non-contact type sensor system.
Since the C resonance tag is not affected by external environment such as light and temperature, stable operation can be expected. Also, the LC resonance tag is
Since it is extremely difficult to forge a product having the same electrical characteristics as a genuine product, it is effective in eliminating non-genuine products and ensuring information security.

[Brief description of the drawings]

FIG. 1 is a sectional view of an LC resonance tag.

2A and 2B show an LC resonance tag, wherein FIG. 2A is a plan view showing a conductor pattern on the front surface, FIG. 2B is a plan view showing a conductor pattern on the back surface, and FIG. FIG.

FIG. 3 is a circuit block diagram of a reflected wave scanner.

FIG. 4 shows a reflected wave scanner IC module,
(A) is a plan view and (b) is a side view.

FIG. 5 is a perspective view showing another embodiment of the reflected wave scanner IC module.

FIG. 6 is a timing chart of a scanning operation of the reflected wave scanner.

FIG. 7 is a graph showing a waveform pattern obtained by sampling an echo wave of the LC resonance tag.

FIG. 8 is a perspective view of a copying machine.

FIG. 9 is a perspective view of a toner cartridge equipped with an LC resonance tag.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 LC resonance tag 2 Dielectric film 4a Coil pattern part 5 Capacitor pattern part 11 Reflected wave scanner 21, 23 Reflected wave scanner IC module 31 Copy machine 32 Toner cartridge

Claims (6)

[Claims] 1. An LC resonance tag in which a conductor spiral pattern is formed on one or both sides of a dielectric film to form an LC resonance circuit, and a sweep wave transmitted from a frequency sweep transmitter and a waveform received by a receiver. And the transmitted waveform,
A reflected wave analysis system consisting of a reflected wave scanner that detects the presence or absence of the LC resonance tag in the transmission electric field and the resonance frequency of the LC resonance tag based on the comparison result, and incorporates the reflected wave scanner into the product to which genuine parts should be installed A reflected wave analysis system that attaches a specific LC resonance tag to a genuine component and determines whether the component attached to the product is genuine based on the presence or absence of a reflected wave unique to the LC resonance tag. 2. An LC resonance tag in which a conductor spiral pattern is formed on one or both sides of a dielectric film to constitute an LC resonance circuit, and a sweep wave transmitted from a frequency sweep transmitter and received by a receiver. And the transmitted waveform,
A reflected wave analysis system comprising a reflected wave scanner for detecting the presence or absence of an LC resonance tag in a transmission electric field and a resonance frequency of the LC resonance tag according to the comparison result, wherein one or more LC resonance Tag, or
Attach an LC resonance tag with multiple resonance frequencies and destroy one LC resonance tag each time a part is collected, or change the resonance frequency of an LC resonance tag with multiple resonance frequencies and reship and collect A reflected wave analysis system that sometimes detects the number of LC resonant tags or the resonant frequency by a reflected wave scanner to determine the number of recycles. 3. An LC resonance tag in which a conductor spiral pattern is formed on one or both sides of a dielectric film to constitute an LC resonance circuit, and a sweep wave transmitted from a frequency sweep transmitter and received by a receiver. And the transmitted waveform,
A reflected wave analysis system comprising a reflected wave scanner for detecting the presence or absence of an LC resonance tag in a transmission electric field and a resonance frequency of the LC resonance tag according to the comparison result, and is used as a transponder of a toy system including a toy and a transponder. A built-in reflected wave scanner, a specific LC resonance tag is attached to the toy, and when the reflected wave scanner detects a reflected wave unique to the LC resonance tag, the transponder sets audio information and image information that are set in advance. A reflected wave analysis system configured to execute a response such as display of a reflected wave. 4. An LC resonance tag in which a conductor spiral pattern is formed on one or both surfaces of a dielectric film to constitute an LC resonance circuit, and a waveform transmitted from a frequency sweeping transmitter and transmitted by a frequency sweeping transmitter and received by a receiver. And the transmitted waveform,
The reflected wave analysis system comprises a reflected wave scanner for detecting the presence or absence of an LC resonance tag in a transmission electric field and a resonance frequency of the LC resonance tag based on the comparison result, wherein the reflected wave scanner is installed inside an information home appliance such as a personal computer. And attach an LC resonance tag as a security key to a medium such as an IC card or a magnetic card provided for accessing specific content on the communication network, and the reflected wave scanner emits a reflected wave unique to the LC resonance tag. A reflected wave analysis system that enables an information home appliance to access and download specific content on a communication network when detected. 5. The reflected wave scanner of the reflected wave analysis system, wherein an IC constituting a reflected wave scanner circuit is mounted on a substrate to form a module. 6. The reflected wave scanner of the reflected wave analysis system, wherein an IC constituting a reflected wave scanner circuit is mounted on a substrate on which an antenna pattern is formed to form an integrated module.