JP2011156843A - Printer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printer in which the reliability of electric connection is improved. <P>SOLUTION: The printer is equipped with at least a printer main body part 180 having a first box 200 housing a printing part 70 for printing the information including accounting information on paper and with at least a controlling part 300 having a second box 31 housing a memory circuit 80 for memorizing at least some part of the information in a nonvolatile manner and a controlling circuit 78 for controlling the printer main body part 180, wherein the printer main body part 180 and the controlling part 300 are arranged in the state laminated with each other and, in the controlling part 300, connecting terminals 43 for transmitting signals to control the printer main body part 180 and the information are provided on the printer main body part 180 side surface of the second box 31 and, in the printer main body part 180, receiving terminals 91 connected to the connected terminal 43 are provided on the controlling part 300 part side surface of the first box 200. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a printing apparatus including a data storage unit that stores data associated with accounting processing and the like.

  In the sales, distribution, and commercial distribution industries, various systems (POS system, etc.) for processing accounting information are used. In such a system, a printer as a printing apparatus is used to record and issue accounting information. As this type of printer, there is a so-called fiscal printer. Fiscal printers include a printer main body for recording and issuing accounting information and a data storage unit for storing the recorded accounting information in a nonvolatile manner.

  The data stored in the data storage unit is used, for example, to ensure tax collection. Therefore, it is desirable that the data storage unit has a structure that prevents data based on the accounting information from being falsified. To prevent mechanical access from the outside for the purpose of data tampering, the board on which electronic parts such as memory (ROM) for storing data are mounted is exposed, and the other parts are sealed. It is stored in the housing in a state. Some data storage units house printer drive circuits in addition to memory components inside the housing. The data storage unit is connected to the printer main unit by one connection terminal (see, for example, Patent Document 1).

International Publication No. WO2007 / 102121A2 Pamphlet

  The above-described data storage unit becomes heavy and large because it contains a printer drive circuit and the like in addition to the memory components. When such a data storage unit and the printer main body unit are to be connected in the horizontal direction, the connection terminal and the receiving terminal receive a load in a direction orthogonal to the connection direction. For this reason, for example, when vibration associated with driving of the mechanism of the printer main body, vibration from outside, or impact is applied, the connection portion of the connection terminal or the receiving terminal may be damaged.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

  Application Example 1 At least a printing apparatus main body having a first housing that houses a printing unit that prints information including accounting information on paper, and at least a memory circuit that stores at least a part of the information in a nonvolatile manner And a control unit having a second housing that houses a control circuit that controls the printing apparatus main body, and the printing apparatus main body and the control unit are arranged in a stacked state. A connection terminal for transmitting a signal for controlling the printing apparatus main body and the information is provided on the surface of the second casing on the printing apparatus main body side, and the printing apparatus main body is connected to the connection terminal. And a receiving terminal provided on a surface of the first housing on the control unit side.

  (Application Example 2) The above-described printing apparatus, wherein a connection direction between the connection terminal and the receiving terminal is a stacking direction of the printing apparatus main body and the control unit.

  (Application Example 3) The above-described printing apparatus, wherein the receiving terminal is connected to a wiring including at least the printing unit of the printing apparatus main body.

  According to these configurations, in the printing apparatus, the printing apparatus main body and the control unit are stacked, that is, stacked in the vertical direction. The connection terminal and the receiving terminal that connect each other can be connected in the vertical direction (stacking direction). Therefore, the connection terminal and the receiving terminal are mainly applied with a force in the insertion / removal direction, and can reduce the force in the direction orthogonal to the connection direction, that is, the application of an unreasonable force that leads to damage to the connection portion. As a result, it is possible to provide a printing apparatus with improved electrical connection reliability.

  (Application Example 4) The above-described printing apparatus, wherein the receiving terminal is connected to a signal line for detecting a printing state of the main body of the printing apparatus, and the memory circuit stores the printing state.

  According to this configuration, the control unit can know whether or not the information to be printed has been printed properly through the terminal and the connection terminal. The result can be stored in the memory circuit.

  Application Example 5 The second casing of the control unit is formed in a substantially rectangular parallelepiped shape, the connection terminal is provided on one surface in the stacking direction, and the receiving terminal is provided on the other surface in the stacking direction. The printing apparatus as described above.

  Application Example 6 An expansion unit that adds a memory capacity and / or a print function is provided, and the expansion unit includes a connection terminal and a receiving terminal similar to the second casing of the control unit. The printing apparatus according to claim 1, wherein the printing apparatus is housed in a body, and the extension section is connected to a side of the control section facing the printing apparatus main body section.

  According to these configurations, the control unit is arranged so that the connection terminal provided on one surface in the stacking direction and the receiving terminal of the printing apparatus main body are connected and stacked in the lower direction of the printing apparatus main body. . In addition, if necessary, different control units or expansion units housed in substantially the same casing are stacked on the lower side of the control unit, that is, on the other side of the stacking direction where the receiving terminals are provided. be able to. Therefore, a control unit and an extension unit can be added according to the purpose and application of the printing apparatus. As a result, the basic size of the printing apparatus can be set to a minimum, and the capacity and functions of the memory can be expanded. Therefore, it is possible to provide a printing apparatus with high versatility and excellent expandability.

The perspective view which shows the external appearance structure of a thermal printer. FIG. 3 is a perspective view of a printer mechanism unit with a cover frame opened. FIG. 3 is a perspective view of a printer mechanism unit with a cover frame closed. The schematic sectional side view of a thermal printer. The external appearance perspective view of a thermal head. The block diagram which shows the structure of a thermal printer. The figure which shows the external appearance of a control part. The perspective view which shows the relationship between a control part and a printer main-body part. The figure which shows the form of the thermal printer of 2nd Example. The block diagram which shows the structure of the thermal printer of 2nd Example.

  Hereinafter, the present embodiment will be described with reference to the drawings. In the drawings referred to in the following description, the vertical and horizontal scales of members or parts may be shown differently from the actual ones for convenience of description and illustration.

(About the overall configuration of the printing device)
A thermal printer will be described as an example of the printing apparatus according to the present embodiment with reference to FIGS. FIG. 1 is a perspective view showing an external configuration of a thermal printer. 2 and 3 are perspective views showing the external appearance of the printer mechanism section. Specifically, FIG. 2 is a perspective view of the printer mechanism section with the cover frame open, and FIG. 3 shows the cover frame closed. FIG. FIG. 4 is a side sectional view of the thermal printer.

  This thermal printer is used as a fiscal printer, and is applied to printing and issuing accounting information on a receipt or the like, and storing this accounting information as data. Thermal printers use roll-type thermal paper as recording paper, and print and issue accounting information on this thermal paper. Further, for example, information related to tax in the accounting information is stored in the fiscal memory as fiscal data. The X direction shown in FIGS. 1 to 4 indicates the width direction of the thermal paper to be printed, the Z direction indicates the paper feed direction of the thermal paper in the thermal head portion as a print head, and the Y direction is A direction orthogonal to the X direction and the Z direction is shown.

  As shown in FIG. 4, the thermal printer 100 includes a printer main body unit 180 as a printing apparatus main body unit and a control unit 300. The printer body 180 includes a printer mechanism 150 and an exterior case 200 as a first housing. A control unit 300, which will be described later, is connected to the printer main body unit 180 so as to be mountable.

  2 to 4 is accommodated in the outer case 200 shown in FIG. Specifically, the printer mechanism unit 150 is fixed to the upper part of the lower case 205 made of resin or the like, the side surface part and the rear part are covered with the upper case 210, and the front part in the Y direction is covered by the panel 215. It has been broken. The upper surface of the printer mechanism unit 150 is covered with the upper cover 220. As will be described later, the control unit 300 is disposed below the lower case 205.

  As shown in FIG. 1, an open button 230 is provided on one side of the upper surface of the upper case 210 in the X direction. When the open button 230 is pushed down in the direction of arrow B in FIG. 1, the cover open lever 235 provided in the printer mechanism 150 shown in FIG. 3 can be rotated around the fulcrum 240. The cover open lever 235 is engaged with the lock mechanism of the cover frame 12 shown in FIG. 2, and the lock mechanism is released by rotating clockwise. Further, the cover frame 12 is coupled to the upper cover 220. Therefore, the upper cover 220 opens in the direction of arrow C, and the roll paper holder 16 is exposed. That is, this state is a state where the cover frame 12 of the printer mechanism unit 150 shown in FIG. 2 is opened. By doing so, the roll-shaped thermal paper S can be set or taken out.

  The thermal paper S used in this embodiment has a printing surface composed of a coloring layer in which a color former is held by a binder or the like, and is a roll-shaped thermal sensitivity that is configured by sequentially laminating this printing surface on the outer surface. Paper S. Hereinafter, this roll-shaped thermal paper is referred to as roll paper R.

(About the overall structure of the printer mechanism)
Details of the printer mechanism will be described with reference to FIGS. FIG. 5 is an external perspective view of the thermal head. In addition, the X direction and Z direction shown in FIG. 5 are the same directions as the X direction and Z direction shown in FIGS. As shown in FIGS. 2 to 4, the printer mechanism unit 150 includes a main body frame 60, a cover frame 12, a roll paper holder 16, a cutter unit 20, and a printing unit 70.

  As shown in FIG. 2, the main body frame 60 is made of sheet metal or the like, and is formed in a substantially box shape having openings in the upper direction in the Z direction and the front in the Y direction. The cover frame 12 is provided on the upper rear side of the main body frame 60. The cover frame 12 is attached so as to be openable and closable around a support shaft 68 provided at upper ends on both sides of the rear portion of the main body frame 60. The cover frame 12 is provided with an arc-shaped cover 15 for avoiding contact with the roll paper R when the cover frame 12 is closed. Further, when the installation angle of the thermal printer 100 is changed, that is, for example, when the thermal printer 100 is placed vertically, the cover 15 also functions as a holding member that receives the roll paper R.

  As shown in FIG. 2, the roll paper holder 16 is provided behind the inside of the main body frame 60 formed in a box shape so as to be covered with the cover frame 12. The roll paper holder 16 is formed of resin or the like, has a substantially arc-shaped depression corresponding to the maximum diameter of the roll paper R at the center, and a side opening of the arc-shaped depression at the bottom of the main body frame 60. It is attached so as to face both side surfaces of 60. Both side surface portions inside the main body frame 60 function as side surface guide portions of the roll paper R. Therefore, the roll paper R is restricted in movement in the width direction by the side portions on the inner side of the main body frame 60 and is held rotatably in a substantially arc-shaped recess of the roll paper holder 16. The roll paper holder 16 is provided with a roll paper near-end sensor (not shown) that detects the remaining amount of the roll paper R.

(About the cutter part)
As shown in FIG. 4, the cutter unit 20 is provided in the vicinity of the paper exit G at a position facing the front of the main body frame 60, that is, the support shaft 68 of the cover frame 12. The cutter unit 20 includes a movable blade 21, its driving means 22, and a fixed blade 27. The movable blade 21 and its driving means 22 are accommodated in the first cutter cover 24 and disposed on the main body frame 60 side. The movable blade 21 is reciprocated in the direction of arrow E in the figure by the driving means 22. The fixed blade 27 is accommodated in the second cutter cover 29 and is disposed on the cover frame 12 side, that is, on the opposite side across the conveyance path through which the thermal paper S passes. Therefore, when the cover frame 12 is closed, the blade portion of the movable blade 21 reciprocated by the driving means 22 and the blade portion of the fixed blade 27 slide in a contact state. As a result, the thermal paper S is cut in the vicinity of the paper exit G.

(About the printing section)
As shown in FIG. 4, the printing unit 70 is provided in the vicinity of the exit on the transport path D of the thermal paper S starting from the roll paper holder 16 and ending at the paper exit G of the cutter unit 20. The printing unit 70 includes a thermal head 10, a head holding mechanism 77, and a platen 71. It should be noted that the thermal head 10 and the head holding mechanism 77 are disposed on the main body frame 60 side and the platen 71 is separable on the cover frame 12 side.

  As shown in FIG. 5, the thermal head 10 includes a heat radiating plate 106, a head support shaft 102, a head substrate 110 as a substrate, a driver IC 120, and an FPC 108. The head substrate 110 has a long rectangular shape, and a heating element array 145a including a plurality of heating elements 145 is formed in the Z direction upward in the drawing along the longitudinal direction. A plurality of driver ICs 120 for driving the heat generating elements 145 are arranged in parallel with the heat generating element rows 145a. The heat radiating plate 106 is formed of a drawing material such as aluminum, and the head substrate 110 is attached to the locking surface 106a of the heat radiating plate 106 with a double-sided adhesive tape or the like.

  Above the heat sink 106 in the Z direction of the head substrate 110, a guide slope 104 is formed across the length of the heat sink 106. When the cover frame 12 shown in FIG. 4 is closed, the guide slope portion 104 slides the platen 71 to guide it to a predetermined position. At this time, the inclination of the guide slope portion 104 has a predetermined angle so that the platen 71 does not collide with the head substrate 110. In addition, the slope of the guide slope 104 is set to be substantially the same height as the head substrate 110 attached in the vicinity of the guide slope 104. The head support shaft 102 is a cylindrical round pin, and is press-fitted into holes provided in the left and right side portions of the heat radiating plate 106.

  One end of the FPC 108 is connected to a connection terminal (not shown) provided on the head substrate 110, and the other end is connected to a connector 91 as a receiving terminal shown in FIG. The connector 91 has a function of connecting to the control unit 300 via the internal connection terminal 43, and the wiring and the like of the printer main body unit 180 are integrated.

  The head holding mechanism 77 shown in FIG. 4 includes a notch 62 as a groove formed in the main body frame 60, a head pressing plate 72, and a spring 75 attached to the head pressing plate 72. The notch 62 has an opening above the main body frame 60 and has a plurality of grooves. The thermal head 10 is attached to the main body frame 60 by inserting the head support shaft 102 into a part of the notch 62 of the main body frame 60. The head pressing plate 72 is formed with bent portions at the top and bottom, and a spring 75 that is a compression coil spring is fixed thereto. The head pressing plate 72 is inserted into the notch 62, and the bent portions are attached to the main body frame 60 by engaging each part of the notch 62.

  By doing so, the thermal head 10 and the head pressing plate 72 are supported on both sides of the notch 62 in a substantially parallel state. A spring 75 fixed to the head pressing plate 72 is in contact with the back surface of the thermal head 10. The thermal head 10 is biased toward the platen 71 by the spring 75. The head holding mechanism 77 can be removed from the notch 62 by shifting the spring 75 fixed to the head pressing plate 72 from the back surface of the thermal head 10. The thermal head 10 can also be removed from the notch 62 when the biasing force from the spring 75 is lost. In this way, the thermal head 10 is detachably supported with respect to the main body frame 60.

  As shown in FIGS. 2 and 4, the platen 71 is formed in a cylindrical roller shape by an elastic member such as rubber and is rotatably supported by the cover frame 12 via a platen bearing 73. A platen gear 74 is press-fitted into one shaft of the platen 71. The main body frame 60 is provided with a groove portion 64. When the cover frame 12 is closed, the platen 71 is guided to the guide slope portion 104 (see FIG. 5) of the thermal head 10, and then the platen bearing 73 is formed into the groove portion 64. Abut. Further, a downward force acts on the cover frame 12 by the pressure applied to the platen 71 by the thermal head 10, and the position of the platen 71 is determined.

  With the above configuration, as shown in FIG. 4, the platen 71 presses the thermal paper S toward the thermal head 10 from the inner surface S <b> 2 side of the thermal paper S, and the thermal head 10 facing the platen 71 is The thermal paper S is pressed in the direction of the platen 71 from the side of the outer surface S1 of S to sandwich the thermal paper S. At this time, the color developing layer described above is formed on the outer surface S1 of the thermal paper S. As shown in FIG. 2, a paper feed motor 66 and a paper feed transmission gear 67 for rotating the platen 71 are provided on the side surface of the main body frame 60. As described above, when the platen 71 is positioned in the groove portion 64 of the main body frame 60, the platen gear 74 and the paper feed transmission gear 67 are engaged with each other, and the power from the paper feed motor 66 is transmitted to the platen 71.

  In the thermal printer 100 having the above-described configuration, the cover frame 12 connected to the upper cover 220 is opened, the roll paper R made of the thermal paper S is set, the thermal paper S is pulled out to the paper outlet G, and is connected to the upper cover 220. By closing the cover frame 12, the thermal paper S is set between the platen 71 and the thermal head 10 and between the movable blade 21 and the fixed blade 27. Then, while the paper feed motor 66 is activated and the platen 71 is rotated to feed the thermal paper S, the heating elements 145 arranged in a straight line of the thermal head 10 are selectively energized to generate heat, thereby causing the thermal paper S. It is possible to print predetermined information. Further, by driving the cutter unit 20 and reciprocating the movable blade 21 with respect to the fixed blade 27, the thermal paper S on which information is printed is cut into a predetermined length and issued as a single sheet such as a receipt. be able to.

  The thermal printer 100 is provided with a carver open sensor (not shown) that detects whether the cover frame 12 is securely closed and the thermal head 10 and the platen 71 are in contact with each other in a pressurized state. Further, the heat radiating plate 106 of the thermal head 10 is provided with a head temperature sensor (not shown) that detects the temperature of the thermal head 10.

(First embodiment)
(About the control unit)
Here, the control unit will be described with reference to FIGS. FIG. 6 is a block diagram showing the configuration of the thermal printer. 7A and 7B are views showing the external appearance of the control unit, where FIG. 7A is a perspective view of the top surface viewed from the external connection terminal side, and FIG. 7B is a perspective view of the bottom surface side viewed from the external connection terminal side. . FIG. 8 is a perspective view illustrating a relationship between the control unit and the printer main body unit. The X direction, Y direction, and Z direction shown in FIGS. 7 and 8 are the same as the X direction, Y direction, and Z direction shown in FIGS.

  The control unit 300 according to the present embodiment includes a substrate on which electronic components such as a fiscal memory that stores the drive circuit of the above-described thermal printer 100 and accounting information as data are mounted. Thermal Printer 100 (also called Fiscal Printer) is a separate journal that records accounting information such as receipts given to customers during sales and other business transactions, breakdown of receipts for merchants, total amount of sales, and total amount for each product item Print on and issue. The thermal printer 100 is driven and controlled by a drive circuit.

  Fiscal memory stores information related to taxes (hereinafter referred to as fiscal data) among these accounting information. This fiscal data is used, for example, to ensure tax collection, and a government investigator reads and examines fiscal data as necessary. Fiscal data stored in fiscal memory must be prevented from being tampered with. Therefore, the specification of the control unit 300 is strictly regulated by law (Fiscal Law). The contents of this Fiscal Law and the definition of Fiscal Data vary from country to country.

  First, the configuration of the control unit 300 will be described with reference to FIG. 6 which is a block diagram showing the configuration of the control unit and the printer main unit. As shown in FIG. 6, the control unit 300 includes a printer control unit 78, a fiscal data processing unit 80 including a memory circuit, an external connection terminal 42, an internal connection terminal 43 as a connection terminal, and an extended connection terminal 45 as a receiving terminal. It is composed of The printer control unit 78, the fiscal data processing unit 80, the external connection terminal 42, the internal connection terminal 43, and the extension connection terminal 45 are mounted on the main board 32. The printer control unit 78 includes a printer control CPU (Central Processing Unit) 79, an information processing unit (not shown), a driver (not shown) that drives a thermal head and various motors, and the like. The printer control CPU 79 executes various processes such as an input signal process from an operation system and a detection system (not shown), a printing process, and the like, and comprehensively controls the printer main body 180 (thermal printer 100).

  The fiscal data processing unit 80 includes a fiscal memory 81, an EJ (Electronic Journal) memory 82, a fiscal control unit 83, a protection circuit 84, an RTC (Real Time Clock) 87, an SRAM (Static Random Access Memory) 88, And a battery 89. The fiscal memory 81 uses a nonvolatile memory of a type called a one-time ROM (Read Only Memory), which can be written only once, and stores fiscal data related to taxes such as a total value of sales. The EJ memory 82 is an electronic journal memory, and stores individual sales data and the like by applying a nonvolatile storage element such as a NAND flash memory.

  The fiscal control unit 83 includes a fiscal control CPU 85 and a programmable ROM 86. The fiscal control CPU 85 controls the fiscal data processing unit 80 and processes data such as accounting information. The programmable ROM 86 is a device in which a programmable logic circuit is written, and controls writing to and reading from the fiscal memory 81 and the like. The protect circuit 84 has a function of preventing unauthorized access to and alteration of data stored in the fiscal memory 81 and the EJ memory 82.

  The RTC 87 is a real-time clock and is an IC that counts the date. The SRAM 88 functions as a working memory, temporarily stores various data such as fiscal data, and temporarily develops a program such as data processing executed by the fiscal control CPU 85. The SRAM 88 has a battery backup function and uses the battery 89 as a power source. The battery 89 also supplies electricity to the RTC 87 and counts the time even when the main power supply is shut off.

  The external connection terminal 42 has a plurality of ports, and connects the host computer 90 to the printer control unit 78 and the fiscal data processing unit 80, and transmits and receives commands and data to and from the host computer 90. The external connection terminal 42 has a fiscal port, and is used only when a government investigator reads fiscal data in the fiscal memory 81.

  The internal connection terminal 43 is constituted by a single connector, and connects the connector 91 provided in the printer main body 180 to the printer control unit 78 and the fiscal data processing unit 80, and outputs print data and drive signals to various mechanisms. Send. The internal connection terminal 43 includes an electronic switch (not shown). The electronic switch electrically detects that the control unit 300 has been removed from the printer main body unit 180 and sends a signal to the RTC 87. The RTC 87 obtains the time when the signal is received, and sends the result to either the fiscal memory 81 or the EJ memory 82 for storage.

  The connector 91 of the printer main body 180 includes a motor wiring that is a driving source of the cutter unit 20, the FPC 108 of the thermal head 10 of the printing unit 70 and the various sensors described above, such as the roll paper near-end sensor, the carver open sensor, Signal lines such as a head temperature sensor are aggregated and connected. Signals from various sensors are sent to the printer control CPU 79 of the control unit 300 via the connector 91 and the internal connection terminal 43. The printer control CPU 79 determines whether or not the print data sent to the printer main body 180 has been printed reliably. If the print data has not been printed, the printer control CPU 79 issues a reprint instruction. This result is sent to the fiscal data processing unit 80 and stored in either the fiscal memory 81 or the EJ memory 82.

  The extended connection terminal 45 uses a connector of the same type as the connector 91 provided in the printer main body 180, and connects the printer control unit 78 and the fiscal data processing unit 80 of the control unit 300 to each other. The details of the extension connection terminal 45 will be described later.

  As shown in FIGS. 7A and 7B, the control unit 300 includes a main body case 31 as a substantially rectangular box-shaped second housing, and the main board 32 is almost sealed in the main body case 31. Is housed in. The external connection terminal 42 described above is provided on one side surface 31 a of the main body case 31. Further, the above-mentioned internal connection terminal 43 is provided on the upper surface 31b of the main body case 31 so as to protrude from the upper surface 31b. A square hole 46 is formed in the lower surface 31c of the main body case 31, and the above-described extension connection terminal 45 is provided in the square hole 46 so as not to protrude from the lower surface 31c. Note that the positions in the XY direction of the internal connection terminal 43 and the expansion connection terminal 45 on the upper surface 31b and the lower surface 31c are set to substantially the same position.

  The control unit 300 is required by law (Fiscal Law) to have a structure in which the main body case 31 cannot be easily disassembled, and that the history remains when disassembled without permission. Although not particularly limited in the present embodiment, the main body case 31 is preferably assembled with, for example, a special tool, an irreversible hook, a sealing material, or an adhesive.

  The thermal printer 100 having the above-described configuration processes the print data including the command and accounting information sent via the host computer 90 by the printer control unit 78 of the control unit 300 and prints it on the thermal paper S by the printer main body unit 180. And issue it as a receipt. In addition, the control unit 300 processes the print data by the fiscal data processing unit 80 to extract necessary data from the print data and sequentially stores the data in the EJ memory 82. Such data is stored in the EJ memory 82 for each receipt. Furthermore, fiscal data related to tax is selected from print data or data temporarily stored in the SRAM 88 and stored in the fiscal memory 81. At this time, time information or the like by the RTC 87 is also provided as necessary. This selection and processing is mainly controlled by the fiscal control CPU 85 using a program stored in the programmable ROM 86.

  The law (Fiscal Law) requires that the Fiscal Memory 81 and the EJ Memory 82 cannot be easily accessed, and that the history should remain when accessed without permission. For this reason, a protect circuit 84 is provided in front of the fiscal memory 81 and the EJ memory 82, and access is permitted only based on a permission signal issued from the fiscal control CPU 85, for example. The specification of the protect circuit 84 is not particularly limited. A microcomputer may be sufficient and CPLD (Complex Programmable Logic Device) may be sufficient.

  When the government investigator reads the fiscal data in the fiscal memory 81 for the investigation, for example, a dedicated fiscal port is used using secret ID information. The fiscal control CPU 85 recognizes the ID information and issues a read permission signal for the protect circuit 84 to permit access to the fiscal memory 81. Note that access to the EJ memory 82 is also permitted as necessary. This access history is given time information by the RTC 87 and stored in the fiscal memory 81.

  As shown in FIGS. 4 and 8, the thermal printer 100 is configured by docking a control unit 300 and a printer main body unit 180 which are separate bodies. The control unit 300 is fitted into an insertion slot 205a formed in the lower part of the lower case 205 of the printer main body 180 shown in FIG. And the internal connection terminal 43 provided in the upper surface 31b of the main body case 31 of the control part 300 is connected to one connector 91 arrange | positioned at the lower surface of the lower case 205 shown in FIG. The thermal printer 100 (Fiscal printer) has a structure that the control unit 300 cannot easily be removed from the printer main body 180, and that the history remains when it is removed without permission. Yes. Therefore, the control unit 300 is locked so that it cannot be easily detached from the printer main body unit 180. In the present embodiment, the lock structure is not particularly limited, but the control unit 300 and the printer main body unit 180 may be fixed with a wire or the like, and the tag may be fixed to the joint portion of the wire.

  For example, in the case where an electrical access is attempted from the external connection terminal 42 for the purpose of unauthorized access to or tampering with the fiscal data stored in the fiscal memory 81, the control unit 300 having the above-described structure is shown in FIG. Blocked by the protect circuit 84. Further, for example, when the control unit 300 is to be removed, it is blocked by the lock structure. When removing, the history remains because the wire must be cut or the tag must be destroyed. Furthermore, when the electronic switch is removed, the electronic switch included in the internal connection terminal 43 electrically detects that the control unit 300 has been removed from the printer main body unit 180, and adds the time information of the RTC 87. Store in that memory.

  For example, when attempting to disassemble the main body case 31 of the control unit 300, the main body case 31 is fastened using a special tool, fixed using a hook with an irreversible structure, or fixed with a sealing material or an adhesive. Yes. Therefore, it cannot be easily decomposed and a decomposition history remains. In this way, unauthorized access and falsification of fiscal data stored in the fiscal memory 81 of the control unit 300 is prevented.

Hereinafter, effects of the present embodiment will be described.
(1) The above-described thermal printer 100 can stack the control unit 300 on the printer main body unit 180, that is, stack in the vertical direction. The connector 91 of the printer main body 180 and the internal connection terminal 43 of the control unit 300 can be connected in the vertical direction (stacking direction). Therefore, the connector 91 and the internal connection terminal 43 are mainly applied with a force in the insertion / removal direction, and can reduce a force in a direction orthogonal to the connection direction, that is, an unreasonable force leading to damage to the connection portion. In addition, it is possible to reduce the influence of the vibration accompanying the driving of the mechanism of the printer main body 180 and the vibration and impact from the outside. As a result, it is possible to provide a printing apparatus with improved electrical connection reliability.

  (2) When the printer main body 180 and the control unit 300 are to be connected in the horizontal direction, the connection location is disposed on the back side of the lower case 205 of the printer main body 180. For this reason, it becomes difficult to visually recognize the connection position, and the movement distance becomes long until the control unit 300 is connected, making it difficult to connect. The above-described thermal printer 100 can be connected in the vertical direction. Further, the moving distance for connection is relatively short. Therefore, it is possible to reliably and easily connect the control unit 300 to the printer main body unit 180.

  (3) The connector 91 of the printer main body 180 is connected to the wiring of the drive source, sensor, and the like of the printer main body 180 in an aggregated manner. The internal connection terminal 43 of the control unit 300 is connected to the connector 91. Therefore, it is not necessary to provide a relay unit or the like in the printer main body 180. That is, the relay unit can be omitted. As a result, cost reduction can be realized.

  (4) The signal lines of the various sensors 26 of the printer main body 180 are aggregated and connected to the connector 91 of the printer main body 180. Signals from the various sensors 26 are sent to the printer control CPU 79 of the control unit 300 to determine whether the print data has been printed reliably. The result is stored in memory. Therefore, the thermal printer 100 can reliably manage the printed transaction information.

(Second embodiment)
A thermal printer according to a second embodiment will be described with reference to FIGS. FIG. 9 is a diagram showing the form of the thermal printer of the second embodiment, and FIG. 10 is a block diagram showing the configuration of the thermal printer of the second embodiment. The X direction, Y direction, and Z direction shown in FIG. 9 indicate the same directions as the X direction, Y direction, and Z direction shown in FIGS. In addition, about the structure and components which are common in 1st Example, a number is shared and description is abbreviate | omitted.

  As shown in FIG. 9, in the thermal printer 100, an expansion unit 310 that expands the function and memory capacity of the control unit 300 is connected to the lower part of the control unit 300 described in the first embodiment. The expansion part 310 includes an expansion case 55 as a third box-shaped substantially rectangular box that is substantially the same as the control part 300 in appearance. On the upper surface 55b of the expansion case 55, an internal connection terminal 43a similar to the internal connection terminal 43 described above is provided so as to protrude from the upper surface 55b. The position of the internal connection terminal 43 a provided on the upper surface 55 b corresponds to the position of the expansion connection terminal 45 of the control unit 300.

  Therefore, the extension part 310 is attached to the lower part of the control part 300 in a stacked state by connecting the internal connection terminal 43a of the extension part 310 and the extension connection terminal 45 of the control part 300. The extension unit 310 is locked so that it cannot be easily detached from the printer main body unit 180 and the control unit 300. In the present embodiment, the lock structure is not particularly limited, but the expansion unit 310 may be fixed to the control unit 300 or the printer main body 180 with a wire or the like, and the tag may be fixed to the joint portion of the wire.

  As shown in FIG. 10, the expansion unit 310 includes at least a second programmable ROM 56, an expansion fiscal memory 57, an expansion EJ memory 58, and a protection circuit 84. The extended fiscal memory 57 and the extended EJ memory 58 extend the memory capacity of the fiscal memory 81 and the EJ memory 82 of the control unit 300. In the second programmable ROM 56, for example, a logic circuit for performing various functions such as various printing processes corresponding to a new printing format and selection and processing of new accounting information is written. The protect circuit 84 is provided in the preceding stage of the extended fiscal memory 57 and the extended EJ memory 58, and has a function of preventing unauthorized access to data stored in the extended fiscal memory 57 and the extended EJ memory 58 and alteration.

  Further, as shown in FIG. 9, an extension connection terminal 45 a similar to the extension connection terminal 45 of the control unit 300 is provided on the lower surface 55 c of the extension case 55 of the extension unit 310. Therefore, a new extension part 310a can be connected to the lower part of the extension part 310 by performing the same operation as described above. The extension part 310a is locked so that it cannot be easily detached from the printer main body part 180 and the extension part 310.

Hereinafter, effects of the embodiment will be described.
(1) The thermal printer 100 described above can add an expansion unit 310 having an expansion function and an expansion memory to the lower portion of the control unit 300 in a stacked state. Therefore, the memory capacity and various functions can be expanded according to the purpose and application of the thermal printer 100. As a result, the basic size of the thermal printer 100 can be set to a minimum, and the thermal printer 100 having high versatility and excellent expandability can be provided.

  As mentioned above, although embodiment of this invention was described, various deformation | transformation can be added with respect to the said embodiment in the range which does not deviate from the meaning of this invention.

  DESCRIPTION OF SYMBOLS 10 ... Thermal head, 20 ... Cutter part, 31 ... Main body case as 2nd housing | casing, 32 ... Main board | substrate, 42 ... External connection terminal, 43, 43a ... Internal connection terminal as a connection terminal, 45, 45a ... Receiving terminal 55 ... Expansion case as third housing, 57 ... Extended fiscal memory, 58 ... Extended EJ memory, 60 ... Main frame, 78 ... Printer control unit, 79 ... Printer control CPU, 80 ... Fiscal Data processing unit 81 ... Fiscal memory 82 ... EJ memory 83 ... Fiscal control unit 84 ... Protect circuit 85 ... Fiscal control CPU 90 ... Host computer 100 ... Thermal printer 150 ... Printer mechanism unit 180 ... Printer main body 200, exterior case as first housing, 300 ... Control section, 310 ... extension.

Claims (6)

At least a printing apparatus main body having a first housing that houses a printing unit that prints information including accounting information on paper;
A control unit having at least a memory circuit that stores at least a part of the information in a nonvolatile manner and a control circuit that controls a control circuit that controls the printing apparatus main body;
The printing apparatus main body and the control unit are arranged in a stacked state,
The control unit is provided with a signal for controlling the printing apparatus main body and a connection terminal for transmitting the information on a surface of the second casing on the printing apparatus main body side,
The printing apparatus according to claim 1, wherein a receiving terminal connected to the connection terminal is provided on the surface of the first housing on the control unit side.   The printing apparatus according to claim 1, wherein a connection direction between the connection terminal and the receiving terminal is a stacking direction of the printing apparatus main body and the control unit.   The printing apparatus according to claim 1, wherein the receiving terminal is connected to a wiring including at least the printing unit of the printing apparatus main body.   The signal line for detecting the printing status of the printing apparatus main body is connected to the receiving terminal, and the memory circuit stores the printing status. Printing device.   The second housing of the control unit is formed in a substantially rectangular parallelepiped shape, the connection terminal is provided on one surface in the stacking direction, and the receiving terminal is provided on the other surface in the stacking direction. The printing apparatus according to any one of claims 1 to 4. Has an extension to add memory capacity and / or printing capabilities,
The extension portion is housed in a third housing having the connection terminal and the receiving terminal similar to the second housing of the control portion,
The printing apparatus according to claim 1, wherein the extension unit is connected to a side of the control unit facing the printing apparatus main body.

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