JP4264206B2 - Opening detector and opening detection method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an opening detector and an opening detection method. According to the unsealing detector and the unsealing detection method according to the present invention, it is determined whether the sealed box is opened or remains sealed, and is not contacted with a panel installed in a place where radio waves can respond, away from the box. Since it can be detected by a simple operation by radio wave communication in the state, it is possible to effectively prevent fraudulent acts such as data alteration such as ROM stored in the sealed box and ROM exchange.
[0002]
[Prior art]
In recent years, since electronic parts such as ROM are used for controlling the appearance of pachinko gaming machines, actions such as illegally altering ROM data or replacing ROM are performed. In order to make it difficult to execute such fraudulent acts, a main component such as a ROM or a board on which these electronic components are mounted is placed in a ROM storage case inside the pachinko machine, and the lid of the ROM storage case is sealed with a seal. Sealing is done. Still, open the game board on the front of the pachinko machine so that it is not visible to the public, peel off the seal sticker, and tamper with the ROM data or replace the ROM. This is extremely complicated.
Therefore, a system capable of easily finding the opening action of the seal seal is required, and various means capable of electrical confirmation have been proposed.
For example, Japanese Patent Laid-Open No. 2000-122552 describes a seal seal including a circuit that is destroyed by unauthorized peeling. However, with this seal, it is necessary to connect the electrical circuit of each pachinko machine to the electrical detector, and the entire configuration of the detection system becomes large and the installation cost increases.
Japanese Patent Laid-Open No. 2000-57292 proposes a non-contact data carrier label that can detect unauthorized peeling. A system is also conceivable in which this non-contact data carrier label is used as a seal sticker, and the presence or absence of the seal sticker is confirmed in a non-contact state by an interrogator (interrogator) from the front of the pachinko machine. However, since pachinko machines have many metal parts inside, it is difficult to communicate accurately with the seal seal as a data carrier and the interrogator (interrogator). If the player is playing, it is necessary to stop the play and open the game board in front of the pachinko machine to check it.
[0003]
[Problems to be solved by the invention]
Accordingly, an object of the present invention is to confirm in a non-contact state whether or not the seal seal attached to a ROM storage case installed inside a gaming machine such as a pachinko gaming machine is opened without interfering with the player's play. It is to provide a simple system that can do this.
[0004]
[Means for Solving the Problems]
The above problem is in accordance with the present invention.
(1) (a) a substrate;
(B) a release agent layer provided in a partial region on one surface of the substrate;
(C) Provided on the one-side surface of the substrate so as to substantially span both the peelable part covering the release agent layer and the non-peelable part not covering the release agent layer. A disconnect detection circuit;
(D) an adhesive layer provided on the one side surface of the substrate while covering the cutting detection circuit;
Cutting detection label having,
(2) An antenna panel provided with an antenna circuit on one side of the panel substrate, and
(3) Lead wire connecting the disconnection detection circuit and the antenna circuit
It can be solved by an unsealing detector characterized by having
In a preferred embodiment of the unsealing detector according to the present invention, the cutting detection circuit or the antenna circuit has a memory section.
In another preferable aspect of the unsealing detector according to the present invention, the disconnection detection circuit has a connection end exposed from the adhesive layer, and the antenna circuit is exposed from the panel base material. It has an end for use.
The present invention also provides:
(1) A process of attaching the cut detection label to the opening / closing part of a casing having a sealable opening / closing part,
(2) installing the antenna panel at a position where radio waves can respond; and
(3) A step of connecting the disconnection detection circuit and the antenna circuit with a lead wire
After performing in any order,
(4) The presence or absence of disconnection of the disconnection detection circuit in the disconnection detection label is detected by a response by radio waves with the antenna panel.
The present invention also relates to an opening detection method.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, various aspects of the present invention will be described in order with reference to the accompanying drawings.
As described above, the unsealing detector according to the present invention includes the cutting detection label, the antenna panel, and the lead wire connecting the cutting detection label and the antenna panel. FIG. 1 is a side sectional view schematically showing a state in which an unsealing detector according to the present invention is installed in a pachinko gaming machine 6 with a part of the side surface of the pachinko gaming machine 6 cut away. In general, the pachinko gaming machine 6 has a ROM storage case 62 installed on the back side of a game board 61 provided so as to be freely opened and closed, and a glass door 63, a hitting ball supply tray 64, and an operation on the front face facing the player. A handle 65 is installed. The cutting detection label 1 of the unsealing detector according to the present invention is affixed to a sealable opening / closing portion of the ROM storage case 62, and the antenna panel 2 is attached to a position capable of responding by radio waves inside the pachinko gaming machine 6. The cutting detection label 1 and the antenna panel 2 can be connected by a lead wire 3.
[0006]
FIG. 2 is a cross-sectional view showing a state in which the cut detection label 1 used in the present invention is peeled from a release sheet (not shown) and then attached to the surface of a ROM storage case 62 as an adherend. The cutting detection label 1 used in the present invention is as shown in FIG.
(A) base material 12,
(B) a release agent layer 13 provided in a partial region on the one-side surface 12a of the substrate 12;
(C) an adhesive layer 14 provided on the one-side surface 12a of the substrate 12 while covering the release agent layer 13, and
(D) In the adhesive layer 14, so as to substantially span both the peelable portion 14a covering the release agent layer 13 and the non-peelable portion 14b not covering the release agent layer 13, A cutting detection circuit 15 embedded in the adhesive layer 14 can be provided. Or you may provide the said circuit 15 for a cutting | disconnection detection in the state which was made to contact the peelable part 14a and the non-peelable part 14b of the base material 12 directly. In addition, it is preferable to expose the connection end portion 16 of the detection circuit 15 from the adhesive layer because the connection with the lead wire is facilitated.
[0007]
As shown in FIG. 2, the base material 12 is a support for the release agent layer 13 and the adhesive layer 14, and seals the cutting detection label 1 of the present invention, for example, the opening / closing part 62 a of the ROM storage case 62. When affixed in this manner, it acts as a protective layer for the cutting detection circuit. This base material 12 is provided with a release agent layer 13 that can be easily peeled from the interface between the base material 12 and the release agent layer 13 only in a partial region on one side surface (release agent layer-adhesive layer installation surface) 12a. Further, an adhesive layer 14 that completely covers the entire release agent layer 13 is provided on the one-side surface 12 a of the base material 12. Therefore, the one-side surface 12a of the base material 12 is composed of a peelable region in contact with the release agent layer 13 and a non-release region in contact with the adhesive of the adhesive layer 14. Since the one-side surface 12a of the base material 12 is divided into the two regions as described above with respect to the peelability, the adhesive layer 14 provided on the one-side surface 12a of the base material 12 also has these peelable regions and Corresponding to the non-peelable region, each is divided into a peelable part 14a and a non-peelable part 14b.
[0008]
As shown in FIG. 2, when a force is applied to peel off the cut detection label 1 attached to the ROM storage case 62 from the surface of the ROM storage case 62, the peelable portion 14 a peels from the one-side surface 12 a of the substrate 12. Peeling easily occurs at the interface with the agent layer 13 (Note that such an action of forcing the ROM housing case 62 off is sometimes referred to as “illegal peeling” hereinafter). On the other hand, in the non-peelable portion 14 b, peeling occurs at the interface between the adhesive layer 14 and the surface of the ROM storage case 62. Therefore, when the cut detection label 1 is peeled from the surface of the ROM storage case 62, the peelable portion 14a of the adhesive layer 14 remains on the surface side of the ROM storage case 62, and the non-peelable portion 14b is the surface of the base material 12. Since it remains on the side, the adhesive layer 14 is cut. As a result, the cutting detection circuit 15 embedded in the adhesive layer 14 is also cut. Since it is practically impossible to reattach the cut detection circuit 15 by reattaching the cut detection label 1 from which the cut detection circuit 15 has been cut in this manner to the same location, The function as a circuit is completely destroyed.
[0009]
Further, by providing the base material 12 with the release agent layer 13 that can be easily peeled off from the interface between the adhesive layer 14 and the release agent layer 13, the release agent layer 13 and the adhesive layer can be used in the case of the illegal peeling. Peeling can also occur at the interface with 14. Also in this case, in the non-peelable portion 14 b of the adhesive layer 14, peeling occurs at the interface between the adhesive layer 14 and the surface of the ROM storage case 62, so that the cutting detection circuit 15 is destroyed.
[0010]
In the cut detection label 1 according to the present invention, when illegal peeling is performed, a visual confirmation means can be provided in order to visually identify that. For example, after providing the transparent or translucent release agent layer 13 in a partial region on the one-side surface 12 a of the transparent or translucent substrate 12, before providing the adhesive layer 14 on the release agent layer 13. And providing a printing ink layer or a metal vapor deposition film that completely covers the release agent layer 13 and covers the entire surface of the one-sided surface 12a of the substrate 12, and then adheres to the entire surface of the printing ink layer or the metal vapor deposition film. An agent layer 14 can be provided. If the cutting detection label 1 having such a printing ink layer or metal vapor deposition film is attached to the surface of the ROM storage case 62 and then illegally peeled off, the printing ink layer or metal vapor deposition film will be on the substrate 12 side and the ROM storage case 62 side. Since it is impossible to attach and reproduce the two separated in this manner, unauthorized peeling can be visually identified. As such visual confirmation means, other known means can be used as appropriate.
[0011]
The material constituting the substrate 12 that can be used for the cutting detection label 1 used in the present invention is a material that can act as a protective layer for the cutting detection circuit 15 as well as a support such as the release agent layer 13. The material is not particularly limited as long as it is present, and may be, for example, a paper, a woven or knitted fabric of natural or synthetic fiber material, a nonwoven fabric, a film or sheet made of a synthetic resin, or a laminate thereof. Examples of the synthetic resin include polyethylene, polypropylene, polyvinyl chloride, polystyrene, polyester, polyurethane, polyvinyl acetate, polybutene, polyacrylic acid, polymethacrylic acid, polyacrylic acid ester, polymethacrylic acid ester, polyvinyl alcohol, polyvinyl formal, Polyvinyl butyral, polyacrylonitrile, polyimide, polycarbonate, polyamide, ethylene-vinyl acetate copolymer, ethylene-acrylic ester copolymer, polyvinyl acetal, ethyl cellulose, cellulose triacetate, hydroxypropyl cellulose, acrylonitrile butadiene styrene copolymer, etc. The various resins can be mentioned.
Moreover, foamed films, such as a foaming polyurethane resin, a foaming polyester resin, a foaming polyethylene resin, a foaming polypropylene, a foaming polyethylene-ethylene vinyl acetate copolymer, are also mentioned.
[0012]
In the cutting detection label 1 used in the present invention, the release agent layer 13 provided on the substrate 12 can be formed by applying a known release resin. Examples of the peelable resin include silicone resin, polyamide resin, wax, (meth) acrylic acid higher alcohol ester, and higher fatty acid ester. Although the pattern of the peeling process with respect to the base material 12 is not specifically limited as long as the circuit 15 for a cutting detection is a shape which can be cut | disconnected, the area | region of peelable resin is made into the single place or multiple places on the base material 12 surface. For example, it can be formed in a stripe shape or a polka dot shape.
[0013]
The cutting detection circuit 15 of the cutting detection label 1 used in the present invention can be made of conductive ink or a metal thin film such as a deposited film of an electrically conductive metal such as copper or aluminum or a metal foil.
[0014]
In the cutting detection label 1 used in the present invention, as the adhesive constituting the adhesive layer 14, a normal known adhesive, that is, a normal known pressure-sensitive adhesive or heat-sensitive adhesive can be used. . Specifically, a pressure-sensitive or heat-sensitive adhesive mainly composed of acrylic resin, urethane resin, natural rubber, synthetic rubber, silicone resin, polyolefin resin, polyester resin, or ethylene-vinyl acetate copolymer; or , Epoxy resin, phenol resin, melamine resin, alkyd resin, isocyanate compound, or a curing component such as low molecular weight acrylic compound or vinyl compound containing hydroxyl group, glycidyl group, unsaturated bond, etc. A curable adhesive that cures with a wire or the like can be given.
Furthermore, a tackifier can be added as needed for the purpose of improving the adhesive strength of the adhesive. The tackifier is not particularly limited, and examples thereof include rosin, terpene, phenol, and xylene resin. Moreover, a light absorber, a heat stabilizer, a softening agent, a filler, or the like can be added.
[0015]
FIG. 3 is a sectional view showing an embodiment of the antenna panel 2 used in the present invention. As shown in FIG. 3, the antenna panel 2 used in the present invention is
(A) the first panel substrate 22,
(B) an adhesive layer 24 provided on one surface of the first panel substrate 22;
(C) a second panel substrate 27 further provided on the adhesive layer 24, and
(D) Antenna circuit 25 embedded in the adhesive layer 24
Can be included. Further, the connection end portion 26 of the antenna circuit 25 can be exposed from the adhesive layer. The antenna panel 2 having the mode shown in FIG. 3 is hereinafter referred to as a card-type antenna panel, and the antenna panel 2 having no second panel substrate 27 is referred to as an adhesive label type antenna panel.
[0016]
The material constituting the first panel base material 22 and the second panel base material 27 that can be used for the antenna panel 2 used in the present invention is a support such as the adhesive layer 24 and also acts as a surface protective layer. As long as it is a material that can be used, the material is not particularly limited, and a material that can be used as the substrate 12 of the cutting detection label 1 can be used as it is.
[0017]
The antenna circuit 25 of the antenna panel 2 used in the present invention is printed on the surface 22 of the first panel base material by using, for example, conductive ink by means of screen printing or the like, or by conducting electrical conduction such as copper or aluminum. It can be formed by providing a thin metal layer such as a vapor deposition film of a conductive metal or a metal foil.
[0018]
In the antenna panel 2 used in the present invention, the adhesive constituting the adhesive layer 24 is not particularly limited, and the same adhesive as the adhesive for the cut detection label 1 can be used.
[0019]
FIG. 4 is a schematic diagram showing the circuit arrangement of the antenna circuit 25 included in the antenna panel 2 of the present invention. After applying the memory part 71 of the IC chip and the insulating ink, for example, silver ink is printed. The formed jumper portion 72 is shown, and the antenna circuit 25 can detect the presence of the circuit itself or communicate data stored in the circuit via electromagnetic waves. The antenna circuit 25 is joined to the lead wire 3 at the connection end portion 26 and further communicates with the disconnection detection circuit 15 via the lead wire 3.
[0020]
The lead wire 3 that connects the cutting detection circuit 15 and the antenna circuit 25 with the unsealing detector of the present invention is not particularly limited as long as it has conductivity. For example, a metal wire such as a gold wire or a copper wire, or polyethylene or polyethylene Examples thereof include a film of terephthalate or the like printed with the conductive ink used in the cutting detection circuit 15. Further, the method for connecting the lead wire 3 to the cutting detection circuit 15 and the antenna circuit 25 is not particularly limited, and the cutting detection circuit 15 may be a known connection terminal such as a soldering type or a clip type provided at the end of the lead wire. The connection end 16 and the connection end 26 of the antenna circuit 25 can be connected.
By connecting the lead wires 3 in this way, the unsealing detector can form a circuit including the disconnection detection circuit 15 and the antenna circuit 25.
[0021]
Therefore, when the cutting detection circuit 15 included in the cutting detection label 1 is not destroyed, when a radio wave of a specific frequency is transmitted from an appropriate detection device 5 (see FIG. 1), a reply is made in response to the signal. A signal can be transmitted, and it can be confirmed that the disconnection detection circuit 15 is not destroyed. Further, when the cutting detection circuit 15 included in the cutting detection label 1 is broken, even if a radio wave of a specific frequency is transmitted from the detection device 5, a reply signal that responds to the signal is not transmitted. It can be confirmed that the cutting detection circuit 15 is destroyed.
[0022]
The unsealing detector according to the present invention preferably further includes a memory unit 71 (for example, an IC chip) connected to the cutting detection circuit 15 and / or the antenna circuit 25 to form a non-contact data carrier. . When the unsealing detector of the present invention includes the memory unit 71, the record of the management history such as the survey date and the surveyed person is input to each unsealing detector, and tracking when an illegal peeling action is performed Investigation can be facilitated.
[0023]
The cutting | disconnection detection label 1 used with the opening detector of this invention can be manufactured by various methods. For example, a release agent is applied to a partial region of the one-side surface 12a of the base material 12 and dried to form the release agent layer 13, followed by laminating an electrically conductive metal foil using the adhesive layer and etching. After the cutting detection circuit 15 is formed by the above, an adhesive layer is provided on the release surface of the release sheet provided with a release layer made of silicone resin, for example, on a separate release sheet substrate such as polyethylene or polyethylene terephthalate, and the adhesive layer Is attached to the cutting detection circuit 15 to form the cutting detection label 1 with a release sheet. In the case where the memory unit 71 is provided, the memory unit 71 is connected to the circuit 15 after the disconnection detection circuit 15 is formed.
[0024]
Furthermore, the cutting detection circuit 15 is embedded in a synthetic resin sheet in advance, or the cutting detection circuit 15 is prepared as a laminate sheet including the cutting detection circuit 15 that is attached to the sheet in advance. On the other hand, after providing the release agent layer 13 in a partial region of the one-side surface 12a of the substrate 12, an adhesive is applied from above, and the cut detection circuit 15 is embedded in the synthetic resin sheet or After bonding the laminate sheet, the cut detection label 1 can be formed by further applying an adhesive from above.
[0025]
Furthermore, in order to manufacture the cutting detection label 1 used in the present invention, for example, after the release agent layer 13 is printed on a partial region of the one-side surface 12a of the substrate 12, the cutting detection circuit 15 is changed to the conductive ink. It is also possible to form the cut detection label 1 by printing and printing, and further applying an adhesive from above.
[0026]
Although the antenna panel 2 used in the present invention is also different from the circuit 15 for detecting the cut and the antenna circuit 25 in terms of the circuit, an adhesive antenna panel with a release sheet can be manufactured by the same method as that for the cut detection label 1. can do. Moreover, a card-type antenna panel can be manufactured by using the 2nd panel base material 27 instead of the peeling sheet used by manufacture of the said cutting | disconnection detection label 1. FIG.
[0027]
The unsealing detector and unsealing detection method according to the present invention can be used for sealing an arbitrary housing having an opening / closing portion (particularly, an electronic component storage case of a gaming machine). Examples of gaming machines include pachinko gaming machines and slot machines.
[0028]
【Example】
EXAMPLES Hereinafter, the present invention will be specifically described by way of examples, but these do not limit the scope of the present invention.
[Example 1]
In Example 1, an unsealing detector of the present invention including a cut detection label 1 having the form shown in FIG. 2, a card-type antenna panel 2 having the form shown in FIG.
(1) Creation of cut detection label
On the one-side surface 12a of a polyethylene terephthalate film (manufactured by Toray Industries, Inc .; trade name Lumirror S-10: length 6 cm, width 9 cm, thickness 50 μm) as a base material 12, a peelable portion having a length of 6 cm and a width of 1 cm 4 parts at 1 cm intervals from the 1 cm inner part of the side edge, and a silicone resin as a peelable resin was applied by screen printing so that the thickness after drying would be 1 μm, and placed in a constant temperature bath at 140 ° C. for 1 minute, The release agent layer 13 was formed by curing. On top of this, an acrylic pressure sensitive adhesive (manufactured by Lintec Corporation; trade name PA-T1) was applied with a doctor blade, put into a constant temperature bath at 100 ° C. for 10 minutes, and dried. The thickness of the pressure sensitive adhesive applied to this film was 20 μm. Subsequently, a U-shaped copper foil (width 500 μm; thickness 20 μm) composed of three rectangular sides (2 long sides and 1 short side) having a width of 9 cm and a length of 2 cm was attached to the pressure-sensitive adhesive of the substrate 12. It was bonded to the surface of the agent to form a cutting detection circuit 15. At this time, both end portions of the U-shaped copper foil were exposed 5 mm from the sheet, and used as connection end portions 16.
On the other hand, the acrylic pressure-sensitive adhesive was applied with a doctor blade onto the polyethylene terephthalate film (length 6 cm, width 9 cm, thickness 50 μm), one side of which was peeled off with a silicone resin, and placed in a constant temperature bath at 100 ° C. for 10 minutes. Charged and dried. The thickness of the pressure sensitive adhesive applied to this release film was 20 μm. The pressure sensitive adhesive surface of the release film and the cut detection circuit surface on the circuit mounting film prepared above were bonded together to produce the cut detection label 1 in a state of being attached to the release sheet.
[0029]
(2) Creation of card type antenna panel
A polyester-based heat-sensitive adhesive (manufactured by Toyobo Co., Ltd.) is formed on one surface of the first panel substrate 22 made of the polyethylene terephthalate film (length 5 cm, width 6 cm, thickness 50 μm) used in Example 1 (1). ; After the copper foil (5cm in length, 6cm in width, 35μm in thickness) was pasted together with the product name Byron SS) (thickness 20μm), the etching resist ink was printed on the copper foil by screen printing in the form of an antenna circuit and etched. Then, the resist ink peeling process was performed to create the antenna circuit 25.
Subsequently, an insulating ink was printed on the jumper portion 72 of the antenna circuit 25, and then a silver ink was printed on the insulating ink to form a jumper circuit.
On the other hand, the acrylic pressure-sensitive adhesive film used in Example 1 (1) on a foamed polyester film (manufactured by Toyobo Co., Ltd .; trade name G2323: length 5 cm, width 5 cm, thickness 38 μm) as the second panel substrate 27. An adhesive sheet coated with an adhesive (thickness 20 μm) was prepared and affixed to the antenna circuit to prepare a card-type antenna panel 2. Since the adhesive sheet is 1 cm shorter than the first panel substrate 22, the end of the antenna circuit 25 can be exposed, and that portion is used as the connection end 26.
[0030]
(3) Creation of unsealing detector
Clip the connection end 16 of the cut detection label 1 created in Example 1 (1) and the connection end 26 of the card-type antenna panel 2 created in Example 1 (2) onto a copper wire. An opening detector according to the present invention was prepared by connecting with a lead wire 3 provided with a type of connection terminal.
[0031]
(4) Response test
The release sheet was peeled off from the cut detection label 1 of the unsealing detector according to the present invention prepared in Example 1 (1), and affixed so as to seal the opening / closing part 62a of the ROM storage case 62 of the pachinko gaming machine 6. Subsequently, the card-type antenna panel 2 of the unsealing detector according to the present invention created in Example 1 (2) was inserted into the panel insertion portion provided inside the front surface of the pachinko gaming machine 6. Before performing the peeling operation of the cut detection label 1, a non-contact response test was performed 10 times on the card-type antenna panel 2 from the front surface of the pachinko gaming machine 6, and it was confirmed that all 10 responses were made normally. did.
[0032]
(5) Fraud peeling test
After performing the response test of Example 1 (4), the cutting detection label 1 is peeled to cut the cutting detection circuit 15 and close the game board 61, and then the front surface of the pachinko gaming machine 6 When the contactless response test was performed 10 times for the card-type antenna panel 2 arranged on the inner side, no response could be made in all 10 times.
[0033]
[Example 2]
In the second embodiment, the cutting detection label 1 having the mode shown in FIG. 2, the card-type antenna panel 2 having the memory unit 71 having the mode shown in FIGS. 3 and 4, and the lead wire 3 according to the present invention. A vessel was created.
(1) Creation of cut detection label
The cut detection label 1 prepared in Example 1 (1) was used.
[0034]
(2) Creation of card-type antenna panel with memory
Before sticking the foamed polyester film adhesive sheet used as the second panel substrate 27 in Example 1 (2), as shown in FIG. A card type antenna panel having a memory portion 71 in the same manner as in Example 1 (2) except that an IC chip for contact data carrier (manufactured by Philips; trade name I-CODE) was joined to a circuit by a flip chip mounting method. 2 was created.
[0035]
(3) Creation of unsealing detector
The connection end portion 16 of the cut detection label 1 created in the second embodiment (1) and the connection end portion 26 of the card type antenna panel 2 having the memory portion 71 created in the second embodiment (2). The lead wire 3 provided with the clip type connection terminal was connected to the copper wire, and the unsealing detector according to the present invention was created.
[0036]
(4) Response test
The release sheet was peeled off from the cut detection label 1 of the opening detector according to the present invention prepared in Example 2 (1) and pasted so as to seal the opening / closing part 62a of the ROM storage case 62 of the pachinko gaming machine 6. Subsequently, the card-type antenna panel 2 having the memory part 71 of the opening detector according to the present invention prepared in Example 2 (2) was inserted into the panel insertion part provided inside the front surface of the pachinko gaming machine 6. When a non-contact response test was performed 10 times on the card type antenna panel 2 from the front surface of the pachinko gaming machine 6, it was confirmed that the response was normally performed all 10 times. In addition, an input and readout test of the date and time of pasting and the code number of the inspected person was conducted, and it was confirmed that the input and readout were performed accurately. Furthermore, when a communication history input and readout test was performed, it was confirmed that the input and readout were performed accurately.
[0037]
(5) Fraud peeling test
After performing the response test of Example 2 (4), the cutting detection label 1 is peeled off to cut the cutting detection circuit 15 and close the game board 61, and then the front surface of the pachinko gaming machine 6 When the non-contact response test was performed 10 times on the card type antenna panel 2 arranged in the above, the response could not be performed in all 10 times.
[0038]
[Example 3]
In Example 3, the cut detection label 1 having the mode shown in FIG. 2 and the adhesive label type antenna panel 2 having the mode shown in FIG. 3 (however, a mode using a release sheet instead of the second panel substrate 27) The opening detector of the present invention including the lead wire 3 was prepared.
(1) Creation of cut detection label
The cut detection label 1 prepared in Example 1 (1) was used.
[0039]
(2) Creation of adhesive label type antenna panel
Except that the pressure-sensitive adhesive was applied to the release surface of the release sheet that was release-treated with a silicone resin as a release resin on one side of the foamed polyester film used as the second panel substrate 27 in Example 1 (2). Prepared an antenna panel in the same manner as in Example 1 (2) to prepare an adhesive label type antenna panel 2 with a release sheet.
[0040]
(3) Creation of unsealing detector
The connection end 16 of the cut detection label 1 created in Example 3 (1) and the connection end 26 of the adhesive label antenna panel 2 created in Example 3 (2) are made of copper wire. An opening detector according to the present invention was prepared by connecting with a lead wire 3 provided with a clip-type connection terminal.
[0041]
(4) Response test
The release sheet was peeled off from the cut detection label 1 of the unsealing detector according to the present invention prepared in Example 3 (1), and affixed so as to seal the opening / closing part 62a of the ROM storage case 62 of the pachinko gaming machine 6. Subsequently, the release sheet was peeled off from the adhesive label type antenna panel 2 of the unsealing detector according to the present invention prepared in Example 3 (2) and attached to the inner front side of the pachinko gaming machine 6. Before performing the peeling operation of the cutting detection label 1, a non-contact response test was performed 10 times on the adhesive label type antenna panel 2 from the front surface of the pachinko gaming machine 6. confirmed.
[0042]
(5) Fraud peeling test
After performing the response test of Example 3 (4), the cutting detection label 1 is peeled off, the cutting detection circuit 15 is cut, the game board 61 is closed, and then the front surface of the pachinko gaming machine 6 When the non-contact response test was performed 10 times on the adhesive label type antenna panel 2 affixed on the inside, no response could be made in all 10 times.
[0043]
【The invention's effect】
According to the unsealing detector of the present invention, a seal sticker is affixed to a position where it cannot respond from the outside, such as confirmation of opening of a seal seal of a ROM storage case installed inside a gaming machine such as a pachinko gaming machine. The presence or absence of opening can be confirmed in a non-contact state at a remote location. Further, when a memory such as an IC chip is used in combination, a daily management history can be stored, which can be used for follow-up investigation of unauthorized peeling.
[Brief description of the drawings]
FIG. 1 is a side sectional view schematically showing a state in which an unsealing detector according to the present invention is installed in a pachinko gaming machine with a part of a side surface of the pachinko gaming machine being cut away.
FIG. 2 is a cross-sectional view showing a state where a cut detection label used in the present invention is attached to the surface of a ROM storage case.
FIG. 3 is a cross-sectional view of an antenna panel used in the present invention.
FIG. 4 is an explanatory diagram showing a line arrangement of an antenna panel used in the fourth embodiment.
[Explanation of symbols]
1 ... cutting detection label; 2 ... antenna panel;
3 ... Lead wire; 6 ... Pachinko machine;
12 ... base material;
12a ·· Base material release agent layer-adhesive layer installation surface;
13 ... release agent layer; 14 ... adhesive layer;
14a ... peelable part; 14b ... non-peelable part;
15 ... cutting detection circuit; 16 ... connection end;
22 ... 1st panel base material; 24 ... Adhesive layer;
25 ... Antenna circuit; 26 ... End for connection;
27 ... 2nd panel base material; 61 ... Game board;
62... ROM storage case;
63 ... Glass door; 64 ... Hit ball supply tray;
65 ... operation handle; 71 ... memory part;
72: Jumper part.

Claims (4)

(1) (a) a substrate;
(B) a release agent layer provided in a partial region on one surface of the substrate;
(C) Provided on the one-side surface of the substrate so as to substantially span both the peelable part covering the release agent layer and the non-peelable part not covering the release agent layer. A disconnect detection circuit;
(D) a cutting detection label affixed to a position where radio waves cannot respond, having an adhesive layer provided on the one side surface of the base material while covering the cutting detection circuit;
(2) An antenna panel which is provided with an antenna circuit on one side of a panel base material and communicates with a detection device, the antenna panel installed at a position where radio waves can respond, and (3) the disconnection detection circuit and the An opening detector having a lead wire for connecting to the antenna circuit.   The unsealing detector according to claim 1, further comprising a memory unit to which a management history is input to the disconnection detection circuit or the antenna circuit.   The cutting detection circuit has a connection end exposed from the adhesive layer, and the antenna circuit has a connection end exposed from a panel base material. The opening detector according to 2. (1) A step of attaching the cutting detection label according to any one of claims 1 to 3 to a position where the opening / closing portion of the casing having a sealable opening / closing portion cannot respond by radio waves,
(2) A step of installing the antenna panel according to any one of claims 1 to 3 at a position where radio waves can respond, and (3) a step of connecting the disconnection detection circuit and the antenna circuit with a lead wire. After performing in any order,
(4) An opening detection method, wherein the presence or absence of cutting of the cutting detection circuit in the cutting detection label is detected by a response by radio waves to the antenna panel.

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