JP2017094609A - Fiscal printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect physical access to a memory storing protection object data.SOLUTION: A fiscal printer 1 includes: a printing part 12; a fiscal memory 25 which stores data being a protection object related to printing; a battery 28; a memory substrate 26 which is loaded with a detection circuit 61 operating with the power of the battery 28; and a sheet 51 which seals the memory substrate 26. The sheet 51 includes an easily-breakable part and has at least any of a conducting wire for detection and a conducting wire for power supply supplying power from the battery to the detection circuit arranged therein. The detection circuit 61 detects the conduction state of the conducting wire arranged on the sheet 51.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a fiscal printer.

Conventionally, a fiscal printer having a function of storing and holding data to be protected related to printing is known (for example, see Patent Document 1). Data to be protected (fiscal data) is, for example, sales transaction data received from a POS terminal and printed on a receipt. Fiscal data is used for tax collection.
The fiscal printer described in Patent Document 1 includes a removable fiscal control board. The fiscal control board is equipped with a memory for storing fiscal data, a detection circuit for detecting removal of the fiscal control board, and a real-time clock having a storage unit. When the fiscal control board is removed, the real-time clock inputs a detection signal from the detection circuit, and stores data indicating that the fiscal control board is removed in the storage unit in association with the time when the detection signal is input. .
In general, a memory for storing fiscal data is covered with a black epoxy resin so as not to be tampered with from the outside in order to prevent falsification of data stored in the data.

JP 2010-134580 A

By the way, when an illegal act such as tampering is performed, a physical access to a memory storing data to be protected may be performed. If this physical access can be detected, fraud such as tampering can be detected.
Accordingly, an object of the present invention is to enable detection of physical access to a memory storing data to be protected.

In order to achieve the above object, a fiscal printer of the present invention includes a printing unit, a memory that is received from an external device and stores data to be protected related to printing, a battery, and power of the battery. A memory board on which an operating detection circuit is mounted; and a sheet for sealing the memory board. The sheet has an easily breakable portion, and further includes a detection lead wire and power from the battery to the detection circuit. At least one of the power supply conductors for supplying power is disposed, and the detection circuit detects a conduction state of the conductor disposed on the sheet.
According to the present invention, when physical access to a memory board storing data to be protected is performed, the sheet is broken by an easily breakable portion such as a notch shape, and the detection is arranged on the sheet. The conductive state of the lead wire or the power supply lead wire is likely to change due to disconnection or the like. Therefore, physical access to the memory board storing the data to be protected can be detected by the detection circuit.

According to the present invention, in the above configuration, when the detection circuit detects a non-conduction state of the detection conductor, data indicating breakage of the sheet is recorded in the memory.
According to the present invention, since physical access to the memory substrate is detected and data indicating breakage is recorded in the memory, whether or not the sheet is broken can be specified based on the data recorded in the memory.

According to the present invention, in the above configuration, when the detection circuit detects a decrease in power supply voltage, the detection circuit records data indicating breakage of the sheet in the memory.
According to the present invention, physical access to a memory board storing data to be protected can be detected based on a decrease in power supply voltage. Since data indicating breakage is recorded in the memory, the presence or absence of breakage of the sheet can be specified based on the data recorded in the memory.

According to the present invention, in the above configuration, the detection circuit records data including a detection time in the memory.
According to the present invention, the time when the sheet is broken can be specified based on the data including the detection time.

In the above configuration, the present invention further includes a control board related to the control of the printing unit, the memory board is connected to the control board with a cable, and the sheet has a passage slit through which the cable passes.
According to the present invention, the memory substrate can be easily connected to the control substrate while being covered with the sheet.

In the above configuration, the control board sends data to be written to the memory to the memory board, and data indicating breakage of the sheet is recorded on the memory board. Stops sending data to be written to the memory.
According to the present invention, when sheet breakage is detected, transmission of data to be written to the memory is stopped, so that recording to the memory can be interrupted when there is a possibility of falsification.

Further, in the above-described configuration, in the present invention, the length of the detection conducting wire is at least longer than the vertical or horizontal length of the sheet.
According to the present invention, the break of the sheet due to breakage easily crosses the detection conductor.

Further, according to the present invention, in the above configuration, the length of the power supply lead wire is at least longer than the vertical or horizontal length of the sheet.
According to the present invention, the sheet break due to breakage easily crosses the power supply conductor.

1 is a perspective view of a fiscal printer according to an embodiment to which the present invention is applied. Functional block diagram of a fiscal printer. The disassembled perspective view of the module main body of a fiscal module. The figure which showed the sheet | seat and the detection circuit typically with the periphery structure. The figure which showed the sheet | seat and the memory substrate typically. 6A and 6B are views showing a sheet according to a modification.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view showing a configuration of a fiscal printer 1 according to an embodiment to which the present invention is applied.
A fiscal printer 1 (hereinafter, referred to as a printer 1) is an accounting printer connected to a POS terminal (not shown), and includes a printer main body 2 and a fiscal module 3 attached to the printer main body 2. .
The printer main body 2 is hardware that realizes a print function for receiving print data related to sales transactions from a POS terminal and printing (issuing) a receipt based on the received print data. The printer main body 2 includes a front lid 2A that allows access to the inside from the front and an upper surface lid 2B that allows access to the inside from above.

The upper surface lid 2B is an open / close lid that is opened when a printing medium, for example, a thermal roll paper is replaced. The front lid 2A is an open / close lid that is opened when replacing ink used for printing, for example, an ink ribbon.
On the upper surface of the printer body 2, there is provided a discharge port for printed printing medium, that is, a receipt discharge port 2 </ b> C for discharging a receipt. Further, on the surface of the printer body 2, an operator 2D for unlocking a lock mechanism that holds the upper surface lid 2B in a closed state, and an operator (not shown) for inputting a user instruction such as a power-on instruction or a power-off instruction. ) Etc. are provided.

The fiscal module 3 is hardware that realizes a fiscal function such as storing and holding fiscal data (data to be protected). Here, fiscal data is data to be protected regarding printing, and includes, for example, information related to a sales transaction received from a POS terminal and output to a receipt. However, since fiscal data is used for tax collection, the specific contents are determined in accordance with the laws and regulations of the country where the printer 1 is used.
The fiscal module 3 includes a resin case 4 constituting an exterior body of the fiscal module 3 and a module main body 5 (FIG. 3 described later) accommodated in the case 4.

The case 4 includes a bottom case-like lower case 4A and an upper case 4B serving as a lid of the lower case 4A, and the lower case 4A and the upper case 4B form a rectangular parallelepiped box. The case 4 is disposed in a space 2 </ b> K provided in the lower part of the printer body 2 and is fixed to the printer body 2. In FIG. 1, reference numeral 6 denotes a frame fixed to the upper surface of the case 4.
The case 4 covers the front, rear, left, right, and top and bottom of a module body 5 described later. However, an opening 4C that exposes a part of the module main body 5 accommodated therein is formed in a part of the case 4, and an interface portion 7 provided in the module main body 5 is provided through the opening 4C. Exposed outside.

The interface unit 7 is connected to a communication cable for communicating with a POS terminal and a government server. Here, the government server is a server system (computer system) managed by a department having jurisdiction over tax collection, such as the national tax bureau of the government, and is a server that manages fiscal data (sales transaction data) stored in the printer 1. is there.
Further, a power cable (not shown) is connected to the interface unit 7 or another part of the printer 1, and AC power (AC power from a power line, for example, household power) is supplied as operating power of the printer 1. Is done.

FIG. 2 is a functional block diagram of the printer 1.
The printer main body 2 includes an input unit 11 that inputs user instructions and a printing unit 12 that performs printing. The fiscal module 3 includes a printer control board 22 on which the printer control unit 21 is mounted, and a fiscal control board 24 on which the fiscal control unit 23 and the interface unit 7 are mounted. In addition, the fiscal module 3 includes a memory substrate 26 on which a fiscal memory 25 is mounted.
The input unit 11 detects operations of various operators provided in the printer 1 and outputs signals corresponding to the operations. This signal is output to the printer control unit 21 via the fiscal control unit 23.

The printing unit 12 is a device that prints on a print medium, and includes a transport motor 12A, a print head 12B, and driver circuits 12C and 12D that drive the transport motor 12A and the print head 12B, respectively.
The driver circuit 12C supplies a drive current to the transport motor 12A under the control of the printer control unit 21, and rotates the transport motor 12A. The transport motor 12A is a drive source for transporting the print medium, and can be constituted by a stepping motor. For example, the driver circuit 12C conveys the print medium by outputting a drive pulse and a drive current to the carry motor 12A.

  The driver circuit 12D drives the print head 12B under the control of the printer control unit 21. The print head 12B is a thermal head having a plurality of heating elements, for example. Under the control of the printer control unit 21, the driver circuit 12D energizes each heating element included in the print head 12B based on the print data, and the location of the print medium (thermal roll paper) corresponding to the energized heating element. Let the color develop. As a result, an image corresponding to the print data is printed on the print medium.

The printer control unit 21 and the fiscal control unit 23 are configured by a processor (not shown) that performs arithmetic processing and a peripheral circuit (not shown) such as a memory that stores a program executed by the processor. For example, the printer control unit 21 and the fiscal control unit 23 can be configured by a microcomputer, an SOC (System-on-a-chip), or a CPU.
The printer control unit 21 controls the printing unit 12 of the printer body 2. Specifically, when the printer control unit 21 generates print data from the sales transaction data received from the POS terminal and receives a print instruction from the fiscal control unit 23, the printer control unit 21 controls the printing unit 12 based on the print data. As a result, an image corresponding to the print data is printed.

The fiscal control unit 23 receives sales transaction data from a POS terminal (not shown) via the interface unit 7 and instructs the printer control unit 21 to perform printing based on the print data generated from the sales transaction data. As a result, the fiscal control unit 23 controls the printing unit 12 via the printer control unit 21.
The fiscal memory 25 is a memory for storing fiscal data, and is composed of a nonvolatile memory such as a flash memory.

  The fiscal control unit 23 also performs response processing to the POS terminal and the government server, obtains fiscal data, writes fiscal data to the fiscal memory 25, and the like. Furthermore, the fiscal control unit 23 has a function of not starting the printer 1 based on the key information received from the government server, and thereby causing the printer 1 to be in an operation stop state.

  The fiscal control unit 23 also has a function of performing a predetermined response process when an unauthorized access to the memory board 26 (fiscal memory 25) is detected by the detection circuit 61 described later. The corresponding processing includes stopping sending fiscal data, stopping starting the printer 1, and stopping sending data to be written to the fiscal memory 25 on the memory board 26.

By the way, in order to perform an illegal act such as falsification of fiscal data, access to the fiscal memory 25 is required. Therefore, the printer 1 of the present embodiment includes a sheet 51 that seals the memory substrate 26 and a detection circuit 61 that detects breakage of the sheet 51, and detects physical access to the memory substrate 26. Hereinafter, the sheet 51, the detection circuit 61, and its peripheral configuration will be described.
FIG. 3 is an exploded perspective view of the module main body 5 of the fiscal module 3.
The module body 5 includes a bottomed box-shaped metal case 9 that opens upward, and accommodates a printer control board 22 and a memory board 26 covered with a sheet 51 in the metal case 9.

The fiscal control board 24 is formed on a board larger than the printer control board 22 and the memory board 26, and is disposed so as to cover the opening that opens above the metal case 9.
Specifically, the metal case 9 has four side plate portions 9B, 9C, 9D, and 9E that stand upward from each side of the rectangular plate-shaped bottom plate portion 9A, and is an upper portion of the two opposing side plate portions 9C and 9D. In addition, a plurality of bent portions 9F bent inward are provided. The bent portions 9F are provided at positions corresponding to the four corners of the metal case 9 in a top view, and the fiscal control board 24 is placed on the bent portions 9F. The fiscal control board 24 is fixed to the metal case 9 or the case 4 (FIG. 1) of the fiscal control board 24 by a fastening member (not shown).

As shown in FIG. 3, a cable 26 </ b> A extending from the memory board 26 and a connector (not shown) to which a cable extending from the printer control board 22 is connected are provided on the lower surface of the fiscal control board 24. Note that the cable 26A extending from the memory substrate 26 is a flexible wiring.
The interface unit 7 (FIGS. 1 and 2) is also mounted on the lower surface of the fiscal control board 24. The interface part 7 is exposed to the outside through an opening 9G provided in the side plate part 9D.

  The fiscal control board 24 includes connectors 24J and 24K for external connection. These connectors 24J and 24K are connectors for electrical connection with the printer body 2 and the like. One connector 24J is exposed to the outside through an opening 9H provided in the side plate portion 9B. The other connector 24K is provided on the upper surface of the fiscal control board 24.

FIG. 4 is a diagram schematically showing the sheet 51 and the detection circuit 61 together with the peripheral configuration.
The sheet 51 is a flexible sheet, and is provided with a wiring pattern constituting the two conductive wires 52 and 53.
The sheet 51 has a structure similar to that of a known flexible wiring board, and is formed by patterning conductors to be the conductive wires 52 and 53 on a flexible insulating base film. The base film is, for example, a resin film such as a polyimide resin or a polyester resin. A conductor is metal foil, such as copper or copper foil, for example. The two conducting wires 52 and 53 are attached to the base film through an adhesive layer, and an insulating layer is provided on the surface opposite to the adhesive layer.

The sheet 51 is integrally provided with a rectangular main sheet portion 51A capable of enclosing the memory substrate 26 and a sub-sheet portion 51B protruding from the main sheet portion 51A. In FIG. 4, for convenience of explanation, the horizontal direction of the sheet 51 is indicated by a symbol X, and the vertical direction of the sheet is indicated by a symbol Y. The vertical and horizontal directions are determined for convenience.
The two conducting wires 52 and 53 are provided in accordance with a predetermined wiring pattern, respectively, and extend in the horizontal direction and the vertical direction on the sheet 51 with a space therebetween. As shown in FIG. 4, this wiring pattern is a pattern in which two conductors 52 and 53 are arranged on substantially the entire main sheet 51A, and both ends of each conductor 52 and 53 are sub-sheet parts. This pattern is positioned at 51B.

More specifically, the two conductive wires 52 and 53 follow a pattern of wirings arranged close to each other in parallel. With this pattern, the two conducting wires 52 and 53 extend straight from the one end portions 52A and 53A located in the sub-sheet portion 51B toward the main sheet portion 51A and enter the main sheet portion 51A.
Next, the two conductive wires 52 and 53 are laid out in an area AR0 having a predetermined gap W1 from the outer peripheral edge of the main seat portion 51A. In this area AR0, the two conductors 52 and 53 repeat the reciprocation in the horizontal direction (Y direction) from the upper side to the lower side in FIG. 4 and are laid out in the entire area AR0.
Subsequently, the two conductors 52 and 53 enter the sub-sheet portion 51B from within the area AR0, extend linearly in the sub-sheet portion 51B, and the other ends 52B and 53B of the respective conductors 52 and 53 are one end 52A. , 53A.
Only one of the two conducting wires 52 and 53 wired on the sheet 51 may be used.

Slits 51 </ b> S extending toward the inner side of the sheet 51 are formed at intervals on the outer peripheral edge (the region corresponding to the gap W <b> 1) of the sheet 51. These slits 51 </ b> S are formed in slits with sharp edges (also referred to as “notches”) that become narrower as they move away from the outer peripheral edge, and function as easy-breaking portions that induce breakage of the sheet 51.
When there is a physical access to the sheet 51 covering the memory substrate 26 by these slits 51S, the sheet 51 is easily broken at the position of the slit 51S.

In this configuration, as shown in FIG. 4, both of the two conductive wires 52 and 53 are longer than the longitudinal and lateral lengths of the sheet 51, and the sheet 51 is arranged in both the longitudinal and lateral directions. Therefore, when the sheet 51 breaks at any one of the slits 51 </ b> S, the tear of the sheet 51 due to the break easily crosses the two conductors 52 and 53.
Moreover, the two conducting wires 52 and 53 are disposed in the vicinity of each slit 51S, and each slit 51S induces a break toward the conducting wires 52 and 53 perpendicular to the neighboring conducting wires 52 and 53. Accordingly, when the sheet 51 is broken at the slit 51S, it is easy to break one of the conducting wires 52 and 53 immediately. Therefore, breakage can be efficiently induced at the portions of the conductive wires 52 and 53.

Other shapes may be applied to the slits 51 </ b> S as long as the sheet 51 is broken when a human force is applied. For example, another slit shape having a convex tip, a linear slit shape having a certain width, or a so-called perforation may be used. It may be a dent, cut, step, etc. Further, these shapes may be part of the sheet 51.
In this configuration, slits 51S are formed in both the main sheet portion 51A and the sub sheet portion 51B. Therefore, the breakage of both the sheet parts 51A and 51B can be induced, and the breakage of the conductors 52 and 53 can be induced in the respective sheet parts 51A and 51B. Note that the slit 51S of the sub-sheet portion 51B may be omitted.

The detection circuit 61 is a circuit that detects breakage of the sheet 51 using two conductive wires 52 and 53, a real-time clock 27 (hereinafter referred to as “RTC 27”), and a battery 28 that supplies operating power to the RTC 27. It is. As shown in FIG. 2, the detection circuit 61, the RTC 27, and the battery 28 are mounted on the memory substrate 26.
The RTC 27 is a circuit that measures the current time (also referred to as date and time) consisting of year, month, day, hour, minute, and second, and is a circuit that can operate with low power consumption. The RTC 27 has a power input terminal 27A for inputting power and an event terminal 27B for inputting an event.

  The battery 28 is a primary battery for backup, and the power of the battery 28 is supplied to the power input terminal 27A of the RTC 27. As a result, the RTC 27 can perform operations such as counting the current time even when AC power (AC power from the power line) is not supplied to the printer 1.

As shown in FIG. 4, one of the two conducting wires 52, 53 is connected to the event terminal 27B of the RTC 27 and functions as a detecting conducting wire. More specifically, one end of this one conducting wire 52 (hereinafter referred to as “detecting conducting wire 52”) is connected to the event terminal 27B, and the other end is grounded. Further, the detection conducting wire 52 is connected to the positive electrode of the battery 28 via the resistor 63. The resistor 63 is an adjustment resistor for obtaining a voltage for setting the logic level of the event terminal 27B to the H level.
With this configuration, when the detection conductor 52 is not broken, the logic level of the event terminal 27B is L level, and when the detection conductor 52 is disconnected, the logic level of the event terminal is switched to H level.

The RTC 27 has a function of writing data including at least the current time into a predetermined area of the fiscal memory 25 when the logic level of the event terminal 27B is switched to the H level. As a result, when the detection conductor 52 is switched to the non-conductive state, data including the current time is recorded in the fiscal memory 25.
In this case, the data recorded in the fiscal memory 25 may be only the detection date and time (at least one of year, month, day, and time), or may include other data. For example, the other data may be data indicating that the sheet 51 is broken or data indicating that the detection conducting wire 52 is disconnected.
In this way, the conduction state of the detection conductor 52 is detected by the RTC 27, the detection conductor 52, and the resistor 63, and when the change in the conduction state occurs, data indicating the breakage of the sheet 51 is recorded in the fiscal memory 25. A detection circuit 61 is configured.

The other of the two conductors 52 and 53 functions as a power supply conductor that supplies the power of the battery 28 to the power input terminal 27A of the RTC 27. More specifically, one end of the conducting wire 53 (hereinafter referred to as “power supply conducting wire 53”) is connected to the positive electrode of the battery 28, and the other end is connected to the power input terminal 27A of the RTC 27. For this reason, when the power supply lead 53 is disconnected, the operating power of the RTC 27 is cut off.
The RTC 27 has a function of writing data including at least the current time in a predetermined area of the fiscal memory when the voltage supplied to the power input terminal 27A falls below a predetermined threshold value K1. Here, the threshold value K1 is set to a value that is lower than the voltage value when the wire is not disconnected and within a range in which the RTC 27 can operate. Thus, the RTC 27 can complete the writing to the fiscal memory 25 before the power supply lead 53 is completely disconnected.

That is, when the RTC 27 detects a drop in the power supply voltage, it records data including the detection date and time in the fiscal memory 25. In this manner, the RTC 27 and the power supply lead 53 constitute a detection circuit 61 that records data indicating breakage of the sheet 51 in the fiscal memory 25 when a drop in power supply voltage is detected.
Also in this case, the data recorded in the fiscal memory 25 may be only the detection date and time (at least one of year, month, day, and time) or may include other data. For example, the other data may be data indicating that the sheet 51 is broken or data indicating that the power supply conductor 53 is disconnected.

When the data is written in the fiscal memory 25, the fiscal control unit 23 performs a predetermined response process.
Specifically, the fiscal control unit 23 does not transmit the fiscal data recorded in the fiscal memory 25 when the output of the fiscal data is requested from the outside (fiscal data transmission stop). In addition, when the printer 1 is activated, if the data is recorded in the fiscal memory 25, the fiscal control unit 23 stops the activation process and puts the printer 1 into an operation stopped state (activation of the printer 1 is stopped). In addition, the fiscal control unit 23 stops sending data to be written to the fiscal memory 25 to the memory substrate 26. A notification unit such as a buzzer or a liquid crystal screen may be provided to notify that the sheet 51 has been broken. Data indicating breakage of the sheet 51 may be sent to the POS terminal. Which of the corresponding processes is to be executed may be appropriately set by the user or the like.
The handling process is not limited to the above process. For example, a communication process for notifying the government server that the sheet 51 has been broken may be performed.

FIG. 5 is a diagram schematically showing the sheet 51 and the memory substrate 26.
The main sheet portion 51 </ b> A of the sheet 51 can be folded in half with respect to a position that is divided into two in the vertical direction (Y direction), thereby covering the entire surface of the memory substrate 26. Further, the sub-sheet portion 51B of the sheet 51 is folded inside the main sheet portion 51A that is folded in half. As a result, both end portions 52A, 52B, 53A, and 53B of the conductive wires 52 and 53 provided in the sub-sheet portion 51B come into contact with the conduction portion 26S provided in the memory substrate 26.

The conductive portion 26S is a portion that electrically connects the memory substrate 26 and the conductive wires 52 and 53, and is, for example, a conductive pad. Instead of the conductive portion 26S, a connection terminal electrically connected to each of the conductive wires 52 and 53 is provided on the sub-sheet portion 51B, and a connector to which the connection terminal is connected is provided on the memory substrate 26. Also good.
In this configuration, the sub-sheet portion 51B extending from the main sheet portion 51A is bent to electrically connect the conductors 52 and 53 and the memory substrate 26. Therefore, the conductors 52 and 53 disposed on the sheet 51 and the memory substrate 26 can be easily connected. In addition, since the sub-sheet portion 51B has flexibility, the displacement of the memory substrate 26 can be allowed.

Here, after the sub-sheet portion 51B is bent, the main sheet portion 51A is folded in two, and is held in a state where the memory substrate 26 is wrapped using a bonding method using adhesion or the like. As shown in FIG. 3, the main sheet portion 51 </ b> A includes a passage slit 55 that extends from the memory substrate 26 and passes the cable 26 </ b> A connected to the fiscal control substrate 24.
As a result, it is possible to easily connect the memory board 26 and the fiscal control board 24 via the cable 26A in a state where the memory board 26 is wrapped in the sheet 51. The memory substrate 26 wrapped in the sheet 51 is surrounded by the metal case of the module body 5 and the fiscal control board 24, and the periphery thereof is surrounded by the case 4 shown in FIG. Access is difficult.

As described above, the printer 1 according to this embodiment includes the fiscal memory 26, the battery 28, and the memory substrate 26 on which the detection circuit 61 that operates with the power of the battery 28 is mounted, and the sheet 51 that seals the memory substrate 26. With. And the sheet | seat 51 has the conducting wire 52 for a detection, the conducting wire 53 for supplying electric power to the detection circuit 61, and the slit 51S which induces the fracture | rupture of the sheet | seat 51 in any location of these conducting wires 52 and 53. . Further, the detection circuit 61 detects the conduction state of the detection conductor 52 arranged on the sheet 51.
With this configuration, when physical access is made to the memory substrate 26 on which the fiscal memory 25 is mounted, the slit 51S can easily cause the sheet 51 to break, and the conductive state of the conductors 52 and 53 can be easily changed. . Therefore, the detection circuit 61 can detect that there is a physical access to the fiscal memory 25.

In addition, since the detection circuit 61 operates with the power of the battery 28, there is physical access to the fiscal memory 25 even when the power of the external power source (AC power from the power line) is not supplied to the printer 1. Can be detected.
Further, since all the components used for detecting the breakage of the sheet 51 are mounted on the memory substrate 26 and covered with the sheet 51, the connection between the memory substrate 26 and another substrate (fiscal control substrate 24) is cut off. Breakage of the sheet 51 can be detected.

Further, when the detection circuit 61 detects the non-conduction state of the detection conductor 52, the detection circuit 61 records data including the detection date and time (detection time), which is data indicating breakage of the sheet 51, in the fiscal memory 26. As a result, whether or not the sheet 51 is broken can be specified depending on whether or not the data is stored in the fiscal memory 26. Accordingly, it is possible to leave a trace of falsification of fiscal data.
Further, even when the detection circuit 61 detects a decrease in the power supply voltage supplied via the power supply lead 53, the detection circuit 61 stores data including detection date and time (detection time) that is data indicating breakage of the sheet 51. 26. Thereby, the breakage of the sheet 51 can be detected by using both the detection lead wire 52 and the power supply lead wire 53 arranged on the sheet 51, and the detection accuracy can be easily improved.
Only one of the two conductive wires 52 and 53 may be wired on the sheet 51 to detect the conduction state. Even by one of them, the breakage of the sheet 51 can be detected.

Further, since the detection circuit 61 records data including the detection date and time (detection time) in the fiscal memory 26, the date and time (time) when the sheet 51 is broken can be specified. Thereby, the falsification date of fiscal data can be specified.
In addition, an RTC 27 that operates with low power consumption and operates with the power of the battery 28 is provided, and the date and time counted by the RTC 27 is acquired as the detection date and time. Therefore, even when the printer 1 is not supplied with external power such as household power, accurate detection date and time can be recorded.

The memory board 26 is connected to a fiscal control board 24 related to the control of the printing unit 12 by a cable 26A (FIG. 2), and the sheet 51 includes a passage slit 55 (FIG. 2) through which the cable 26A passes. Thereby, the memory substrate 26 covered with the sheet 51 can be easily connected to the fiscal control substrate 24.
In addition, the fiscal control board 24 has a function of transmitting fiscal data that is data to be written to the fiscal memory 26. However, the fiscal control board 24 stops sending the fiscal data to the fiscal memory 26 when the data indicating the breakage of the sheet 51 is recorded in the fiscal memory 26. Therefore, recording in the fiscal memory 26 can be interrupted when there is a possibility of falsification.

Further, since the length of the detection lead wire 52 disposed on the sheet 51 is longer than the vertical and horizontal lengths of the sheet 51, the break of the sheet 51 due to breakage easily crosses the detection lead wire 52.
Further, the length of the power supply lead 53 arranged on the sheet 51 is also longer than the vertical and horizontal lengths of the sheet 51, so that the break of the sheet 51 due to breakage easily crosses the power supply lead 53. Become.

  The above-described embodiment shows a preferred embodiment of the present invention, does not limit the present invention, and various modifications can be made without departing from the gist of the present invention. For example, in the above-described embodiment, the layout (wiring pattern) of the detection conductor 52 and the power supply conductor 53 to the sheet 51 is not limited to the above aspect.

6A and 6B are views showing a sheet 51 according to a modification. In addition, the same structure as the structure mentioned above shows the same code | symbol.
FIG. 6A shows a mode in which the number of reciprocations in the horizontal direction (Y) direction of the detection lead wire 52 and the power supply lead wire 53 is reduced as compared with the above-described embodiment (see FIG. 4). In FIG. 4, there are 8 reciprocations, and in FIG. 6A, there are 3 reciprocations. Thereby, the length of these conducting wires 52 and 53 is shortened. Even in the configuration shown in FIG. 6A, since the conducting wires 52 and 53 are disposed in the vicinity of each slit 51S, the slit 51S can induce breakage of the sheet 51 at any location of the conducting wires 52 and 53. .

  The sheet 51 shown in FIG. 6A includes another slit 51SS that functions as an easily breakable portion that induces breakage of the sheet 51 at a position away from the outer peripheral edge of the sheet 51. The other slit 51SS is located in the vicinity of one of the conducting wires 52 and 53 at a position away from the outer peripheral edge of the sheet 51, and has a slit shape with a convex tip extending in a direction perpendicular to the neighboring conducting wires 52 and 53. It is formed. Thereby, even at a position away from the outer peripheral edge of the sheet 51, the breakage of the sheet 51 can be efficiently induced at the positions of the conductive wires 52 and 53. In the configuration shown in FIG. 6A, the lengths of the conducting wires 52 and 53 are relatively short, so that the flexibility of the sheet 51 can be easily secured and the memory substrate 26 can be easily wrapped.

  FIG. 6B shows a mode in which the detection conductor 52 and the power supply conductor 53 are arranged only in the vicinity of the outer peripheral edge of the sheet 51. 6B, a plurality of slits 51SS are arranged at positions away from the outer peripheral edge of the sheet 51. 6B, the conductors 52 and 53 are arranged in the longitudinal direction and the lateral direction of the sheet 51, and the conductors 52 and 53 are broken regardless of the direction in which the sheet 51 breaks. Can do. In addition, the slits 51S and 51SS can efficiently induce breakage of the sheet 51 at the positions of the conductive wires 52 and 53.

Moreover, although the case where both the slits 51S and 51SS were provided was demonstrated in the said modification, either of the slits 51S and 51SS may be abbreviate | omitted, and also about the position of each slit 51S and 51SS, arrangement | positioning space | interval, and a shape. It may be changed.
Moreover, the length and layout of the conducting wires 52 and 53 can be changed as appropriate. However, it is preferable that the length of the conducting wires 52 and 53 is at least larger than the length of the sheet 51 in the vertical or horizontal direction. With this length, when the sheet 51 is broken in the vertical direction or the horizontal direction, the conducting wires 52 and 53 are easily broken.

  Further, the printer 1 to which the present invention is applicable is not limited to the configuration and shape shown in FIGS. The present invention can be widely applied to known fiscal printers.

  DESCRIPTION OF SYMBOLS 1 ... Fiscal printer, 2 ... Printer main body, 3 ... Fiscal module, 4 ... Case, 5 ... Module main body, 7 ... Interface part, 11 ... Input part, 12 ... Printing part, 21 ... Printer control part, 22 ... Printer control board 23 ... Fiscal control unit, 24 ... Fiscal control board, 25 ... Fiscal memory, 26 ... Memory board, 26A ... Cable, 26S ... Conduction unit, 27 ... Real time clock (RTC), 27A ... Power input terminal, 27B ... Event terminal 28 ... Battery, 51 ... Sheet, 51A ... Main sheet part, 51B ... Sub-sheet part, 51S, 51SS ... Slit (easy breakable part), 52 ... Detection lead, 53 ... Power supply lead, 61 ... Detection circuit, 63: Resistance.

Claims (8)

A printing unit, a memory that is received from an external device and stores data to be protected that is related to printing, a battery, a memory board that includes a detection circuit that operates by the power of the battery, and the memory board A sheet for sealing,
The sheet has an easily breakable portion, and further includes at least one of a detection lead and a power supply lead for supplying power from the battery to the detection circuit,
The detection circuit detects a conduction state of the conducting wire disposed on the sheet;
Fiscal printer featuring   The fiscal printer according to claim 1, wherein the detection circuit records data indicating breakage of the sheet in the memory when detecting a non-conduction state of the detection conducting wire.   The fiscal printer according to claim 1, wherein the detection circuit records data indicating breakage of the sheet in the memory when a decrease in power supply voltage is detected.   The fiscal printer according to claim 2, wherein the detection circuit records data including a detection time in the memory. A control board for controlling the printing unit;
The memory board is connected to the control board with a cable,
The fiscal printer according to claim 1, wherein the sheet has a passage slit through which the cable passes.   The control board sends data to be written to the memory to the memory board. When data indicating breakage of the sheet is recorded on the memory board, the control board sends data to be written to the memory to the memory board. The fiscal printer according to claim 5, which stops.   7. The fiscal printer according to claim 1, wherein a length of the detection conducting wire is at least longer than a length or a length of the sheet.   The fiscal printer according to any one of claims 1 to 7, wherein a length of the power supply lead wire is at least larger than a longitudinal or lateral length of the sheet.

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