JP2004139535A - Information storing device and string length body equipped with the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an identifying means of a string length body (various types of cables and tubes or the like) which easily, reliably, and accurately identifies, and maintains the reliability and the accuracy of the identification for a long time. <P>SOLUTION: An information storing device disposes two or more information storage elements which can write and read data along the longitudinal direction of a long spindly substrate, connects these information storage elements on the substrate by a communication line or a wire wired along the longitudinal direction, and conducts either or both simultaneous read or/and simultaneous write of the data to two or more information storage elements. The device is set either or both outside or/and inside of the string length body. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information storage device and a run having the same.
[0002]
[Prior art]
In order to identify various types of cables such as power cables, optical cables and power / optical composite cables, various types of pipes such as water pipes and sewage pipes, and various types of long objects such as wires, ropes, and chains, they are used for identification. It has been conventionally performed to attach some kind of visible mark to the image. For example, when laying a plurality of cables in a trough, characters, numbers, symbols, etc. are printed on the outer surface of the cable, embossed marks are provided, and lines of different colors are provided for each cable. . In addition, the color of the jacket is changed for each cable, and a nameplate and a label are attached.
[0003]
In recent years, tags capable of wireless communication with the outside have been developed (see, for example, Patent Document 1), and such tags are embedded in a cable to be identified or attached to the outer surface and written on the tags. A technique for reading the identification information by a reading device by wireless communication has also been developed (for example, see Patent Document 2).
[0004]
[Patent Document 1]
JP 10-162262 A [Patent Document 2]
Japanese Patent Application Laid-Open No. 7-212158
[Problems to be solved by the invention]
However, there is the following problem in making a mark on the run-length body so that the run-out body can be identified. That is, as time passes, the marks become thinner or the sludge adheres, so that the sharpness is lowered, and the marks become invisible. Moreover, in severe cases, the mark may disappear completely. Further, since the number of printable characters, figures, and the like is limited, not much information can be displayed.
[0006]
The following problems have been encountered in providing a line of a different color to each rune or changing the color of each rune to identify the rune. That is, when a large number of continuous bodies are present in one place (for example, when a plurality of cables are laid in a trough), each continuous body has a different color or a line with a different color is attached. Even so, it was very difficult to rely on them to identify a particular run. In particular, when a large number of continuous bodies are bundled, it has been difficult to find a continuous body existing inside or behind the bundle. Also, for example, if a rule for each color is defined, such as green for an up cable and yellow for a down cable, a certain amount of information can be displayed, but the amount of information that can be displayed is text or It is smaller than in the case of figures.
[0007]
The following problems have been encountered in attaching or embedding an information storage device capable of wireless communication with the outside to the elongate body to identify the elongate body. That is, in order to prevent the information storage device from being damaged by friction, lateral pressure, or the like, there is a restriction on the installation or laying of the continuous body. For example, when the continuous body is a cable, it is necessary to pay attention not to apply a large force when laying, or to pay attention to the direction of laying so that lateral pressure does not act, and the work efficiency and working speed will be reduced. descend. For this reason, cables equipped with information storage devices have not yet been put to practical use.
[0008]
[Means for Solving the Problems]
The first information storage device of the present invention has two or more information storage elements capable of writing and reading data along a longitudinal direction of an elongated base material, and the information storage elements are provided on the base material. It is connected to a communication line wired along the longitudinal direction, and enables simultaneous reading and / or writing of data to two or more information storage elements via the communication line.
[0009]
In a second information storage device of the present invention, an electronic circuit having a memory is provided in an information storage element provided in the first information storage device, and when a write signal is input via a communication line, the electronic circuit writes the write signal. Process the data signal input together with or separately from the signal, write the obtained data to the memory, and when the read signal is input via the communication line, read the data previously written to the memory. The read data is transmitted to a communication line.
[0010]
According to a third information storage device of the present invention, an information storage element included in the first or second information storage device is provided with an antenna coil for generating a voltage required for operation of an electronic circuit by electromagnetic induction, and the antenna coil is wireless. When the transmitted write signal is received and a voltage is generated, the electronic circuit processes the data signal transmitted wirelessly together with or separately from the write signal, writes the obtained data to the memory, and sets the antenna coil to the wireless position. When a transmitted read signal is received and a voltage is generated, an electronic circuit reads data previously written in a memory and wirelessly transmits the read data from an antenna coil.
[0011]
In a fourth information storage device of the present invention, two or more information storage elements capable of writing and reading data are arranged on a slender base material along the longitudinal direction, and the information storage elements do not contact the same. In this manner, electromagnetic connection is made via metal wires wired to the base material, and simultaneous reading and / or writing of data to two or more information storage elements is enabled via the metal wires.
[0012]
A fifth information storage device of the present invention includes an electronic circuit having a memory in an information storage element provided in the fourth information storage device, and an antenna coil that generates a voltage required for operation of the electronic circuit by electromagnetic induction. When the write signal is transmitted to the metal wire, the antenna coil receives the write signal and generates a voltage, and the electronic circuit processes the data signal received together with or separately from the write signal. When data is written to the memory and a read signal is transmitted to the metal wire, the antenna coil receives the read signal and generates a voltage, and the electronic circuit reads the data previously written in the memory and reads the read data. Radio transmission is performed from an antenna coil.
[0013]
According to a sixth information storage device of the present invention, a write signal, a data signal, and a read signal that are propagated in the air without passing through an antenna coil of an information storage element included in the fourth or fifth information storage device without passing through a metal wire are also provided. Reception is possible.
[0014]
The seventh information storage device of the present invention provides a specific information storage device having an address by giving an individual address to an information storage element included in each of the first to sixth information storage devices and designating an arbitrary address. This enables reading and / or writing of data from and to the element.
[0015]
According to an eighth information storage device of the present invention, the information storage elements provided in the first to seventh information storage devices are covered with a protective layer.
[0016]
In a ninth information storage device of the present invention, the first to eighth information storage devices are provided with a light-emitting element that emits light at the time of signal reception and / or at the time of signal transmission of the information storage elements included in the devices. Things.
[0017]
In a tenth information storage device of the present invention, at least one or more of various sensors such as a pressure sensor, a temperature sensor, and a humidity sensor are provided in the first to ninth information storage devices, and a detection result (data) of the sensor is provided. The data can be read out via the information storage element.
[0018]
The continuous body of the present invention is various continuous bodies such as a cable, a wire, and a pipe, and has any one of the first to tenth information storage devices installed on both or one of the outside and the inside thereof. .
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1 of information storage device)
Hereinafter, an embodiment of the information storage device of the present invention will be described in detail with reference to FIG. In the information storage device shown in FIG. 1, a plurality of information storage elements 2 are arranged at predetermined intervals along the longitudinal direction on the surface of a base material 1 made of a plastic tape having a width of about 5 to 50 mm. Further, on the surface of the base material 1 on which the information storage elements 2 are arranged, communication lines 3 are wired along the arrangement direction of the information storage elements 2, and each information storage element 2 is connected to the communication line 3. .
[0020]
The information storage element 2 is an element generally called an RFID (Radio Frequency Identification), and includes at least an antenna coil 4 and an electronic circuit 5 as shown in an enlarged view in FIG. The antenna coil 4 is capable of receiving a write signal, a data signal, and a read signal wirelessly transmitted from a reader / writer (not shown). When these signals (electromagnetic waves) are received, the antenna circuit 4 performs an electromagnetic circuit by an electromagnetic induction effect accompanying a change in magnetic flux. 5 generates a voltage necessary for operation and supplies the voltage to the electronic circuit 5. The electronic circuit 5 includes a memory capable of writing and reading data. When the antenna coil 4 receives a write signal or a read signal and generates a voltage, the electronic circuit 5 operates by the voltage and performs a predetermined data process. Specifically, when a write signal is received by the antenna coil 4, the data signal transmitted wirelessly together with or separately from the write signal is processed, and the obtained data is written to the memory. On the other hand, when the read signal is received, the designated data is read from the memory, converted into a signal, and output to the antenna coil 4. The data signal output to the antenna coil 4 is wirelessly transmitted to the reader / writer by the coil 4. That is, the reader / writer performs wireless communication with each of the information storage elements 2 and can simultaneously write and read data all at once without contact with those elements 2.
[0021]
The communication line 3 connects each information storage element 2 to a series, and a reader / writer can be connected to one or both ends thereof. Therefore, when a reader / writer connected to the communication line 3 sends a write signal to the communication line 3, the signal is sequentially input to the electronic circuits 5 of all the information storage elements 2 using the communication line 3 as a transmission path. The electronic circuit 5 of each information storage element 2 to which the write signal is input processes the data signal input together with or separately from the write signal, and writes the obtained data to the memory. On the other hand, when a read signal is transmitted to the communication line 3, the signal is also sequentially input to the electronic circuits 5 of all the information storage elements 2 as described above. The electronic circuit 5 of each information storage element 2 to which the read signal has been input reads the specified data from the memory, converts the read data into a signal, and transmits the signal to the reader / writer using the communication line 3 as a transmission path. I do. That is, the reader / writer performs wired communication with each of the information storage elements 2 to enable simultaneous writing and simultaneous reading of data.
[0022]
Here, an individual address is given to each information storage element 2 in advance, and writing and reading of data to and from a specific information storage element 2 can be performed by specifying the address in both wireless communication and wired communication. It is also possible to do.
[0023]
(Embodiment 2 of information storage device)
Hereinafter, an embodiment of the information storage device of the present invention will be described in detail with reference to FIG. The basic configuration of the information storage device shown here is the same as that of the information storage device shown in the first embodiment. The difference is that instead of the communication lines 3, the information storage elements 2 are electromagnetically connected to each information storage element 2 by a metal wire 6 wired in a non-contact manner. Specifically, a metal wire 6 in which a plurality of annular coils 7 are formed in a daisy chain is wired on the substrate 1 along the longitudinal direction, and the information storage element is provided inside each annular coil 7 in a non-contact manner with each coil. 2 was arranged.
[0024]
Here, since each information storage device 2 has the configuration described in the first embodiment, a write signal, a data signal, and a read signal are written to the metal line 6 from a reader / writer connected to one end or both ends of the metal line 6. When an electromagnetic wave such as a signal is transmitted, the magnetic flux in each of the annular coils 7 changes, and accordingly, the magnetic flux of the antenna coil 4 (FIG. 1) provided in the information storage element 6 arranged in each of the annular coils 7 changes, and the voltage changes. Occurs, and the electronic circuit 5 (FIG. 1) operates. That is, each information storage element 2 is not in contact with the metal wire 6, but the information storage elements 2 are electromagnetically connected via the metal wire 6. Specifically, when a write signal is propagated to the metal wire 6, the antenna coil 4 receives a data signal propagated together with or separately from the write signal, and generates a voltage. Then, the electronic circuit 5 processes the data signal received by the antenna coil 4 and writes the obtained data to the memory. On the other hand, when the read signal is propagated to the metal wire 6, the antenna coil 4 receives it and generates a voltage. Then, the electronic circuit 5 reads the designated data from the memory, converts the read data into a signal, outputs the signal to the antenna coil 4, and wirelessly transmits the signal. The wirelessly transmitted data signal is transmitted to the reader / writer using the metal wire 6 as a transmission path.
[0025]
Here, each information storage element 2 can receive not only a write signal, a data signal, and a read signal wirelessly transmitted via the metal wire 6 but also these signals directly wirelessly transmitted from the reader / writer. The signal can be directly transmitted to the reader / writer by wireless. That is, when a write signal and a data signal are wirelessly transmitted from a reader / writer within a reachable area of a wireless signal, the write / data signal is received and the data is written to a memory. On the other hand, when the read signal is wirelessly transmitted from the reader / writer, the read signal is received, the designated data is read from the memory, and this is wirelessly transmitted to the reader / writer.
[0026]
Here, each information storage element 2 is given an individual address in advance, and data can be written to and read from a specific information storage element 2 as in the first embodiment.
[0027]
(Another Embodiment of Information Storage Device)
As shown in FIG. 3, each information storage element 2 included in the information storage device can be individually covered with a protective layer 8. The protection layer 8 shown in FIG. 3 includes an upper protection layer 8a that covers the information storage element 2 from above and a lower protection layer 8b that covers the information storage element 2 from below. 2 is coated. As shown in FIG. 4, the protective layer 8 may be elongated to cover a plurality of the information storage elements 2 at a time.
[0028]
The material for the protective layer 8 is not particularly limited, and a suitable material can be selected according to the purpose. For example, when it is desired to protect the information storage element 2 from lateral pressure, a material that is resistant to pressure or a material that can absorb pressure is selected. When the information storage element 2 is desired to be protected from heat, a material having excellent heat resistance is selected. Further, when it is desired to protect the information storage element 2 from friction, a material having excellent wear resistance is selected. In any case, the thickness and shape of the protective layer 2 can be appropriately selected depending on the purpose, and if necessary, a plurality of protective layers 8 can be formed.
[0029]
The base material 1 may be a long object such as a string, a rope, a wire, or a pipe, instead of the plastic tape. In any case, it is desirable to mount the information storage element 2, the communication line 3, or the metal wire 6 on the outer surface of the base material 1 or to bury it inside. Whatever the material of the substrate 1, the material is not particularly limited, and a suitable material can be selected according to the purpose of use or application.
[0030]
The information storage element 2 is not limited to the RFID, but can be replaced with another information storage element.
[0031]
The information storage device may include a light emitting element that emits light when the information storage element included in the information storage device communicates with a reader / writer. For example, a light-emitting element that emits light by a voltage generated by the antenna coil can be provided, and a light-emitting element that emits light during reception of a write signal or a read signal or transmission of a data signal can be provided.
[0032]
The information storage device is provided with one or more of various sensors such as a pressure sensor, a temperature sensor, a humidity sensor, a liquid sensor, and an optical sensor, and data obtained by detection of these sensors can be read by a reader / writer. It can also be. In this case, if necessary, the sensor is operated by a command from the reader / writer, and the obtained data is read out each time. Alternatively, the sensor is operated regularly or constantly, and the obtained data is stored in the memory. The stored data can be read by a reader / writer as needed.
[0033]
(Embodiment 1 of Rune)
Hereinafter, an embodiment of the elongated body of the present invention will be described in detail with reference to FIG. The continuous body 10 shown here is a communication cable, and one of the information storage devices 12 shown in FIGS. 1 to 4 is disposed inside a cable jacket 11 (FIG. 5 shows the information storage device shown in FIG. 1). An example in which the storage device 2 is arranged is illustrated.) Marks 13 indicating the positions of the information storage elements 2 arranged on the base material 1 of the information storage device 12 are printed at regular intervals on the outer peripheral surface of the cable jacket 11 (in FIG. The mold mark 13 is printed).
[0034]
In the memory of each information storage element 2 provided in the information storage device 12, one or more of various information such as the product name, size, installation year, manufacturing year, laying route name, and laying person name of the cable 10 are stored as data. Has been written. One end or both ends of the communication line 3 or the metal line 6 included in the information storage device 2 is led out of the cable 10 and is provided with a connector (not shown) required for connecting a reader / writer. . Therefore, if a reader / writer is connected to the connector and a read signal is transmitted to the communication line 3 or the metal line 6, predetermined data can be read from the information storage element 2. Further, if a write signal and a data signal are sent to the communication line 3 or the metal line 6, it is possible to write data to a plurality of information storage elements 2 all at once, or to rewrite already written data all at once. it can.
[0035]
Further, when a write signal and a data signal or a read signal are wirelessly transmitted from a reader / writer approaching the cable 10, the signal is received by the information storage element 2 existing in the reachable area of the signal, and the data is transmitted. Writing or reading is performed. That is, data can be written and read not only from the end of the cable 10 but also from any position in the longitudinal direction.
[0036]
In addition, by specifying the address of the information storage element 2, data can be written to and read from a specific information storage element 2 existing in the cable 10.
[0037]
(Other Embodiments of Run-length Body)
If the information storage device 12 shown in FIG. 5 is replaced with an information storage device having a light emitting element that emits light during communication with a reader / writer, an information storage device that is currently communicating from a plurality of continuous bodies is installed. It is possible to easily and surely determine the running elongated body. When the information storage device is installed inside the elongate body, the structure is such that light from the light emitting element can be transmitted to the outside. For example, when the continuous body is a cable and the information storage device is installed inside the covering, it is desirable that the covering be transparent or translucent.
[0038]
Further, if the information storage device 12 shown in FIG. 5 is replaced with an information storage device provided with various sensors, it is possible to sense the continuous body itself or its peripheral information.
[0039]
The continuous body of the present invention is not limited to a communication cable, and includes various continuous bodies such as a power cable, a composite cable, a rope, a wire, a rail, and a pipe. Further, the information storage device can be arranged or buried inside the continuous body, or can be mounted outside. It can also be laid along the run.
[0040]
【The invention's effect】
According to the information storage device of the present invention, the following effects can be obtained.
(1) If the information storage device of the present invention is installed in the identification object, the data stored in the information storage device can be read and the identification object can be easily and reliably identified. Also, data stored electronically in the information storage device does not deteriorate or disappear over time, so that reliable identification is always possible.
(2) Data can be simultaneously written and read simultaneously to two or more information storage elements, so that data writing and reading can be performed efficiently in a short time.
(3) Since it is possible to read out only data of a specific information storage element by specifying an address or write data only to the element, different data can be stored in a plurality of elements.
(4) Since the base material is slender, it is particularly suitable for installation on various continuous bodies such as cables, pipes, strings, and ropes.
(5) Since the information storage element is covered with the protective layer, it can be installed in places exposed to friction, lateral pressure, heat, and the like. In addition, even if it receives friction, side pressure, or the like during installation, there is no risk of damage or performance deterioration due to the friction or lateral pressure.
(6) Since the light emitting element that emits light during the communication of the information storage element is provided, the currently communicating apparatus can be easily and reliably identified from the plurality of information storage apparatuses.
(7) Since at least one of various sensors such as a pressure sensor, a temperature sensor, and a humidity sensor is provided, and the detection result (data) of the sensor can be read, the state of the target object on which the device is installed or its surroundings Can be sensed.
[0041]
Since the continuous body of the present invention includes the information storage device having the above-described effects, the following effects can be obtained.
(1) By reading data stored in the information storage element provided in the information storage device, a target run-length can be easily and reliably identified from a large number of run-lengths. In addition, even if time elapses, the certainty and ease of identification do not decrease. Further, data other than the identification information is stored, and the information can be read and confirmed at any time, and the information can be updated as needed.
(2) A continuous body using an information storage device in which an information storage element is covered with a protective layer can be installed in a place exposed to friction, lateral pressure, heat and the like. In addition, since the information storage device is not damaged or its performance is not reduced due to some lateral pressure or friction, the work of installing the continuous body becomes easier and the work efficiency is improved as compared with the related art.
(3) According to the elongate body using the information storage device including the light emitting element that emits light during communication of the information storage element, the information storage device currently in communication from the plurality of elongate bodies relying on the light. Can be easily and reliably identified.
(4) Since the information storage device includes various sensors, sensing of the continuous body itself and sensing of its installation environment are possible.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an embodiment of an information storage device of the present invention.
FIG. 2 is an explanatory diagram showing an embodiment of the information storage device of the present invention.
FIG. 3 is an explanatory diagram showing an embodiment of the information storage device of the present invention.
FIG. 4 is an explanatory diagram showing an embodiment of the information storage device of the present invention.
FIG. 5 is an explanatory view showing one embodiment of a continuous body according to the present invention.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 base material 2 information storage element 3 communication wire 4 antenna coil 5 electronic circuit 6 metal wire 7 annular coil 8 protective layer 10 continuous body (communication cable)
11 cable jacket 12 information storage device 13 of the present invention

Claims (11)

A communication line in which two or more information storage elements capable of writing and reading data are arranged on a slender base material along its longitudinal direction, and the information storage elements are wired on the base material along the longitudinal direction. And an information storage device, which is capable of simultaneously reading and / or writing data to and from two or more information storage elements via the communication line. The information storage element includes an electronic circuit having a memory, and the electronic circuit processes a data signal input together with or separately from the write signal when a write signal is input through the communication line, and obtains the information signal. 2. The method according to claim 1, wherein said read data is written into a memory, and when a read signal is inputted via a communication line, the data written in said memory is read out and said read data is transmitted to said communication line. Information storage device. The information storage element includes an antenna coil that generates a voltage necessary for the operation of the electronic circuit by electromagnetic induction.When the antenna coil receives a write signal transmitted wirelessly and generates a voltage, the electronic circuit, together with the write signal, Alternatively, separately process the wirelessly transmitted data signal, write the obtained data to the memory, and when the antenna coil receives the wirelessly transmitted read signal and generates a voltage, the electronic circuit pre-writes to the memory. 3. The information storage device according to claim 2, wherein the read data is read, and the read data is wirelessly transmitted from an antenna coil. Two or more information storage elements capable of writing and reading data are arranged on the elongated base material along the longitudinal direction thereof, and a metal wire wired to the base material so that the information storage elements do not contact the same element. An information storage device which is electromagnetically connected to the information storage device through which data can be simultaneously read and / or written to two or more information storage elements via the metal wire. The information storage element includes an electronic circuit having a memory, and an antenna coil that generates a voltage necessary for operation of the electronic circuit by electromagnetic induction. When a write signal is transmitted to a metal wire, the antenna coil receives the write signal. The electronic circuit processes the data signal received with or separately from the write signal, writes the obtained data to the memory, and transmits the read signal to the metal wire. 5. The information storage device according to claim 4, wherein the information storage device receives a read signal to generate a voltage, the electronic circuit reads data previously written in the memory, and wirelessly transmits the read data from an antenna coil. . 6. The information storage device according to claim 5, wherein the antenna coil of the information storage element can also receive a write signal, a data signal, and a read signal that are propagated in the air without passing through a metal wire. Each information storage element has an individual address, and by designating an arbitrary address, it is possible to read and / or write data to a specific information storage element having the address. The information storage device according to claim 1. 8. The information storage device according to claim 1, wherein the information storage element is covered with a protective layer. 9. The information storage device according to claim 1, further comprising a light emitting element that emits light at the time of signal reception and / or signal transmission by the information storage element. The information according to any one of claims 1 to 9, wherein at least one or more various sensors such as a pressure sensor, a temperature sensor, and a humidity sensor are provided, and a detection result (data) of the sensor can be read. Storage device. 11. An elongated body, such as a cable, a wire, or a pipe, wherein the information storage device according to claim 1 is installed on at least one of the outside and the inside thereof. Long body.

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