JP2016042977A - Board case unit of game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a board case unit of a game machine which can prevent a fraudulent act.SOLUTION: In a sub control device 100 in which a sub main board is accommodated in a case interior defined by connecting a sub board case body and a sub board case lid, a third body side weld portion 153 and a third lid side weld portion 203 are formed in being welded to each other so as to have curved shape extending along side end portions of the sub board case body 121 and the sub board case lid 171. A first identification mark 221 and a second identification mark 222 are formed across the third body side weld portion 153 and the third lid side weld portion 203.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a substrate case unit of a gaming machine such as a slot machine.

  A slot machine, which is a type of gaming machine, has a reel unit that rotates a reel, a main control device that controls the operation of the reel unit, a payout device that pays out medals according to the result of the game, and a box shape that accommodates these The base part (main body member) and a front door (opening / closing member) capable of opening and closing the front opening of the base part are configured. Further, decorative parts such as an electric decoration device and a decorative board and a sub-control device that controls the electric decoration device and the like are attached to the front door. The main control device is mainly configured by a main control board on which electronic components are mounted and a main board case that houses the main control board (see, for example, Patent Document 1). The sub-control device is mainly configured by a sub-control board on which electronic components are mounted and a sub-board case that accommodates the sub-control board. Each substrate case is coupled so that a pair of case members are closed using a screw member to prevent unauthorized access to the inside of the case.

JP 2013-46704 A

  In such a gaming machine, there is a demand for measures for preventing fraud.

  This invention is made | formed in view of such a subject, and it aims at providing the board | substrate case unit of the game machine which can prevent an unauthorized act.

  In order to achieve such an object, a board case unit of a gaming machine according to the present invention includes a first case member formed in a substantially rectangular box shape having an opening, and the first case member covering the opening. A second case member formed in a lid shape that can be coupled to the control unit, and a control that is housed in a case formed by coupling the first case member and the second case member, and controls the operation of the gaming machine A board case unit of a gaming machine including a board, wherein the first case member is formed at a side end portion of the first case member and can be brought into contact with the second case member. The second case member has a second contact portion formed at a side end portion of the second case member and capable of contacting the first contact portion, and the first contact portion. And the second contact portion is in contact with each other, and the first case member and It is formed with a curved shape extending along the side edge portions of the serial second case member, the first predetermined mark across the abutting portion and the second contact portion is formed.

  According to the present invention, fraud can be prevented.

It is a front view of a slot machine. It is a front view which shows the internal structure of a slot machine. It is the figure which looked at the front door of the slot machine from back. It is a perspective view which shows the sub-control apparatus of 1st Embodiment. It is a side view which shows the sub-control apparatus of 1st Embodiment. (A) is sectional drawing seen from the direction of arrow VIA-VIA of FIG. 5, (b) is sectional drawing seen from the direction of arrow VIB-VIB of FIG. (A) is sectional drawing seen from the direction of arrow VIIA-VIIA of FIG. 5, (b) is sectional drawing seen from the direction of arrow VIIB-VIIB of FIG. It is the perspective view which looked at the state which removed the sub-control device from the bracket member from the inside of the slot machine. It is the perspective view which looked at the state where the sub control device was removed from the bracket member from the outside of the slot machine. It is the disassembled perspective view which looked at the sub control device of a 1st embodiment from the front. It is the disassembled perspective view which looked at the sub control device of a 1st embodiment from back. It is a side view of the sub board | substrate case of the state which has a sub board | substrate case cover located in a detachable position. It is a perspective view of a sub board case in the state where a sub board case lid is located in a detachable position. It is a side view of a sub-board case main body. It is a perspective view of a connection member. (A) is the perspective view which looked at the sub control apparatus of 2nd Embodiment from upper direction, (b) is the perspective view which looked at the sub control apparatus of 2nd Embodiment from the downward direction. (A) is the side view which looked at the sub control device of 2nd Embodiment from the inside of a slot machine, (b) is the side view which looked at the sub control device of 2nd Embodiment from the outside of the slot machine. is there. (A) is sectional drawing seen from the direction of arrow XVIIIA-XVIIIA of Fig.17 (a), (b) is sectional drawing seen from the direction of arrow XVIIIB-XVIIIB of Fig.17 (a). (A) is sectional drawing seen from the direction of arrow XIXA-XIXA of Fig.17 (a), (b) is sectional drawing seen from the direction of arrow XIXB-XIXB of Fig.17 (a). It is sectional drawing seen from the direction of arrow XX-XX of Fig.17 (a). It is the disassembled perspective view which looked at the sub control apparatus of 2nd Embodiment from the front. It is the disassembled perspective view which looked at the sub control apparatus of 2nd Embodiment from back.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. First, an outline of a slot machine SM as an embodiment of the gaming machine will be described with reference to FIGS. In the present embodiment, the directions indicated by the arrows in FIG. 1 will be described as the up-down direction, the front-rear direction, and the left-right direction, respectively. The slot machine SM of the present embodiment is mainly composed of a box-shaped base portion 10 and a front door 20. The base portion 10 is formed in a box shape having an opening 10 a in the front, and the front door 20 is attached to the front portion of the base portion 10. The front door 20 is pivotally supported on the left front portion of the base portion 10 using the hinge mechanisms 5a and 5b, and is configured to be able to swing open and close the opening portion 10a of the base portion 10.

  A reel unit 11 including four reels 12a, 12b, 12c, and 12d is provided in the center of the base portion 10, and the four reels 12a, 12b, 12c, and 12d are passed through a reel display window 22 provided on the front door 20. It is possible to visually recognize the pattern drawn on the screen. A medal payout device 14 including a power supply unit 13 for supplying power to various devices mounted on the slot machine SM and a hopper 14a for storing medals is provided on the lower side inside the base body portion 10. On the upper inner surface of the back plate portion of the base body portion 10, a main control device 15 that controls the game played in the slot machine SM as a whole is provided. On the upper inner surface of the left side plate portion of the base portion 10 where the hinge mechanisms 5a and 5b are provided, a sub-control device 100 that performs effect determination processing as effect control of the slot machine SM is provided.

  A front frame 21 is formed on the front door 20, and a reel display window 22 is provided at a substantially central portion of the front frame 21. An operation panel 23 is provided below the reel display window 22 at the center of the front side of the front door 20. On the front side of the operation panel 23, a start switch 24 and three stop switches 25a, 25b, and 25c are provided. On the upper surface side of the operation panel 23, various bet switches 26, various effect operation switches 27, and a medal slot 28 are provided.

  An image display device 30 for displaying a predetermined effect image and left and right side lamps 31 and 32 are provided on the upper front side of the front door 20. A decorative panel 33 and a tray 34 for storing medals paid out from the medal payout device 14 are provided at the lower part on the front side of the front door 20.

  In a state where the front door 20 closes the opening 10 a of the base body 10, the rear surface side of the front door 20 is located on the inner side of the base body 10. On the rear side of the front door 20, an effect control unit 35 that performs effect control processing of various effect devices as effect control of the slot machine SM, left and right upper speaker units 36 and 37, and left and right lower speaker units 38 and 39 are provided. It is done.

[First Embodiment of Sub-Control Device]
Next, the sub-control device 100 according to the first embodiment will be described with reference to FIGS. As shown in FIGS. 10 and 11, the sub-control device 100 according to the first embodiment is a board case unit mainly composed of a sub-main board 110 and a sub-board case 120 that houses the sub-main board 110. is there. As shown in FIGS. 4 and 5, the sub-control device 100 is attached to a sub-side bracket member 300 fixed to the upper inner surface of the left side plate portion of the base portion 10. Hereinafter, the directions indicated by the arrows in FIG. 4 will be described as the up-down direction, the front-rear direction, and the left-right direction, with reference to the mounting direction of the sub-control device 100 with respect to the base unit 10. The sub main board 110 performs an effect determination process such as an effect lottery based on output information (command data) from the main controller 15 (main control board).

  As shown in FIGS. 10 and 11, the sub-main board 110 includes electronic components (electronic elements) such as a sub-main CPU (Central Processing Unit), an extended work RAM (Random Access Memory), and a program ROM (Read Only Memory) 113. An electrical component such as the sub-board-side optical connector 114 and the parallel communication connector 115, a backup power supply element 117 capable of supplying power to the sub-main CPU, the extended work RAM, and the like, and a printed board 111 on which these are mounted. Composed. Further, a plurality of electrical connectors 116, 116,.

  The sub board side optical connector 114 is an optical connector for connecting the main control device 15 (main control board) and the sub control device 100 (sub main board 110) via the optical communication cable 900. It is arranged facing the rear on the upper rear side. A cable side connector 920 of the optical communication cable 900 is fitted and connected to the sub board side optical connector 114 along the mounting surface 111 a of the printed board 111. As shown in FIG. 6A, the end of the optical communication cable 900 protruding from the cable-side connector 920 and the sub-board-side optical connector 114 in a state where the cable-side connector 920 is fitted to the sub-board-side optical connector 114. The light receiving elements 114 s built in are opposed to each other in a state of being close to each other. As a result, the optical signal transmitted from the optical communication cable 900 is converted into an electrical signal (command signal) in the light receiving element 114s of the sub-board-side optical connector 114, and the command signal receiving circuit ( A command signal is transmitted to the not shown.

  The parallel communication connector 115 performs parallel communication related to operation signals from the stop switches 25a, 25b, and 25c in order to control the effect reel (for example, the leftmost first reel 12a). This is an electrical connector for electrically connecting the main control device 15 (main control board) and the sub-control device 100 (sub-main board 110) via a cable (not shown). As shown in FIGS. 10 and 11, the parallel communication connector 115 is arranged on the upper rear side of the sub-main board 110 in parallel with the sub-board-side optical connector 114. A cable connector (not shown) of a parallel communication cable (not shown) is fitted and connected to the parallel communication connector 115 along the mounting surface 111 a of the printed board 111.

  The program ROM 113 is disposed at the center of the printed circuit board 111 and is in close contact with the ROM cover 105 as shown in FIG. The ROM cover 105 is formed in a box shape using a transparent resin material as shown in FIG. 6B and FIG. 10, and covers the program ROM 113 using the ROM cover fixing screw 106 (see FIG. 21). It is attached to the mounting surface 111a of the printed board 111. Further, as shown in FIGS. 6A and 10, a region located on the opposite side of the sub-board-side optical connector 114 in the printed circuit board 111 is covered with a protective cover 107. The protective cover 107 is formed in a thin plate shape using a transparent resin material, and is attached to the surface of the printed board 111 opposite to the mounting surface 111a using a protective cover fixing screw 108 (see FIG. 21). The protective cover 107 covers and protects the lead wire 114L (see FIG. 6A) of the sub-board-side optical connector 114 positioned on the surface opposite to the mounting surface 111a of the printed board 111. .

  As shown in FIGS. 10 and 11, screw insertion holes 112 through which the board fixing screws 259 are inserted are formed at the four corners of the printed board 111. The sub main board 110 is attached and fixed to the sub board case lid 171 of the sub board case 120 together with the shield plate 251 using the board fixing screws 259. The shield plate 251 is formed in a substantially square plate shape using a metal plate material, and covers the surface of the printed board 111 opposite to the mounting surface 111a. At the four corners of the shield plate 251, screw insertion holes 252 through which the board fixing screws 259 are inserted are formed in alignment with the screw insertion holes 112 of the sub main board 110. A plurality of rib insertion holes 253, 253,... Through which a plurality of support ribs 123, 123,... Formed in the sub substrate case main body 121 of the sub substrate case 120 are inserted are formed at the bottom of the shield plate 251. On the four sides of the shield plate 251, bent portions 254 are formed surrounding the surface of the printed board 111 opposite to the mounting surface 111 a.

  The sub-board case 120 includes a sub-board case main body 121, a sub-board case cover 171 and a connector cover 261. The sub-board case 120 is formed inside the case formed by combining the sub-board case main body 121 and the sub-board case cover 171. The sub main board 110 and the shield plate 251 are configured to be accommodated. As shown in FIGS. 10 and 14, the sub-board case main body 121 is formed in a substantially square box shape having an opening 121a on the right side using a transparent resin material. That is, the bottom portion 122 of the sub-board case main body 121 is disposed on the left side of the sub-board case main body 121. The first side wall 132 is disposed below the sub-board case main body 121 and the second side wall 142 is disposed above the sub-board case main body 121 so as to surround the substantially square opening 121a. A third side wall 152 is disposed in front of 121, and a fourth side wall 162 is disposed behind the sub-board case main body 121. A plurality of support ribs 123 are formed on the bottom 122 of the sub-board case main body 121 to support the sub-main board 110 accommodated in the case.

  The first side wall portion 132 of the sub-board case main body 121 is configured to be slidable in contact with the first slide cover portion 183 of the sub-board case lid 171, and the sub-board case lid 171 can be attached to and detached from the sub-board case main body 121. The sub-board case lid 171 is slidably supported in the front-rear direction at a detachable position and a coupling position where the sub-board case lid 171 covers the opening 121a and is coupled to the sub-board case main body 121. A first main body-side welded portion 133 that can be welded to the first lid-side welded portion 185 of the sub-board case lid 171 using a solvent is formed at the edge of the first side wall portion 132. The first main body side welding portion 133 is formed with a flat first main body side welding surface 134 that can be welded to face the first lid side welding surface 186 of the first lid side welding portion 185. On the first main body side welding surface 134, a groove-shaped first case welding groove part 135 connected to the first case welding injection part 187 of the first lid side welding part 185 is formed. The first case welding groove portion 135 is formed to extend in a skewer shape along the extending direction of the first main body side welding surface 134 (first side wall portion 132).

  A first flange portion 136 that protrudes outward so as to be integrated with the bottom portion 122 is formed on the outer surface of the first side wall portion 132. The first flange portion 136 is formed with a plurality of claw-shaped first main body side slide engagement portions 137 that can be engaged with the first lid side slide engagement portion 184 of the sub-board case lid 171. A main body side connecting member accommodating portion 138 capable of accommodating the distal end side of the case side connecting portion 273 of the connecting member 271 (see FIG. 15) is formed at the front portion of the first flange portion 136.

  The second side wall 142 of the sub-board case main body 121 is arranged to face the first side wall 132 and is configured to be slidable with the second slide cover 193 of the sub-board case lid 171. At the same time, the sub-board case lid 171 is slidably supported at the attachable / detachable position and the coupling position. A second body-side welded portion 143 that can be welded to the second lid-side welded portion 195 of the sub-board case lid 171 using a solvent is formed at the edge of the second side wall portion 142. The second main body side welding portion 143 is formed with a planar second main body side welding surface 144 that can be welded facing the second lid side welding surface 196 of the second lid side welding portion 195. A groove-shaped second case welding groove 145 that is connected to the second case welding inlet 197 of the second lid side welding portion 195 is formed on the second main body side welding surface 144. The second case welding groove 145 is formed to extend like a skewer along the extending direction of the second main body side welding surface 144 (second side wall 142).

  A second flange portion 146 that protrudes outward so as to be integrated with the bottom portion 122 is formed on the outer surface of the second side wall portion 142. The second flange portion 146 is formed with a plurality of claw-shaped second main body side slide engagement portions 147 that can be engaged with the second lid side slide engagement portion 194 of the sub-board case lid 171. At the front part of the second flange part 146, a block-shaped main body side locking part 148 is formed so as to protrude forward from the third side wall part 152 so as to overlap the lid side locking part 199 of the sub-board case lid 171. .

  A third main body side welded portion 153 that can be welded to the third lid side welded portion 203 of the sub-board case lid 171 using a solvent is formed on the lower side of the third side wall portion 152 so as to project forward. The third main body side welded portion 153 has a curved main body side curved surface portion 154 extending in the vertical direction along the extending direction of the third side wall portion 152, and a stepped surface is formed on the edge of the main body side curved surface portion 154. A third main body side welding surface 156 is formed. The third main body side welding surface 156 is formed to bend and extend in a “<” shape with respect to the extending direction of the main body side curved surface portion 154, and the third main body side welding surface 156 and the third lid side welding surface 206. Abutting and welding are possible.

  A fourth body-side welded portion 163 that can be welded to the fourth lid-side welded portion 213 of the sub-board case lid 171 using a solvent is formed on the lower side of the fourth side wall portion 162 so as to protrude rearward. The fourth body-side welded portion 163 is formed in a flat plate shape that extends in the vertical direction along the outer surface of the fourth side wall portion 162. The fourth main body side welding portion 163 is formed with a flat fourth main body side welding surface 164 that can be welded facing the fourth lid side welding surface 214 of the fourth lid side welding portion 213. On the fourth main body side welding surface 164, a groove-shaped fourth case welding groove portion 165 connected to the fourth case welding injection portion 215 of the fourth lid side welding portion 213 is formed. The fourth case welding groove portion 165 is formed to extend like a skewer along the extending direction of the fourth main body side welding surface 164 (fourth side wall portion 162). In addition, body side guard ribs 166 surrounding the upper and lower sides of the fourth body side welding surface 164 (and the fourth lid side welding surface 214) are formed at the upper and lower side end portions of the fourth body side welding portion 163.

  A case-side welded portion 167 that can be welded to the cover-side welded portion 265 of the connector cover 261 using a solvent is formed on the upper side of the fourth side wall portion 162 so as to protrude rearward. The case-side welded portion 167 is formed in a flat plate shape that extends in the vertical direction along the outer side surface of the fourth side wall portion 162. The case-side welded portion 167 is formed with a planar case-side welded surface 168 that can be welded facing the cover-side welded surface 266 of the cover-side welded portion 265. The case-side welding surface 168 is formed with a groove-like cover welding groove portion 169 that is connected to the cover welding injection portion 267 of the cover side welding portion 265. The cover welding groove 169 is formed to extend like a skewer along the extending direction of the case-side welding surface 168 (fourth side wall 162). Further, case-side guard ribs 170 are formed at upper and lower side end portions of the case-side welded portion 167 so as to surround the upper and lower sides of the case-side welded surface 168 (and the cover-side welded surface 266).

  The sub-board case lid 171 is formed in a substantially square lid shape with a left opening using a transparent resin material. That is, the ceiling portion 172 of the sub-board case lid 171 is disposed on the right side of the sub-board case lid 171. At the four corners of the ceiling portion 172, substrate mounting bosses 173 having screw holes are formed. With the shield plate 251 overlaid on the surface opposite to the mounting surface 111a of the printed board 111, the board fixing screw 259 is inserted into the screw insertion hole 252 of the shield plate 251 and the screw insertion hole 112 of the printed board 111 to attach the board. The sub main board 110 and the shield plate 251 are fixed to the inside of the sub board case cover 171 by screwing the boss 173 with screws. As a result, the program ROM 113 (ROM cover 105), the sub board side optical connector 114, the parallel communication connector 115, and the like of the sub main board 110 are covered with the sub board case cover 171 and the sub main board 110 has a protective cover. 107 and the like are covered with the shield plate 251.

  As shown in FIG. 6A, an enclosure 174 surrounding a part of the sub-board-side optical connector 114 (in the vicinity of the light receiving element 114s) is formed on the upper rear side of the ceiling 172. The enclosure portion 174 is formed with a retaining portion 175 that covers a part of the hole of the sub-board side optical connector 114 and prevents the cable-side connector 920 from coming off from the sub-board side optical connector 114. Further, on the upper rear side of the ceiling portion 172, a substrate exposed portion 176 that exposes the rear vicinity of the sub-board-side optical connector 114 and the parallel communication connector 115 in the sub-main substrate 110 is provided on a fourth side cover portion 212 described later. It is formed so as to cut out a part. In the front part and the lower part of the ceiling part 172, a connector exposing part 177 for exposing the plurality of electrical connectors 116, 116,. A harness fixing portion 178 to which a harness clamp (not shown) is attached is formed on the lower rear side of the ceiling portion 172.

  A first side cover portion 182 that covers the outside of the first side wall portion 132 of the sub substrate case main body 121 is formed on the lower side portion of the sub substrate case lid 171. The first side cover portion 182 is formed in a wall shape extending in the front-rear direction, and covers the first main body side slide engagement portion 137 of the sub-board case main body 121. As shown in FIG. 7B, a first slide cover portion 183 is formed on the inner side of the first side cover portion 182 so as to extend substantially parallel to the first side cover portion 182. The first slide cover portion 183 is formed to extend in the front-rear direction in a cross-sectional view, and is configured to be slidable with the first side wall portion 132 of the sub-board case main body 121. As shown in FIGS. 7A and 7B, between the first side cover portion 182 and the first slide cover portion 183, the first substrate side slide engagement portion 137 of the sub-board case main body 121 is engaged. A projecting first lid-side slide engagement portion 184 that can be mated is formed. In a state where the sub-board case lid 171 is superimposed on the sub-board case body 121, the sub-board case lid 171 is slid forward from the detachable position to the coupling position with respect to the sub-board case body 121, thereby moving the first main body side. The slide engagement portion 137 and the first lid side slide engagement portion 184 are configured to be engageable.

  As shown in FIG. 7 (b), the first slide cover portion 183 can be welded to the ceiling portion of the first slide cover portion 183 with the first main body side weld portion 133 of the sub-board case main body 121 (first side wall portion 132) using a solvent. A first lid side welded portion 185 is formed. The first lid-side welded portion 185 is formed with a flat first lid-side welded surface 186 that can be welded facing the first main body-side welded surface 134 of the first main body-side welded portion 133. Further, the first lid side welded portion 185 is provided between the first lid side welded surface 186 of the first lid side welded portion 185 and the first main body side welded surface 134 of the first main body side welded portion 133 from the outside. A hole-shaped first case welding injection portion 187 into which a solvent is injected is formed. For example, dichloromethane or the like is used as a solvent to be injected into the first case welding injection portion 187.

  As shown in FIG. 7A and FIG. 10, the lid side connecting member that can accommodate the connecting member 271 (see FIG. 15) is accommodated in the front portions of the first side cover portion 182 and the first slide cover portion 183. A portion 189 is formed. An engagement protrusion 189a (see also FIG. 9) that can be engaged with the base portion 272 (see FIG. 15) of the connecting member 271 is formed on the ceiling of the lid-side connecting member accommodating portion 189.

  A second side cover portion 192 that covers the outer side of the second side wall portion 142 of the sub substrate case main body 121 is formed on the upper side portion of the sub substrate case lid 171. The second side cover portion 192 is formed in a wall shape extending in the front-rear direction, and covers the second main body side slide engaging portion 147 of the sub-board case main body 121. As shown in FIG. 7B, a second slide cover portion 193 is formed on the inner side of the second side cover portion 192 so as to extend substantially parallel to the second side cover portion 192. The second slide cover portion 193 is formed to extend in the front-rear direction in a cross-sectional view type, and is configured to be slidable with the second side wall portion 142 of the sub-board case main body 121. Between the second side cover portion 192 and the second slide cover portion 193, a protruding second lid side slide engagement portion that can be engaged with the second main body side slide engagement portion 147 of the sub-board case main body 121. 194 is formed. With the sub-board case lid 171 overlapped with the sub-board case body 121, the sub-board case cover 171 is slid forward from the detachable position to the coupling position with respect to the sub-board case body 121, so that the second body side The slide engagement portion 147 and the second lid side slide engagement portion 194 are configured to be engageable.

  A second lid-side welded portion 195 that can be welded to the second body-side welded portion 143 of the sub-board case main body 121 (first side wall portion 132) is formed on the ceiling of the second slide cover portion 193 using a solvent. The The second lid-side welded portion 195 is formed with a flat second lid-side welded surface 196 that can be welded facing the second main body-side welded surface 144 of the second main body-side welded portion 143. Further, the second lid side welded portion 195 is provided between the second lid side welded surface 196 of the second lid side welded portion 195 and the second main body side welded surface 144 of the second main body side welded portion 143 from the outside. A hole-shaped second case welding injection portion 197 into which a solvent is injected is formed. For example, dichloromethane or the like is used as a solvent injected into the second case welding injection portion 197.

  As shown in FIGS. 10 and 11, the front side of the second side cover portion 192 and the second slide cover portion 193 has a lid side engagement that slidably overlaps with the main body side locking portion 148 of the sub-board case main body 121. A stop 199 is formed. The main body side locking portion 148 and the lid side locking portion 199 are configured to be locked to the case locking portion 307 of the sub-side bracket member 300.

  A third side cover portion 202 that covers the inner side of the third side wall portion 152 of the sub substrate case main body 121 is formed on the front side portion of the sub substrate case lid 171. The third side cover portion 202 is formed in a wall shape extending in the vertical direction, and overlaps the inner side surface of the third side wall portion 152 of the sub-board case main body 121. A third lid side welded portion 203 that can be welded to the third main body side welded portion 153 of the sub-board case main body 121 using a solvent is formed on the lower side of the third side cover portion 202 so as to protrude forward. The third lid-side welded portion 203 has a curved lid-side curved portion 204 that extends in the vertical direction along the extending direction of the third side cover portion 202, and a stepped surface is formed at the edge of the lid-side curved portion 204. A third lid-side welding surface 206 is formed. The third lid-side welding surface 206 is formed to be bent and inclined in a “<” shape with respect to the extending direction of the lid-side curved surface portion 204, and the third body-side welding surface 156 of the third body-side welding portion 153 Abutting and welding are possible. A solvent is injected from the outside into the space between the third lid-side welding surface 206 and the third main body-side welding surface 156 that are in contact with each other (the exposed third case welding injection portion), and the third lid-side welding portion 203. The (third lid side welding surface 206) and the third main body side welding portion 153 (third main body side welding surface 156) are welded. As a solvent injected between the third lid side welding surface 206 and the third main body side welding surface 156, for example, dichloromethane or the like is used.

  With the third main body side welding portion 153 and the third lid side welding portion 203 welded, the main body side curved surface portion 154 of the third main body side welding portion 153 and the lid side curved surface portion 204 of the third lid side welding portion 203 Are formed so as to be uniformly curved in a sectional view arc shape and extend in the vertical direction. As shown in FIG. 6B, the curved shape (cross-sectional shape) of the integrated main body side curved surface portion 154 and lid side curved surface portion 204 has a continuous curvature as it goes forward substantially perpendicular to the extending direction of the curved surface shape. It is formed so as to increase. Thereby, the curved surface shapes of the main body side curved surface portion 154 and the lid side curved surface portion 204 are relatively relatively close to the third side wall portion 152 of the sub substrate case main body 121 and the third side cover portion 202 of the sub substrate case lid 171. The shape is close to a flat surface, and is a relatively large curved shape on the front side away from the third side wall portion 152 and the third side cover portion 202.

  As shown in FIG. 4 and FIG. 5, the first main body side welded portion 153 and the third lid side welded portion 203 are welded to each other over the main body side curved surface portion 154 and the lid side curved surface portion 204. The identification mark 221 and the second identification mark 222 different from the first identification mark 221 are formed. The first identification mark 221 has, for example, a predetermined figure shape (authentication mark, corporate mark, two-dimensional code, etc.), and is formed below the main body side curved surface portion 154 and the lid side curved surface portion 204. For ease of explanation, a circular mark is described as the first identification mark 221 in FIG. 4 and the like, but the present invention is not limited to this. The second identification mark 222 has, for example, a predetermined numerical shape (manufacturing number, model number, identification number, etc.) and is formed above the main body side curved surface portion 154 and the lid side curved surface portion 204. For ease of explanation, a three-digit number (123) is described as the second identification mark 222 in FIG. 4 and the like, but is not limited thereto. Both the first identification mark 221 and the second identification mark 222 are formed by applying internal markings to the main body side curved surface portion 154 and the lid side curved surface portion 204 using a laser processing machine using a YVO4 laser. It is like that.

  In order to perform internal marking, for example, a resin material in which a predetermined additive that easily reacts to laser light is added to an ABS resin is used as the transparent resin material for the sub-board case main body 121 and the sub-board case lid 171. Further, in order to perform internal marking, the third main body side welded portion 153 and the third lid side welded portion 203 are made thicker than the other portions of the sub board case main body 121 and the sub board case lid 171. Is formed.

  As shown in FIG. 6B and FIG. 11, a fourth side cover portion 212 that covers the outside of the fourth side wall portion 162 of the sub substrate case main body 121 is formed on the rear side portion of the sub substrate case lid 171. The The fourth side cover portion 212 is formed in a wall shape extending in the vertical direction, and overlaps the outer surface of the fourth side wall portion 162 of the sub-board case main body 121. A fourth lid side weld portion 213 that can be welded to the fourth main body side weld portion 163 of the sub-board case main body 121 using a solvent is formed below the fourth side cover portion 212 so as to protrude rearward. The fourth lid-side welded portion 213 is formed in a flat plate shape that extends in the vertical direction along the outer surface of the fourth side cover portion 212. The fourth lid-side welding portion 213 is formed with a flat fourth lid-side welding surface 214 that can be welded facing the fourth body-side welding surface 164 of the fourth body-side welding portion 163. In addition, the fourth lid side welding portion 213 is provided between the fourth lid side welding surface 214 of the fourth lid side welding portion 213 and the fourth main body side welding surface 164 of the fourth main body side welding portion 163 from the outside. A hole-shaped fourth case welding injection portion 215 into which the solvent is injected is formed. For example, dichloromethane or the like is used as a solvent injected into the fourth case welding injection part 215. Further, a lid-side guard rib 217 surrounding the rear of the fourth lid-side welding surface 214 (and the fourth main body-side welding surface 164) is formed at the rear end portion of the fourth lid-side welding portion 213.

  As shown in FIGS. 6A and 10, the connector cover 261 is formed in a lid shape using a transparent resin material, and is exposed at the board exposed portion 176 of the sub board case lid 171. Covering the vicinity of the rear side of the board-side optical connector 114 and the parallel communication connector 115, it is welded to the case-side welded part 167 of the sub-board case body 121. At the front end side of the connector cover 261, a first groove 263 through which the optical communication cable 900 in a state where the cable-side connector 920 is fitted to the sub-board-side optical connector 114 of the sub-main board 110 is inserted, and the sub-main board 110 A second groove portion 264 through which a parallel communication cable (not shown) in a state in which a cable side connector (not shown) is fitted to the parallel communication connector 115 is formed is arranged in parallel.

  A cover-side welded portion 265 that can be welded to the case-side welded portion 167 of the sub-board case main body 121 using a solvent is formed in a flat plate shape on the base end side of the connector cover 261. The cover-side welded portion 265 is formed with a flat cover-side welded surface 266 that can be welded to face the case-side welded surface 168 of the case-side welded portion 167. Further, the cover-side welded portion 265 is a hole-shaped cover welded in which a solvent is injected between the cover-side welded surface 266 of the cover-side welded portion 265 and the case-side welded surface 168 of the case-side welded portion 167 from the outside. An injection portion 267 is formed. For example, dichloromethane or the like is used as the solvent injected into the cover welding injection portion 267. Further, a cover-side guard rib 269 surrounding the rear of the cover-side weld surface 266 (and the case-side weld surface 168) is formed at the rear end portion of the case-side weld portion 167.

  As shown in FIGS. 8 and 9, the sub-side bracket member 300 to which the sub-control device 100 is attached is formed in a container shape using a resin material, and mainly includes a case receiving portion 301 that can receive the sub-board case 120. Composed. An engagement protrusion 302 and a bracket fixing boss 303 are formed on the outside of the bottom of the case receiving portion 301. The engagement protrusion 302 engages with an engagement hole (not shown) formed on the upper inner surface of the left side plate portion of the base portion 10, and positions the sub-side bracket member 300 with respect to the left side plate portion of the base portion 10. It is like that. The bracket fixing boss 303 is formed with a screw insertion hole in the center, and a bracket fixing screw (not shown) is inserted into the screw insertion hole of the bracket fixing boss 303 to form a left side plate portion of the base portion 10. By fixing with screws, the sub-side bracket member 300 is fixed to the upper inner surface of the left side plate portion of the base portion 10.

  A case insertion portion 305 into which the fourth main body side welding portion 163 and the fourth lid side welding portion 213 and the case side welding portion 167 and the cover side welding portion 265 are inserted is formed at the rear portion of the case receiving portion 301. A case connecting portion 306 that is connected to the sub-board case 120 via a connecting member 271 is formed at the front lower portion of the case receiving portion 301. The case connecting portion 306 is formed in a boss shape having an engagement hole 306a through which the bracket side connecting portion 274 of the connecting member 271 can be inserted. When the sub-control device 100 is attached to the sub-side bracket member 300, the case connecting portion 306 enters the inside of the cover-side connecting member accommodating portion 189 of the sub-board case lid 171 (see FIG. 7A), and the lid It engages with the bracket side connecting portion 274 of the connecting member 271 accommodated in the side connecting member accommodating portion 189. A claw-like case locking portion 307 that can be locked to the main body side locking portion 148 and the lid side locking portion 199 of the sub-board case 120 is formed at the front upper portion of the case receiving portion 301.

  As shown in FIG. 15, the connecting member 271 is formed in a plate shape using an elastically deformable resin material, and includes a base portion 272, a case side connecting portion 273, and a bracket side connecting portion 274. Is done. The base portion 272 is formed in a plate shape having a letter “D” in cross-section, and is received in the lid-side connecting member accommodating portion 189 of the sub-board case lid 171 to be engaged with the engaging protrusion 189a of the lid-side connecting member accommodating portion 189 (see FIG. 9). The case side connecting portion 273 is formed in a claw shape connected to one end side of the base portion 272 and is configured to be insertable inside the main body side connecting member accommodating portion 138 of the sub-board case main body 121. The bracket-side connecting portion 274 is composed of a plurality of plate-like bodies arranged so that the outer shape is larger than the engagement hole 306 a of the case connecting portion 306 of the sub-side bracket member 300, and is formed on the side portion of the base portion 272. Is done. The bracket side connecting portion 274 is accommodated in the lid side connecting member accommodating portion 189 of the sub-board case lid 171 together with the base portion 272. Accordingly, when the case connecting portion 306 of the sub-side bracket member 300 enters the inside of the lid-side connecting member accommodating portion 189, the bracket-side connecting portion 274 is inserted into the engagement hole 306a of the case connecting portion 306 while being elastically deformed. When the inner side of the case connecting portion 306 is reached, it returns to its original shape so that it engages with the case connecting portion 306.

  In the sub-control device 100 configured as described above, a procedure for coupling the sub-board case main body 121 of the sub-board case 120 and the sub-board case lid 171 will be described. First, the cable side connector 920 of the optical communication cable 900 is fitted to the sub board side optical connector 114 inside the sub board case lid 171, and the cable side of the parallel communication cable (not shown) is connected to the parallel communication connector 115. The sub main board 110 and the shield plate 251 in a state where a connector (not shown) is fitted are attached and fixed so as to overlap each other. At this time, the coupling member 271 is accommodated in the lid side coupling member accommodating portion 189 of the sub-board case lid 171, and the engagement protrusion 189 of the lid side coupling member accommodating portion 189 and the base portion 272 of the coupling member 271 are engaged. .

  Next, as shown in FIGS. 12 and 13, the sub-board case lid 171 is overlaid on the sub-board case main body 121 at a detachable position. Next, the sub substrate case lid 171 is slid forward (relatively moved) from the attachable / detachable position to the coupling position with respect to the sub substrate case main body 121. As a result, the first main body side slide engagement portion 137 and the first lid side slide engagement portion 184 are engaged, and the second main body side slide engagement portion 147 and the second lid side slide engagement portion 194 are engaged. In the engaged state, the sub substrate case main body 121 and the sub substrate case lid 171 are coupled. At this time, the case side connecting portion 273 of the connecting member 271 is inserted and accommodated inside the main body side connecting member accommodating portion 138 of the sub-board case main body 121.

  Next, a solvent is injected into the first case welding injection portion 187 of the sub-board case lid 171 from the outside. The solvent injected into the first case welding injection portion 187 flows between the first lid-side welding portion 185 of the sub-board case lid 171 and the first main-body-side welding portion 133 of the sub-board case main body 121, 1 case welding groove 135 extends between first lid side welding surface 186 of first lid side welding portion 185 and first main body side welding surface 134 of first main body side welding portion 133. Accordingly, the first lid side welding surface 186 and the first main body side welding surface 134 are temporarily dissolved by the solvent, respectively, and the solvent evaporates, whereby the first lid side welding surface 186 and the first main body side welding surface 134 are evaporated. Are solidified and welded together.

  In addition, a solvent is injected from the outside into the second case welding injection portion 197 of the sub-board case lid 171. The solvent injected into the second case welding injection portion 197 flows between the second lid-side welding portion 195 of the sub-board case lid 171 and the second main-body-side welding portion 143 of the sub-board case main body 121, The two-case welding groove 145 extends between the second lid-side welding surface 196 of the second lid-side welding portion 195 and the second main-body-side welding surface 144 of the second main-body-side welding portion 143. Accordingly, the second lid side welding surface 196 and the second main body side welding surface 144 are temporarily dissolved by the solvent, respectively, and the solvent evaporates, whereby the second lid side welding surface 196 and the second main body side welding surface 144 are evaporated. Are solidified and welded together.

  Further, between the third lid side welding surface 206 of the third lid side welding portion 203 and the third main body side welding surface 156 of the third main body side welding portion 153 (the exposed third case welding injection portion). ) Inject solvent from the outside. The injected solvent spreads between the third lid side welding surface 206 of the third lid side welding portion 203 and the third main body side welding surface 156 of the third main body side welding portion 153. Accordingly, the third lid side welding surface 206 and the third main body side welding surface 156 are temporarily dissolved by the solvent, respectively, and the solvent evaporates, whereby the third lid side welding surface 206 and the third main body side welding surface 156 are obtained. Are solidified and welded together.

  Further, a solvent is injected from the outside into the fourth case welding injection portion 215 of the sub-board case lid 171. The solvent injected into the fourth case welding injection part 215 flows between the fourth lid side welding part 213 of the sub board case lid 171 and the fourth main body side welding part 163 of the sub board case main body 121, It extends between the fourth lid side welding surface 214 of the fourth lid side welding portion 213 and the fourth main body side welding surface 164 of the fourth main body side welding portion 163 via the four case welding groove portion 165. Accordingly, the fourth lid side welding surface 214 and the fourth main body side welding surface 164 are temporarily dissolved by the solvent, respectively, and the solvent evaporates, whereby the fourth lid side welding surface 214 and the fourth main body side welding surface 164 are obtained. Are solidified and welded together.

  Next, the connector cover 261 is attached to the case-side welded portion 167 of the sub-board case main body 121, and the solvent is injected into the cover welding injection portion 267 of the connector cover 261 from the outside. The solvent injected into the cover welding injecting portion 267 flows between the cover side welding portion 265 of the connector cover 261 and the case side welding portion 167 of the sub-board case main body 121 and covers the cover via the cover welding groove portion 169. It spreads between the cover side welding surface 266 of the side welding portion 265 and the case side welding surface 168 of the case side welding portion 167. As a result, the cover-side welding surface 266 and the case-side welding surface 168 are temporarily dissolved by the solvent, and the solvent evaporates, so that the cover-side welding surface 266 and the case-side welding surface 168 are solidified and welded to each other. Is done.

  Then, using a laser processing machine (not shown), the first identification mark 221 is straddled across the main body side curved surface portion 154 of the third main body side welding portion 153 and the lid side curved surface portion 204 of the third lid side welding portion 203. And a second identification mark 222 is formed. In this way, the sub-board case main body 121 and the sub-board case lid 171 of the sub-board case 120 are welded and joined together. The connector cover 261 is welded to the case-side welded portion 167 of the sub-board case body 121 so as to cover the vicinity of the rear side of the sub-board-side optical connector 114 and the parallel communication connector 115 in the sub-main board 110. As a result, since the sub-board case 120 cannot be opened unless the welded portion is destroyed, unauthorized opening of the sub-board case 120 can be prevented. In addition, by checking the first identification mark 221 and the second identification mark 222, it is possible to detect unauthorized opening or replacement of the sub-board case 120 at an early stage.

  The sub-board case 120 in which the sub-board case main body 121 and the sub-board case lid 171 are combined, that is, the sub-control device 100 is attached to the sub-side bracket member 300. In order to attach the sub-control device 100 to the sub-side bracket member 300, the fourth main body side welded portion 163 and the fourth lid side welded portion 213, the case side welded portion 167 and the cover side welded portion 265 are connected to the sub side bracket member 300. The sub-board case 120 is received in the case receiving portion 301 of the sub-side bracket member 300. At this time, the case connecting portion 306 of the sub-side bracket member 300 enters the inside of the lid-side connecting member accommodating portion 189 of the sub-board case lid 171 and the bracket of the connecting member 271 accommodated in the lid-side connecting member accommodating portion 189. Engages with the side connecting portion 274. At this time, the case locking portion 307 of the sub-side bracket member 300 is locked to the main body-side locking portion 148 and the lid-side locking portion 199 of the sub-board case 120.

  In this manner, the sub control device 100 is attached and fixed to the sub-side bracket member 300 in a state where it is connected to the case connecting portion 306 of the sub-side bracket member 300 via the connecting member 271. Thereby, it is possible to prevent the sub-control device 100 from being illegally removed from the sub-side bracket member 300. In addition, since the case insertion portion 305 restricts the movement of the rear side of the sub-control device 100 in the left-right direction, it is possible to prevent the sub-control device 100 from being illegally removed from the sub-side bracket member 300.

[Characteristic Configuration in First Embodiment]
[First characteristic configuration of sub-control device]
In the first embodiment, the first lid-side welded portion 185 of the sub-board case lid 171 and the first main-body-side welded portion of the sub-board case main body 121 are connected to the first lid-side welded portion 185 of the sub-board case lid 171 from the outside. 1st case welding injection | pouring part 187 in which a solvent is inject | poured between 133 is formed. Also, between the second lid-side welded portion 195 of the sub-substrate case lid 171 and the second main-body-side welded portion 143 of the sub-board case main body 121 from the outside to the second lid-side welded portion 195 of the sub-substrate case lid 171. A second case welding injecting portion 197 into which a solvent is injected is formed. Further, between the fourth lid-side welded portion 213 of the sub-board case lid 171 and the fourth main-body-side welded portion 163 of the sub-board case main body 121 from the outside to the fourth lid-side welded portion 213 of the sub-board case lid 171. The 4th case welding injection | pouring part 215 in which a solvent is inject | poured into is formed. Thereby, the sub-board case main body 121 and the sub-board case lid 171 can be easily welded and coupled. Since the sub-board case 120 cannot be opened unless the welded portion is destroyed, it is possible to prevent the sub-board case 120 from being illegally opened and to prevent fraud.

  A groove-shaped first case welding groove 135 connected to the first case welding injection portion 187 of the first lid side welding portion 185 is formed on the first main body side welding surface 134 of the first main body side welding portion 133. ing. In addition, a groove-shaped second case welding groove 145 that is connected to the second case welding inlet 197 of the second lid side welding portion 195 is formed on the second main body side welding surface 144 of the second main body side welding portion 143. ing. In addition, a groove-shaped fourth case welding groove 165 connected to the fourth case welding inlet 215 of the fourth lid side welding portion 213 is formed on the fourth main body side welding surface 164 of the fourth main body side welding portion 163. ing. As a result, the solvent easily spreads over the entire welding surface, so that the sub-board case main body 121 and the sub-board case lid 171 can be reliably welded and bonded.

  The sub-board case main body 121 has a first side wall portion 132 and a second side wall portion 142 that slidably support the sub-board case lid 171, and the first side wall portion 132 and the second side wall portion 132 in the sub-board case main body 121. A first main body side welded portion 133 and a second main body side welded portion 143 are formed at the edge portion of the side wall portion 142, and face the first main body side welded portion 133 and the second main body side welded portion 143 in the sub-board case lid 171. The first lid-side welded portion 185 and the second lid-side welded portion 195 are formed in the portion to be made, and the first case welding injecting portion 187 and the second lid-side welded portion 195 and the second lid-side welded portion 195 are formed. A case welding injection portion 197 is formed. Accordingly, the movable parts of the sub-board case main body 121 and the sub-board case lid 171 can be welded, so that the sub-board case main body 121 and the sub-board case lid 171 can be firmly welded and coupled.

  The sub-board case main body 121 includes a first main body side slide engaging portion 137 and a second main body side slide engaging portion 147 formed on the outside of the first side wall portion 132 and the second side wall portion 142, The sub-board case lid 171 includes a first lid side slide engagement portion 184 and a second lid side slide engagement portion 194, a first lid side slide engagement portion 184, a second lid side slide engagement portion 194, and It has a first side cover portion 182 and a second side cover portion 192 that cover the first main body side slide engaging portion 137 and the second main body side slide engaging portion 147. As a result, the first main body side welded portion 133 and the second main body side welded portion 143 are blocked by the first side cover portion 182 and the second side cover portion 192 and the like. Unauthorized access to the welded part 143 can be prevented. Therefore, unauthorized opening of the sub board case 120 can be prevented, and unauthorized actions can be prevented.

  The connector cover 261 has a cover-side welded portion 265 that can be welded to the case-side welded portion 167 of the sub-board case main body 121 using a solvent, and the case-side welded portion 167 is connected to the cover-side welded portion 265 from the outside. A cover welding injection portion 267 into which a solvent is injected is formed between the cover welding portion 265 and the cover side welding portion 265. Thereby, the connector cover 261 can be easily welded to the sub-board case main body 121. Since the connector cover 261 cannot be removed without destroying the welded portion, unauthorized access to the inside of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

  Further, a groove-shaped cover welding groove portion 169 connected to the cover welding injection portion 267 is formed on the case side welding surface 168 of the case side welding portion 167. As a result, the solvent easily spreads over the entire welding surface, so that the connector cover 261 can be reliably welded to the sub-board case main body 121.

[Second characteristic configuration of sub-control device]
In the first embodiment, the first main body side welded portion 133 is formed on the first side wall portion 132, the second side wall portion 142, the third side wall portion 152, and the fourth side wall portion 162 that are substantially squarely enclosed in the sub-board case main body 121. A second main body side weld portion 143, a third main body side weld portion 153, and a fourth main body side weld portion 163 are formed, and the first main body side weld portion 133 and the second main body side weld portion 143 are formed on the sub-board case lid 171. , The third main body side welded portion 153, and the first main body side welded portion 163, the first lid side welded portion 185, the second lid side welded portion 195, the third lid side welded portion 203, and the fourth lid side. A welded portion 213 is formed. Thereby, the sub board | substrate case main body 121 and the sub board | substrate case cover 171 can be welded and couple | bonded over four directions. Since the sub-board case 120 cannot be opened unless the welded portion is destroyed, it is possible to prevent the sub-board case 120 from being illegally opened and to prevent fraud. Further, the sub-board case main body 121 and the sub-board case cover 171 are bent by applying a force to be sandwiched from the side (two opposite directions) of the sub-board case 120, or the sub-board case main body 121 and the sub-board case cover. Since it becomes difficult to provide a gap between the sub-board case main body 121 and the sub-board case lid 171 by inserting a tool or the like between the sub-board case 171 and expanding it, unauthorized access to the inside of the sub-board case 120 Access can be prevented and fraud can be prevented.

  Further, the first side wall part 132 and the second side wall part 142 facing each other support the sub board case cover 171 in a slidable manner, and the edges of the first side wall part 132 and the second side wall part 142 in the sub board case main body 121 are supported. The first main body side welded portion 133 and the second main body side welded portion 143 are formed in the portion, and the first lid side welded portion is formed on a portion of the sub-board case lid 171 facing the first side wall portion 132 and the second side wall portion 142. A portion 185 and a second lid side welded portion 195 are formed. Accordingly, the movable parts of the sub-board case main body 121 and the sub-board case lid 171 can be welded, so that the sub-board case main body 121 and the sub-board case lid 171 can be firmly welded and coupled.

  The sub-board case main body 121 includes a first main body side slide engaging portion 137 and a second main body side slide engaging portion 147 formed on the outside of the first side wall portion 132 and the second side wall portion 142, The sub-board case lid 171 includes a first lid side slide engagement portion 184 and a second lid side slide engagement portion 194, a first lid side slide engagement portion 184, a second lid side slide engagement portion 194, and It has a first side cover portion 182 and a second side cover portion 192 that cover the first main body side slide engaging portion 137 and the second main body side slide engaging portion 147. As a result, the first main body side welded portion 133 and the second main body side welded portion 143 are blocked by the first side cover portion 182 and the second side cover portion 192 and the like. Unauthorized access to the welded part 143 can be prevented. Therefore, unauthorized opening of the sub board case 120 can be prevented, and unauthorized actions can be prevented.

  Further, a case-side welded portion 167 that can be welded to the connector cover 261 is formed on the fourth side wall portion 162, and a cover-side welded portion 265 that can be welded to the case-side welded portion 167 is formed on the connector cover 261. Thereby, the connector cover 261 can be welded to the sub-board case main body 121. Since the connector cover 261 cannot be removed without destroying the welded portion, unauthorized access to the inside of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

[Third characteristic configuration of sub-control device]
In the first embodiment, the third main body-side welded portion 153 and the third lid-side welded portion 203 are curved surfaces that extend along the side end portions of the sub-board case main body 121 and the sub-board case lid 171 while being welded to each other. The welding surface (third main body side welding surface 156 and third lid side welding surface 206) of the third main body side welding portion 153 and the third lid side welding portion 203 has a curved surface shape (main body side). The curved surface portion 154 and the lid-side curved surface portion 204) are formed so as to be bent and inclined in a “<” shape with respect to the extending direction. This complicates the shapes of the third main body side welded portion 153 and the third lid side welded portion 203, making it difficult to duplicate the sub substrate case main body 121 and the sub substrate case cover 171. Therefore, after destroying at least one of the sub-board case main body 121 and the sub-board case lid 171 and illegally opening the sub-board case 120, it is difficult to replace the damaged parts with replicas and restore them. Therefore, unauthorized opening of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

  Further, the curved surface shape (the main body side curved surface portion 154 and the lid side curved surface portion 204) is formed such that the curvature continuously changes along a direction substantially perpendicular to the extending direction of the curved surface shape. This complicates the shapes of the third main body side welded portion 153 and the third lid side welded portion 203, making it difficult to duplicate the sub substrate case main body 121 and the sub substrate case cover 171. Therefore, after destroying at least one of the sub-board case main body 121 and the sub-board case lid 171 and illegally opening the sub-board case 120, it is difficult to replace the broken parts with replicas and restore them. Therefore, unauthorized opening of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

  The sub-board case cover 171 is coupled to the sub-board case body 121 so that the sub-board case cover 171 can be attached to and detached from the sub-board case body 121 and the sub-board case cover 171 covers the opening 121a. The sub-board case lid 171 can be moved relative to the sub-board case main body 121 in a direction substantially perpendicular to the extending direction of the curved surface shape (the main body-side curved surface portion 154 and the lid-side curved surface portion 204). The third main body side welded portion 153 and the third lid side welded portion 203 are configured to be capable of being welded in a state in which the relative movement is moved to the coupling position. Accordingly, the sub-board case main body 121 and the sub-board case lid 171 can be easily welded and combined while complicating the shapes of the third main body-side welded portion 153 and the third lid-side welded portion 203.

[Fourth Characteristic Configuration of Sub-Control Device]
In the first embodiment, the third main body-side welded portion 153 and the third lid-side welded portion 203 are curved surfaces that extend along the side end portions of the sub-board case main body 121 and the sub-board case lid 171 while being welded to each other. The first identification mark 221 and the second identification mark 222 are formed across the third main body side welded portion 153 and the third lid side welded portion 203. Accordingly, the first identification mark 221 and the second identification mark 222 need to be formed so as to be aligned with the third main body side welding portion 153 and the third lid side welding portion 203, respectively. Duplication of the main body 121 and the sub-board case lid 171 becomes difficult. Therefore, after destroying at least one of the sub-board case main body 121 and the sub-board case lid 171 and illegally opening the sub-board case 120, it is difficult to replace the damaged parts with replicas and restore them. Therefore, unauthorized opening of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

  Further, the curved surface shape (the main body side curved surface portion 154 and the lid side curved surface portion 204) is formed such that the curvature continuously changes along a direction substantially perpendicular to the extending direction of the curved surface shape. This complicates the shapes of the third main body side welded portion 153 and the third lid side welded portion 203, making it difficult to duplicate the sub substrate case main body 121 and the sub substrate case cover 171. Therefore, after destroying at least one of the sub-board case main body 121 and the sub-board case lid 171 and illegally opening the sub-board case 120, it is difficult to replace the broken parts with replicas and restore them. Therefore, unauthorized opening of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

  The sub-board case cover 171 is coupled to the sub-board case body 121 so that the sub-board case cover 171 can be attached to and detached from the sub-board case body 121 and the sub-board case cover 171 covers the opening 121a. The sub-board case lid 171 can be moved relative to the sub-board case main body 121 in a direction substantially perpendicular to the extending direction of the curved surface shape (the main body-side curved surface portion 154 and the lid-side curved surface portion 204). The third main body side welded portion 153 and the third lid side welded portion 203 are configured to be able to come into contact with each other in a state of relative movement to the coupling position. Accordingly, the sub-board case main body 121 and the sub-board case lid 171 can be easily coupled while making the shapes of the third main body-side welded portion 153 and the third lid-side welded portion 203 complicated.

  Further, the contact surfaces (the third main body side welding surface 156 and the third lid side welding surface 206) of the third main body side welding portion 153 and the third lid side welding portion 203 are curved (the main body side curved surface portion 154 and The lid-side curved surface portion 204) is formed so as to be bent and inclined in a "<" shape with respect to the extending direction. This complicates the shapes of the third main body side welded portion 153 and the third lid side welded portion 203, making it difficult to duplicate the sub substrate case main body 121 and the sub substrate case cover 171. Therefore, after destroying at least one of the sub-board case main body 121 and the sub-board case lid 171 and illegally opening the sub-board case 120, it is difficult to replace the damaged parts with replicas and restore them. Therefore, unauthorized opening of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

  The sub-board case main body 121 and the sub-board case lid 171 are formed using a transparent resin material, and the first identification mark 221 and the second identification mark 222 are connected to the third main body side welded portion 153 by internal marking. It is formed across the third lid side welded portion 203. As a result, the first identification mark 221 and the second identification mark 222 are formed so as to be shifted from the substantially flat surface in the thickness direction of the sub-board case main body 121 and the sub-board case lid 171 (so as to wave in a curved surface). Therefore, it is difficult to imitate the first identification mark 221 and the second identification mark 222 formed inside the third main body side welded portion 153 and the third lid side welded portion 203. 121 and the sub-board case lid 171 are difficult to replicate. Therefore, after destroying at least one of the sub-board case main body 121 and the sub-board case lid 171 and illegally opening the sub-board case 120, it is difficult to replace the damaged parts with replicas and restore them. Therefore, unauthorized opening of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

  Further, the third main body side welded portion 153 and the third lid side welded portion 203 are welded in a state of being in contact with each other. As a result, the sub-board case 120 cannot be opened unless the welded portion between the third main body-side weld portion 153 and the third lid-side weld portion 203 is destroyed. Can prevent fraud.

  In the first embodiment described above, the fourth case welding injection portion 215 is formed in the fourth lid-side welding portion 213 of the sub substrate case lid 171, but is not limited thereto, and the sub substrate case main body 121 is not limited thereto. A fourth case welding injection part may be formed in the fourth main body side welding part 163. Further, the cover welding injection portion 267 is formed in the cover side welding portion 265 of the connector cover 261. However, the present invention is not limited to this, and the cover welding injection portion 167 in the sub-board case main body 121 May be formed.

  In the first embodiment described above, the first case welding groove portion 135 is formed on the first main body side welding surface 134 of the first main body side welding portion 133, but the first case side is not limited thereto. A first case welding groove may be formed on the first lid-side welding surface 186 of the welding portion 185. Moreover, although the 2nd case welding groove part 145 is formed in the 2nd main body side welding surface 144 of the 2nd main body side welding part 143, it is not restricted to this, The 2nd of the 2nd lid side welding part 195 is 2nd. A second case welding groove may be formed on the lid-side welding surface 196. Moreover, although the 4th case welding groove part 165 is formed in the 4th main body side welding surface 164 of the 4th main body side welding part 163, it is not restricted to this, The 4th of the 4th lid side welding part 213 is 4th. A fourth case welding groove may be formed on the lid-side welding surface 214. Further, the cover welding groove 169 is formed on the case side welding surface 168 of the case side welding portion 167, but is not limited to this, and the cover welding groove portion 566 is formed on the cover side welding surface 566 of the cover side welding portion 565. May be formed.

  In the first embodiment described above, the first case welding groove part 135, the second case welding groove part 145, the fourth case welding groove part 165, and the cover welding groove part 169 are formed to extend in a skewer shape. However, the present invention is not limited to this. For example, it may be formed extending in a lattice shape, a vein shape, a radial shape, a wavy shape, a straight shape, or the like, and the solvent injected into the case welding injection portion is interposed between the welding surfaces. It only needs to be formed so that it can be distributed.

  In the first embodiment described above, the first case welding groove portion 135, the second case welding groove portion 145, and the fourth case welding groove portion 165 are formed, but the present invention is not limited to this, and these are formed. It does not have to be. In this case, for example, the first main body side welding surface 134 and the first lid side welding surface 186 allow the solvent injected into the first case welding injection portion 187 to be the first main body side welding surface 134 and the first lid side welding surface 186. It may be formed in a curved surface shape (for example, a mountain shape in cross section) that can be spread between the two. Further, for example, the second main body side welding surface 144 and the second lid side welding surface 196 are formed by the solvent injected into the second case welding injection portion 197 with the second main body side welding surface 144 and the second lid side welding surface 196. It may be formed in a curved surface shape (for example, a mountain shape in cross section) that can be spread between the two. In addition, for example, the fourth main body side welding surface 164 and the fourth lid side welding surface 214 may cause the solvent injected into the fourth case welding injection portion 215 to be transferred to the fourth main body side welding surface 164 and the fourth lid side welding surface 214. It may be formed in a curved shape (for example, a mountain shape) that can be spread between the two. Even if it does in this way, since it becomes easy for a solvent to spread over the whole welding surface, the sub-board case main body 121 and the sub-board case lid 171 can be reliably welded and joined.

  In the first embodiment described above, the cover welding groove 169 is formed. However, the present invention is not limited to this, and the cover welding groove 169 may not be formed. In this case, for example, the case-side welding surface 168 and the cover-side welding surface 266 can spread the solvent injected into the cover welding injection portion 267 between the case-side welding surface 168 and the cover-side welding surface 266. It may be formed in a curved surface (for example, a mountain shape). Even if it does in this way, since a solvent tends to spread over the whole welding surface, the connector cover 261 can be reliably welded to the sub-board case main body 121.

  In the first embodiment described above, the first identification mark 221 and the second identification mark 222 are formed across the third main body side welded portion 153 and the third lid side welded portion 203. However, it may be configured such that one or more marks are formed.

  In the first embodiment described above, the first identification mark 221 and the second identification mark 222 are formed across the third main body side welded portion 153 and the third lid side welded portion 203 by internal marking. However, the present invention is not limited to this, and the surface of the third main body side welded portion 153 and the third lid side welded portion 203 may be subjected to a marking process using a laser processing machine or the like.

  In the first embodiment described above, welding is performed using a volatile solvent. However, the present invention is not limited to this. For example, adhesion using an ultraviolet curable adhesive, ultrasonic welding, and thermal welding are performed. For example, welding may be performed.

  In the first embodiment described above, the case-side welded portion 167 and the cover-side welded portion 265 are the same as the welds between the main body-side welded portions of the sub-board case main body 121 and the lid-side welded portions of the sub-board case lid 171. Although it is configured to be welded using a solvent, the present invention is not limited to this. For example, the case-side welded portion 167 and the cover-side welded portion 265 may be welded by ultrasonic welding, thermal welding, or the like, and the welding mode between the case-side welded portion 167 and the cover-side welded portion 265 is the same. The welding mode of each main body side welding portion and each lid side welding portion may be different. This makes it difficult to replace at least one of the connector cover 261 and the sub-board case main body 121 and illegally open the sub-board case 120, and then replace the damaged parts with replicas to restore them. Unauthorized opening of the sub-board case 120 can be prevented, and unauthorized actions can be prevented.

[Second Embodiment of Sub-Control Device]
Next, the sub-control device 400 according to the second embodiment will be described with reference to FIGS. As shown in FIGS. 21 and 22, the sub control device 400 according to the second embodiment is a board case unit mainly composed of a sub main board 110 and a sub board case 420 that accommodates the sub main board 110. is there. The sub-control device 400 is attached to a sub-side bracket member (not shown) fixed to the upper inner surface of the left side plate portion of the base body portion 10. Hereinafter, the directions indicated by the arrows in FIG. 16A will be described as the up-down direction, the front-rear direction, and the left-right direction, respectively, with reference to the mounting direction of the sub-control device 400 with respect to the base unit 10. The sub-main board 110 of the second embodiment has the same configuration as that of the sub-main board 110 of the first embodiment, and is given the same reference numerals as those of the first embodiment, and will not be described in detail.

  16 and 17, the sub-board case 420 includes a sub-board case body 421, a sub-board case cover 471, and a connector cover 561. The sub-board case body 421, the sub-board case cover 471, The sub-main substrate 110 and the shield plate 251 can be accommodated in a case formed by combining the sub-main substrate 110 and the shield plate 251. As shown in FIGS. 21 and 22, the sub-board case main body 421 is formed in a substantially rectangular box shape having an opening 421a on the right side using a transparent resin material. That is, the bottom 422 of the sub-board case main body 421 is disposed on the left side of the sub-board case main body 421. The first side wall 432 is disposed below the sub-board case main body 421 and the second side wall 442 is disposed above the sub-board case main body 421 so as to surround the substantially square opening 421a. A third side wall 452 is disposed in front of 421, and a fourth side wall 462 is disposed behind the sub-board case main body 421. A plurality of support ribs 423 that support the sub-main substrate 110 accommodated in the case are formed on the bottom 422 of the sub-board case main body 421.

  The first side wall portion 432 of the sub-board case main body 421 is configured to be slidable in contact with the first slide cover portion 483 of the sub-board case lid 471, and the sub-board case lid 471 is detachable from the sub-board case main body 421. The sub-board case lid 471 is slidably supported in the front-rear direction at a detachable position and a coupling position where the sub-board case lid 471 covers the opening 421a and is coupled to the sub-board case main body 421. A first main body-side welded portion 433 that can be welded to the first lid-side welded portion 485 of the sub-board case lid 471 using a solvent is formed at the edge of the first side wall portion 432. The first main body side welding portion 433 is formed with a planar first main body side welding surface 434 that can be welded facing the first lid side welding surface 486 of the first lid side welding portion 485. A first flange portion 436 is formed on the outer side surface of the first side wall portion 432 so as to project outward so as to be integrated with the bottom portion 422. The first flange portion 436 is formed with a plurality of claw-shaped first main body side slide engagement portions 437 that can be engaged with the first lid side slide engagement portion 484 of the sub-board case lid 471.

  The second side wall portion 442 of the sub-board case main body 421 is disposed so as to face the first side wall portion 432 and is configured to be slidable into contact with the second slide cover portion 493 of the sub-board case cover 471. At the same time, the sub-board case lid 471 is slidably supported at the attachable / detachable position and the coupling position. A second main body side welded portion 443 that can be welded to the second lid side welded portion 495 of the sub-board case lid 471 using a solvent is formed at the edge of the second side wall portion 442. The second main body side welding portion 443 is formed with a flat second main body side welding surface 444 that can be welded to face the second lid side welding surface 496 of the second lid side welding portion 495. A second flange portion 446 that protrudes outward is formed on the outer side surface of the second side wall portion 442 so as to be integrated with the bottom portion 422. The second flange portion 446 is formed with a plurality of claw-shaped second main body side slide engagement portions 447 that can be engaged with a second lid side slide engagement portion (not shown) of the sub-board case lid 471. The

  A third main body-side welded portion 453 that can be welded to the third lid-side welded portion 503 of the sub-board case lid 471 using a solvent is formed on the lower side of the third side wall portion 452 so as to protrude forward. The third main body side welded portion 453 has a curved main body side curved surface portion 454 extending in the vertical direction along the extending direction of the third side wall portion 452, and a stepped surface is formed on the edge of the main body side curved surface portion 454. A third main body side welding surface 456 is formed. The third main body side welding surface 456 is formed so as to extend linearly with respect to the extending direction of the main body side curved surface portion 454, and is in contact with the third lid side welding surface 506 of the third lid side welding portion 503 for welding. Configured to be possible.

  A fourth body-side welded portion 463 that can be welded to the fourth lid-side welded portion 513 of the sub-board case lid 471 using a solvent is formed below the fourth side wall portion 462 so as to protrude rearward. The fourth body-side welded portion 463 is formed in a flat plate shape that extends in the vertical direction along the outer surface of the fourth side wall portion 462. The fourth main body side welding portion 463 is formed with a flat fourth main body side welding surface 464 that can be welded facing the fourth lid side welding surface 514 of the fourth lid side welding portion 513. In addition, body side guard ribs 466 are formed at upper and lower side end portions of the fourth body side welding portion 463 so as to surround the upper side and the lower side of the fourth body side welding surface 464 (and the fourth lid side welding surface 514).

  A case-side welded portion 467 that can be welded to the cover-side welded portion 565 of the connector cover 561 using a solvent is formed on the upper side of the fourth side wall portion 462 so as to protrude rearward. The case-side welded portion 467 is formed in a flat plate shape that extends in the vertical direction along the outer surface of the fourth side wall portion 462. The case-side welded portion 467 is formed with a planar case-side welded surface 468 that can be welded facing the cover-side welded surface 566 of the cover-side welded portion 565. In addition, case-side guard ribs 470 are formed at upper and lower side end portions of the case-side welded portion 467 so as to surround the upper and lower sides of the case-side welded surface 468 (and the cover-side welded surface 566).

  The sub-board case lid 471 is formed in a substantially square lid shape with a left opening using a transparent resin material. That is, the ceiling portion 472 of the sub-board case lid 471 is disposed on the right side of the sub-board case lid 471. At the four corners of the ceiling portion 472, substrate mounting bosses 473 having screw holes are formed. With the shield plate 251 overlaid on the surface opposite to the mounting surface 111a of the printed board 111, the board fixing screw 259 is inserted into the screw insertion hole 252 of the shield plate 251 and the screw insertion hole 112 of the printed board 111 to attach the board. The sub main board 110 and the shield plate 251 are fixed inside the sub board case cover 471 by screwing the boss 473 with screws. As a result, the program ROM 113 (ROM cover 105), the sub board side optical connector 114, the parallel communication connector 115, etc. of the sub main board 110 are covered with the sub board case cover 471, and the protective cover of the sub main board 110 is provided. 107 and the like are covered with the shield plate 251.

  As shown in FIG. 18A, an enclosing portion 474 surrounding a part of the sub-board side optical connector 114 (in the vicinity of the light receiving element 114s) is formed on the upper rear side of the ceiling portion 472. The enclosure portion 474 is formed with a retaining portion 475 or the like that covers a part of the hole of the sub-board side optical connector 114 and prevents the cable-side connector 920 from coming off from the sub-board side optical connector 114. Further, on the upper rear side of the ceiling portion 472, a substrate exposed portion 476 that exposes the vicinity of the rear side of the sub-board-side optical connector 114 and the parallel communication connector 115 in the sub-main substrate 110 is provided on a fourth side cover portion 512 described later. It is formed so as to cut out a part. A connector exposing portion 477 that exposes the plurality of electrical connectors 116, 116,... Of the sub main board 110 is formed at the front portion and the lower portion of the ceiling portion 472. On the lower rear side of the ceiling portion 472, a temporary fixing portion 478 capable of temporarily fixing the other cable side connector (not shown) of the optical communication cable 900 or the like is provided in a recessed manner.

  A first side cover portion 482 that covers the outside of the first side wall portion 432 of the sub substrate case main body 421 is formed on the lower side portion of the sub substrate case lid 471. The first side cover portion 482 is formed in a wall shape extending in the front-rear direction, and covers the first main body side slide engaging portion 437 of the sub-board case main body 421. A first slide cover portion 483 is formed on the inner side of the first side cover portion 482 so as to extend substantially parallel to the first side cover portion 482. The first slide cover portion 483 is formed to extend in the front-rear direction in a cross-sectional view and is configured to be slidable with the first side wall portion 432 of the sub-board case body 421. Between the first side cover portion 482 and the first slide cover portion 483, a protruding first lid side slide engagement portion that can be engaged with the first main body side slide engagement portion 437 of the sub-board case main body 421. 484 (see FIG. 19A) is formed. With the sub-board case lid 471 overlapped with the sub-board case body 421, the sub-board case cover 471 is slid forward from the attachable / detachable position to the coupling position with respect to the sub-board case body 421, thereby The slide engagement portion 437 and the first lid side slide engagement portion 484 are configured to be engageable.

  A first lid side weld portion 485 that can be welded to the first main body side weld portion 433 of the sub-board case main body 421 (first side wall portion 432) is formed on the ceiling portion of the first slide cover portion 483 using a solvent. The The first lid-side welded portion 485 is formed with a flat first lid-side welded surface 486 that can be welded facing the first main body-side welded surface 434 of the first main body-side welded portion 433. Further, the first lid side welded portion 485 is provided between the first lid side welded surface 486 of the first lid side welded portion 485 and the first main body side welded surface 434 of the first main body side welded portion 433 from the outside. A hole-shaped first case welding injection portion 487 into which the solvent is injected is formed. For example, dichloromethane or the like is used as a solvent injected into the first case welding injection portion 487. On the first lid-side welding surface 486, a groove-shaped first case welding groove 488 (see the broken line in FIG. 22) connected to the first case welding injection part 487 is formed. The first case welding groove 488 is formed to extend linearly along the extending direction of the first lid-side welding surface 486 (first slide cover portion 483).

  A second side cover portion 492 that covers the outer side of the second side wall portion 442 of the sub substrate case main body 421 is formed on the upper side portion of the sub substrate case lid 471. The second side cover portion 492 is formed in a wall shape extending in the front-rear direction, and covers the second main body side slide engaging portion 447 of the sub-board case main body 421. A second slide cover part 493 is formed on the inner side of the second side cover part 492 so as to extend substantially parallel to the second side cover part 492. The second slide cover part 493 is formed to extend in the front-rear direction in a cross-sectional view, and is configured to be slidable with the second side wall part 442 of the sub-board case body 421. Between the second side cover portion 492 and the second slide cover portion 493, a protruding second lid side slide engagement portion that can be engaged with the second body side slide engagement portion 447 of the sub-board case main body 421. 494 (see FIG. 19B) is formed. With the sub-board case lid 471 overlapped with the sub-board case main body 421, the sub-board case cover 471 is slid forward from the detachable position to the coupling position with respect to the sub-board case main body 421, whereby the second main body side The slide engagement portion 447 and the second lid side slide engagement portion 494 are configured to be engageable.

  A second lid-side weld portion 495 that can be welded to the second main body-side weld portion 443 of the sub-board case main body 421 (second side wall portion 442) is formed on the ceiling portion of the second slide cover portion 493 using a solvent. The The second lid-side welded portion 495 is formed with a flat second lid-side welded surface 496 that can be welded opposite the second main body-side welded surface 444 of the second main body-side welded portion 443. Further, the second lid side weld portion 495 is provided between the second lid side weld surface 496 of the second lid side weld portion 495 and the second main body side weld surface 444 of the second main body side weld portion 443 from the outside. A hole-like second case welding injection portion 497 into which a solvent is injected is formed. For example, dichloromethane or the like is used as a solvent to be injected into the second case welding injection portion 497. On the second lid-side welding surface 496, a groove-shaped second case welding groove portion 498 (see the broken line in FIG. 22) connected to the second case welding injection portion 497 is formed. The second case welding groove 498 is formed to extend linearly along the extending direction of the second lid-side welding surface 496 (second slide cover portion 493).

  A third side cover portion 502 that covers the inner side of the third side wall portion 452 of the sub substrate case main body 421 is formed on the front side portion of the sub substrate case lid 471. The third side cover portion 502 is formed in a wall shape extending in the vertical direction and overlaps the inner side surface of the third side wall portion 452 of the sub-board case main body 421. A third lid-side welded portion 503 that can be welded to the third body-side welded portion 453 of the sub-board case main body 421 using a solvent is formed on the lower side of the third side cover portion 502 so as to protrude forward. The third lid-side welded portion 503 has a curved lid-side curved surface portion 504 that extends in the vertical direction along the extending direction of the third side cover portion 502, and a stepped surface at the edge of the lid-side curved surface portion 204. A third lid-side welding surface 506 is formed. The third lid-side welding surface 506 is formed to extend linearly with respect to the extending direction of the lid-side curved surface portion 504, and is in contact with the third main body-side welding surface 456 of the third main body-side welding portion 453 for welding. Configured to be possible. A portion of the lid-side curved surface portion 204 that is in contact with the third lid-side welding surface 506 has a groove-like second shape in which a solvent is injected between the third lid-side welding surface 506 and the third main body-side welding surface 456 from the outside. A three-case welding injection portion 507 is formed. For example, dichloromethane or the like is used as a solvent to be injected into the third case welding injection portion 507.

  With the third main body side welded portion 453 and the third lid side welded portion 503 welded, the main body side curved portion 454 of the third main body side welded portion 453 and the lid side curved surface portion 504 of the third lid side welded portion 503 Are formed so as to be uniformly curved in a sectional view arc shape and extend in the vertical direction. As shown in FIG. 18B, the curved shape (cross-sectional shape) of the integrated main body-side curved surface portion 454 and lid-side curved surface portion 504 has a continuous curvature toward the front substantially perpendicular to the extending direction of the curved surface shape. It is formed so as to increase. Thereby, the curved surface shapes of the main body side curved surface portion 454 and the lid side curved surface portion 504 are relatively relatively close to the third side wall portion 452 of the sub substrate case main body 421 and the rear side approaching the third side cover portion 502 of the sub substrate case cover 471. The shape is close to a plane, and the shape is relatively large curved on the front side away from the third side wall portion 452 and the third side cover portion 502.

  As shown in FIG. 16 and FIG. 17, the identification mark straddling the main body side curved surface portion 454 and the lid side curved surface portion 504 in a state where the third main body side welding portion 453 and the third lid side welding portion 503 are welded. 521 is formed. The identification mark 521 has, for example, a predetermined figure shape (authentication mark, corporate mark, two-dimensional code, etc.) and is formed at the center of the main body side curved surface portion 454 and the lid side curved surface portion 504. For ease of explanation, a triangular mark is described as the identification mark 521 in FIG. 16 and the like, but is not limited to this. The identification mark 521 is formed by applying an internal marking to the main body side curved surface portion 454 and the lid side curved surface portion 504 using a laser processing machine using a YVO4 laser.

  In order to perform internal marking, as the transparent resin material for the sub-board case main body 421 and the sub-board case lid 471, for example, a resin material in which a predetermined additive that easily reacts to laser light is added to an ABS resin is used. Further, in order to perform internal marking, the case thickness of the third main body side welded portion 453 and the third lid side welded portion 503 is thicker than other portions of the sub-board case main body 421 and the sub-board case cover 471. Is formed.

  As shown in FIGS. 20 to 22, a fourth side cover portion 512 that covers the outer side of the fourth side wall portion 462 of the sub substrate case main body 421 is formed on the rear side portion of the sub substrate case lid 471. The fourth side cover portion 512 is formed in a wall shape extending in the vertical direction, and overlaps the outer surface of the fourth side wall portion 462 of the sub-board case main body 421. A fourth lid side weld portion 513 that can be welded to the fourth main body side weld portion 463 of the sub-board case main body 421 using a solvent is formed below the fourth side cover portion 512 so as to protrude rearward. The fourth lid-side welded portion 513 is formed in a flat plate shape that extends in the vertical direction along the outer surface of the fourth side cover portion 512. The fourth lid-side welded portion 513 is formed with a flat fourth lid-side welded surface 514 that can be welded facing the fourth main body-side welded surface 464 of the fourth main body-side welded portion 463.

  Further, the fourth lid side weld portion 513 is provided between the fourth lid side weld surface 514 of the fourth lid side weld portion 513 and the fourth main body side weld surface 464 of the fourth main body side weld portion 463 from the outside. A hole-shaped fourth case welding injection portion 515 into which a solvent is injected is formed. For example, dichloromethane or the like is used as the solvent injected into the fourth case welding injection portion 515. In addition, a lid-side guard rib 517 is formed at the rear end of the fourth lid-side welded portion 513 so as to surround the rear of the fourth lid-side welded surface 514 (and the fourth main body-side welded surface 464). On the fourth lid-side welding surface 514, a groove-shaped fourth case welding groove 516 (see the broken line in FIG. 22) connected to the fourth case welding injection part 515 is formed. The fourth case welding groove 516 is formed to extend linearly in a cross shape along the fourth lid-side welding surface 514 (fourth side cover portion 512).

  As shown in FIGS. 18A and 22, the connector cover 561 is formed in a lid shape using a transparent resin material, and is exposed at the board exposed portion 476 of the sub board case lid 471. Covering the vicinity of the rear side of the board-side optical connector 114 and the parallel communication connector 115, it is welded to the case-side weld portion 467 of the sub-board case body 421. A locking piece 562 that can be locked to the ceiling 472 of the sub-board case lid 471 is formed at the tip of the connector cover 561. Further, on the distal end side of the connector cover 561, a first groove portion 563 into which the optical communication cable 900 with the cable side connector 920 fitted to the sub board side optical connector 114 of the sub main board 110 is inserted, and the sub main board 110, parallel communication connector 115, and a second groove portion 564 through which a parallel communication cable (not shown) in a state in which a cable side connector (not shown) is fitted, are formed in parallel.

  On the base end side of the connector cover 561, a cover side welded portion 565 that can be welded to the case side welded portion 467 of the sub-board case main body 421 using a solvent is formed in a flat plate shape. The cover-side welded portion 565 is formed with a flat cover-side welded surface 566 that can be welded to face the case-side welded surface 468 of the case-side welded portion 467. In addition, a hole-shaped cover weld in which a solvent is injected into the cover-side weld portion 565 between the cover-side weld surface 566 of the cover-side weld portion 565 and the case-side weld surface 468 of the case-side weld portion 467 from the outside. An injection portion 567 is formed. For example, dichloromethane or the like is used as the solvent injected into the cover welding injection portion 567. Further, a cover side guard rib 569 surrounding the back of the cover side welding surface 566 (and the case side welding surface 468) is formed at the rear end portion of the cover side welding portion 565. A groove-shaped cover welding groove 568 (see the broken line in FIG. 22) connected to the cover welding injection portion 567 is formed on the cover-side welding surface 566. The cover welding groove 568 is formed to extend linearly in a cross shape along the cover side welding surface 566.

  In the sub-control device 400 configured as described above, a procedure for coupling the sub-board case body 421 and the sub-board case lid 471 of the sub-board case 420 will be described. First, the cable side connector 920 of the optical communication cable 900 is fitted to the sub board side optical connector 114 inside the sub board case lid 471, and the cable side of the parallel communication cable (not shown) is connected to the parallel communication connector 115. The sub main board 110 and the shield plate 251 in a state where a connector (not shown) is fitted are attached and fixed so as to overlap each other.

  Next, as in the first embodiment, the sub-board case lid 471 is overlaid on the sub-board case body 421 at the detachable position, and the sub-board case cover 471 is moved from the detachable position to the coupling position with respect to the sub-board case body 421. Slide forward (relative movement). As a result, the first main body side slide engagement portion 437 and the first lid side slide engagement portion 484 are engaged, and the second main body side slide engagement portion 447 and the second lid side slide engagement portion 494 are engaged. In the engaged state, the sub board case main body 421 and the sub board case lid 471 are coupled.

  Next, a solvent is injected into the first case welding injection portion 487 of the sub-board case lid 471 from the outside. The solvent injected into the first case welding injection portion 487 is the same as that of the first embodiment, and the first lid side welding surface 486 of the first lid side welding portion 485 and the first main body side welding portion 433 are first. The first lid side welding surface 486 and the first main body side welding surface 434 are welded to each other. Further, a solvent is injected from the outside into the second case welding injection portion 497 of the sub-board case lid 471. As in the first embodiment, the solvent injected into the second case welding injection portion 497 is the second lid-side welding surface 496 of the second lid-side welding portion 495 and the second main-body-side welding portion 443. The second lid side welding surface 496 and the second main body side welding surface 444 are welded to each other.

  Further, the solvent is injected from the outside into the third case welding injection portion 507 of the sub-board case lid 471. The solvent injected into the third case welding injection portion 507 is between the third lid side welding surface 506 of the third lid side welding portion 503 and the third main body side welding surface 456 of the third main body side welding portion 453. Inflow and spread. Thereby, the third lid side welding surface 506 and the third main body side welding surface 456 are temporarily dissolved by the solvent, respectively, and the third lid side welding surface 506 and the third main body side welding surface 456 are evaporated by the evaporation of the solvent. Are solidified and welded together. Further, the solvent is injected from the outside into the fourth case welding injection portion 515 of the sub-board case lid 471. The solvent injected into the fourth case welding injection part 515 is the same as in the first embodiment, and the fourth lid side welding surface 514 of the fourth lid side welding part 513 and the fourth main body side welding part 463 fourth. The fourth lid side welding surface 514 and the fourth main body side welding surface 464 are welded to each other, spreading between the main body side welding surface 464.

  Next, the connector cover 561 is attached to the case-side welded portion 467 of the sub-board case body 421, and the solvent is injected into the cover welding injection portion 567 of the connector cover 561 from the outside. The solvent injected into the cover welding injection portion 567 spreads between the cover side welding surface 566 of the cover side welding portion 565 and the case side welding surface 468 of the case side welding portion 467 in the same manner as in the first embodiment. The cover side welding surface 566 and the case side welding surface 468 are welded to each other.

  Then, using a laser processing machine (not shown), the identification mark 521 is formed across the main body side curved surface portion 454 of the third main body side welding portion 453 and the lid side curved surface portion 504 of the third lid side welding portion 503. . In this way, the sub-board case main body 421 and the sub-board case lid 471 of the sub-board case 420 are welded and joined together. Further, the connector cover 561 is welded to the case-side welding portion 467 of the sub-board case body 421 so as to cover the vicinity of the rear side of the sub-board side optical connector 114 and the parallel communication connector 115 in the sub main board 110. As a result, since the sub-board case 420 cannot be opened unless the welded portion is destroyed, unauthorized opening of the sub-board case 420 can be prevented. In addition, by checking the identification mark 521, it is possible to detect unauthorized opening or replacement of the sub-board case 420 at an early stage.

[Characteristic Configuration in Second Embodiment]
[First characteristic configuration of sub-control device]
In the second embodiment, the first lid-side welded portion 485 of the sub-board case lid 471 and the first main-body-side welded portion of the sub-board case main body 421 are connected to the first lid-side welded portion 485 of the sub-board case lid 471 from the outside. A first case welding injection portion 487 into which a solvent is injected is formed between 433 and 433. Further, between the second lid-side welded portion 495 of the sub-substrate case lid 471 and the second main-body-side welded portion 443 of the sub-board case main body 421, the second lid-side welded portion 495 of the sub-substrate case lid 471 is externally connected. A second case welding injecting portion 497 into which a solvent is injected is formed. Further, between the third lid side welded portion 503 of the sub substrate case lid 471 and the third main body side welded portion 453 of the sub substrate case main body 421 from the outside to the third lid side welded portion 503 of the sub substrate case lid 471. A third case welding injecting portion 507 into which a solvent is injected is formed. Further, between the fourth lid-side welded portion 513 of the sub-board case lid 471 and the fourth main-body-side welded portion 463 of the sub-board case main body 421, from the outside to the fourth lid-side welded portion 513 of the sub-board case lid 471. A fourth case welding injecting portion 515 into which a solvent is injected is formed. As a result, as in the first embodiment, the sub-board case 420 cannot be opened unless the welded portion is destroyed, so that the sub-board case 420 can be prevented from being illegally opened, and illegal actions can be prevented. be able to.

  A groove-shaped first case welding groove portion 488 connected to the first case welding inlet portion 487 of the first lid side welding portion 485 is formed on the first lid side welding surface 486 of the first lid side welding portion 485. ing. In addition, a groove-shaped second case welding groove 498 connected to the second case welding injection portion 497 of the second lid side welding portion 495 is formed on the second lid side welding surface 496 of the second lid side welding portion 495. ing. In addition, a groove-shaped fourth case welding groove 516 is formed on the fourth lid side welding surface 514 of the fourth lid side welding part 513 so as to connect to the fourth case welding injection part 515 of the fourth lid side welding part 513. ing. As a result, the solvent easily spreads over the entire welding surface, so that the sub-board case main body 421 and the sub-board case lid 471 can be reliably welded and bonded.

  The sub-board case main body 421 includes a first side wall 432 and a second side wall 442 that slidably support the sub-board case lid 471, and the first side wall 432 and the second side wall 432 in the sub-board case main body 421 are provided. A first main body side welded portion 433 and a second main body side welded portion 443 are formed at the edge of the side wall portion 442, and face the first main body side welded portion 433 and the second main body side welded portion 443 in the sub-board case lid 471. The first lid-side welded portion 485 and the second lid-side welded portion 495 are formed in the part to be formed, and the first case welding injection portion 487 and the second lid-side welded portion 485 and the second lid-side welded portion 495 are formed. A case welding injection portion 497 is formed. Accordingly, the movable parts of the sub-board case main body 421 and the sub-board case lid 471 can be welded, so that the sub-board case main body 421 and the sub-board case lid 471 can be firmly welded and coupled.

  The sub-board case main body 421 includes a first main body side slide engaging portion 437 and a second main body side slide engaging portion 447 formed on the outside of the first side wall portion 432 and the second side wall portion 442, and The sub-board case lid 471 includes a first lid-side slide engagement portion 484 and a second lid-side slide engagement portion 494, a first lid-side slide engagement portion 484, a second lid-side slide engagement portion 494, and first It has a first side cover portion 482 and a second side cover portion 492 that cover the first main body side slide engagement portion 437 and the second main body side slide engagement portion 447. As a result, as in the first embodiment, unauthorized opening of the sub-board case 420 can be prevented, and unauthorized actions can be prevented.

  The connector cover 561 has a cover-side welded portion 565 that can be welded to the case-side welded portion 467 of the sub-board case main body 421 using a solvent, and the case-side welded portion 467 is connected to the cover-side welded portion 565 from the outside. A cover welding injection portion 567 into which a solvent is injected is formed between the cover welding portion 565 and the cover side welding portion 565. Accordingly, as in the first embodiment, the connector cover 561 cannot be removed unless the welded portion is destroyed, so that unauthorized access to the inside of the sub-board case 420 can be prevented, and unauthorized actions can be prevented. can do.

  Further, a groove-shaped cover welding groove 568 connected to the cover welding injection part 567 is formed on the cover side welding surface 566 of the cover side welding part 565. As a result, the solvent easily spreads over the entire welding surface, so that the connector cover 561 can be reliably welded to the sub-board case body 421.

[Second characteristic configuration of sub-control device]
In the second embodiment, the first main body side welded portion 433 is provided on the first side wall portion 432, the second side wall portion 442, the third side wall portion 452, and the fourth side wall portion 462 that are substantially squarely enclosed in the sub-board case main body 421. A second main body side welding portion 443, a third main body side welding portion 453, and a fourth main body side welding portion 463 are formed, and the first main body side welding portion 433 and the second main body side welding portion 443 are formed on the sub-board case lid 471. , The third main body side welded portion 453, and the fourth main body side welded portion 463, the first lid side welded portion 485, the second lid side welded portion 495, the third lid side welded portion 503, and the fourth lid side. A welded portion 513 is formed. As a result, as in the first embodiment, the sub-board case 420 cannot be opened unless the welded portion is destroyed, so that the sub-board case 420 can be prevented from being illegally opened, and illegal actions can be prevented. be able to. In addition, since it is difficult to provide a gap between the sub-board case main body 421 and the sub-board case cover 471, unauthorized access to the inside of the sub-board case 420 can be prevented, and illegal actions can be prevented. be able to.

  Further, the first side wall part 432 and the second side wall part 442 facing each other support the sub board case cover 471 so as to be slidable, and the edges of the first side wall part 432 and the second side wall part 442 in the sub board case main body 421 are supported. The first main body side welded portion 433 and the second main body side welded portion 443 are formed in the portion, and the first lid side welded portion is formed on a portion of the sub-board case lid 471 facing the first side wall portion 432 and the second side wall portion 442. A portion 485 and a second lid side welded portion 495 are formed. Accordingly, the movable parts of the sub-board case main body 421 and the sub-board case lid 471 can be welded, so that the sub-board case main body 421 and the sub-board case lid 471 can be firmly welded and coupled.

  The sub-board case main body 421 includes a first main body side slide engaging portion 437 and a second main body side slide engaging portion 447 formed on the outside of the first side wall portion 432 and the second side wall portion 442, and The sub-board case lid 471 includes a first lid-side slide engagement portion 484 and a second lid-side slide engagement portion 494, a first lid-side slide engagement portion 484, a second lid-side slide engagement portion 494, and first It has a first side cover portion 482 and a second side cover portion 492 that cover the first main body side slide engagement portion 437 and the second main body side slide engagement portion 447. As a result, as in the first embodiment, unauthorized opening of the sub-board case 420 can be prevented, and unauthorized actions can be prevented.

  Further, a case-side welded portion 467 that can be welded to the connector cover 561 is formed on the fourth side wall portion 462, and a cover-side welded portion 565 that can be welded to the case-side welded portion 467 is formed on the connector cover 561. Accordingly, as in the first embodiment, the connector cover 561 cannot be removed unless the welded portion is destroyed, so that unauthorized access to the inside of the sub-board case 420 can be prevented, and unauthorized actions can be prevented. can do.

[Third characteristic configuration of sub-control device]
In the second embodiment, the third main body side welded portion 453 and the third lid side welded portion 503 are curved surfaces extending along the side end portions of the sub substrate case main body 421 and the sub substrate case lid 471 while being welded to each other. The welding surfaces (third main body side welding surface 456 and third lid side welding surface 506) of the third main body side welding portion 453 and the third lid side welding portion 503 have a curved shape (main body side). The curved surface portion 454 and the lid-side curved surface portion 504) are formed so as to extend linearly with respect to the extending direction. Thus, as in the first embodiment, after at least one of the sub-board case main body 421 and the sub-board case cover 471 is broken to illegally open the sub-board case 420, the broken part is replaced with a replica. Thus, the act of restoring becomes difficult, so that it is possible to prevent the sub-board case 420 from being illegally opened and to prevent the illegal act.

  Further, the curved surface shapes (the main body side curved surface portion 454 and the lid side curved surface portion 504) are formed such that the curvature continuously changes along a direction substantially perpendicular to the extending direction of the curved surface shape. Thus, as in the first embodiment, after destroying at least one of the sub-board case main body 421 and the sub-board case cover 471 and illegally opening the sub-board case 420, the broken parts are exchanged for replicas. Thus, the act of restoring becomes difficult, so that it is possible to prevent the sub-board case 420 from being illegally opened and to prevent the illegal act.

  The sub-board case cover 471 is coupled to the sub-board case body 421 so that the sub-board case cover 471 can be attached to and detached from the sub-board case body 421, and the sub-board case cover 471 covers the opening 421a. The sub-board case lid 471 is relatively movable in a direction substantially perpendicular to the extending direction of the curved surface shape (the main body-side curved surface portion 454 and the lid-side curved surface portion 504) with respect to the sub-board case main body 421. The third main body side welded portion 453 and the third lid side welded portion 503 are configured to be capable of being welded in a state in which the relative movement is moved to the coupling position. Accordingly, the sub-board case main body 421 and the sub-board case lid 471 can be easily welded and coupled while complicating the shapes of the third main body-side welded portion 453 and the third lid-side welded portion 503.

[Fourth Characteristic Configuration of Sub-Control Device]
In the second embodiment, the third main body side welded portion 453 and the third lid side welded portion 503 are curved surfaces extending along the side end portions of the sub substrate case main body 421 and the sub substrate case lid 471 while being welded to each other. The identification mark 521 is formed across the third main body side welded portion 453 and the third lid side welded portion 503. Thus, as in the first embodiment, after at least one of the sub-board case main body 421 and the sub-board case cover 471 is broken to illegally open the sub-board case 420, the broken part is replaced with a replica. Thus, the act of restoring becomes difficult, so that it is possible to prevent the sub-board case 420 from being illegally opened and to prevent the illegal act.

  Further, the curved surface shapes (the main body side curved surface portion 454 and the lid side curved surface portion 504) are formed such that the curvature continuously changes along a direction substantially perpendicular to the extending direction of the curved surface shape. Thus, as in the first embodiment, after destroying at least one of the sub-board case main body 421 and the sub-board case cover 471 and illegally opening the sub-board case 420, the broken parts are exchanged for replicas. Thus, the act of restoring becomes difficult, so that it is possible to prevent the sub-board case 420 from being illegally opened and to prevent the illegal act.

  The sub-board case cover 471 is coupled to the sub-board case body 421 so that the sub-board case cover 471 can be attached to and detached from the sub-board case body 421, and the sub-board case cover 471 covers the opening 421a. The sub-board case lid 471 is relatively movable in a direction substantially perpendicular to the extending direction of the curved surface shape (the main body-side curved surface portion 454 and the lid-side curved surface portion 504) with respect to the sub-board case main body 421. The third main body-side welded portion 453 and the third lid-side welded portion 503 are configured to be able to contact each other in a state where the relative movement to the coupling position. Accordingly, the sub-board case main body 421 and the sub-board case lid 471 can be easily coupled while complicating the shapes of the third main body-side welded portion 453 and the third lid-side welded portion 503.

  Further, the contact surfaces (the third main body side welding surface 456 and the third lid side welding surface 506) of the third main body side welding portion 453 and the third lid side welding portion 503 are curved (the main body side curved surface portion 454 and The lid-side curved surface portion 504) is formed so as to extend linearly with respect to the extending direction. Thus, as in the first embodiment, after at least one of the sub-board case main body 421 and the sub-board case cover 471 is broken to illegally open the sub-board case 420, the broken part is replaced with a replica. Thus, the act of restoring becomes difficult, so that it is possible to prevent the sub-board case 420 from being illegally opened and to prevent the illegal act.

  The sub-board case main body 421 and the sub-board case lid 471 are formed using a transparent resin material, and the identification mark 521 extends between the third main body side welded portion 453 and the third lid side welded portion 503 by internal marking. Formed. Thus, as in the first embodiment, after at least one of the sub-board case main body 421 and the sub-board case cover 471 is broken to illegally open the sub-board case 420, the broken part is replaced with a replica. Thus, the act of restoring becomes difficult, so that it is possible to prevent the sub-board case 420 from being illegally opened and to prevent the illegal act.

  Further, the third main body side welded portion 453 and the third lid side welded portion 503 are welded while being in contact with each other. As a result, the sub-board case 420 cannot be opened unless the welded portion between the third main body-side welded portion 453 and the third lid-side welded portion 503 is destroyed. Can prevent fraud.

  In the second embodiment described above, the fourth case welding injection portion 515 is formed in the fourth lid-side welding portion 513 of the sub substrate case lid 471. However, the present invention is not limited to this, and the sub substrate case main body 421 is not limited thereto. A fourth case welding injection part may be formed in the fourth main body side welding part 463. Further, the cover welding injection portion 567 is formed in the cover side welding portion 565 of the connector cover 561. However, the present invention is not limited to this, and the cover welding injection portion is provided in the case side welding portion 467 of the sub-board case body 421. May be formed.

  In the second embodiment described above, the first case welding groove portion 488 is formed on the first lid side welding surface 486 of the first lid side welding portion 485, but the first case side is not limited to this. A first case welding groove may be formed in the first main body side welding surface 434 of the welding part 433. Further, the second case welding groove portion 498 is formed in the second lid side welding surface 496 of the second lid side welding portion 495. However, the second case welding groove portion 498 is not limited to this, and the second main body side welding portion 443 has a second shape. A second case welding groove may be formed on the main body side welding surface 444. Further, the fourth case welding groove 516 is formed on the fourth lid side welding surface 514 of the fourth lid side welding part 513, but the present invention is not limited to this, and the fourth main body side welding part 463 is fourth. A fourth case welding groove may be formed on the main body side welding surface 464. Further, the cover welding groove portion 568 is formed on the cover side welding surface 566 of the cover side welding portion 565, but is not limited thereto, and the cover welding groove portion 468 is formed on the case side welding surface 468 of the case side welding portion 467. May be formed.

  In the second embodiment described above, the first case welding groove 488, the second case welding groove 498, the fourth case welding groove 516, and the cover welding groove 568 are formed to extend linearly. However, the present invention is not limited to this. For example, it may be formed extending in a lattice shape, a vein shape, a radial shape, a wavy shape, a skewer shape, etc., and the solvent injected into the case welding injection portion is interposed between the welding surfaces. It only needs to be formed so that it can be distributed.

  In the second embodiment described above, the first case welding groove 488, the second case welding groove 498, and the fourth case welding groove 516 are formed. However, the present invention is not limited to this, and these are formed. It does not have to be. In this case, for example, the first main body side welding surface 434 and the first lid side welding surface 486 allow the solvent injected into the first case welding injection portion 487 to pass through the first main body side welding surface 434 and the first lid side welding surface 486. It may be formed in a curved surface shape (for example, a mountain shape in cross section) that can be spread between the two. Further, for example, the second body-side welding surface 444 and the second lid-side welding surface 496 are configured so that the solvent injected into the second case welding injecting portion 497 is the second body-side welding surface 444 and the second lid-side welding surface 496. It may be formed in a curved surface shape (for example, a mountain shape in cross section) that can be spread between the two. In addition, for example, the fourth main body side welding surface 464 and the fourth lid side welding surface 514 are formed by the solvent injected into the fourth case welding injection portion 515 with the fourth main body side welding surface 464 and the fourth lid side welding surface 514. It may be formed in a curved shape (for example, a mountain shape) that can be spread between the two. Even if it does in this way, since it becomes easy for a solvent to spread over the whole welding surface, the sub-board case main body 421 and the sub-board case lid 471 can be reliably welded and joined.

  In the second embodiment described above, the cover welding groove 568 is formed. However, the present invention is not limited to this, and the cover welding groove 568 may not be formed. In this case, for example, the case side welding surface 468 and the cover side welding surface 566 can spread the solvent injected into the cover welding injection portion 567 between the case side welding surface 468 and the cover side welding surface 566. It may be formed in a curved surface (for example, a mountain shape). Even if it does in this way, since a solvent tends to spread over the whole welding surface, the connector cover 561 can be reliably welded to the sub-board case main body 421.

  In the second embodiment described above, the identification mark 521 is formed across the third main body side welded portion 453 and the third lid side welded portion 503. However, the present invention is not limited to this, and a plurality of marks are formed. It may be configured. Further, the identification mark 521 is not limited to the shape of a figure, and may be, for example, a predetermined numerical shape (manufacturing number, model number, identification number, etc.).

  In the second embodiment described above, the identification mark 521 is formed across the third main body-side welded portion 453 and the third lid-side welded portion 503 by internal marking, but is not limited to this. You may make it form by performing a marking process on the surface of the 3rd main body side weld part 453 and the 3rd lid side weld part 503 using a processing machine.

  In the second embodiment described above, welding is performed using a volatile solvent. However, the present invention is not limited to this. For example, adhesion using an ultraviolet curable adhesive, ultrasonic welding, and thermal welding are performed. For example, welding may be performed.

  In the second embodiment described above, the case-side welded portion 467 and the cover-side welded portion 565 are the same as the welds between the main body-side welded portion of the sub-board case main body 421 and the respective lid-side welded portions of the sub-board case lid 471. Although it is configured to be welded using a solvent, the present invention is not limited to this. For example, the case-side welded portion 467 and the cover-side welded portion 565 may be welded by ultrasonic welding, thermal welding, or the like, and the welding mode between the case-side welded portion 467 and the cover-side welded portion 565 is as follows. The welding mode of each main body side welding portion and each lid side welding portion may be different. This makes it difficult to replace at least one of the connector cover 561 and the sub-board case main body 421 by illegally opening the sub-board case 420 and then replace the damaged part with a duplicate product to restore it. Unauthorized opening of the sub-board case 420 can be prevented, and unauthorized actions can be prevented.

  In each of the above-described embodiments, the sub-control device 100 is illustrated and described as an example of the substrate case unit to which the present invention is applied. However, the present invention is not limited to this. The same effect can be applied to the control unit 35 and the like, and the same effect can be obtained.

  In each of the above-described embodiments, the slot machine (rotating-type game machine) SM using a game medal is illustrated and described as an example of a game machine to which the present invention is applied, but the present invention is not limited to this. For example, the same effect can be obtained by applying the same to a spinning-reel game machine using a game ball, a sparrow ball game machine, an arrange ball machine, a pachinko machine, and the like.

SM slot machine (game machine)
100 Sub-control device (first embodiment of substrate case unit)
110 Sub-main board (control board)
120 Sub-board case 121 Sub-board case body (first case member)
132 1st side wall part 133 1st main body side welding part 134 1st main body side welding surface 135 1st case welding groove part 137 1st main body side slide engaging part 142 2nd side wall part 143 2nd main body side welding part 144 2nd Main body side welding surface 145 Second case welding groove portion 147 Second main body side slide engaging portion 152 Third side wall portion 153 Third main body side welding portion 154 Main body side curved surface portion 156 Third main body side welding surface 162 Fourth side wall portion 163 4th main body side welding part 164 4th main body side welding surface 165 4th case welding groove part 167 Case side welding part 168 Case side welding surface 169 Cover welding groove part 171 Sub-board case lid (second case member)
176 Substrate exposed part 182 First side cover part 183 First slide cover part 184 First lid side slide engagement part 185 First lid side welding part 186 First lid side welding surface 187 First case welding injection part 192 Second Side cover portion 193 Second slide cover portion 194 Second lid side slide engagement portion 195 Second lid side weld portion 196 Second lid side weld surface 197 Second case welding injection portion 202 Third side cover portion 203 Third lid Side weld portion 204 Cover side curved surface portion 206 Third lid side weld surface 212 Fourth side cover portion 213 Fourth lid side weld portion 214 Fourth lid side weld surface 215 Fourth case welding injection portion 221 First identification mark 222 Second identification mark 261 Connector cover (cover member)
265 Cover side welding part 266 Cover side welding surface 267 Cover welding injection part 400 Sub-control device (first embodiment of substrate case unit)
420 Sub-board case 421 Sub-board case body (first case member)
432 1st side wall part 433 1st main body side welding part 434 1st main body side welding surface 437 1st main body side slide engagement part 442 2nd side wall part 443 2nd main body side welding part 444 2nd main body side welding surface 447 2nd Main body side slide engagement portion 452 Third side wall portion 453 Third main body side welding portion 454 Main body side curved surface portion 456 Third main body side welding surface 462 Fourth side wall portion 463 Fourth main body side welding portion 464 Fourth main body side welding surface 467 Case-side welding portion 468 Case-side welding surface 471 Sub-board case lid (second case member)
476 Substrate exposed portion 482 First side cover portion 483 First slide cover portion 484 First lid side slide engagement portion 485 First lid side welding portion 486 First lid side welding surface 487 First case welding injection portion 488 First Case welding groove portion 492 Second side cover portion 493 Second slide cover portion 494 Second lid side slide engagement portion 495 Second lid side welding portion 496 Second lid side welding surface 497 Second case welding injection portion 498 Second Case welding groove portion 502 Third side cover portion 503 Third lid side welding portion 504 Lid side curved surface portion 506 Third lid side welding surface 507 Third case welding injection portion 512 Fourth side cover portion 513 Fourth lid side welding portion 514 Fourth lid welding surface 515 Fourth case welding injecting portion 516 Fourth case welding groove 521 Identification mark 561 Connector cover 565 Cover side welding portion 566 Cover side welding surface 567 Cover welding injection part 568 Cover welding groove part

Claims (6)

A first case member formed in a substantially square box shape having an opening, a second case member formed in a lid shape that covers the opening and can be coupled to the first case member, and the first case A board case unit of a gaming machine comprising a control board that is housed in a case formed by combining a member and the second case member, and that controls the operation of the gaming machine;
The first case member has a first contact portion that is formed at a side end portion of the first case member and can contact the second case member;
The second case member has a second contact portion that is formed at a side end portion of the second case member and can contact the first contact portion,
The first contact portion and the second contact portion are formed to have a curved shape extending along side end portions of the first case member and the second case member in a state of being in contact with each other,
A board case unit for a gaming machine, wherein a predetermined mark is formed across the first contact portion and the second contact portion.   2. The board case unit of the gaming machine according to claim 1, wherein the curved surface shape is formed such that the curvature continuously changes along a direction substantially perpendicular to an extending direction of the curved surface shape. The second case member is coupled to the first case member so that the second case member can be attached to and detached from the first case member, and the second case member covers the opening. It can be moved relative to the coupling position in a direction substantially perpendicular to the extending direction of the curved surface with respect to the first case member,
The first contact part and the second contact part are configured to be able to contact each other in a state where the second case member is relatively moved to the coupling position. A board case unit of the described gaming machine.   The at least one part of the contact surface of the said 1st contact part and the said 2nd contact part is inclined and extended with respect to the extending direction of the said curved surface shape, It is characterized by the above-mentioned. The board case unit of the gaming machine according to any one of claims 3 to 4. The first case member and the second case member are formed using a transparent resin material,
5. The gaming machine according to claim 1, wherein the predetermined mark is formed across the first contact portion and the second contact portion by internal marking. 6. Board case unit.   6. The board case unit of a gaming machine according to claim 5, wherein the first contact part and the second contact part are welded in a state of being in contact with each other.

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