JP2008044623A - Electromagnetic wave transmitting packing material and packing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that the physical distribution management or the like using an RF-ID tag is disturbed in a metallic precision machine product or the like to affect the read-write of the RF-ID tag by a reader-writer for the RF-ID tag. <P>SOLUTION: A metallic product or the like which affects the read-write of an RF-ID tag by a reader-writer for the RF-ID tag is packed with an electromagnetic wave transmitting packing material which is a shock-absorbing material containing soft-magnetic metal powder, and stored in a unitary package box with shock-absorbing bodies held on both sides, and the affixing position of the RF-ID tag label on the outer side of the unitary package box is specified, and the RF-ID tag label is affixed thereto. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to a packing material and the like that contributes to an improvement in the recognition rate of an RF-ID tag label attached to an individual packaging box that stores a metal product or the like.

The RF-ID (Radio Frequency-IDentification) system is a system that detects the location of goods, people, etc. using electromagnetic waves, and has already been put into practical use in a part of the physical distribution field. .
For example, in a factory inspection system using an RF-ID tag system, an RF-ID tag label in which a product name or the like is recorded in a nonvolatile memory of an RF-ID tag chip is attached to one place on the outer side surface of an individual packaging box. After loading the individual boxes on the pallet so that all the RF-ID tag labels of the individual boxes are facing outward, the pallet is mounted on the turntable with a forklift, and then the tartable itself is rotated and installed on the side of the turntable. The RF-ID tag reader / writer is used to gradually read the RF-ID tag label affixed to the outer side surface of each individual packaging box, and the read result connects to the RF-ID tag reader / writer. Some products can be automatically recognized by the personal computer for shipment management, such as the name and number of products to be shipped.
In the factory inspection system using the RF-ID tag system, when the product in the individual packaging box is a metal product, the recognition rate of the RF-ID tag by the reader / writer for the RF-ID tag is high. descend.
This is because the RF-ID tag system carries information communication signals between the RF-ID tag and the reader / writer for the RF-ID tag (carrier wave for supplying power to the RF-ID tag and information superimposed thereon) Since the electromagnetic wave is used for the modulation data signal), when there is a metal product on the back of the RF-ID tag, the magnetic flux generated from the antenna of the reader / writer for the RF-ID tag penetrates the surface of the metal product. Due to Faraday's law, an eddy current around the magnetic flux flows on the surface of the metal product, and the direction of rotation of this eddy current is opposite to the magnetic pole direction of the alternating magnetic field (carrier wave) generated in the antenna of the reader-writer for the RF-ID tag. This is because it flows in a direction that generates a demagnetizing field that is a magnetic field in the direction.
That is, from the reader / writer for the RF-ID tag, all of the information communication signal to the RF-ID tag using electromagnetic induction is canceled by the demagnetizing field induced on the surface of the metal product and greatly attenuated. When the product in the individual packaging box is a metal product, the recognition rate of the RF-ID tag by the reader / writer for the RF-ID tag is lowered.

As a method for preventing this phenomenon, Patent Document 1 introduces the arrangement of an amorphous magnetic sheet on the back surface of a data carrier. This is a so-called metal-compatible RF-ID tag.
In Patent Document 1, the RF-ID tag is referred to as a data carrier, and the reader / writer for the RF-ID tag is referred to as a reader / writer.
Since the amorphous soft magnetic sheet is between the data carrier and the metal, the magnetic flux from the reader / writer passes through the amorphous soft magnetic sheet, so that no eddy current is generated on the metal surface.
Therefore, the data carrier can be read by the reader / writer only when the reader / writer and the data carrier are opposed to each other.
However, for example, depending on the metal product, the individual packaging box may be small and may be stacked in rows or stages on the pallet.
In such a case, the surface of the metal product packed in the individual packaging box for writing / reading on the data carrier attached to all the individual packaging boxes loaded on the pallet in the reader / writer The eddy current generated in the circuit makes it difficult, and only the data carrier that directly opposes the reader / writer can be written / read.

For this reason, Patent Document 2 introduces an IC tag communication relay sheet. The IC tag communication relay sheet includes an antenna unit including one or a plurality of antennas that transmit and receive radio waves to and from the IC tag, and lead wires that are connected to the antennas and transmit electrical signals corresponding to the radio waves that are transmitted and received. And an input / output unit that is disposed on a plate-like member outside the antenna unit and is connected to the lead wire to input / output an electric signal corresponding to each antenna to an external device.
And this IC tag communication relay sheet is arranged by arranging the antenna part of this IC tag communication relay sheet near the inside of the individual packaging box loaded on the pallet, and the input / output part of the individual packaging box loaded on the pallet. It is arranged near the outer surface.
As a result, communication between the external device that has accessed the input / output unit of the IC tag communication relay sheet and the IC tag of the inner packaging box becomes possible.
However, since an IC tag communication relay sheet is required, an operation for stacking an IC tag communication relay sheet is also required when stacking individual boxes on a pallet, and there is a high possibility that the stacking work efficiency will be reduced.
Furthermore, an operation for collecting the IC tag communication relay sheet occurs.

Japanese Utility Model Publication No. 6-5000 JP 2005-347870 A

Therefore, the problem to be solved by the present invention is that an RF-ID tag label is attached to the outside of an individual packaging box for packing a metal product or a product containing a large amount of metal product, etc. RF stuck on the outside of an individual packaging box that packs all metal products themselves or products containing a large amount of metal products etc. on the pallet with a reader / writer for RF-ID tags, even if they are stacked in many stages -To enable reliable reading / writing of ID tags.
Furthermore, it is not to reduce the work efficiency when loading individual packaging boxes for packing metal products or products containing a large amount of metal products on a pallet.

A first aspect of the present invention is an electromagnetic wave passing packaging material, which is a buffer material containing soft magnetic metal powder.

According to a second aspect of the present invention, there is provided the electromagnetic wave passing packing material, wherein after the product is packed with the electromagnetic wave passing packing material according to the first aspect, a buffer is inserted on both sides and the individual box is inserted. It is a packing method.

According to a third aspect of the present invention, in the case where an RF-ID tag label is affixed to the outer side surface of the individual packaging box according to the second aspect, the product packaged with the electromagnetic wave passing packaging material on the back surface of the RF-ID tag label The RF-ID tag label is affixed to a position where there is no electromagnetic wave.

In the present invention, after packing a metal product or the like with the electromagnetic wave passing packaging material of the present invention, a cushioning material is inserted on both sides and inserted into an individual packaging box.
For example, in the packing of metal precision machine products, this work itself is a packing work in which a cushioning material is inserted on both sides after packing a metal precision machine product with a polyethylene sheet or the like and inserted into an individual packaging box. There is no change.
That is, the present invention is an individual packaging box for packing a metal product or a product containing a large amount of a metal product, etc., without using a metal-compatible tag or a work of loading an IC tag communication relay sheet. Even if a normal RF-ID tag label is attached on the outside and loaded on the pallet, all metal products on the pallet or products containing a large amount of metal products etc. on the pallet with an RF-ID tag reader / writer It is to exhibit an excellent effect that enables reliable read / write of the RF-ID tag label attached to the outside of the individual packaging box to be packed.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an external view of a metal product.
FIG. 2 is an explanatory diagram of a state in which a metal product is packed in a bag-shaped electromagnetic wave passing packing material.
FIG. 3 is an external view of the buffer body.
FIG. 4 is an explanatory view of packing of a metal product.
FIG. 5 is an explanatory diagram of positions where the RF-ID tag label can be attached to the individual packaging box of the metal product of the present invention.
FIG. 6 is a side view of the individual packaging box to which the RF-ID tag label is attached.
FIG. 7 is an explanatory view showing a state in which an individual packaging box with an RF-ID tag label attached is mounted on a pallet.
FIG. 8 is a diagram for explaining a factory shipment inspection system.

The electromagnetic wave passing packaging material 1 according to the present invention is a foam sheet cushioning material containing a soft magnetic metal powder in a thermoplastic resin.
Below, the structure of the electromagnetic wave passage packaging material 1, a manufacturing method, etc. are demonstrated.
First, a thermoplastic resin is put into a mixing line mixer, for example, a pressure kneader or a bus kneader, heated and melted, and a predetermined amount of soft magnetic metal powder is added thereto and mixed sufficiently. After extrusion, pellets containing a predetermined amount of soft magnetic metal powder are produced by a process such as cutting to an appropriate length.
The soft magnetic metal powder used for the production of pellets is composed of flat flakes and the like obtained by refining the soft magnetic powder with a ball mill or the like, molding the powder, and then mechanically flattening the powder.
The soft magnetic powder is made of any one of iron nickel alloy (permalloy, Fe—Ni alloy), iron aluminum silicon alloy (Sendust, Fe—Al—Si alloy), amorphous alloy, and the like.
The thermoplastic resin may be anything as long as it can form a foam in the foam molding process.
For example, polyolefin plastics such as polyethylene, polypropylene, ethylene-vinyl acetate copolymer, or thermoplastic resins such as polystyrene and polyvinyl chloride can be used, but they are highly compatible with soft magnetic metal powder. It is preferred to use an ethylene-vinyl acetate copolymer.
The foaming agent used in the foam molding can be any known foaming agent, volatile foaming agent, etc., or a combination of a cracking foaming agent and a volatile foaming agent. Can also be used.
In foam molding, pellets containing a predetermined amount of soft magnetic metal powder are put into a foaming extruder equipped with an injection port capable of press-fitting a volatile foaming agent, heated, melted and mixed, and butane gas or the like is poured into this. The electromagnetic shock transmitting packing material 1 is a foam cushioning material obtained by press-fitting from the inlet, cooling while mixing, and then extruding into a cylindrical shape in an annular die at the end of the extruder and foaming after being molded into a sheet. is there.

The RF-ID tag label 2 is formed by forming a known stud bump on a bonding pad of a chip for an RF-ID tag mounted with a nonvolatile memory such as a known EEPROM (Electronically Erasable and Programmable Read Only Memory). This is a known RF-ID tag label that is labeled by a known method after being mounted on an antenna connection pad of an antenna sheet in which an antenna made of aluminum or the like is formed on one side of a known transparent polyester sheet or the like.

Note that the RF-ID tag system including the RF-ID tag 2 and the RF-ID tag reader / writer 3 targeted in the present invention includes a VHF (Very High Frequency) band (for example, 13.56 Mz), a UHF band (Ultra- A known RF-ID tag system such as a high frequency band or a microwave band (eg, 2.45 Gz) is targeted.

In the following, it will be described that the electromagnetic wave passing packaging material 1 does not hinder the reading of the RF-ID tag 2 by the RF-ID tag reader / writer 3 even when the metal product 4 is present.
Information communication or the like using electromagnetic induction between the RF-ID tag 2 and the reader / writer 3 for RF-ID tag (a carrier wave for supplying power to the RF-ID tag 2 and modulated data carrying information superimposed thereon) Signal), if there is a metal product 4 on the back surface of the RF-ID tag 2, if the magnetic flux generated from the antenna of the reader-writer 3 for the RF-ID tag penetrates the metal product 4, the magnetic flux is determined by Faraday's law. An eddy current about the axis flows on the surface of the metal product 4.
The direction of rotation of the eddy current flows in a direction that generates a demagnetizing field that is a magnetic field opposite to the magnetic pole direction of the alternating magnetic field (carrier wave) generated in the antenna of the reader / writer 3 for the RF-ID tag.
That is, from the reader / writer 3 for the RF-ID tag, all information communication signals using electromagnetic induction for the RF-ID tag 2 are canceled by the demagnetizing field induced on the surface of the metal product 4 and greatly attenuated. Because.
However, in the electromagnetic wave passing packaging material 1, since the magnetic flux from the RF-ID tag reader / writer 3 passes through the soft magnetic metal powder contained in the electromagnetic wave passing packaging material 1, an eddy current is generated on the surface of the metal product 4. Does not occur.
For this reason, even if the metal product 4 is present, there is no problem in reading the RF-ID tag 2 by the reader / writer 3 for the RF-ID tag.

FIG. 1 shows a metal product 2 having a rectangular parallelepiped appearance, assuming a metal precision machine product or the like that contains a large amount of metal product.

FIG. 2 shows a packaged metal product 6 made of a bag-like electromagnetic wave passing packing material obtained by packing a metal product 4 with a bag-like electromagnetic wave passing packing material 5 in which the electromagnetic wave passing packing material 1 is made. ing.

FIG. 3 shows an external view of the buffer body 7.
The buffer body 7 is formed of a known buffer material such as paper cardboard or polystyrene that does not affect information communication using the electromagnetic waves between the RF-ID tag 2 and the RF-ID tag reader / writer 3. It is a thing.
In addition, a central concave depression 8 is formed on one side of the buffer body 7 to be inserted into the end of the packaged metal product 6 made of bag-shaped electromagnetic wave passing packaging material.

FIG. 4 is an explanatory view of packing of the packed metal product 6 using the bag-shaped electromagnetic wave passing packing material.
The upper diagram of FIG. 4 shows a state in which the central concave depression 8 of the buffer 7 is inserted into the left and right ends of the packaged metal product 6 made of the bag-like electromagnetic wave passing packaging material.
The lower figure of FIG. 4 shows a state in which the left and right ends of the packed metal product 6 made of the bag-like electromagnetic wave passing packing material are inserted into the central concave recess 8 of the buffer body 7 and inserted into the individual packaging box 9. I am doing.
The individual packaging box 9 is manufactured from a known paper cardboard or the like, which is a material that does not affect information communication using an RF-ID tag 2, an RF-ID tag reader / writer 3, and electromagnetic waves. .

FIG. 5 is an explanatory view showing positions where the RF-ID tag label 2 can be attached to the individual packaging box 9 for packing the packaged metal product 6 made of the bag-shaped electromagnetic wave passing packing material of the present invention.
In this embodiment, since the left and right ends of the packaged metal product 6 made of the bag-like electromagnetic wave-passing packing material are inserted into the central concave recess 8 on one side of the buffer body 7 and then inserted into the individual packaging box 9, The packed metal product 6 made of the bag-like electromagnetic wave passing packing material is arranged in the center in the individual packaging box 9.
For this reason, from the outside of the individual packaging box 9, an RF-ID tag label attaching position 10 is formed, which is a range in which there is no packaged metal product 6 made of a bag-like electromagnetic wave passing packaging material. If the RF-ID tag label 2 is affixed here, an arrangement without the packaged metal product 6 made of the bag-shaped electromagnetic wave passing packing material on the back surface of the RF-ID tag label 2 can be obtained.

FIG. 6 is a view of the individual packaging box 9 shown in FIG. 4 as viewed from the direction A. At the left and right ends of the packaged metal product 6 made of the bag-like electromagnetic wave passing packaging material, the central concave depressions of the buffer body 7 are respectively provided. Since it is inserted in the individual packaging box 9 with the part 8 inserted, the RF-ID tag label 2 is attached to the lower left of the individual packaging box 9 as an example.
The RF-ID tag label 2 is attached at a position where there is no packaged metal product 6 made of bag-shaped electromagnetic wave passing packing material behind the RF-ID tag label 2.

In general RF-ID tag-use logistics management systems, the RF-ID tag label affixed to the individual packaging box must be loaded outside for the purpose of improving the recognition rate of the RF-ID tag label of the reader / writer for the RF-ID tag. However, in this embodiment, only the top and bottom directions of the individual packaging boxes 9 may be aligned and loaded on the pallet 11.
That is, since the loading operation of the individual packaging box 9 on the pallet 11 is the same as the conventional one, the loading operation efficiency is not lowered.

FIG. 7 is an explanatory view showing a state in which the individual packaging box 9 with the RF-ID tag label 2 attached is mounted on the pallet 11.
In FIG. 7, as an example, the RF-ID tag label 2a of the individual packaging box 9a and the RF-ID tag label 2b of the individual packaging box 9b are loaded facing forward, but in the individual packaging box 9c, the RF-ID tag label 2c is rearward. Load it facing.

Since the metal product is packed with the electromagnetic wave passing packaging material 1 of the RF-ID tag, the magnetic flux from the reader / writer 3 for the RF-ID tag is generated from the soft magnetic metal powder contained in the electromagnetic wave passing packaging material 1. It passes through the inside and is equivalent to the absence of the metal product 4 than the reader / writer 3 for the RF-ID tag.
Furthermore, since the metal product 6 packed with the bag-like electromagnetic wave passing packing material is not arranged on the back surface of the RF-ID tag label, the RF attached to the outer side surface of all individual packaging boxes 9 on the pallet. -It does not affect the simultaneous reading of multiple ID tag labels.
For this reason, the RF-ID tag reader / writer 3 can simultaneously read a plurality of RF-ID tags 2 attached to the individual packaging boxes 9 loaded on the pallet 11.
That is, in the RF-ID tag reader / writer 3, even if the RF-ID tag label 2 is attached to the outside of the individual packaging box 9 for packing the metal product 4 and loaded on the pallet 11, it is still on the pallet 11. Reliable read / write of the RF-ID tag 2 attached to the outside of the individual packaging box 9 for packing all the metal products 4 is possible.

In the following, an outline of a collision prevention function that enables the RF-ID tag reader / writer 3 to simultaneously read a plurality of RF-ID tags 2 will be described.
The collision prevention function that enables simultaneous reading of a plurality of RF-ID tags by the reader-writer for the RF-ID tag is performed when a plurality of RF-ID tags 2 are included in the communicable area of the reader-writer 3 for the RF-ID tag. Responds all at once from the RF-ID tag 2.
In this case, in the reader / writer 3 for the RF-ID tag, a collision (collision) of response data from the RF-ID tag 2 occurs and the reading becomes impossible.
For this reason, by changing the timing of responding to an inquiry from the reader / writer 3 for the RF-ID tag for each RF-ID tag 2, collision prevention (anti-collision) is measured, and the reader / writer 3 for the RF-ID tag collects it. Lead is possible.

FIG. 8 is an explanatory diagram outlining the shipping inspection process using the present invention.
After the pallet 11 loaded with the individual packaging box 9 to which the RF-ID tag label 2 has been attached by the forklift 12 is mounted on the turntable 13, the turtable 13 itself rotates and the RF- installed on the side of the turntable 13. For shipment inspection connected to the reader / writer 3 for the RF-ID tag by gradually reading the RF-ID tag label 2 attached to the side surface of each individual packaging box 9 by the reader / writer 2 for the ID tag. The personal computer 14 can automatically recognize the product name and the number of products to be shipped.

<Modification>
The present invention can be practiced without being bound to the above-described embodiments.
In the said Example, in order to make the buffer body 7 respond | correspond to the rectangular parallelepiped metal product 4, it demonstrated that the center concave hollow part 8 was provided.
However, the present invention is not intended only for rectangular metal products.
That is, a metal product or the like is generally not limited to a rectangular parallelepiped, and has various shapes, and becomes a buffer having a shape corresponding to the shape.
Even in this case, a range in which the metal product 6 packed with the electromagnetic wave passing packing material 1 is not disposed behind the RF-ID tag label 2 attached to the outside of the individual packaging box by the individual packaging box and the buffer body is generated. The RF-ID tag label attaching position 10 is set, and the range in which the RF-ID tag label 2 is attached to this range.
Although the electromagnetic wave transmitting packaging material 1 of the present invention has been described with the foamed cushioning material, the heat-shrinkable foam cushioning sheet is very good by heating and kneading a soft magnetic metal powder with a thermoplastic resin or the like to form a film.
Furthermore, although the electromagnetic wave passing packaging material 1 has been described using only the buffer material, an antistatic material may be bonded to provide both a buffer function and an antistatic function.
The RF-ID tag reader / writer 3 may be a tunnel-type reader / writer that is often used in a logistics management system using RF-ID tags.

In the RF-ID tag distribution management system, it has been pointed out that the automatic recognition rate changes depending on the contents to be packed.
That is, the contents to be packed are made of metal products or the like, for example, wooden products, because the automatic recognition rate of the RF-ID tag label by the reader / writer for the RF-ID tag is changed, which prevents the spread of the RF-ID tag system. It is a factor.
Furthermore, the same thing is pointed out in the RF-ID tag utilization distribution management system.
For this reason, the present invention contributes to the improvement of the automatic recognition rate of the RF-ID tag not only in the RF-ID tag distribution management system but also in the RF-ID tag distribution management system. It will help.

Metal product appearance State explanatory diagram packing metal products in bag-shaped electromagnetic wave passing packing material Shock absorber external view Metal product packaging illustration Explanatory drawing of the position where RF-ID tag label can be affixed to individual packaging boxes of metal products Side view of individual box with RF-ID tag label Individual box mounting figure with RF-ID tag label on pallet Factory inspection system explanatory diagram

Explanation of symbols

1: Electromagnetic wave passing packaging material 2: RF-ID tag label (2a, 2b, 2C)
3: Reader-writer for RF-ID tag 4: Metal product 5: Bag-shaped electromagnetic wave passing packing material 6: Packed metal product with bag-like electromagnetic wave passing packing material 7: Buffer 8: Central concave recess 9: Individual packaging (9a, 9b, 9c)
10: RF-ID tag label affixing position 11: Pallet 12: Forklift 13: Turntable 14: Personal computer for shipping inspection

Claims (3)

Electromagnetic wave packaging material characterized by being a buffer material containing soft magnetic metal powder A packing method using the electromagnetic wave passing packing material, wherein a buffer is inserted on both sides after the product is packed with the electromagnetic wave passing packing material according to claim 1 and the individual packaging is inserted. 3. When affixing an RF-ID tag label to the outer side surface of the individual packaging box according to claim 2, the RF-ID is located at a position where there is no product packaged with the electromagnetic wave passing packaging material on the back surface of the RF-ID tag label. Packing method using electromagnetic wave passing packing material, characterized by attaching tag label

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