JP2016209672A - Game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively prevent a fraudulent act to a board box of a game machine.SOLUTION: An upper bracket and a lower bracket 730 extending respectively from a first box and a second box in the middle of a connection between the first box and the second box are covered with a sealing cap 800 in a slide direction. A locking wall 828 of the sealing cap elastically deforms a lock piece 745 of the lower bracket and rides over a claw 746 of the lock piece to engage with each other. In a connected state of the boxes, a vertical wall 640 extending from the upper bracket enters between an inner vertical wall 826 of the sealing cap and the lock piece and regulates the elastic deformation of the lock piece, and thus the engagement of the claw 746 and the locking wall 828 cannot be released. This prevents the sealing cap from being removed and inhibits access to the connected portion of the upper bracket and the lower bracket, and thereby the connection of both boxes cannot be released fraudulently.SELECTED DRAWING: Figure 53

Description

  The present invention relates to a slot machine and other gaming machines.

  For example, in a slot machine of a gaming machine, the housing is a gaming surface provided with a box-shaped housing body having an opening on the front side, and the front side closed with an effect display surface, an operation lever, etc. It consists of a front door. A display window is provided on the front door, a reel is installed in the casing body so as to be visible from the display window, and a drive mechanism, a power source and the like are also installed in the casing body. Further, a control board for electronically controlling game contents and effect processing is installed in the casing body together with a reel and the like.

The control board is also equipped with a memory that stores data that defines the game content program and the conditions for generating jackpots, so you can replace the memory or the entire control board, or add or change additional memory. , Fraudulent activities such as frequent jackpots and a large amount of coins become a problem.
For this reason, a locking mechanism that closes the front door and locks it in cooperation with the housing body side is provided, but this alone is insufficient to prevent fraud, and breaks the locked state to the control board. There are frequent cases of unauthorized changes.

Therefore, for example, Japanese Patent Application Laid-Open No. 2007-275655 proposes a technique for sealing a board box itself containing a control board.
This is sealed with a one-way screw. The one-way screw has a thread groove consisting of a contact surface part where the driver is caught in one direction of rotation and a concave part where the driver slides in the opposite direction, and it is difficult to turn it in the loosening direction with a normal flathead screwdriver. It has become.
That is, by using such a one-way screw, the substrate box body and the lid are in an irreversible fixing state, so that the substrate box can be opened illegally or a non-regular circuit board can be provided. It is intended to prevent switching to.

JP 2007-275655 A

However, in the above-described conventional sealing structure, since the body of the board box and the lid are connected by a screw, even if it is a one-way screw, the connection is released when it is removed by forcibly rotating it with an appropriate tool. Therefore, there is a problem that the substrate box can be opened without causing any damage to either the main body or the lid.
Such a problem is not limited to the substrate box but is common to all structures requiring sealing, and further improvement in the effect of preventing unauthorized opening is required.

  Therefore, in view of the above-described problems and the like, it is an object of the present invention to provide a gaming machine that can effectively prevent fraud.

The present invention provides a first member having a first seal forming part, a second member having a second seal forming part, and a third member forming a seal coupling part together with the first seal forming part and the second seal forming part. With members,
The third member is provided with a seal connecting portion,
One of the first seal forming part and the second seal forming part is provided with a seal locking part,
The seal locking portion is elastically deformed until the seal coupling portion is formed, and is locked with the seal coupling portion in a state where the seal coupling portion is formed,
The removal preventing part provided on the other side of the first seal forming part and the second seal forming part not provided with the seal locking part prevents the release of the lock in the state where the seal coupling part is formed, Forming a sealing structure in which the third member cannot be removed;
The sealing structure is configured to be able to be released by cutting a predetermined portion, and in a state in which the sealing structure is released, the first member and the second member are configured to leave a trace. .

  According to the present invention, it is possible to provide a gaming machine that can effectively prevent fraud.

1 is an overall perspective view of a slot machine to which the present invention is applied. It is a front view inside the slot machine shown with the front door removed. It is a front view of a main board unit. It is a side view of a main board unit. It is a disassembled perspective view of a base apparatus. It is a perspective view which shows the back surface of a fixed base part. It is sectional drawing which shows the structure of a rotating shaft part edge part. It is sectional drawing which shows the structure around the window hole in a movable base part. It is a disassembled perspective view of a main controller. It is a figure which shows the rail formation part of a 1st box and a 2nd box. It is a figure which shows the back surface of a 1st box. It is a figure which shows the structure of an upper bracket. It is a figure which shows the structure of an upper bracket. It is a figure which shows the structure of a lower bracket. It is a figure which shows the structure of a lower bracket. It is a figure which shows the structure of a sealing cap. It is a figure which shows the structure of a sealing cap. It is a figure which shows the structure of a sealing cap. It is a figure which shows the sealing procedure of a 1st sealing part. It is a figure which shows the sealing procedure of a 1st sealing part. It is a figure which shows the 2nd seal formation part of a 1st box. It is an external appearance perspective view which shows a sealing pin. It is a figure which shows a 1st pin. It is a figure which shows a 2nd pin. It is a figure which shows the sealing process of a 2nd sealing part. It is a figure which shows the 3rd sealing formation part of a 1st box. It is a figure which shows the 3rd sealing formation part of a 2nd box. It is a figure which shows the seal | sticker coupling | bonding structure of a 3rd seal part. It is a figure which shows the modification of a 1st sealing part. It is an external appearance perspective view of the board | substrate box concerning a 2nd Example. It is a figure which shows a board | substrate box. It is a figure which shows the sealing formation part of a 1st box. It is a figure which shows the sealing formation part of a 2nd box. It is a figure which shows a sealing cap. It is a figure which shows a sealing procedure. It is a perspective view which shows the seal formation part of a sealing state by removing a sealing cap. It is a figure which shows the seal formation part of the 1st box of a modification. It is a figure which shows the sealing formation part of the 2nd box of a modification. It is a figure which shows the sealing cap of a modification. It is a figure which shows the sealing procedure of a modification. It is a perspective view which shows the seal formation part of a sealing state by removing a sealing cap. It is a figure which shows the structure of the upper bracket of the 1st sealing part concerning a 3rd Example. It is a figure which shows the structure of an upper bracket. It is a perspective view which shows the structure of an upper bracket. It is a figure which shows the structure of a lower bracket. It is a figure which shows the structure of a lower bracket. It is a perspective view which shows the structure of a lower bracket. It is a figure which shows the structure of a sealing cap. It is a figure which shows the structure of a sealing cap. It is a figure which shows the structure of a sealing cap. It is a figure which shows the structure of a sealing cap. It is a figure which shows the relationship between an upper bracket and a lower bracket in a sealing preparation position. It is a figure which shows the insertion state of the sealing cap to a lower bracket. It is a figure which shows the combined state of a 1st sealing part. It is a perspective view of the combined state which removes and shows a sealing cap. It is sectional drawing of the 1st sealing part in a combined state.

  Next, an embodiment in which the present invention is applied to a slot machine will be described.

First, the first embodiment will be described.
1 is an overall perspective view of the slot machine, and FIG. 2 is an internal front view with the front door removed.
The casing of the slot machine 1 includes a box-shaped casing main body 2 that opens on the front side, and a front door 3 that closes the opening.
The housing body 2 includes a top plate 2a, a bottom plate 2b, a back plate 2c, a left side plate 2d, and a right side plate 2e.
The front door 3 is attached to the housing main body 2 by hinges at upper and lower portions on the left end side, swings horizontally around the hinge, and can open and close the opening of the housing main body 2.
A locking mechanism 4 is provided at the right end of the front door 3 to close the front door 3 in a locked state in cooperation with the housing body 2 side.
On the front side of the front door 3 are a gaming panel 5 having a plurality of display windows 6, a coin insertion slot 7, various operation levers and buttons, an operation unit 8 having switches, a coin tray 9, and other effect display units 10. It is a known game side provided. Details of these are disclosed in, for example, Japanese Patent Application Laid-Open No. 2008-61739.

The inside of the housing body 2 is divided into two vertically by a partition plate 2f.
A hopper device 11 including a storage tank that stores coins and a payout device that pays out coins to the coin tray 8 of the front door 3 and a power supply box 12 are disposed below the partition plate 2f.
Coins inserted from the coin insertion slot 7 of the front door 3 are supplied to the hopper device 11 and stored in a storage tank or discharged to a coin tray 9.
A reel unit 15 is mounted on the upper part of the partition plate 2f. The reel unit 15 supports the reels 14 arranged side by side in a one-to-one correspondence with the display windows 6 of the front door 3 so as to be rotatable on the same axis. .
Above the reel unit 15, a main board unit 20 for controlling the slot machine is attached to the back plate 2c.

Hereinafter, the configuration of the main board unit 20 will be described in detail.
3 is a front view of the main board unit, FIG. 4 is a side view, and FIG. 5 is an exploded perspective view of the pedestal device.
Unless otherwise specified, the right side in the figure is the right side of the main board unit 20, the left side in the figure is the left side of the main board unit 20, and the front side in the figure is the front side of the main board unit 20, unless otherwise specified. The rear side in the figure will be described as the rear side of the main board unit 20.
The main board unit 20 includes a main control device 22 and a pedestal device 25 that supports the main control device on the housing body 2. The main control device 22 controls game contents and effect processing.

The pedestal device 25 is tilted by rotating up and down around a fixed base portion 26 fixed to the back plate 2c of the housing body 2 and a rotation center axis Z that is supported by the fixed base portion 26 and extends horizontally. And a movable base portion 28 that can be taken.
The main control device 22 is held by the movable base portion 28, and is slid in a direction (upward) perpendicular to the rotation center axis Z from the holding position shown in FIGS. It can be removed from.

As shown in FIG. 9 to be described later, the main controller 22 is housed in the horizontally long rectangular board box 30 constituted by a pair of front and back first boxes 200 and second boxes 300, and the board box 30. And a flat main substrate 23.
The first box 200 and the second box 300 are formed of a transparent or translucent resin.
By placing the movable base 28 holding the main control device 22 in the standing posture shown in FIG. 4A, the substrate box 30 is parallel to the back plate 2c, and the surface of the internal main substrate 23 is While it becomes visible from the front side of the casing body 2, the substrate box 30 is also tilted toward the front side of the casing body 2 by setting the movable base portion 28 to the tilting posture shown in FIG. The back surface of the main board 23 is configured to be visible.

First, the fixed base portion 26 of the pedestal device 25 will be described with particular reference to FIG.
The fixed base portion 26 is a press-formed product of a metal plate, and is a horizontally long rectangular flat bottom plate portion 40, and a mounting flange portion 42 that extends to the left and right outward after being offset backward from both ends in the width direction (left and right direction) of the bottom plate portion 40. Have
The attachment flange portion 42 is parallel to the surface of the bottom plate portion 40, extends over the bottom plate portion 40, and has a hole 43 through which a screw for attachment to the back plate 2c is inserted.

At the upper part of the both ends in the width direction of the bottom plate part 40, posture holding members 56 for holding the movable base part 28 in the standing posture position by engaging the upper part of the movable base part 28 are attached.
The posture holding member 56 is made of a synthetic resin having flexibility. The posture holding member 56 is inserted into a mounting hole formed in the bottom plate portion 40 from behind and extends forward of the bottom plate portion 40, and has a claw 57 at the tip.
The bottom plate portion 40 is formed with a cutout portion 44 cut out in a rectangular shape from the upper end thereof. The notch 44 extends substantially over the entire width in the left-right direction of the bottom plate 40 to the position where the posture holding member 56 is attached.
A rectangular cutout portion 60 that receives a sealing block portion 100 protruding from the back surface of the movable base portion 28 to be described later is also formed at the center in the width direction at the lower portion of the bottom plate portion 40.

FIG. 6 is a perspective view of the fixed base portion 26 viewed from the back.
From the horizontal lower side of the notch portion 44, an attachment flange portion 46 folded back to the back side of the rear bottom plate portion 40, which is offset rearward, extends over the entire width, and this attachment flange portion 46 is also attached to the back plate 2c. Has become a department. Reference numeral 47 denotes a hole through which a screw for attaching the attachment flange portion 46 to the back plate 2c is inserted.
The offset amounts of the mounting flange portion 42 and the mounting flange portion 46 are the same. When the fixed base portion 26 is attached to the back plate 2c by the mounting flange portion 42 and the mounting flange portion 46, the bottom plate portion 40 is separated from the back plate 2c. Become parallel.

Further, an attachment frame member 48 made of a metal plate press-molded product is attached to the lower back surface of the bottom plate portion 40.
The mounting frame member 48 fills a part of the space formed between the bottom plate portion 40 and the back plate 2c when the fixed base portion 26 is fixed to the back plate 2c of the housing 2, and the bottom plate portion The mounting flange portion 42 and the mounting flange portion 46 are offset to the rear from 40 and have a rectangular mounting surface portion 50 that is flush with the mounting flange portion 46.
When viewed from the rear, the mounting frame member 48 covers the cutout portion 60 of the bottom plate portion 40.

From each of the upper, lower, left and right sides of the mounting surface portion 50, leg pieces 52 extending substantially along the entire length of the mounting surface portion 50 extend toward the bottom plate portion 40, and their tips are bent outwardly in parallel with the bottom plate portion 40 (54a). 54b) and is joined to the bottom plate portion 40 by welding.
The joint portion 54a of the leg piece extending from the upper side of the attachment surface portion 50 has its distal end bent further rearward to enhance the rigidity of the attachment frame member 48 itself and the bottom plate portion 40.

The leg piece joint 54b extending from the lower side of the mounting surface portion 50 extends to the lower end of the bottom plate portion 40, and then the tip is bent rearward to form an opening formed between the lower end portion of the bottom plate portion 40 and the back plate 2c. A lower lid portion 55 that closes the portion is formed.
The fixed base portion 26 is fixed to the back plate 2c in a state where the upper end portion of the bottom plate portion 40 is in contact with the top plate 2a of the housing body 2, so that the upper end portion of the bottom plate portion 40 and the back plate 2c are fixed. Although the opening formed between them is closed by the top plate 2a, an upper lid portion can be provided on the upper end portion of the bottom plate portion 40 as needed.

  Holes 62 through which screws for fixing to the back plate 2c are inserted are provided at two locations on the left and right sides of the mounting surface portion 50. The hole 62 is made to correspond to a later-described window hole 107 of the movable base portion 28, and the height position thereof is close to the lower side of the attachment surface portion 50 that is near the rotation center axis Z of the movable base portion 28.

Returning to FIG. 5, the lower end of the bottom plate portion 40 is bent forward to form a horizontally extending support flange portion 65 for supporting the movable base portion 28.
The front edge of the support flange portion 65 is bent upward to form a cover flange 67, thereby forming a hook shape. The left and right ends of the support flange portion 65 are shaft support plate portions 70 and 71 which are bent upward and face each other.
The shaft support plate portions 70 and 71 are set at positions corresponding to the lower sides of the left and right posture holding members 56 attached to the upper portion of the bottom plate portion 40.

Each of the shaft support plate portions 70 and 71 is provided with a shaft hole 73 positioned on the same axis (rotation center axis Z).
The right shaft support plate portion 71 is further formed with a lock mounting hole 75 above and ahead of the shaft hole 73.
When the movable base portion 28 is tilted, the adjacent portions of the cover flange 67 adjacent to the left and right shaft support plate portions become a rotation stopper 68 that comes into contact with the abutting portion 87. It is cut out one step lower so as to be in the posture position.

The width of the support flange portion 65 in the front-rear direction is matched with the width of the front-rear direction of the lower end portion of the movable base portion 28, and the movable base portion 28 is supported by the fixed base portion 26. A gap formed between the moving shaft portion 86 and the cover flange 67 is minimized.
The height of the cover flange 67 of the support flange portion 65 is higher than the center height of the shaft hole 73, and is set so as to cover the rotating shaft portion 86 from the front.
This makes it difficult for the tip of a tool such as a bar or a screwdriver to be inserted into the gap between the rotation shaft portion 86 and the cover flange 67, and prevents the rotation shaft portion 86 from being destroyed.

Next, the movable base portion 28 will be described.
The movable base portion 28 is made of a transparent synthetic resin having a predetermined rigidity, such as polycarbonate, for example, and has a horizontally long bottom plate portion 80 and a bottom end of the bottom plate portion 80 from the lower end to the front side (front side) as shown in FIG. And the side plate portions 84 and 85 extending from the left and right ends of the bottom plate portion 80 toward the surface side.
As will be described later, the main control device 22 (substrate box 30) is placed on the placement portion 82.
A cylindrical rotation shaft portion 86 is integrally formed on the lower surface of the front end of the mounting portion 82. The rotation shaft portion 86 extends to the left and right across the side plate portions 84 and 85.

A shaft hole 88 (see FIG. 7 described later) is formed along the axial center of the rotation shaft portion at both left and right ends of the rotation shaft portion 86.
The mounting portion 82 and the rotation shaft portion 86 are provided with a slit groove 90 at a position spaced inward from the side plate portions 84 and 85 by a predetermined distance and perpendicular to the axis of the shaft hole 88. As will be described later, the shaft hole 88 extends inward beyond the slit groove 90.
Further, at both ends of the rotation shaft portion 86, contact portions 87 extending outward in the radial direction of the rotation shaft portion 86 are provided corresponding to the rotation stoppers 68 of the fixed base portion 26, as described above. When the movable base portion 28 is tilted to the tilting posture position, it comes into contact with the rotation stopper 68.

Two sealing block portions 100 are formed in the lower portion of the bottom plate portion 80 leaving a space in the center portion in the lateral (left and right) direction. The sealing block part 100 protrudes on the mounting part 82.
Each of the sealing block portions 100 forms a space between the front wall 102 on the mounting portion 82 and the rear wall 103 on the back side (see FIG. 25 described later), and opens at the lower end. The rear wall 103 is formed as an extension of the bottom plate portion 80.
Two locking holes 104 into which sealing pins 400 described later are inserted are provided in the front wall 102 protruding on the mounting portion 82 of the sealing block portion 100. The locking hole 104 has a notch 105 at the top and bottom.
The space in the sealing block 100 is divided into two sections corresponding to the two locking holes 104.

A rectangular window hole 107 is formed in the bottom plate portion 80 so as to be separated from the sealing block portion 100 by a predetermined distance from side to side.
As shown in FIG. 8 described later, a screw block 108 is formed on the upper surface of the window hole 107 on the back surface of the bottom plate portion 80, and the lower end of the screw block 108 is made to coincide with the upper side of the window hole 107. The screw block 108 is provided with a screw hole 109 opened at the lower end surface thereof.

The side plate portions 84 and 85 extend over the entire height of the bottom plate portion 80 with substantially the same front-rear width as the placement portion 82.
At the front ends of the side plate portions 84 and 85, a return portion 112 having a predetermined lateral width (horizontal width) except for a part of the upper end and the lower end extends inward, and the side plate portions 84 and 85 and the bottom plate portion A protruding step 113 having the same width as that of the return portion 112 extends vertically at the connection portion 80.
As a result, a guide groove 114 having a certain front and rear width is formed on the inner wall of each of the side plate portions 84 and 85 between the return portion 112 and the protrusion step portion 113 when the substrate box of the main controller is slid.
A fixing bracket portion 118 that protrudes forward from above the return portion 112 and extends inward (leftward) is provided at a substantially central position in the vertical direction of the side plate portion 85, and a screw is inserted vertically toward the bottom plate portion 80. A hole 119 is formed.

At the upper end portion of the bottom plate portion 80, a locking portion 120 for locking the main control device 22 held by the movable base portion 28 is provided in the center of the lateral width (left and right direction).
When the main controller is mounted on the movable base portion 28, the locking portion 120 locks with a projection (not shown) provided on the board box 30 and can be unlocked by elastically deforming. It has become.
Projecting pieces 122 extending upward are formed on the upper end of the bottom plate portion 80 on both the left and right sides of the locking portion 120 so as to be locked in a slit groove described later provided in the upper end portion of the substrate box 30.

FIG. 7 is a cross-sectional view showing the configuration of the end portion of the rotating shaft.
Boss plate portions 124 and 125 that form slits 126 are provided between the lower end portions of the side plate portions 84 and 85 and the end surface of the rotation shaft portion 86. The slit 126 is orthogonal to the rotation center axis Z, and the shaft support plate portions 70 and 71 of the fixed base portion 26 are inserted into the slit 126.
A shaft hole 127 is formed in each boss plate portion 124 and 125 coaxially with the shaft hole 88 of the rotation shaft portion 86.
The support pin 128 is inserted from the shaft hole 127 of the boss plate portion 124 into the shaft hole 88 of the rotating shaft portion 86 through the shaft hole 73 of the shaft support plate portion 70, and the support pin 128 is inserted into the shaft hole of the boss plate portion 125. The movable base portion 28 is rotatably supported with respect to the fixed base portion 26 by being inserted into the shaft hole 88 of the rotation shaft portion 86 through the shaft hole 73 of the shaft support plate portion 71 from 127.

  At this time, the support pin 128 is press-fitted in the shaft hole 127 of the boss plate portions 124 and 125 and the shaft hole 88 of the rotating shaft portion 86, and the head of the support pin 128 is outside the boss plate portions 124 and 125. It is set in the recess 129 formed on the end face so as not to protrude from the outer end face, and the support pin 128 after being attached cannot be removed.

Returning to FIG. 5, a metal plate reinforcing plate 130 is attached to the upper surface of the mounting portion 82. The reinforcing plate 130 has a length extending between the left and right slit grooves 90 of the mounting portion 82 and is superposed on the upper surface of the mounting portion 82, and extends upward from the rear end of the flat plate portion 132. A vertical wall 134 superimposed on the surface of the bottom plate portion 80 and a shaft support plate portion 136 that extends downward from both left and right ends of the flat plate portion 132 and is inserted into the slit groove 90 are provided.
The shaft support plate 136 is provided with a hole 137 positioned coaxially with the shaft hole 88 of the rotating shaft portion 86 in a state of being inserted into the slit groove 90, and the hole 137 has the same diameter as the shaft hole 88.

In the vertical wall 134, a notch hole 140 that covers the two sealing block portions 100 is formed, and in the range of the notch hole 140, the flat plate portion 132 extends below the sealing block portion 100. Covers the opening of the space formed in the sealing block portion 100 in a state where is fixed to the movable base portion 28.
The front surface of the bottom plate portion 80 has a region 116 corresponding to the reinforcing plate 130 that is depressed by the thickness of the reinforcing plate, so that the surface of the bottom plate portion 80 forms a smooth flat surface including the reinforcing plate 130 and its periphery. It has become.
In the vertical wall 134 of the reinforcing plate 130, rectangular window holes 142 are formed on both sides of the notch hole 140 so as to overlap with the window holes 107 of the bottom plate portion 80.

FIG. 8 is a view showing a fixing structure of the reinforcing plate and the bottom plate portion in the window hole 142 portion.
The cut-and-raised piece at the time of forming the window hole 142 of the reinforcing plate 130 is bent backward from the upper side of the window hole 142 to form a bracket part 144. The bracket portion 144 passes through the window hole 107 of the bottom plate portion 80 and overlaps with the lower end surface of the screw block 108.
The reinforcing plate 130 is fixed to the movable base portion 28 by screwing the fixing screw into the screw hole 109 of the screw block 108 from below through the insertion hole 145 formed in the bracket portion 144.
The reinforcing plate 130 increases the rigidity of the movable base portion 28. Therefore, even if an attempt is made to squeeze the sealing portion, the bending of the substrate box 30 held by the movable base portion 28 is suppressed, and illegal acts are prevented. Make it difficult.

  As shown in FIGS. 5 and 7, a coaxial lock mounting hole 89 is formed in the lower end portion of the side plate portion 85 and the boss plate portion 125. The position of the lock attachment hole 89 is set so as to overlap with the lock attachment hole 75 of the fixed base portion 26 when the movable base portion 28 is in the standing posture position. For example, by attaching a padlock or the like, Can be prohibited.

The pedestal device 25 having the above configuration first inserts a mounting screw from the surface side of the fixed base portion 26 into the hole 43 of the mounting flange portion 42, and places it in a corresponding position inside the back plate 2 c of the housing body 2 in advance. Screw into the provided nut.
Further, with the movable base portion 28 in the standing posture position, a mounting screw is inserted into the hole 62 of the mounting frame member 48 through the window hole 142 of the reinforcing plate 130 of the movable base portion and the window hole 107 of the bottom plate portion 80. The screw is fixed to the back plate 2c by being screwed into a nut portion provided in advance at a corresponding position inside the back plate 2c of the housing body 2.
Further, a screw is inserted from the outside into an insertion hole formed in advance in the back plate 2 c and screwed into a nut provided in the hole 47 of the mounting flange portion 46.
Thereby, since the fixed base part 26 is fixed to both the front and the rear with respect to the back plate 2c, it cannot be removed from the back plate 2c only from one of the front and the rear.

In particular, when the substrate box 30 is held on the movable base portion 28, the window holes 107 and 142 of the movable base portion are closed by the substrate box 30, so that the tip of the screw driver is inserted into these window holes from the front of the movable base portion 28. Can not be plugged in.
Further, since the hole 62 of the mounting frame member 48 is in the vicinity of the rotation center axis Z, the tip of the screw driver cannot be inserted even when the movable base portion 28 is tilted.

Next, the configuration of the main controller 22 will be described.
FIG. 9 is an exploded perspective view of the main controller 22.
The substrate box 30 includes a first box 200 on the front side and a second box 300 on the back side.
The main board 23 is attached to the inside of the first box 200 by screws (not shown) through small holes 24 provided at the corners. On the main substrate 23, a wiring pattern (not shown) is formed, and various electronic components including an IC chip such as a CPU and a ROM, a socket, and the like are mounted.

The first box 200 has a main substrate housing portion 201 that can accommodate relatively tall electronic components on the main substrate 23, and a lower step portion 202 is formed on the periphery thereof. Yes.
In the step portion 202, a plurality of socket insertion holes 203 for inserting sockets on the main board are formed.
A sticking frame 204 for sticking a sealing history recording sheet is set on the surface of the main board housing part 201.

At the right end of the first box 200, a fixed surface 205 is formed at the approximate center in the vertical direction. The fixed surface 205 is set to overlap the back surface of the fixed bracket portion 118 of the movable base portion 28 when the substrate box 30 is placed on the movable base portion 28, and is used for fixing the substrate box 30 to the movable base portion 28. A screw hole 206 is provided.
A flat portion 207 is adjacent to the inside (left side) of the fixed surface 205 with a step, and when the substrate box 30 is fixed to the movable base portion 28, it is continuous with the surface of the fixed bracket portion 118. Yes.
The surfaces of the flat surface portion 207 and the fixing bracket portion 118 cooperate to form a seal application surface of a seal seal (not shown). That is, by sticking the seal seal across both the flat portion 207 and the fixed bracket portion 118, once it is peeled off, a trace of being peeled off is left on the seal sticking surface.

On the side walls 210 at both left and right ends of the first box 200, rail forming portions 211 that protrude outward are provided over the entire height in the vertical direction.
The second box 300 has a bottom plate portion 301 that faces the back surface of the main board 23 attached to the first box 200. A grid-like rib 302 is provided on the inner surface of the bottom plate portion 301 to increase the rigidity. Rail forming portions 311 are provided on the side walls 310 at both left and right ends of the bottom plate portion 301 so as to protrude outward over the entire height in the vertical direction.

FIG. 10 is a view showing rail forming portions of the first box 200 and the second box 300.
(A) is a side view of the rail formation part 211, (b) is an AA part enlarged sectional view in (a), (c) is a side view of the rail formation part 311, (d) is B- in (c). B section expanded sectional drawing, and (e) are sectional drawings which show a combined state.
The rail forming portion 211 is provided with a plurality of ribs 211b that stand up outward from the rear end edge of the side wall 210 and extend in the vertical direction, and that extend from the lower end of each rib to the rear. A plurality of L-shaped hooking portions 212 formed of pieces extending downward from the rear end are formed.
In addition, a strip plate portion 211 a having a constant width extending over the entire height in the vertical direction of the side wall 210 is formed in parallel to the side wall 210 so as to be connected to these hook portions 212.

The rail forming portion 311 has an L-shape that includes a piece that stands outward from the side wall 310 and extends in the board height direction (front-rear direction) and a piece that extends upward from the front end along the front edge of the side wall 310. The plurality of hooking portions 312 are provided so as to be aligned in a line at a predetermined interval.
Further, a vertical wall portion 311a having a constant width extending from the side wall 310 and extending over the entire height in the vertical direction is formed. Yes.

The first box 200 and the second box 300 are coupled by locking the plurality of hooks 212 and hooks 312 to form a hollow box-like substrate box 30.
That is, at a position where the first box 200 is opposed to the second box 300 and shifted upward by a predetermined amount, the hooking portion 212 of the first box is placed between the hooking portion 312 of the second box and the second box. The hooks 212 and 312 are locked together by overlapping the boxes and then sliding the first box 200 downward relative to the second box 300.

In particular, as shown in FIG. 10 (e), in the coupled state of the first box 200 and the second box 300, the rear end edge of the strip plate portion 211a abuts on the vertical wall portion 311a and the outside of the vertical wall portion 311a. The side edge is set to be flush with the outer surface of the band plate portion 211a.
Thereby, the rail formation part 211 of the 1st box and the rail formation part 311 of the 2nd box cooperate, and form the rail 32 extended in the up-down direction of a board | substrate box.

Returning to FIG. 9, in order to form a sealing portion at the lower end of the first box 200, the upper bracket 230 connected to the lower end wall 222 at the left end portion by the connecting portion, and the central portion in the left-right direction adjacent to the upper bracket 230. An extending rectangular block 250 is formed.
FIG. 11 shows the back surface of the first box 200.
Between the upper bracket 230 and the rectangular block 250, a connection fixing portion 215 including a screw hole 216 opened on the back surface (second box side) is provided.
On the upper end wall 209 of the first box 200, a plurality of locking blocks 214 extending downward are formed on the back surface of the rear end side by side in a line in the left-right direction.

As shown in FIG. 9, a locking recess 316 is formed at the front portion of the upper end wall 308 of the second box 300 that is lowered by one step so as to correspond to the locking block 214 of the first box 200.
In the coupled state of the first box 200 and the second box 300, the portion of the upper end wall 209 of the first box 200 where the locking blocks 214 are lined up is on the lower front portion of the upper end wall 308 of the second box 300. Overlap.
Accordingly, when the first box 200 is slid to the coupling position with the second box 300, the locking block 214 of the first box 200 is fitted into the locking recess 316.

The second box 300 is provided with a rectangular fixing block 304 corresponding to the connection fixing portion 215 of the first box 200.
The fixing block 304 has a hole 305 corresponding to the screw hole 216 of the connection fixing portion 215 of the first box 200 in the coupled state of the first box 200 and the second box 300, and the screw is screwed from the hole 305. By screwing into the hole 216, the first box 200 and the second box 300 are fixed to each other.

The upper end wall 308 of the second box 300 projects rearward from the bottom plate portion 301, and a slit extends between the bottom surface of the bottom plate portion 301 and the back surface (outer surface) of the bottom plate portion 301. A plurality of locking blocks 317 forming grooves 318 are provided in the left-right direction.
When the substrate box 30 is held on the movable base portion 28, the protruding piece 122 (see FIG. 5) of the movable base portion 28 is inserted into the slit groove 318 and locked.

  In order to form a sealing portion at the lower end of the second box 300, a lower bracket 330 connected to the lower end wall 322 at the connecting portion at the left end portion, a sealing block portion 360 provided at the center in the left-right direction of the lower end wall 322, and a sealing block Cover plate portions 350 extending downward from the lower end wall 322 are formed on the left and right sides of the portion 360.

Next, the seal coupling structure will be described.
As shown in FIG. 3, a first sealing portion 34, a second sealing portion 36, a third sealing portion 38, and a second sealing portion 36 are set in the lower end portion of the substrate box 30 in order from the left end. The three sealing portions 38 are located in the center of the substrate box 30 in the left-right direction. In the vicinity of each sealed portion, symbols A to F are given.
The first sealing portion 34 (A) and the third sealing portion 38 (F) are for sealing and joining the first box 200 and the second box 300, and the second sealing portion 36 (B, C, D, E) is the substrate. This is for sealing and coupling the box 30 to the movable base portion 28.

First, the seal coupling structure of the first seal portion 34 will be described.
As shown below, the first sealing portion 34 includes an upper bracket 230 extending from the lower end wall 222 of the first box 200 via the connecting portion 228, and a lower end wall 322 of the second box 300 via the connecting portions 328 and 329. The lower bracket 330 extends, and the upper bracket 230 and the lower bracket 330 that are overlapped with each other include a sealing cap 500 that covers the lower bracket 330.
In the following description of the first sealing portion 34, the direction in which the upper bracket 230 and the lower bracket 330 are vertically stacked along the overlapping direction of the first box 200 and the second box 300 is defined as the vertical direction. The side closer to the lower end wall 222 of the one box 200 is the base end, the far side is the front end, and the direction in which the connecting portion 228 and the upper bracket 230 extend from the lower end wall 222 (the vertical direction in FIG. 3) is the longitudinal direction.

12 and 13 show the structure of the upper bracket 230. FIG. 12 (a) is a plan view, FIG. 12 (b) is a rear view, FIG. 13 (c) is a front view seen from the front end side, and FIG. It is a side view. (A) is equivalent to the front view in FIG.
The upper bracket 230 has an end plate 232 on the base end side (side facing the lower end wall) of the substantially rectangular main plate 231.
The main plate 231 is perpendicular to the lower end wall 222 and parallel to the overlapping surface of the first box 200 and the second box 300. The lower surface of the main plate 231 is slightly shifted downward by a predetermined amount from the overlapping edge K of the lower end wall 222 (the abutting surface with the lower end wall of the second box 300).

The main plate 231 has a side that is approximately ３ of the distal end side and the side thereof is tapered, and the width of the distal end is slightly smaller than the base end on the end plate 232 side. A flange 238 stands on the side edge of the main plate 231 over the entire length, and a groove 235 is formed on the upper surface of the main plate 231 along the flange 238.
When viewed from the longitudinal direction in parallel with the plate surface of the main plate 231 ((c) in FIG. 13), the end plate 232 protrudes in the vertical and horizontal directions of the main plate 231 and has a trapezoidal outer periphery. The top is slightly shorter.
A notch 233 having a predetermined width is formed at the center of the upper side of the end plate 232.

On the upper surface of the main plate 231, a bank portion 234 is formed which extends in the left-right diagonal direction and continues to the center of the end plate 232 and is cut by the groove 235. The height of the bank portion 234 is higher than that of the flange 238, and the upper surface is continuous with the bottom of the notch 233.
In a region sandwiched between the grooves 235 on the upper surface of the main plate 231, a plurality of (here, five) beads 236 extend parallel to each other from the bank portion 234 toward the tip. The length of each bead 236 is about 1/3 in the longitudinal direction of the plane portion from the bank portion 234 to the tip side, and the height is slightly lower than the bank portion 234.

Two slits 237 extending in the proximal direction from the distal end are formed in the main plate 231, and the portion sandwiched between the slits 237 at the center of the distal end retreats to the proximal end side from both side portions, and in a sealing cap 500 described later. The vertical wall 524 of the catcher 523 is allowed to escape, and the slit 237 itself is also escaped from the flange 527 of the catcher 523. The rear end on the base end side of the slit 237 is an inclined surface corresponding to the flange 527.
On the lower surface of the main plate 231, a claw 240 is formed outside the slit 237 along the slit 237. The claw 240 has a locking surface 240a perpendicular to the lower surface of the main plate 231 on the base end side, and an inclined surface 240b from the locking surface 240a toward the lower surface.

The connecting portion 228 that connects the upper bracket 230 to the lower end wall 222 of the first box 200 is a plate shape along the overlapping direction of the first box 200 and the second box 300, and the upper edge extends from the lower end wall 222 to the upper bracket 230. It extends to the end plate 232 and continues to the bottom of the notch 233 of the end plate 232. A lower portion of the connecting portion 228 extends from the lower surface of the main plate 231 and protrudes from a portion sandwiched by the slits 237, and a claw 242 protruding downward is formed at the tip. The upper surface of the connecting portion 228 of the protruding portion is an extension line of the lower surface of the main plate 231.
The nail | claw 242 makes the base end side the perpendicular | vertical latching surface 242a, and the front end side is the inclined surface 242b from the latching surface 242a. The locking surface 242a is located near the tip of the main plate 231 in the longitudinal direction.
The lower surface of the connecting portion 228 is inclined downward toward the lower end wall 222 while forming a number of steps from just after the claw 242 to near the end plate 232, and then extends perpendicularly to the lower end wall 222 to the lower end wall 222. ing. Since the lower surface of the connecting portion 228 is formed in a stepped shape, the illustration is omitted, but the light emitted from the light emitter (for example, LED) disposed on the main board 23 in the board box 30 is the first box. In the sealed state of 200 and the second box 300, light is guided from the proximal end to the distal end of the connecting portion 228. That is, the opening trace can be easily confirmed by visually confirming the state of transmitting light. This is because the light is not guided to the tip of the connecting portion 228 if it is unsealed.

On the outer surface of the lower end wall 222 of the first box 200, a cover bank 226 surrounding the connecting portion 228 is provided in a bead shape. The cover bank 226 has an upper side 226a and a side 226b that are set along the upper edge and the side edge of the flange 506 of the connecting part cover part 501 described later in the sealing cap 500.
The connecting portion 228 has an equal width (the upper surface and the lower surface are parallel) between the lower end wall 222 and the end plate 232 of the upper bracket 230. The upper surface has a distance from the lower end wall 222 that is the lower end of the cover dam 226. It bends at a right angle and extends upward at a position equal to the protruding height from the wall 222. The portion extending upward is connected to the upper side portion of the cover bank 226 to form a base end side reinforcing support portion 229.

14 and 15 show the structure of the lower bracket 330 of the second box 300. FIG. 14 (a) is a plan view, FIG. 14 (b) is a rear view, and FIG. 15 (c) is a front view seen from the front end side. , (D) is a side view, (e) is a sectional view taken along the line CC in (a), and (f) is a sectional view taken along the line DD in (a).
The lower bracket 330 has a base 331 and a tip block 335 connected to the base 331.
The base 331 is composed of a flat portion 332 whose upper surface is divided into left and right, and a groove 333 is formed in the center between them in the longitudinal direction.

The groove 333 has a cross section having a width and a depth that can accommodate the connecting portion 228 extending from the lower surface of the main plate 231 of the upper bracket 230, and is viewed from a side parallel to the lower end wall 322 (see FIG. 15). (E) About 1/3 of the proximal end side is parallel to the flat portion 332, and the bottom wall is inclined upward on the distal end side.
A claw 340 is provided on the upper surface of the flat portion 332 along the ridge groove 333. The claw 340 corresponds to the claw 240 of the upper bracket 230, has a locking surface 340a perpendicular to the surface of the flat portion 332 on the distal end side, and an inclined surface 340b on the proximal end side. Then, when the upper bracket 230 and the lower bracket 330 are overlapped at the coupling position of the first box 200 and the second box 300, the locking surface 340a is set to lock with the locking surface 240a of the claw 240. .

The front end block 335 is connected to the flat portion 332 of the base 331 by the left and right connection walls 334, and a space S1 is formed between the connection walls 334. The upper surface of the connection wall 334 is connected to the upper surface of the flat portion 332, and the tip block 335 side is highly inclined.
The front end block 335 has a surface that is perpendicular to the longitudinal direction, that is, a surface that rises in parallel with the lower end wall 322 of the second box 300, and this surface is a surface 336 that faces the front end of the main plate 231 of the upper bracket 230.

The connection wall 334 and the tip block 335 are formed so as to have a semicircular outer peripheral contour whose diameter is the distance between the outer sides of the left and right flat portions 332.
A flange 338 that rises along the outer peripheral edge is formed from the flat portion 332 of the base 331 to the connection wall 334.
The upper end surface of the flange 338 is parallel to the flat portion 332 and is shifted by a predetermined amount below the overlapping edge K of the lower end wall 322. When the first box 200 and the second box 300 are overlapped, the main plate 231 of the upper bracket 230 Receive. The height of the upper end surface of the flange 338 relative to the flat portion 332 is set to be equal to the distance between the lower edge of the end plate 232 of the upper bracket 230 and the lower surface of the main plate 231.

  A tunnel-shaped claw receiving portion 337 that receives the claw 242 at the tip of the upper bracket 230 is formed at the center in the left-right direction of the tip block 335. The outer surface of the claw receiving portion 337 protrudes upward from the left and right regions of the tip block 335. When the main plate 231 of the upper bracket 230 is superimposed on the upper end surface of the flange 338, the base end side of the ceiling of the claw receiving portion 337 is higher than the upper surface of the claw 242 (the upper end surface of the connecting portion 228), but is inclined from the middle. The tip end side is set to be slightly lower than the upper surface of the claw 242.

Accordingly, when the first box 200 is slid to the coupling position with respect to the second box 300, the tip of the connecting portion 228 is elastically deformed to push down the claw 242.
The lower part of the nail | claw accommodating part 337 is open | released.
The ceiling height on the tip side of the above-described claw accommodating portion 337 is slightly lower than the upper end surface of the flange 338.
Furthermore, the tip block 335 further rises along the outer periphery of the arc, and is formed with a flange 339 having substantially the same height as the outer surface of the upper wall of the claw receiving portion 337.

The connecting portion that connects the lower bracket 330 to the lower end wall 322 of the second box 300 includes two connecting portions 328 extending from the base end side along the outer side of the flat portion 332, and the longitudinal center line of the groove 333. And the connecting portion 329 extending from the base end side of the groove. In either case, the lateral width is about the thickness of the flat portion 332.
The upper surface (upper edge) of the connecting portion 328 is continuous with the upper surface of the flat portion 332 and is perpendicular to the lower end wall 322. The upper surface (upper edge) of the connecting portion 329 is continuous with the bottom surface of the groove 333 and is perpendicular to the lower end wall 322. The vertical widths of the connecting portions 328 and 329 are the same as the plate thickness of the flat portion 332 and the groove 333 to be connected on the lower bracket 330 side, and are inclined so as to increase on the lower end wall 322 side.

On the outer surface of the lower end wall 322 of the second box 300, a cover bank 324 surrounding the connecting portions 328 and 329 is provided in a bead shape. The cover bank 324 has a side part 324a and a lower part 324b set along the side walls of the lower wall 504, the bulging part 505, and the flange 506 of the connecting part cover part 501 described later in the sealing cap 500. .
The lower end wall 322 is formed with a notch 326 through which the connecting portion 228 of the upper bracket 230 passes from the overlapping edge K to the height of the upper surface of the connecting portion 329.

16 to 18 show the structure of the sealing cap 500. FIG. 16A is a plan view, FIG. 16B is a back view, FIG. 17C is a side view, and FIG. (E) is a view seen from the front end side, (f) in FIG. 18 is a cross-sectional view taken along line EE in (a), (g) is a cross-sectional view taken along line FF in (f), (h) FIG. 6 is a cross-sectional view taken along a line GG in (f).
The sealing cap 500 is made of resin and includes a bracket cover portion 510 that covers the upper bracket 230 and the lower bracket 330 that are overlapped, and a connecting portion cover portion 501 that covers the connecting portions 228, 328, and 329.
The connecting portion cover portion 501 has a trapezoidal basic cross-sectional shape, and is set so that the inner wall surface of the upper half matches the trapezoidal outline of the end plate 232 of the upper bracket 230. The inner wall surface of the lower half has a shape that allows the lower bracket 330 including the groove 333 to pass therethrough, and in particular, the lower wall 504 has a bulging portion 505 that accommodates the connecting portion 329.

A notch 507 is formed in the center of the upper wall 502 at the opening end of the connecting portion cover portion 501 so as to escape the base end side reinforcing support portion 229 formed at the base portion of the connecting portion 228 in the lower end wall 222.
At the opening end of the connecting portion cover portion 501, a flange 506 whose outer edge is perpendicular to the upper wall 502 and the lower wall 504 extends outward from the side wall 503. The height in the left-right direction of the flange 506 is 0 (zero) at the corner connected to the lower wall 504, and the outer peripheral contour above the corner of the open end viewed from the longitudinal direction is rectangular.
The corner from the lower wall 504 to the side wall 503 is rounded (R) with a relatively larger diameter than the corner from the upper wall 502 to the side wall 503.

The bracket cover portion 510 has a planar shape of a proximal side square and a distal end side semicircle, the proximal end side is open, and the distal end side is closed.
The outer wall of the opening end on the base end side is aligned with the inner wall surface of the connecting portion cover portion 501. According to the trapezoidal shape of the open end, the outer peripheral contours of the upper wall 512 and the lower wall 514 on the plan view are similar.
A notch 509 is formed at the center of each tip of the upper wall 502 and the bulging portion 505 of the connecting portion cover portion 501, and the bulging portions of the upper wall 512 and the lower wall 514 of the bracket cover portion 510 within these notches. Each open end of 515 is connected to upper wall 502 and bulge 505 by rib 508. The notch 509 can receive the cutting edge of a tool for cutting a rib.
Except for these connection positions, there is a minute gap between the connecting portion cover portion 501 and the bracket cover portion 510.
For simplicity, FIG. 17D shows only the opening end surfaces of the connecting portion cover portion 501 and the bracket cover portion 510.

The height dimension of the central portion of the inner wall surface at the opening end of the bracket cover portion 510 is such that the main plate 231 of the upper bracket 230 and the flat portion 332 including the flange 338 of the lower bracket 330 are overlapped except for the bulging portion 515. In this state, it can be accommodated by being substantially matched with the thickness from the lower surface of the flat portion 332 to the upper surface of the bank portion 234 of the upper bracket 230.
The bulging portion 515 of the lower wall 514 of the bracket cover portion 510 can accommodate the ridge groove 333 of the lower bracket 330, and the lower surface of the bulging portion 515 is generally the lower wall 514 from the middle in the longitudinal direction toward the tip. Inclined to the surface.

The upper wall 512 of the bracket cover portion 510 has a substantially circular plate holding hole 518 having a peripheral edge along the semicircle of the outer shape on the front end side and having a straight portion along the opening end.
In the plate holding hole 518, the main body plate portion 520a of the floating plate 520 is disposed at a height substantially along the upper wall 512 in a free state.
In the plan view, the upper wall 512 of the bracket cover portion 510 has a protruding portion 511 extending into the notch 509 to increase the area and maintain the rigidity of the upper wall 512 at the opening end.

The floating plate 520 is spaced from the inner peripheral edge of the plate holding hole 518, and the basic shape of the main body plate portion 520a is a straight line whose tip side is substantially along the inner peripheral edge of the plate holding hole 518 and whose side edge is parallel to the longitudinal direction. To the curved portion along the inner peripheral edge of the plate holding hole 518, and the rear end (base end side) is a substantially straight line extending laterally with respect to the longitudinal direction.
The upper surface of the main body plate portion 520 a slightly swells in a spherical shape, and the central portion protrudes from the general surface of the upper wall 512.
The main body plate portion 520 a is formed with a slit 521 that can accommodate a bead 236 formed on the main plate 231 of the upper bracket 230. The slit 521 opens on the opening end side of the bracket cover portion 510 and extends in the longitudinal direction. In addition, a rectangular notch 522 is formed on the side edge of the main body plate portion 520a. The edge part where the slit 521 and the notch 522 are formed becomes a comb-like weak part.

A catcher 523 for engaging with the claw 242 of the upper bracket 230 is formed on the back surface (lower surface) of the main body plate portion 520a.
The catcher 523 has a rectangular hole 525 in the vertical wall 524 that has fallen from the back surface at the front end of the main body plate portion 520a, and a flange 527 for preventing the vertical wall 524 from falling is extended from both side edges to the back surface. . The edge of the flange 527 is inclined to face the base end side.
The rectangular hole 525 has a size that allows the claw 242 of the upper bracket 230 to pass therethrough.
The lower edge of the rectangular hole 525 is set at the same height as the lower surface of the main plate 231 of the upper bracket that covers the sealing cap 500 in the free state.
The base end side of the lower edge of the rectangular hole 525 is an inclined surface 526 facing downward, and the claw 242 smoothly enters the rectangular hole 525 in response to the inclined surface of the claw 242. The other edge on the base end side of the rectangular hole 525 is also appropriately chamfered.

  A narrow support piece 528 extends along the inner peripheral edge of the plate holding hole 518 in the space between the inner peripheral edge of the floating plate 520 and the plate holding hole 518, and one end on the tip side thereof extends to the inner peripheral edge of the plate holding hole 518. After turning around, the folded piece 528a is connected to the side of the vertical wall 524 at the tip of the main body plate portion 520a, and the other end is linearly along the side edge of the main body plate portion 520a. It is connected to the inner periphery on the end side. A space S <b> 2 sandwiched between the left and right folded pieces 528 a is a space for receiving the claw accommodating portion 337 of the tip block 335 in the lower bracket 330.

  The support piece 528 is free and has an upper surface flush with the lower surface of the main body plate portion 520a and is thinner than the main body plate portion 520a. That is, the upper surface of the support piece 528 is lower than the outer surfaces of the floating plate 520 and the bracket cover upper wall 512. The thin support plate 528 that is long between both ends exhibits elasticity, and the height position and posture of the floating plate 520 can be changed depending on the point of load applied to the floating plate.

  In the plan view, a stepped portion 519 is formed to protrude inward on the outer side of the support piece 528 along the inner peripheral edge of the plate holding hole 518. The upper surface of the stepped portion 519 is substantially the same height as the lower surface of the support piece 528, and one end is cut at the space S2. The other end of the step 519 extends linearly at the same height along the side wall 513 to the opening end of the bracket cover 510 following the inner periphery of the plate holding hole 518. The lower surface of the step 519 is The straight portion on the opening end side has a fixed slide surface relative to the upper edge of the flange 238 of the upper bracket 230 when the sealing cap 500 is put on the upper bracket 230 and the lower bracket 330. Become.

  That is, the constant height from the lower wall 514 to the lower surface of the step portion 519 is from the lower surface of the flat portion 332 of the lower bracket 330 to the upper surface of the flange 238 of the upper bracket 230 when the upper bracket 230 and the lower bracket 330 are overlapped. It is matched to the thickness. The distance between the inner wall surfaces of the left and right side walls 513 at the height of the lower surface of the stepped portion 519 is also matched with the width of the main plate 231 (flange 238) of the upper bracket 230.

Hereinafter, the sealing procedure of the first sealing portion 34 made of the above-described member will be described.
First, as shown in FIG. 19A, the first box 200 is overlaid on the second box 300 in a state in which the second box 300 is shifted in the sliding direction. The amount of displacement of both boxes is, for example, positioned so that the end plate 232 of the upper bracket 230 is in contact with the outer surface of the lower end wall of the second box 300, and as shown in FIG. The front end slightly faces the space S <b> 1 sandwiched between the connection walls 334 in the lower bracket 330.
In this state, the connecting portion 228 of the upper bracket 230 is placed on the upper surface (upper edge) of the connecting portion 329 at the center of the lower bracket 330, and the main plate 231 is placed on the upper edge of the flange 338, although not shown.
19A shows a cross section passing through the claws 240 and 340, and FIG. 19B and FIG. 19C show cross sections passing through the center in the width direction.

Next, the sealing cap 500 is put on the upper bracket 230 and the lower bracket 330. In other words, the lower wall 514 is inserted from the front end side of the lower bracket 330 while keeping the lower wall 514 along the lower surface of the flat portion 332 of the lower bracket 330 with the opening of the connecting portion cover portion 501 of the sealing cap 500 first. Since the lower surface of the step portion 519 slides on the upper edge of the flange 238 of the upper bracket 230 from the middle, it can be smoothly inserted simply by pressing the tip of the sealing cap 500.
The catcher 523 of the sealing cap 500 falls from the main body plate portion 520a so as to cross the inside of the sealing cap up and down. However, as shown in FIG. The end edge or the lower end of the vertical wall 524 escapes while sliding on the front end block 335 of the lower bracket 330, and the floating plate 520 moves over the front end block 335 as the posture changes.

Thus, when the sealing cap 500 is inserted until the opening end surface of the connecting portion cover portion 501 contacts the lower end wall 322 of the second box 300, the catcher 523 (vertical wall 524) is, as shown in FIG. The lower bracket 330 is fitted into the space S1 between the base 331 and the end block 335.
The catcher 523 is locked to the leading end block 335 so that the sealing cap 500 cannot be removed in the longitudinal direction.
The distal end of the connecting portion cover portion 501 is surrounded by a cover bank 324.
Thereafter, the first box 200 is slid toward the coupling position with respect to the second box 300, that is, downward when the first box 200 is viewed from the front.
Thereby, the claw 242 of the upper bracket 230 enters the rectangular hole 525 of the catcher 523 (vertical wall 524). During this time, the inclined surface of the rectangular hole 525 is pushed down by the inclined surface of the claw 242, and the floating plate 520 shows a change in posture that sinks inward of the sealing cap 500.

  When the coupling position is reached, as shown in FIG. 20D, the tip of the main plate 231 of the upper bracket 230 and the facing surface 336 (see FIGS. 14 and 15) of the tip block 335 of the lower bracket are close to each other. And the nail | claw 242 pulls out the rectangular hole 525 of the catcher 523 to the front end side. At the same time, as shown in (e), the claw 240 (the locking surface) of the upper bracket 230 is locked to the claw 340 (the locking surface) of the lower bracket 330, and the second box 300 of the first box 200. Prevents the sliding direction from slipping out.

In FIG. 20D, the locking surface 242a (see FIG. 13) of the claw 242 that has passed through the catcher 523 is slightly separated from the hole edge of the rectangular hole 525 in the distal direction, but the sealing cap 500 should be removed. Then, the catcher 523 of the floating plate also moves integrally, and the hole edge of the rectangular hole 525 comes into contact with and is locked against the locking surface 242a of the claw 242. (d) In the state shown in the figure, the floating plate 520 Is in a positional relationship in which the claw 242 prevents it from coming off. Of course, the locking surface 242a of the claw 242 and the hole edge of the rectangular hole 525 may abut at the coupling position.
The claw 240 and the claw 340 are also locked to prevent the sliding in the sliding direction between the first box 200 and the second box 300. Therefore, the claw 240 and the claw 340 are mutually connected at the coupling position of the first box 200 and the second box 300. In addition to the state in which the locking surfaces 240a and 340a are in contact with each other, a state in which the locking surfaces 240a and 340a face each other at a slight distance is also included.
The combination of the first box 200 and the second box 300 is in a sealed state due to the combination of the above-described removal prevention.
And the cover bank 226 of the lower end wall 222 surrounds the front end of the connecting portion cover portion 501 of the sealing cap 500.
20D and 20F show cross sections passing through the center in the width direction, and FIG. 20E shows a cross section passing through the claws 240 and 340.

In the sealed state shown in FIGS. 20D and 20E, the sealing cap 500 is moved up and down from the state in which the vertical wall 524 of the floating plate 520 is passed through the claw 242 of the upper bracket 230 and fitted into the space S1. It will not come out in the direction.
The height from the lower wall 514 of the sealing cap 500 to the lower surface of the stepped portion 519 is from the lower surface of the flat portion 332 of the lower bracket 330 to the upper surface of the flange 238 of the upper bracket 230 when the upper bracket 230 and the lower bracket 330 are overlapped. Since the thickness is matched, the upper bracket 230 and the lower bracket 330 are not separated from each other in the overlapping direction, so that the claw 240 and the claw 340 are not unlocked.
The protruding portion 511 of the upper wall 512 of the sealing cap 500 is fitted into the notch 233 of the end plate 232 in the upper bracket 230.
Further, since the claw 242 locked to the vertical wall 524 is slightly pushed down by the ceiling of the claw receiving portion 337, this also helps to hold and hold the claw 240 and the claw 340.

In this sealed state, the lower edge of the rectangular hole 525 that is at the lower surface height of the main plate 231 of the upper bracket 230 in the free state is pushed down by the thickness (height) of the neck portion that supports the claw 242 in the connecting portion 228. Therefore, the floating plate 520 is in a position that is depressed by a predetermined amount from the hole edge of the plate holding hole 518 of the bracket cover portion 510.
Therefore, as shown in FIG. 20F, the entire plate holding hole 518 in which the floating plate 520 is sunk is filled with the cured resin P. The curable resin P is selected from a resin that is cured by irradiation with light such as ultraviolet rays, a resin that is cured by heating, or a resin that is cured with the passage of time in air, but an irreversible curable resin is preferable.

  Since the main body plate portion 520a has slits 521 and notches 522 on the periphery, the cured resin P not only adheres to the inner peripheral surface of the plate holding hole 518 but also wraps around the back surface side of the main body plate portion 520a. Therefore, the main plate 231 and the beads 236 (see FIG. 12) of the upper bracket 230 have a wide and complicated adhesion surface, and a strong adhesion state between the sealing cap 500 including the floating plate 520 and the upper bracket 230 is obtained.

In order to properly release the seal due to a malfunction or inspection of the main control device 22, first, the rib 508 connecting the connecting portion cover portion 501 and the bracket cover portion 510 in the seal cap 500 is cut. Since the inner wall surface of the connecting portion cover portion 501 is aligned with the outer wall of the bracket cover portion 510 and has a slight gap, the connecting portion cover portion 501 can be extracted by cutting the rib.
As a result, the connecting portion 228 or the connecting portions 328 and 329 are exposed, and if these are cut with a tool, the first box 200 and the second box 300 can be slid relative to each other, and the substrate box 30 can be opened.
Therefore, if the seal is released, a trace of cutting the connecting portions 228, 328, and 329, and a trace of cutting the rib 508 for removing the connecting portion cover portion 501 that conceals them as the previous stage remain.

  Therefore, in order to improperly separate the first box 200 and the second box 300, the cured resin P is removed by scraping or the like, and the claw 240 is removed from the gap between the plate holding hole 518 of the sealing cap 500 and the main body plate portion 520a. However, since the peripheral edge of the main body plate portion 520a has a fragile structure with slits and notches, the main body together with the cured resin P is sure to be removed. The peripheral edge of the plate portion 520a is torn off, and the trace remains. Further, even if the cured resin is poured again into the cured resin P that cannot be removed and remains in the plate holding hole 518, traces of destruction remain due to the generation of the interface.

Next, a seal coupling structure of the second seal portion 36 for coupling and sealing the substrate box 30 and the movable base portion 28 will be described.
FIG. 21 shows a rectangular block 250 of the first box 200, where (a) is a front view and (b) is a cross-sectional view taken along the line H-H in (a).
The rectangular block 250 formed on the lower end wall 222 of the first box 200 has a frame shape partitioned into two square hole portions 251 and one square hole portion 252 in order from the upper bracket 230 side. A cylindrical body 255 having an axis in the front-rear direction is disposed at the approximate center of each square hole portion 251, 252.
Two square hole portions 251 are also formed on the opposite side across the square hole portion 252.
The lower surface of the lower wall of the square hole portion 252 is shifted upward by a predetermined amount from the lower surface of the lower wall of the square hole portion 251.
The rear surface of the rectangular block 250 coincides with the overlapping edge K on the outer surface of the lower end wall 222 and the lower end wall 322 of the second box 300.
The second sealing part 36 uses the square hole part 251 of the first box 200 and the cover plate part 350 of the second box 300.

The front end portion of the cylindrical body 255 is connected to the upper inner wall (lower end wall) and the lower inner wall of the square hole portion 251 by upper and lower fragile connecting portions 254. That is, the cylindrical body 255 can be excised by cutting the connecting portion 254.
The front end and the rear end of the cylindrical body 255 coincide with the front surface and the rear surface of the rectangular block 250 (square hole portion 251). The cylindrical body 255 has a through hole 256 having a large diameter hole 257 from the front end to the vicinity of the rear end and a rear end portion having a small diameter hole 258 smaller than the large diameter hole.
An axial groove 259 is formed at the upper end of the through hole 256 from the large diameter hole 257 to the small diameter hole 258.

As shown in FIG. 9, the cover plate portions 350 located on the left and right sides of the sealing block portion 360 of the second box 300 have a cylindrical body 255 corresponding to the cylindrical body 255 of the first box 200. A hole 351 for allowing the inserted pin to pass therethrough is formed.
The front surface of the cover plate portion 350 coincides with the overlapping edge K on the outer surface of the first box 200 with respect to the lower end wall 222, and the first box 200 and the second box 300 are coupled to each other, The end and the front surface of the cover plate portion 350 are flush with each other and come into contact with each other.

The sealing block portion 100 of the movable base portion 28 is set so that the front wall 102 contacts the back surface of the cover plate portion 350 of the second box 300 with the substrate box 30 placed on the movable base portion 28. Has been.
As shown in FIG. 5, the front wall 102 is formed with the locking hole 104 through which the sealing pin 400 passes as described above.

The sealing pin 400 will be described.
As shown in FIG. 22, the sealing pin 400 includes a cylindrical first pin 402 and a second pin 420 inserted into the first pin 402, all of which are PA, PP, POM, PC, ABS, or the like. Made of resin.
FIG. 23 is a diagram showing the first pin 402. (A) is a front view, (b) is a top view, (c) is a side view, (d) is a bottom view, (e) is a rear view, and (f) is a cross-sectional view taken along line JJ in (b). It is.
The first pin 402 has an outer shape composed of a large diameter portion 403 having a diameter corresponding to the large diameter hole 257 of the cylindrical body 255 of the first box 200 and a small diameter portion 404 having a diameter corresponding to the small diameter hole 258. . The length of the large diameter portion 403 is aligned with the length of the large diameter hole 257 of the cylindrical body 255.
The large diameter portion 403 side is the front, and the small diameter portion 404 side is the rear.

An axial key rib 405 is formed on the outer peripheral surface of the first pin 402 from the front end of the large diameter portion 403 to the small diameter portion 404.
The length and height of the key rib 405 correspond to the groove 259 of the cylindrical body 255, and when the key rib 405 is aligned with the groove 259, the first pin 402 has its front end flush with the front end of the cylindrical body 255. It can be pushed in, and the position in the rotational direction is also fixed by the locking of the key rib 405 and the groove 259.

The first pin 402 has a through hole 408 composed of a large diameter hole 409 and a small diameter hole 410 along the outer shape.
In the large-diameter hole 409, a slit 411 extending in the entire axial direction is formed at a position 180 ° in the circumferential direction with respect to the key rib 405.
The small-diameter portion 404 is provided with an elastic portion 413 in the left-right direction perpendicular to the up-down direction between the key rib 405 and the slit 411. The elastic portion 413 is surrounded by a U-shaped slit formed in the cylindrical wall of the small diameter portion 404, has a single-piece shape with the large diameter portion 403 side as a base end, and extends rearward in the axial direction. The latching claw 414 protrudes in the direction).
The locking claw 414 has a locking surface 416 whose front end is perpendicular to the axial direction, and its rear outer surface has a cone shape coaxial with the small-diameter portion 404 and an inclined surface 415 whose tip is reduced to the diameter of the small-diameter portion 404. .

The distance from the front end of the first pin 402 to the locking surface 416 of the locking claw 414 is equal to the length of the cylindrical body 255 of the first box 200 and the front wall 102 of the sealing block unit 100 in the movable base 28. Corresponding to the length obtained by adding the plate thickness of the cover plate portion 350 of the second box 300, the locking claw 414 is locked to the back surface of the front wall 102 in a state where the substrate box 30 is placed on the movable base portion 28. It is set as follows.
At the top and bottom of the rear end of the small-diameter portion 404, a notch 417 for locking with a locking claw of a second pin described later is provided.

FIG. 24 is a diagram showing the second pin 420. (A) is a front view, (b) is a top view, (c) is a side view, (d) is a rear view, and (e) is a cross-sectional view taken along line LL in (b).
The second pin 420 includes a large-diameter portion 421 having a diameter that matches the large-diameter hole 409 of the first pin 402 and a small-diameter portion 422 having a diameter that matches the small-diameter hole 410, and the front end thereof is the large-diameter portion 421. And a cylindrical hole 423 that is closed at the front wall and opens at the rear end of the small diameter portion 422.
The length of the large diameter portion 421 corresponds to the length of the large diameter hole 409, and an axial key rib 424 corresponding to the slit 411 is formed over the entire length.

An elastic portion 425 extends backward from the rear end of the small diameter portion 422. The elastic portion 425 has a locking claw 426 protruding outward (left and right direction) at the rear end. The locking claw 426 has a front end as a locking surface 428 perpendicular to the axial direction, and its rear outer surface is connected to the small diameter portion 422. The inclined surface 427 has a coaxial cone shape and the tip is reduced in diameter to the diameter of the small diameter portion 422.
The elastic portions 425 are provided on opposite sides of the diameter line passing through the axis of the second pin 420 and the key rib 424.
When the second pin 420 is pushed in until the front end of the second pin 420 is flush with the front end of the first pin 402, the locking surface 428 is positioned on the bottom end surface of the notch 417 of the small-diameter portion 404 in the first pin. It is set to lock.

25A shows a state where the first pin 402 is inserted into the cylindrical body 255, FIG. 25B is a cross-sectional view taken along the line MM in FIG. 25A, and FIG. The 2nd seal | sticker coupling | bonding state in which insertion of 2 pin 420 was complete | finished is shown, (d) is NN section sectional drawing in (c).
First, when the first pin 402 is inserted into the cylindrical body 255 from the front end (rear end) with the substrate box 30 placed on the movable base portion 28, the elastic portion 413 of the first pin 402 is moved in the inner diameter direction. The small diameter portion 404 enters the small diameter hole 258 in a state where the locking claw 414 is retracted to the inner diameter of the small diameter hole 258.

Then, when the locking claw 414 passes through the cylindrical body 255 and passes through the locking hole 104 of the front wall 102 in the sealing block portion 100 from the hole 351 of the cover plate portion 350 of the second box 300, (a), ( As shown in b), the elastic portion 413 is restored, the locking claw 414 protrudes from the outer peripheral surface of the small diameter portion 404, and the locking surface 416 is locked to the back surface of the front wall 102.
The locking hole 104 allows the small-diameter portion 404 of the first pin 402 to pass with a slight gap, and the locking claw 414 is locked to the front wall 102, while the notches 105 above and below the locking hole are the outer periphery of the small-diameter portion 404. A locking claw 414 protruding from the surface can pass through. However, when the first pin 402 is inserted into the cylindrical body 255 with the key rib 405 aligned with the groove 259, the locking claw 414 projects in the left-right direction, so the first pin 402 does not come out of the locking hole 104.

Next, when the second pin 420 is inserted into the first pin 402 from the front end (rear end), the elastic portion 425 of the second pin 420 bends in the inner diameter direction, and the locking claw 426 becomes the inner diameter of the small diameter hole 410. The small diameter portion 422 enters the small diameter hole 410 in the retracted state.
Then, when the locking claw 426 reaches the notch 417 at the rear end of the small diameter portion, as shown in FIGS. 25C and 25D, the elastic portion 425 is restored, and the locking claw 426 is connected to the small diameter portion 422. It protrudes from the outer peripheral surface, and its locking surface 428 is locked to the bottom end surface of the notch 417.

As a result, the front ends of the first pin 402 and the second pin 420 are flush with the front end of the cylindrical body 255, and the first pin 402 and the second pin 420 cannot be gripped with a tool.
The locking claw 414 of the first pin 402 extending from the substrate box 30 side protrudes left and right and locks to the back surface of the front wall 102 of the sealing block unit 100, whereby the substrate box 30 is coupled to the movable base unit 28. However, the elastic part 413 cannot be bent by inserting the second pin 420 into the first pin 402.

The locking hole 104 of the front wall 102 where the locking claw 414 of the first pin 402 is locked has a notch 105 through which the locking claw 414 can pass vertically. Since the rotation is restricted by the locking of the key rib 405 and the groove 259, the locking claw 414 cannot be rotated to the notch 105 position.
Therefore, the locking claw 414 is not detached from the front wall 102 of the sealing block portion, and the coupling between the substrate box 30 and the movable base portion 28 is not released.

Further, only the lower end of the space of the sealing block portion 100 where the rear end of the sealing pin 400 including the locking claw 414 is located is open, but the movable base portion 28 is provided with a reinforcing plate 130 having a flat plate portion 132. Since the inside of the sealing block portion 100 is a closed space, the sealing pin 400 cannot be reached from the opening by a driver or the like, and the substrate box 30 and the movable base portion 28 release the coupling. Can not be sealed.
Further, since the second box 300 is sandwiched between the first box 200 and the movable base portion 28 and cannot be removed, the substrate box is also sealed at the same time, and the connection between the first box 200 and the second box 300 is not released. .

In order to cancel the sealing of the second sealing portion 36, each connecting portion 254 is cut, and the cylindrical body 255 that is a sealing member is cut out from the first box 200.
Then, the cylindrical body 255 is rotated by 90 °, and the locking claw 414 of the sealing pin 400 locked to the front wall 102 of the sealing block portion 100 of the movable base portion 28 is notched in the locking hole 104. The cylindrical body 255 is released from the sealing block unit 100 by adjusting to 105.
Thereby, the board | substrate box 30 can be slid upward with respect to the movable base part 28, and can be removed from a movable base part.

  The sealing pin 400 assembled to the cut cylindrical body 255 is released from the first pin by pushing the locking claw 426 of the second pin 420 radially inward to release the locking with the first pin 402. As a result, the first pin 402 can also be removed from the cylindrical body 255 in the same manner by pushing the locking claw 414 radially inward, so that it can be reused.

Next, the third sealing portion 38 will be described. This seals the space between the first box 200 and the second box 300 of the substrate box by using the sealing pin 400 used to seal the substrate box 30 and the movable base portion 28.
The third sealing part 38 uses the square hole part 252 of the first box 200 and the sealing block part 360 of the second box 300.
The front end portion of the cylindrical body 255 is connected to the upper inner wall (lower end wall) and the lower inner wall of each of the square hole portions 252 by upper and lower fragile connecting portions 254. Thereby, the cylindrical body 255 can be excised by cutting the connecting portion 254.
The cylindrical body 255 is the same as the cylindrical body of the square hole portion 251 in the third sealing portion 36 described above.

FIG. 26 shows a square hole portion 252 which is a third seal forming portion of the first box 200, and corresponds to a cross section taken along the line PP in FIG.
FIG. 27 is a view showing a sealing block unit 360 that is a third sealing forming unit of the second box 300. (A) is a front view, (b) is a QQ part sectional view in (a), (c) is a RR part sectional view in (a).
The sealing block portion 360 provided on the lower end wall 322 of the second box 300 has a rectangular frame shape in the front view, and includes a cylindrical body 365 at substantially the center.
The sealing block portion 360 has a bottom wall 361 that extends downward from the bottom plate portion 301, and the cylindrical body 365 extends forward from the bottom wall 361.
The side walls 362 of the sealing block portion 360 are respectively connected to the cover plate portions 350 on both sides, and the front edges thereof coincide with the overlapping edge K on the outer surface with the lower end wall of the first box 200. Further, the lower wall 363 of the sealing block portion 360 extends forward from the side wall 362.

The cylindrical body 365 has a cylindrical hole 366 having a diameter that opens at the front end and aligns with the small diameter portion 404 of the first pin 402, and a large diameter portion 367 that is closed at the bottom wall 361 and communicates with the cylindrical hole 366. A notch groove 368 that extends in the axial direction from the open end to the enlarged diameter portion 367 and through which the locking claw 414 can pass is formed above and below the cylindrical hole 366.
The cylindrical body 365 has a front end that coincides with the front surface of the side wall 362, and the rear end of the cylindrical body 255 and the front end of the cylindrical body 365 are flush with each other in a state where the first box 200 and the second box 300 are coupled. They are set so that they are in contact with each other and their axes are aligned.
Then, the distance from the distal end of the cylindrical body 255 to the opening end to the enlarged diameter portion 367 of the cylindrical hole 366 is made to correspond to the distance from the distal end of the first pin 402 to the locking surface 416 of the locking claw 414. is there.

In this state, when the first pin 402 is inserted until the front end of the first pin 402 is flush with the front end of the cylindrical body 255 as described above, the engaging claw 414 has the enlarged diameter portion 367 of the cylindrical hole 366 in the cylindrical body 365. Lock to the open end face.
Then, when the second pin 420 is inserted into the first pin 402 until the front end thereof is flush with the cylindrical body 255 and the front end of the first pin 402, the locking claw 426 of the second pin 420 is attached to the first pin 402. The third sealing coupling structure is formed by protruding into the notch 417 of the small-diameter portion 404 and its locking surface 428 being locked to the bottom end surface of the notch 417. FIG. 28 shows this state. (A) of FIG. 28 is a figure equivalent to (c) of FIG. 25, (b) is SS sectional drawing in (a).

  As a result, the second pin 420 does not come off from the first pin 402, the first pin 402 does not come off from the cylindrical body 365, and the sealing pin 400 including the first pin 402 and the second pin 420 becomes the first box 200 and the first pin. Since the two boxes 300 are held across the mating surface, the first box 200 and the second box 300 are prevented from sliding relative to each other.

Since the locking claws 414 and 426 are located in the cylindrical body 365, they cannot be accessed and destroyed from the outside.
Further, the sealing block part 360 has a side wall 362 and a lower wall 363 in addition to the bottom wall 361 to surround the cylindrical body 365, and the lower wall 363 extends below the first box 200, and the lower wall of the square hole part 252. The cylindrical body 365 cannot be accessed from the outside, and a screwdriver or knife is inserted from below to seal the joint of the first box 200 and the second box 300 across the sealing pin 400. The pin 400 cannot be cut.

An example of the order of use of the plurality of sealed portions described above is shown below.
First, at the time of manufacturing the slot machine, when the main board 23 is accommodated in the board box 30 and the main controller 22 is assembled, the first box 200 and the second box 300 are formed by the first sealing portion 34 (A) at the left end. The bond of is sealed.
Subsequently, when the main control device 22 is mounted on the pedestal device 25, a seal seal is pasted over both the flat surface portion 207 of the substrate box 30 and the fixed bracket portion 118 of the movable base portion 28, and the mounting state is changed. Sealed.
The sealing history recording sheet affixed to the affixing frame 202 of the substrate box 30 is defined so that the date and time when the first sealing part 34 is sealed and the name of the person who sealed it are described. The same applies to the case where the other second sealing portion is sealed.
Therefore, it is possible to easily determine whether or not the main control device 22 has been illegally disassembled by comparing the description content of the sealing history recording sheet with the evidence of excision of the sealing portion.

When the main board 23 is removed from the board box 30 due to a malfunction or inspection of the main control device 22, each time, by first peeling off the sealing seal and sliding the board box 30 upward with respect to the movable base 28, The main controller 22 is removed from the pedestal device 25.
In the first time, the sealed first sealed portion 34 is released and the main board 23 is removed from the board box 30.
When the repair or inspection of the main board 23 is completed, the main board 23 is accommodated in the board box 30 and the main controller 22 is reassembled.

  In re-sealing, the first sealing part 34 at the left end of the substrate box 30 cannot be used because the connecting part 228 or the connecting part 329 is cut off, so that the adjacent second sealing part 36 (B) is now sealed. Here, the sealing pin 400 newly prepared by an authorized administrator is sealed in the movable base portion 28 through the hole 351 of the cover plate portion 350 of the second box 300 from the through hole 256 of the cylindrical body 255 of the first box 200. The coupling between the board box 30 and the movable base part 28 is sealed by inserting into the locking hole 104 of the stop block part 100. In this case, the first box 200 and the second box 300 are also sealed at the same time.

Hereinafter, the seal is released for each inspection, but the sealing after the second inspection is performed at the second sealing portion (C) adjacent to the second sealing portion 36 (B) where the sealing is released. The sealing pin 400 used for sealing is reused after being removed from the second sealing portion (B) whose sealing has been released.
After the subsequent inspection is completed, the second sealing portion 36 (D) and (E) are sequentially sealed in the same manner.
After the sealing of the second sealing portion 36 (E) is released and the inspection is performed, the third sealing portion 38 is sealed.
The third sealing part 38 seals the connection between the first box 200 and the second box 300 with only the substrate box 30.
After this, when inspection of the main board 23 becomes necessary, since there is no remaining sealable seal part, the main board 23 is returned to the manufacturer together with the board box 30 in the sealed state at the third seal part. That's fine.

The present embodiment is configured as described above, and is connected to the first box 200 and the second box 300, respectively, and is connected to each other by the locking of the claw 240 and the claw 340 at the connecting position of both boxes. An upper bracket 230 and a lower bracket 330; and a sealing cap 500 that covers the upper bracket 230 and the lower bracket 330 in a coupled state of the first box 200 and the second box 300;
The sealing cap 500 includes a floating plate 520 having a catcher 523, the upper bracket 230 includes a claw 242, and the sealing cap 500 is connected to the upper bracket 230 and the lower bracket 330 in the middle of the connection between the first box 200 and the second box 300. Then, a sealing structure is formed in which the catcher 523 of the floating plate 520 is prevented from being pulled out by the claw 242 between the first box 200 and the second box 300 until the coupling completion position.
More specifically, there is a space S1 between the upper bracket 230 and the lower bracket 330 in which the catcher 523 of the floating plate 520 can enter on the movement path of the claw 242 in the middle of the connection between the first box 200 and the second box 300. The catcher 523 that has entered the space S1 in the middle of the coupling is locked with the nail 242 by the subsequent movement of the claw 242 so that it cannot be detached from the space S1, so that the sealing cap 500 is removed. It becomes impossible.

  Thus, after the first box 200 and the second box 300 are joined, the sealing cap 500 cannot be removed, so that the upper bracket 230 on the first box 200 side and the lower bracket 330 on the second box 300 side are mutually connected. Since access to the claw portions 240 and 340 that are locked is prevented and the locking cannot be released, the connection between the first box 200 and the second box 300 cannot be illegally released.

  As a locking mode of the catcher 523 and the claw 242 entering the space S1, the catcher 523 is configured by providing a rectangular hole 525 in the vertical wall 524 extending inward of the sealing cap 500 from the main body plate portion 520a. Since the nail | claw 242 penetrates, removal of the sealing cap 500 is prevented reliably.

Further, the floating plate 520 can be displaced with respect to the main body of the sealing cap 500, and there is a portion that interferes with the catcher 523 in the upper bracket 230 or the lower bracket 330 when the catcher 523 of the floating plate 520 enters the space S1. However, since the catcher 523 can be positioned in the space S1 while avoiding this, the degree of freedom in designing the sealing structure is improved.
Particularly in the embodiment, the interference part between the catcher 523 and the lower bracket 330 is configured to be slidable with each other so that the catcher 523 gets over the interference part by the change in the posture of the floating plate 520. That is, a flange 527 having an inclined edge extends from the side edge of the vertical wall 524 of the catcher 523, and the posture of the floating plate 520 is changed while the edge of the flange 527 slides on the tip of the lower bracket 330. The catcher 523 can be easily positioned in the space S1 without being displaced by hand.

The first box 200 and the second box 300 are coupled to each other by moving in the sliding direction, and the sealing cap 500 is configured to cover the upper bracket 230 and the lower bracket 330 from the sliding direction. The gap with the lower bracket 330 can be reduced, and a compact and free-of-seal seal structure can be obtained.
Further, since the space S1 is partitioned by the lower bracket 330, the catcher 523 positioned in the space S1 is held by the lower bracket 330, and thus the sealing cap 500 is held, so that the subsequent first box 200 and second box 300 joining operations are facilitated.

After the first box 200 and the second box 300 are joined together, the plate holding hole 518 in which the floating plate 520 of the sealing cap 500 is disposed is filled with a hardened resin, and the floating plate 520 is submerged inward of the sealing cap. Since the filling space is increased, the sealing structure is more firmly held.
The floating plate 520 is supported via an elastic support piece 528 and is displaced by the guides of the inclined surfaces 242b and 526 provided in the claw 242 and the rectangular hole 525 of the vertical wall 524 in the floating plate. Sinks automatically when worn.
The support piece 528 is arranged along the inner peripheral edge of the plate holding hole 518, one end is connected to the inner peripheral edge of the plate holding hole 518, and the other end is connected to the main body plate portion 520a.
In addition, since the sealing cap 500 main body and the floating plate 520 are bonded together by filling the cured resin, there is no fear that the support piece 528 is broken in the sealing state.

Since the weakened portion is formed in the main body plate portion 520a by the slit 521 and the notch 522, when the fraud such as scraping off the filled cured resin is performed, the weakened portion is also damaged and surely Traces remain.
Further, since the basic shape of the plate holding hole 518 is circular, the filled cured resin spreads uniformly to every corner.

  Since the first box 200 and the upper bracket 230 are connected by a connecting portion 228, and the second box 300 and the lower bracket 330 are connected by connecting portions 328 and 329, the first box 200 and the first bracket 200 can be connected to the first box 200 by appropriately cutting them. The connection of the two boxes 300 can be easily released, but since the cut trace remains, the detection is easy when it is illegally released.

The sealing cap 500 includes a connecting portion cover portion 501 that is connected to the bracket cover portion 510 and covers the connecting portions 228, 328, and 329. Therefore, the connecting portion is subject to accidental damage due to direct external force. It is not.
Since the connecting portion cover portion 501 is formed integrally with the bracket cover portion 510 as a one-part sealing cap 500, the number of components can be reduced.

Further, in the coupled state of the first box 200 and the second box 300, the connecting portion cover portion 501 is locked with the first box 200 and the second box 300 with the periphery of the opening surrounded by the cover banks 226 and 324. Therefore, in addition to being held by the upper bracket 230 and the lower bracket 330 covered by the bracket cover portion 510, the sealing cap 500 is fitted inside the cover dams 226 and 324 at the opening end side of the connecting portion cover portion 501. It is held in place and maintained in a wobble-free installation.
Similarly, the opening of the connecting portion cover portion 501 is surrounded by the cover banks 226 and 324, so that the connecting portions 228 and 328 can be removed by a cutter or the like from the gap between the lower end walls 222 and 322 of the substrate box 30 and the connecting portion cover portion 501. Illegitimate actions such as cutting 329 are also prevented.

  Further, the bracket cover portion 510 and the connecting portion cover portion 501 are connected by a severable rib 508, the inner wall surface of the connecting portion cover portion 501 is larger than the outer wall of the bracket cover portion 510, and the cross-sectional shape is matched. Therefore, before cutting the rib 508, it is difficult to illegally access the connecting portion 228 and the like from the gap between the bracket cover portion 510 and the connecting portion cover portion 501, while the first box 200 and the second box 300 are joined. In the case of normal release, the rib 508 is cut to separate the connecting portion cover portion 501 from the bracket cover portion 510, and the outside of the bracket cover portion 510 is slid and removed to easily connect the connecting portions 228 or 328, 329 can be accessed.

  In the first sealing portion of the above embodiment, the vertical wall 524 having the rectangular hole 525 of the catcher 523 provided in the floating plate 520 is provided in the receiving space in order to suppress the floating plate 520 and prevent the sealing cap 500 from being removed. The catcher 523 is prevented from coming out of the space S1 by entering the space S1 and the claw 242 of the upper bracket 230 passing through the rectangular hole 525. However, the means for preventing the catcher 523 from coming out of the space S1 is not limited to this. .

For example, FIG. 29 shows a modification of the first sealing portion, (a) is a sectional view of the sealing cap, (b) is a partially broken side view of the upper bracket, and (c) is the first box and the second box. It is sectional drawing which shows the sealing state in the coupling | bonding position with a box.
The floating plate 520 ′ of the sealing cap 500 ′ includes a catcher 523 ′ instead of the catcher 523. The catcher 523 ′ has an enlarged head 530 that extends proximally at the distal end of the vertical wall 524 ′.
On the other hand, the upper bracket 230 ′ includes a locking protrusion 245 instead of the claw 242 at the tip from which the connecting portion 228 protrudes from the main plate 231. Although not particularly illustrated, the space S1 of the lower bracket 330 is also set to a size that allows the locking projection 245 to enter.
The locking protrusion 245 is formed on the back surface (extraction side) of the enlarged head 530 of the catcher 523 ′ when the first box 200 is slid to the coupling position with the second box 300 as shown in FIG. Lock.
Also in this way, the catcher 523 ′ that has entered the space S1 cannot be removed from the space S1 because the enlarged head 530 is blocked by the locking protrusion 245 in the coupled state of the first box and the second box.

  In addition, by setting the height position of the lower surface that engages with the enlarged head 530 of the locking projection 245 lower than the back surface of the enlarged head 530 in the free state, as shown in FIG. As in the above embodiment, the floating plate 520 ′ can be sunk inward of the sealing cap 500 ′ in the coupled state of the first box 200 and the second box 300. In this case, an inclined surface 246 is provided on the surface of the locking projection 245 that engages with the enlarged head 530 so that the enlarged head 530 is smoothly pushed down during the sliding of the upper bracket 230 ′ with respect to the lower bracket 330. However, an inclined surface may be provided toward the enlarged head 530.

Next, a second embodiment will be described.
The substrate box 30 in the first embodiment described above is slid last from a state in which the first box 200 and the second box 300 are superposed at a position shifted up and down to a combined state, and in the middle of the slide. It is assumed that the sealing is performed by the attached sealing cap 500. However, as a procedure for assembling the substrate box, there are other methods such as a method in which the first box and the second box are stacked from the front without sliding, and one end connected first is hinged. There is also a method in which the other end side is closed from the open state and coupled, and even in such a case, sealing with a sealing cap is possible.
In the second embodiment, a sealing cap is applied to a substrate box that does not include a slide in the joining process.
Here, in order to explain only the sealing portion structure using the sealing cap, the substrate box is shown with a conceptualized simple structure.

30A and 30B show the appearance of the substrate box according to the second embodiment, wherein FIG. 30A is a perspective view seen from the front upper side, and FIG. 30B is a perspective view seen from the rear upper side.
The board box 30A includes a pair of front and back first boxes 200A and a second box 300A. Here, the first box 200A is the upper side, and the second box 300A is the lower side.
Each of the first box 200A and the second box 300A has a planar basic shape of a rectangle and is made of resin.
After the control board is attached to the back side of the first box 200A, the first box 200A and the second box 300A are overlapped and joined together so that the control board is accommodated inside the board box 30A. A socket insertion hole 203 for inserting an external connection socket on the control board is formed on the upper wall of the first box 200A. The control board is not shown.

31A is a plan view of the substrate box 30A, FIG. 31B is a sectional view taken along the line AA-AA in FIG. 31A, FIG. 31C is a sectional view taken along the line AB-AB in FIG. It is AC-AC part sectional drawing in (a). The left side in (a) is the front and the right side is the rear.
In the front part, as shown in (b), the end edge of the front end wall 272 of the first box 200A and the end edge of the front end wall 372 of the second box 300A are in contact with each other to form an overlapping surface. From the inner wall surface of the front end wall 272 of the one box 200A, a back wall 275 of a predetermined size that overlaps with the inner wall surface of the front end wall 372 of the second box 300A extends downward.

At the side, as shown in (c), the side wall 273 of the first box 200A extends downward to the same height as the back wall 275, and a groove 276 extending in the front-rear direction is formed at the edge thereof.
Then, the side wall 373 of the second box 300A is notched on the outer surface side from the edge of the front end wall 372 to a depth corresponding to the height of the back wall 275, and can be fitted into the groove 276 of the first box 200A. The step portion 375 is left on the inner surface side, and the bottom surface of the step portion is an overlapping surface with the side wall 273 of the first box 200A.

At the rear part of the substrate box 30A, as shown in FIG. 4D, the rear end wall 274 of the first box 200A has a hooking part 277 projecting outward from the edge having the same height as the edge of the side wall 273.
The bank portion 278 also protrudes outward in parallel with the hook portion 277 from the upper portion with a predetermined gap from the hook portion 277, and the bank portion 278 has a longer protruding length than the hook portion 277. A reinforcing flange 279 is provided between the upper end of the rear end wall 274 and the bank portion 278 at an appropriate interval.
The rear end wall 374 of the second box 300A has an outer surface that is flush with the outer end surface of the bank portion 278 of the first box 200A, and the upper end hooks inward along the lower surface of the bank portion 278. A portion 377 protrudes.
A receiving wall 378 for receiving the edge of the first box 200A (and the hooking portion 277) extends from below the hooking portion 377 with a predetermined gap.

  Thus, the hooking portion 277 of the first box 200A enters the slit between the hooking portion 377 of the second box 300A and the receiving wall 378, and the hooking portion 377 of the second box 300A is hooked to the first box 200A. The first box 200 </ b> A and the second box 300 </ b> A maintain a coupled state by entering the slit between the portion 277 and the bank portion 278 and engaging the hooks.

When assembling, first, the second box 300A is fitted into the groove 276 of the side wall 273 of the first box 200A in an oblique posture in which the front end wall 272 side of the first box 200A is slightly lifted with respect to the second box 300A. While the wall 375 is fitted, the hooking portion 277 of the rear end wall 274 is positioned in the slit opening between the hooking portion 377 and the receiving wall 378 of the second box 300A.
And when pushing down the front end wall 272 side of the first box 200A while pushing the first box 200A backward relative to the second box 300A, the hooks 277 and 377 are locked together, The edge of the front end wall 272 of the first box and the edge of the front end wall 372 of the second box are overlapped.

In this coupled state, the back wall 275 crosses the overlapping surface K of the front end walls 272 and 372 on the inner surface side. In addition, in the side walls 273 and 373, the fitting wall 375 of the second box crosses the overlapping surface. Since the rear end wall 274 of the first box crosses on the side, the inside of the substrate box 30A cannot be accessed from anywhere in the gap between the overlapping surfaces.
The front end walls 272 and 372 of the first box 200A and the second box 300A are provided with seal forming portions 280 and 380, which will be described later, respectively. By being prevented by 380, the combined state of the first box 200A and the second box 300A is sealed.

The details of the sealing structure will be described below.
FIG. 32 shows the seal forming part of the first box, (a) is a perspective view seen from the front, (b) is a plan view, (c) is a front view, and (d) is an AD-AD arrow in (b). FIG. 4E is a cross-sectional view taken along the line AE-AE in FIG.
On the front end wall 272 of the first box 200 </ b> A, a seal forming part 280 including a first locking part 281 and a locking plate 285 is formed.
As shown in (d) in particular, the first locking portion 281 includes a leg portion 282 that rises vertically forward from the front end wall 272, and a lower portion (second box 300A) parallel to the front end wall 272 from the front end (front end) thereof. And a locking rod 283 extending to the side). Each of the leg portion 282 and the locking rod 283 has a quadrangular cross section. The lower surface of the leg portion 282 is flush with the edge of the front end wall 272.

The locking plate 285 rises from the front end wall 272 with a predetermined gap between it and the first locking portion 281, and has a rectangular locking hole 286 on the tip side. The lower surface of the locking plate 285 is perpendicular to the front end wall 272 and is flush with the edge of the front end wall 272.
Here, the predetermined gap is set to a size that allows the locking rod of the second locking portion 381 in the second box 300A described later to enter.
The front end wall 272 is further formed with a cover bank 226 that surrounds the upper half of the cylindrical opening end of the sealing cap 550 that comes into contact with the front end wall 272 in a sealed state to be described later.

FIG. 33 shows the seal forming part of the second box 300A, (a) is a perspective view seen from the front, (b) is a plan view, (c) is a front view, and (d) is an AF-AF in (b). An arrow figure and (e) are AG-AG section sectional views in (b).
On the front end wall 372 of the second box 300A, a seal forming part 380 composed of a second locking part 381 and a hook part 385 is formed.
In particular, as shown in (d), the second locking portion 381 includes a leg portion 382 that vertically rises forward from the front end wall 372, and an upper side (first box 200A) parallel to the front end wall 372 from the front end (front end). The first locking portion 281 has the same shape and size as the first locking portion 281 except for the direction of the locking rod 383. The upper surface of the leg portion 382 is flush with the edge of the front end wall 372 (the overlapping surface K).

The hook portion 385 includes a leg portion 386 that rises from the front end wall 372 adjacent to the second locking portion 381, and an elastic piece 387 that extends upward from the tip and includes a claw 388 at the tip. The upper surface of the leg 386 is also perpendicular to the front end wall 372 and is flush with the edge of the front end wall.
The claw 388 has a locking surface 389 on the front surface (opposite to the front end wall 372) of the elastic piece 387, and is pointed with an inclined surface 390 upward from the locking surface 389.
The claw 388 of the elastic piece 387 is adapted to be able to enter the locking hole 286 of the locking plate 285 of the first box 200A and can be locked.
The distance from the upper surface of the leg 386 to the locking surface 389 of the claw 388 corresponds to the thickness of the locking plate 285.

The lengths of the leg portions 282 of the first locking portions 281 and the leg portions 382 of the second locking portions 381 are the same, and the rear surfaces of the locking rods 283 and 383 facing the front end walls 272 and 372 are the front ends thereof. It is the same distance L3 from the wall.
The length L2 of the locking rod 283 from the lower surface of the leg portion 282 is set to a value obtained by adding a predetermined length to the vertical width of the leg portion 382. Similarly, the length L2 of the locking rod 383 is equal to the leg length 382. A value obtained by adding a predetermined length to the vertical width of the portion 282 is set. The length of the locking rod including the height of the leg portion is the same L1.
The front end wall 372 is further formed with a cover bank 324 that surrounds the lower half of the cylindrical opening end of the sealing cap 550 that contacts the front end wall 372 in a sealed state, which will be described later.

FIG. 34 shows a sealing cap, (a) is a perspective view seen from the rear, (b) is a plan view, (c) is a rear view, and (d) is a cross-sectional view of the AH-AH section in (c).
The sealing cap 550 includes a cylindrical portion 551 that extends in a substantially square cross section, and a head portion 555 that is connected to the upper end of the cylindrical portion 551 and communicates with the internal space.
The head 555 is closed at the top wall 556, and the lower end of the cylindrical portion 551 is open.
A pair of opposing side walls 557 (557a, 557b) of the head portion 555 are offset outward from the pair of side walls 552 (552a, 552b) of the cylindrical portion 551, and the bottom wall 558 is cylindrical with the side wall 557 of the head portion 555. The side wall 552 of the part 551 is connected.
The other pair of side walls of the head portion 555 is obtained by extending the other pair of side walls 553 (553a, 553b) of the cylindrical portion 551 to be flush with each other.

The distance W1 between the pair of opposing side walls 553a and 553b in the cylindrical portion 551 is such that the second locking portion 381 of the second box 300A is locked between the first locking portion 281 and the locking plate 285 of the first box 200A. The size is set so that the seal forming portions 280 and 380 of both boxes with the rod 383 entered can be passed and accommodated. Here, the first locking portion 281 and the locking plate 285 of the first box 200A are set. This condition is satisfied if and can be passed.
The distance W2 between the other pair of opposed side walls 552a and 552b of the cylindrical portion 551 is set to a value that gives a slight margin to the length L1 of the locking rod 283 (383).

The axial height H of the cylindrical portion 551 (opening from the tip of the cylindrical portion to the internal space of the head 555 from the tip of the cylindrical portion, with the line passing through the center of the cylindrical portion 551 as an axis, connecting the head portion 555 and the cylindrical portion 551. Corresponds to a distance L3 between the rear surfaces of the locking rod locking rods 283 and 383 and the front end walls 272 and 372 of the first locking portion 281 and the second locking portion 381, respectively.
The height of the internal space of the head 555, that is, the height in the axial direction from the bottom wall 558 to the top wall 556 is the longitudinal direction of the locking rods 283 and 383 of the first locking portion 281 and the second locking portion 381, respectively. The width can be accommodated.

The sealing procedure is as follows.
First, in a state where the first box 200A is inclined with respect to the second box 300A, the hooking portion 277 is engaged with the hooking portion 377 of the second box to connect the rear ends of both boxes.
Next, the first box 200A is rotated so that the second locking portion 381 in the sealing formation portion 380 of the second box 300A is between the first locking portion 281 and the locking plate 285 in the sealing formation portion 280. The locking rod 383 is positioned and combined so that the tip (upper end) of the locking rod 383 is flush with the upper surface of the leg portion 282 of the first locking portion 281 as shown in FIG. The front end walls 272 and 372 are brought close to each other.
Since the inclination angle in this state is small, the front end walls 272 and 372 of both boxes are opposed to each other in a substantially vertical direction as shown in FIG.
In the combined form of the seal forming portions 280 and 380, the tip (lower end) of the locking rod 283 of the first locking portion 281 is also flush with the lower surface of the leg portion 382 of the second locking portion 381.
In FIG. 35 (a), among the seal forming portions excluding the seal cap 550, the left side is equivalent to the arrow AD-AD in FIG. 32, and the right side is a cross-sectional view corresponding to the AE-AE portion in FIG. The same applies to (b) and (c) of FIG.

As a result, the contours enclosing the seal forming portions 280 and 380 of both the boxes 200A and 300A including the other locking plates 285 and hook portions 385 are within the range of the length L1 of the locking rod 283 (383). By aligning the longitudinal direction of the head 555 with the extending direction of the locking rod, it is possible to pass through the cylindrical portion 551 of the sealing cap 550.
Therefore, as shown in FIG. 35 (b), the sealing cap 550 is placed on the sealing forming portions 280 and 380 from the opening of the cylindrical portion 551 with the longitudinal direction of the head up and down, and the tip of the cylindrical portion 551 is placed on the front end wall 272, 372 to abut. The locking rods 283 and 383 are located in the head 555.

Then, when the first box 200A is pushed down and overlapped with the second box 300A, the combination form is changed, and as shown in FIG. 35C, the locking rod 383 of the second locking portion 381 is relatively moved. It further protrudes to the 1st box 200A side, and the locking rod 283 of the 1st locking part 281 also protrudes to the 2nd box 300A side. FIG. 36 is a perspective view showing the state where the seal forming portions 280 and 380 are combined, with the seal cap 550 removed.
The protruding locking rods 283 and 383 are locked to the bottom wall 558 within the head 555 of the sealing cap 550, respectively.

The distance between the side walls 557a and 557b of the head 555 is set to be slightly larger than L1 + L2, and the sealing cap 550 is held until one side wall comes into contact with one end of the locking rods 283 and 383 protruding in the vertical direction. Even when displaced, the other locking rod is prevented from being detached from the bottom wall 558.
At the same time, the claw 388 of the hook portion 385 penetrates the locking hole 286 and is locked to the locking plate 285, so that the first box 200A and the second box 300A are connected.
Also, the cover dams 226 and 324 formed on the front end walls 272 and 372 are close to the tip of the cylindrical portion 551 and surround the outer periphery thereof.

As described above, the seal forming portions 280 and 380 are all housed in the seal cap 550.
In order to separate the first box 200A and the second box 300A, the claw 388 and the locking plate 285 must be unlocked, but the sealing cap 550 must be removed to access the locking portion. However, since the locking rods 283 and 383 are locked to the bottom wall 559 of the head portion 555 of the sealing cap, it is impossible to take out the sealing cap, thereby connecting the first box 200A and the second box 300A. Will be sealed.

To release the seal, the seal cap 550 is broken to expose the seal forming portions 280 and 380, and then the hooks 385 of the hook portion 385 and the locking plate 285 are unlocked. Thereby, the front end walls 272 and 372 of the first box 200A and the second box 300A can be pulled apart to open the substrate box 30A.
Therefore, if the sealing is released, the broken sealing cap 550 can no longer be used, and unauthorized opening of the substrate box 30A is prevented.

The second embodiment is configured as described above, and is connected to the first box 200A and the second box 300A, respectively, and is connected to each other at the coupling position of both boxes, and the first box 200A and the first box 200A are connected to each other. A sealing cap 550 that covers the sealing forming portion 280 and the sealing forming portion 380 in the coupled state of the two boxes 300A;
The sealing cap 550 includes a head portion 555 and a cylindrical portion 551 that opens to the bottom wall 558 thereof.
The seal forming part 280 includes a first locking part 281, and the seal forming part 380 includes a second locking part 381,
In the middle of the coupling of the first box 200A and the second box 300A, after the sealing cap 550 is put on the sealing forming portions 280 and 380, the first locking portion is between the first box 200A and the second box 300A until the coupling completion position. A sealing structure is formed in which 281 and the second locking portion 381 are locked to the bottom wall 558 of the sealing cap 550.
More specifically, the seal forming portions 280 and 380 are configured such that the outline of a combination of the first box 200A and the second box 300A in the middle of the connection between the first box 200A and the second box 300A allows the seal cap 550 to pass through. The combination of the seal forming portions 280 and 380 changes between the first box 200A and the second box 300A until the coupling completion position, and the first locking portion 281 and the second locking portion 381 are changed. Since the seal cap 550 is locked with the bottom wall 558 of the seal cap 550 and the seal cap 550 cannot be removed from the first seal forming portions 280 and 380, it cannot be removed.

As a result, after the first box 200A and the second box 300A are joined, the seal cap 550 cannot be removed, so that access to the part where the seal forming parts 280 and 380 are connected to each other is prevented. Since it cannot be released, the connection between the first box 200A and the second box 300A cannot be illegally released.
In addition, since the bottom wall 558 of the sealing cap 550 functions as a mating member (sealing connecting portion) that is locked to the first locking portion 281 and the second locking portion 381 as it is, it is not necessary to provide a separate configuration.

  In particular, the first box 200A and the second box 300A are joined by moving the seal forming portions 280 and 380 in the opposing direction, and the sealing cap 550 covers the seal forming portions 280 and 380 from the direction crossing the opposing direction. Therefore, the combination form of the seal forming portions 280 and 380 connected to the first box 200A and the second box 300A can be directly changed, and the configuration is simple.

That is, the locking rod 283 of the first locking portion 281 in the seal forming portion 280 of the first box 200A extends to the second box 300A side, and the engagement of the second locking portion 381 in the seal forming portion 380 of the second box 300A. The stop rod 383 extends to the first box 200A side, and the seal forming portions 280 and 380 are all accommodated in the seal cap 550 while the combined contour allows the seal cap 550 to pass through, while the first box 200A. In the coupled state of the second box 300 </ b> A, the locking rods 283, 383 project and lock with the bottom wall 558 of the sealing cap 550.
Further, since the seal forming portions 280 and 380 are in the seal cap 550 in the coupled state, it is impossible to release the lock with the bottom wall 558 by cutting them illegally.

  The seal forming part 280 is provided with a locking plate 285, the seal forming part 380 is provided with a hook part 385, and the seal forming parts 280 and 380 are connected to the first box by the hook part 385 and the locking plate 285 being locked to each other. 200A and the second box 300A are connected at the coupling position, but the first locking portion 281 and the locking plate 285 in the seal forming portion 280 are provided independently of each other, and the second locking portion 380 in the second seal forming portion 380 is provided. Since the locking portion 381 and the hook portion 385 are also provided independently of each other, an external force that forcibly removes the sealing cap 550 acts and the first locking portion 281 and the second locking portion 381 are bent. Even if it does, the influence does not reach the hook portion 385 and the locking plate 285, and there is no possibility that the mutual locking is released due to interlocking deformation.

In this embodiment as well, the outer periphery of the front end of the cylindrical portion 551 of the sealing cap 550 is formed by forming the cover banks 226 and 324 on the front end walls 272 and 372 of the first box 200A and the second box 300A to which the sealing forming portions 280 and 380 are connected. However, the front end wall can be made flat without providing a cover bank, and the tip of the cylindrical portion 551 can be simply brought into contact with the flat surface. In this case, it is possible to release the seal by cutting the seal forming part 280 or 380 with a knife or the like from the gap between the cylinder part and the front end wall, and the trace remains in the first box 200A or the second box 300A. As a result, the sealing cap 550 is intact and can be reused.
However, it is more preferable to provide the cover banks 226 and 324 on the front end walls 272 and 372 from the viewpoint of preventing unauthorized release since the seal forming part 280 or 380 cannot be cut from the gap. In this case, in order to release, the sealing cap 550 can only be destroyed as described above.

Next, a modification of the second embodiment will be described. This is a structure in which the locking member and the locking plate, and the locking member and the hook portion in the seal forming portion are respectively integrated into a single structure.
FIG. 37 shows the seal forming part of the first box, (a) is a perspective view seen from the front, (b) is a plan view, (c) is a front view, and (d) is an AJ-AJ arrow in (b). FIG.
A seal forming part 280B is formed on the front end wall 272 of the first box 200A.
In particular, as shown in (d), the seal forming portion 280B includes a leg portion 282 that rises vertically forward from the front end wall 272, and a lower portion parallel to the front end wall 272 from the front end (front end) (the second box 300A side). And a locking rod 283B extending inward. The leg portion 282 has a quadrangular cross section, and the lower surface thereof is flush with the edge of the front end wall 272.

The length of the leg portion 282 is arbitrary, and here, the distance L3b from the front end wall 272 to the rear surface facing the front end wall 372 (and the front end wall 272) of the locking rod 283B is from the front end wall 272 in the second embodiment. It is larger than the distance to the rear surface of the locking rod 283.
The locking rod 283B is made thinner than the leg portion 282 and has elasticity.
A claw 287 is provided in the middle of the locking rod 283B on the front surface (opposite to the front end wall 372), and has an inclined surface 289 below the locking surface 288.

38A and 38B show the seal forming part of the second box, where FIG. 38A is a perspective view seen from the front, FIG. 38B is a plan view, FIG. 38C is a front view, and FIG. FIG. 4E is a cross-sectional view of the AL-AL portion in FIG.
A seal forming part 380B is formed on the front end wall 372 of the second box 300A.
As shown in FIG. 4D, the seal forming part 380B has a leg part 382B that rises vertically forward from the front end wall 372 and upwards (from the first box 200A side) in parallel with the front end wall 372 from the front end (front end). The locking rod 383 extends. The upper surface of the leg portion 382B is flush with the edge of the front end wall 372.
In particular, as shown in (b), the leg portion 382B is provided with a rectangular locking hole 392 and has a gate-shaped planar shape. The locking rod 383 extends from the gate-shaped corner of the leg 382B, and the rear surface and the hole edge far from the front end wall 372 of the locking hole 392 are at the same distance L3a from the front end wall.

The locking hole 392 is adapted to accept the locking rod 283B of the seal forming part 280B on the first box 200A side so that the claw 287 of the locking rod 283B is locked to the hole edge far from the front end wall 372. Is set. That is, the distance L3a from the front end wall 372 to the hole edge matches the distance L4 from the front end wall 272 to the front surface of the locking rod 283B in the first box 200A.
Further, the distance from the lower surface of the leg portion 282 to the locking surface 288 of the claw 287 in the seal forming portion 280B corresponds to the vertical width (thickness) parallel to the front end wall 372 of the leg portion 382B.

The length from the lower surface of the leg portion 282 of the locking rod 283B in the seal formation portion 280B is set to a value obtained by adding a predetermined length to the vertical width of the leg portion 382B of the seal formation portion 380B. The length of the locking rod 383 in the forming portion 380B is set to a value obtained by adding a predetermined length to the vertical width of the leg portion 282 of the seal forming portion 280B, and is the same length.
Cover dikes 226 and 324 can be provided on the front end wall 272 of the first box 200A and the front end wall 372 of the second box 300A as in the second embodiment.

39 shows a sealing cap, (a) is a perspective view seen from the rear, (b) is a plan view, (c) is a rear view, and (d) is a cross-sectional view of the AM-AM portion in (c).
In the sealing cap 550B, the position of the bottom wall of the head portion 555 to which the cylindrical portion 551 is connected differs vertically.
That is, the distance from the tip of the cylinder part 551 to the lower bottom wall 558b is shorter than the distance from the tip of the cylinder part 551 to the upper bottom wall 558a, and the amount of deviation is in the longitudinal direction of the locking rod 283B. As plate thickness.
Similar to the second embodiment, the distance W1 ′ between the pair of opposed side walls 553a and 553b in the cylindrical portion 551 is the state in which the tip end portion of the locking rod 283B enters the locking hole 392 of the leg portion 382B. It is set to a size that allows the seal forming portions 280B and 380B of the first box 200A and the second box 300A to pass through and can be accommodated. Here, the seal forming portion 380B of the second box 300A can pass. This condition is met.
The distance W2 between the other pair of opposing side walls 552a and 552b in the cylindrical portion 551 is set to a value that gives a slight margin to the length of the locking rod 283B (383).

The axial height Ha along the side wall 552a of the cylindrical portion 551 (the length from the tip of the cylindrical portion to the opening of the bottom wall 558a to the internal space of the head portion 555) is that of the locking rod 383 of the seal forming portion 380B. Corresponding to the distance L3a between the rear surface and the front end wall 372,
The axial height Hb along the side wall 552b (the length from the tip of the cylinder portion to the opening of the bottom wall 558b to the internal space of the head 555) is the rear surface of the locking rod 283B of the seal forming portion 280B and the front end wall 272. Corresponding to the distance L3b, the difference is the thickness of the locking rod 283B in the front-rear direction.
Others are the same as the sealing cap 550 of the second embodiment.

  The sealing procedure is the same as in the second embodiment. First, as shown in FIG. 40 (a), the locking rod 283B of the seal forming portion 280B is inserted into the locking hole in the seal forming portion 380B, and the seal forming portion 380B is entered. The front end walls 272 and 372 are brought close to each other so that the front end (upper end) of the locking rod 383 is flush with the upper surface of the leg portion 282 of the sealing forming portion 280B, and the front end (lower end) of the locking rod 283B is also close to the sealing forming portion. It is flush with the lower surface of the leg portion 382B of 380B.

In this state, as shown in FIG. 40B, the sealing cap 550B is put on the sealing forming portions 280B and 380B. Then, when the first box 200A is pushed down and overlapped with the second box 300A, the combination form is changed, and as shown in FIG. , The locking rod 283B is locked to the lower bottom wall 558b of the head 555, and the locking rod 383 is locked to the upper bottom wall 558a.
At the same time, the claw 287 of the locking rod 283B is locked in the locking hole 392 of the leg 382B of the seal forming portion 380B, and the first box 200A and the second box 300A are in a coupled state.
FIG. 41 is a perspective view showing this state where the seal forming portions 280B and 380B are combined with the seal cap 550B removed.

As described above, even in this modified example, the seal forming portions 280B and 380B are all accommodated in the seal cap 550B, and the same effect as that of the second embodiment can be obtained.
Further, since the seal forming portions 280B and 380B are each formed as one member that serves as both a locking portion for connecting the seal forming portions to each other and a locking portion for locking the sealing cap. Compared with this embodiment, there is an advantage that the size of the sealing cap, in particular, the lateral width thereof can be reduced.

In the second embodiment and its modification, the first box and the second box are connected to each other with the first end connected to the hinge as a hinge, and the other end is closed from the open state. Although the substrate box to be described has been described, the present invention can also be applied to the case where the first box and the second box are overlapped and coupled from the front, and in this case, sealing structures may be provided at both ends.
Further, for example, the front end wall 272 protrudes on the slide trajectory of the first box from the upper wall extending in the sliding direction of the upper first box, and the front end wall 372 is disposed on the lower side of the first box. If it considers, it is applicable also to what is slid and combined.

Next, a third embodiment will be described.
In the third embodiment, the configuration of the first sealing portion 34 (see FIG. 3) in the first embodiment is changed, and a seal coupling structure of a new first sealing portion 34A (see FIG. 54) will be described below. Only explained.
The first sealing portion 34A includes an upper bracket 630 extending from the lower end wall 222 of the first box 200 via the connecting portion 228A, and a connecting portion 328A from the lower end wall 322 of the second box 300, as shown in the following drawings. 329A extending through 329A, and the upper bracket 630 and the lower bracket 730 that are overlapped with each other, and a sealing cap 800 that covers the lower bracket 730.
In the following description of the first sealing portion 34A, the upper bracket 630 is arranged along the overlapping direction of the first box 200 and the second box 300, as in the first sealing portion 34 of the first embodiment. The direction in which the lower bracket 730 is overlapped vertically is defined as the vertical direction, the direction in which the connecting portion 228A and the upper bracket 630 extend from the lower end wall 222 is defined as the front, and the reverse direction is defined as the rear. The side closer to the lower end wall 222 is also called the base end (rear side), and the side far from the lower end wall 222 is also called the front end (front side).

42, 43, and 44 show the structure of the upper bracket 630. FIG. 42A is a plan view, FIG. 42B is a rear view, and FIG. b) is a side view. (A) is equivalent to the front view in FIG. 44A is a perspective view seen from above, and FIG. 44B is a perspective view seen from below.
In particular, as shown in FIG. 42, the upper bracket 630 has a substantially rectangular main plate 631 parallel to the overlapping surface of the first box 200 and the second box 300. The main plate 631 has an end plate 632 on the base end (rear) side (side facing the lower end wall 222), and a connecting portion 228A extending from the lower end wall 222 of the first box 200 in the center in the width direction (left and right direction). It is supported by. In other words, the connecting portion 228A also constitutes a part of the upper bracket 630. The front end of the connecting portion 228A protrudes from the front end edge of the rectangular portion 631a of the main plate 631 on the plan view.
The upper bracket 630 is symmetrical with respect to the connecting portion 228A.

As shown in FIG. 43 (b), the upper surface of the connecting portion 228A is perpendicular to the lower end wall 222, and the lower surface is inclined downward from the tip toward the lower end wall 222 and forms a multi-step staircase. . Thereby, similarly to the connection part 228 in the first embodiment, the light emitted from the light emitter in the substrate box 30 is transmitted from the base end of the connection part 228A in the sealed state of the first box 200 and the second box 300. It is guided to the tip.
The upper surface of the main plate 631 is flush with the upper surface of the connecting portion 228A, and the lower surface of the main plate 631 is a predetermined amount from the overlapping edge K of the lower end wall 222 (the abutting surface with the lower end wall 322 of the second box 300). It is shifted upward.
A notch 633 having a predetermined width is formed in the center of the upper side of the end plate 632. As shown in (a) of FIG. 44, the bottom of the notch 633 is raised from the upper surface of the main plate 631 by a predetermined amount with an inclination. This corresponds to the fact that the lower surface of a bracket cover extension 807 (described later) in the sealing cap 800 is inclined and offset from the inner wall surface of the upper wall 812 as shown in FIG. It is a thing.

The main plate 631 includes a protruding portion 631b extending from the rectangular portion 631a with a constant width further forward with a slit 637 having a predetermined width between the main plate 631 and a central connecting portion 228A on a plan view (FIG. 42A). ing. The distal end of the protruding portion 631b is located in the vicinity of the distal end of the connecting portion 228A, the slit 637 is opened forward, and the rear end thereof is located on the proximal side of the front end edge of the rectangular portion 631a of the main plate 631.
The front edge of the side edge of the rectangular portion 631a is inclined, and the width of the front edge is slightly smaller than the base end. On the upper surface of the rectangular portion 631a, a protrusion 636 extends vertically from the end plate 632 toward the tip along the inner side along the side edge.
In the front part of the rectangular part 631a, a rectangular hole 638 whose longitudinal direction is the longitudinal direction is provided on the inner side along the protrusion 636.

A claw 634 having a predetermined width is provided on the upper surface of the protruding portion 631b, with the front surface being an inclined surface 634b and the rear end being a locking surface 634a perpendicular to the upper surface.
On the upper surface of the main plate 631 (rectangular portion 631a), there are provided protrusions 635 (635a to 635e) that are aligned rearward with respect to the claw 634, have the same height as the claw 634, and are wider than the claw 634.
As shown in FIG. 50, a bar 818 (to be described later) of the sealing cap 800 is provided with a notch 819 for allowing the claw 634 to pass when the sealing cap is mounted, and the protrusion 635 fills the notch 819 and the like. Is for.
The planar shape of the protrusions 635a to 635d is rectangular, and the position in the front-rear direction is set so as to be positioned in the notch 819 of the crosspiece 818 of the sealing cap 800 in the sealed state with the sealing cap 800 covered. In particular, the uppermost corner of the front wall is chamfered with a round (R) so that the most advanced protrusion 635a can easily enter the notch 819.
The rearmost protrusion 635e is connected to the front surface of the end plate 632, and its front wall is inclined corresponding to the inner peripheral surface of a later-described hole 815 (see FIG. 48 described later) of the sealing cap 800. It has an arc shape.
As shown in FIGS. 42B and 43A, the cured resin described later leaks under the crosspiece 818a of the sealing cap 800 at the front end edge of the rectangular portion 631a adjacent to the outside of the protruding portion 631b. Barrier protrusions 639 are provided so as not to be present.

As shown in FIG. 44 and the like, a vertical wall 640 extending downward is formed on the lower surface of the main plate 631 so as to be flush with the outer edge of the slit 637. The vertical wall 640 maintains a constant height from the tip of the projecting portion 631b to the vicinity of the back end of the slit 637, and then tilts to a position beyond the back end position. The end plate 632 is connected.
The tip of the protruding portion 631b includes a front edge of the vertical wall 640 and forms a cylindrical surface whose side is retreated.

Two protruding blocks 641 and 642 extending downward from the main plate 631 are formed on the outer surface of the vertical wall 640.
In particular, as shown in FIG. 42 (b), the front projecting block 641 has a rectangular cross section, and its outer surface is a contact surface 641a with a later-described lock piece 745 (see FIG. 45 described later) of the lower bracket 730. The lower end is an inclined surface 641b that is chamfered from the outer edge of the lower end surface of the vertical wall 640 and faces outward (sideward).
The rear projecting block 642 has a cross section whose rear surface is parallel to the lower end wall 222 and whose front side corner is chamfered with a rounded shape, and the rear surface is a locking surface 642a. The locking surface 642a is locked to a rear edge 748a of a recess 748 of a lock piece 745 described later. The lower end forms an inclined surface 642b that is chamfered from the outer edge of the lower end surface of the vertical wall 640 and faces outward in the same manner as the protruding block 641. The amount of outward protrusion of the rear protrusion block 642 from the vertical wall 640 is larger than that of the front protrusion block 641.

As shown in FIGS. 42 to 44, a cover bank 226 </ b> A surrounding the connecting portion 228 </ b> A is provided in a bead shape on the outer surface of the lower end wall 222 of the first box 200. The cover bank 226A is set along the upper edge and the side edge of the flange 806 (see FIG. 51 described later) of the connecting portion cover portion 801 described later in the sealing cap 800.
The outer surface of the lower end wall 222 has a region surrounded by the cover bank 226 </ b> A set back, that is, deeper than the peripheral region.
A notch 227A is formed in the center of the upper side of the cover bank 226A by cutting it to a height of the peripheral region with a predetermined width.
The connecting portion 228A extends upward when the upper surface of the connecting portion 228A reaches the height position of the peripheral region, and is connected to the peripheral region at the notch 227A to form a proximal end side reinforcing support portion 229a.

45, 46, and 47 show the structure of the lower bracket 730 of the second box 300. FIG. 45 (a) is a plan view, FIG. 45 (b) is a back view, and FIG. The front view, (b) is a side view, (c) is a cross-sectional view of the BA-BA section in (a). FIG. 47 is a perspective view.
The lower bracket 730 includes an end plate 731 parallel to the lower end wall 322, a pair of side guide walls 740 extending in the distal direction perpendicular to the lower end wall 322, a pair of lock pieces 745, and a guide base 733. .
The distance between the outer surface of the lower end wall 322 and the end plate 731 is the same as the distance between the lower end wall 222 and the end plate 632 in the first box 200.
As shown in FIGS. 46 and 47, the end plate 731 has an upper side that is the same height as the upper surface of the lower end wall 322 (the mating surface with the first box), and the lower side of the end plate 632 of the upper bracket 630 on the upper side. The basic shape when viewed from the front forms a trapezoid whose upper side is slightly shorter than the bottom, and the lower thirds of both sides are parallel to each other so that the outer peripheral contours are continuous. Yes.

The guide base 733 has an upper wall 734 and a side wall 735 and has a U-shaped cross section that opens downward, and extends from the lower half of the center in the width direction of the end plate 731. The lower end of the guide base 733 ends at a position higher than the lower side of the end plate 731 by a predetermined amount. A claw 736 is formed in contact with the side edge near the tip of the upper surface of the upper wall 734. The claw 736 has an inclined surface 736b at the front and a locking surface 736a parallel to the lower end wall 322 at the rear end.
The lower corner of the tip of the side wall 735 is chamfered with a curved surface so as to be inclined along the inner wall surface of a lower wall 804 (see FIG. 49) described later.

The side guide wall 740 has a lower end at the same height as the lower end of the guide base 733 (side wall 735), a side wall 741 extending inward from the upper side of the end plate 731 by a predetermined width parallel to the side of the end plate 731; It consists of a flange 742 directed from the upper edge to the inside. The side wall 741 and the flange 742 have substantially the same plate thickness.
The height of the upper surface of the flange 742 is set so as to be in contact with the lower surface of the rectangular portion 631a of the main plate 631 when the upper bracket 630 and the lower bracket 730 are overlapped with each other.

On the plan view (FIG. 45A), the front end (front end) of the side guide wall 740 is in a position retracted by a predetermined amount from the front end of the guide base 733. In addition, the end edge (inner edge) of the flange 742 is perpendicular to the end plate 731 (lower end wall 322) in the first half, and then tilts slightly outward toward the proximal end and then becomes vertical again.
The base end side of the upper end (flange 742) of the side guide wall 740 forms an inclined surface 743 that faces slightly toward the front edge of the upper side of the end plate 731 and has the same height as the upper side of the rear end plate 731.
A rectangular recess 744 having a predetermined depth is formed on the upper surface of the flange 742 so as to align with the rectangular hole 638 of the upper bracket 630.

As shown in FIG. 46A, the lower edge of the lock piece 745 is a predetermined amount higher than the upper surface of the guide base 733, and the upper end edge is slightly lower than the upper surface of the flange 742 of the side guide wall 740.
In the plan view, the lock piece 745 extends between the guide base 733 and the side guide wall 740 to the same position as the tip of the guide base 733.
A claw 746 that protrudes outward and extends higher than the upper end surface of the lock piece 745 is provided at the tip of the lock piece 745. The distal end portion of the lock piece 745 including the claw 746 has an arc shape in which the side (outside) recedes. The claw 746 has an inner side surface as a first locking surface 746 a perpendicular to the end plate 731 (lower end wall 322) and the upper end surface of the lock piece 745, and a rear side surface as a second locking surface 746 b parallel to the lower end wall 322. The second locking surface 746 b is located in front of the tip of the side guide wall 740.

  When the upper bracket 630 and the lower bracket 730 are overlapped with each other, the first locking surface 746a of the claw 746 is set to contact the outer edge of the protruding portion 631b of the upper bracket 630, and the tip of the protruding portion 631b The surface and the tip surface including the claw 746 of the lock piece 745 form a cylindrical surface corresponding to an inner wall surface of a pushing portion 824 (see FIG. 51) of the sealing cap 800 described later. In the combined state shown in FIG. 55, which will be described later, the upper bracket 630 and the lower bracket 730 are set such that the height of the claw 746 is flush with the upper surface of the main plate 631 (protruding portion 631b). Yes. That is, the upper end surface 746 c of the claw 746 is formed to be flush with the upper surface of the main plate 631 of the upper bracket 630.

As shown in FIGS. 45A and 46C, recesses 748 and 749 are formed on the inner wall surface of the lock piece 745 so as to be spaced apart in the front-rear direction and extending downward from the upper edge.
The rear recess 749 extends from the base of the end plate 731 to approximately twice the front-rear width of the rear protrusion block 642 in the vertical wall 640 of the upper bracket 630. Front and rear edges 749a inside the recess 749 are curved.
The front concave portion 748 is disposed at a position separated from the concave portion 749 so as to be able to receive the protruding block 642 corresponding to the front-rear width of the protruding block 642. The rear edge portion 748 a of the front concave portion 748 is a wall surface parallel to the end plate 731 (lower end wall 322), that is, perpendicular to the inner wall surface of the lock piece 745. The lengths of the concave portions 748 and 749 in the vertical direction are set so that the protruding block 642 can be received when the upper bracket 630 is superimposed on the lower bracket 730.
When the first box 200 is overlapped with the second box 300 at the preparation position, the rear protrusion block 642 of the upper bracket 630 is received near the front of the rear recess 749, and the front protrusion block 641 is locked to the lock piece 745. It is set to interview the inner wall surface.

In the plan view, the outer surface of the lock piece 745 that faces the side guide wall 740 has a substantially front half portion perpendicular to the end plate 731 (lower end wall 322), and the rear half portion is an inclination of the edge of the flange 742 of the side guide wall 740. Inclined to the base end parallel to the part.
As shown in FIGS. 46C and 47, the base end side of the upper end edge of the lock piece 745 is aligned with the base end side of the upper end of the side guide wall 740 so that the front edge of the upper edge of the end plate 731 is slightly higher. An inclined surface 750 is formed toward the front, and is the same height as the upper side of the rear end plate 731.
The side guide walls 740, the lock pieces 745, and the guide base 733 have the same thickness, and are larger than the thickness of the end plate 731.
As shown in FIGS. 46A and 47, the connecting portion 228A of the upper bracket 630 is passed from the position higher than the upper surface of the guide base 733 to the upper side of the end plate 731 at the center in the width direction of the end plate 731. A notch 732 is formed.

As shown in FIGS. 45 and 47, the connecting portion that connects the lower bracket 730 to the lower end wall 322 of the second box 300 includes two connecting portions 328 </ b> A extending from near the side of the lower end of the end plate 731, and the end plate 731. And a hook-like connecting portion 329A having a notch 732 in the center of the opening as one end opening.
The connecting portion 328A has a fixed rectangular cross section and extends perpendicularly to the lower end wall 322. The left and right width is about the plate thickness of the side guide wall 740, and the vertical width is slightly larger than the left and right width.
The other end of the hook-shaped connecting portion 329 </ b> A opens into the lower end wall 322, and thus the lower end wall 322 is also cut out from the upper side with the same width as the cutout 732. The upper edge of the connecting portion 329A is connected to the upper edge of the lower end wall 322, while the bottom surface of the connecting portion 329A is inclined so that the lower end wall 322 side is lowered corresponding to the lower surface of the connecting portion 228A of the upper bracket 630. The thickness of the connecting portion 329A is approximately the same as that of the end plate 731.

On the outer surface of the lower end wall 322 of the second box 300, a cover bank 324A surrounding the connecting portions 328A and 329A is provided in a bead shape. The cover bank 324A is set along the side wall of a lower wall 804 and a flange 806 (see FIG. 49) of a connecting portion cover portion 801 described later in the sealing cap 800.
The outer surface of the lower end wall 322 is formed so that the region surrounded by the cover bank 324A is set back from the peripheral region and is flush with the region surrounded by the cover bank 226A on the outer surface of the lower end wall 222.
In the region surrounded by the cover bank 324A of the lower end wall 322, base end side reinforcing support portions 325a and 325b for the connecting portions 328A and 329A are formed.

48, 49, 50 and 51 show the structure of the sealing cap 800. FIG. 48 (a) is a plan view, FIG. 48 (b) is a back view, FIG. 49 (a) is a side view, and FIG. (C) is a view from the front end side, (a) in FIG. 50 is a longitudinal sectional view, (b) is a sectional view taken along the line BC-BC in FIG. c) is a BD-BD section sectional view in FIG. 51A is a sectional view of the BE-BE portion in FIG. 49B, and FIG. 51B is an external perspective view.
The sealing cap 800 is colored and transparent made of resin, and includes a bracket cover portion 810 that covers the upper bracket 630 and the lower bracket 730 that are overlapped, and a connecting portion cover portion 801 that covers the connecting portions 228A, 328A, and 329A. ing. The sealing cap 800 may be colorless.
The connecting portion cover portion 801 has a trapezoidal basic cross-sectional shape, and has an upper wall 802, a side wall 803, and a lower wall 804. The inner wall surface of approximately 2/3 of the lower part is set to match the trapezoidal outline of the end plate 731 of the lower bracket 730.

A bracket cover extension 807 having substantially the same width as the hook-shaped connecting portion 329A of the lower bracket 730 extends from the upper wall 812 of the bracket cover portion 810 to the upper open end of the connecting portion cover portion 801. The upper wall 802 is divided into two parts with the bracket cover extension 807 interposed therebetween, and is connected to the bracket cover extension 807 by ribs 808.
The upper surface of the bracket cover extension 807 is slightly lower than the inner wall surface of the upper wall 802, and on the plan view, the side edge of the bracket cover extension 807 facing the connecting portion by the rib 808 and the upper wall 802 opposite to the side edge. A predetermined gap is formed between the edges.
At the opening end of the connecting portion cover portion 801, a flange 806 whose outer edge is perpendicular to the upper wall 802 and the lower wall 804 extends outward from the side wall 803, and the basic shape of the outer peripheral contour is rectangular. The height in the left-right direction of the flange 806 is 0 (zero) in the vertical portion at the bottom of the side wall 803, and each corner of the rectangle is rounded (R).
At the opening end edges of the bracket cover extension 807 and the lower wall 804, a base end side reinforcing support portion 229a (see FIG. 44A) of the connecting portion 228A, and a base end side reinforcing support portion 325a of the connecting portion 328A (see FIG. 45 (a), see FIG. 46 (a)) and notches 805a, 805b for escaping the base end side reinforcing support portion 325b (see FIG. 45 (a), FIG. 46 (a)) of the connecting portion 329A, 805c (see FIG. 48) is provided.

The bracket cover portion 810 has an upper wall 812, a side wall 813, and a lower wall 814. The planar shape is a base side square, the tip side semicircle, the base end side is open, and the tip end side is closed.
The outer wall of the opening end on the base end side corresponds to the inner wall surface of the connecting portion cover portion 801. When viewed from the front, the outer wall extends between the two walls except for the bracket cover extension portion 807. A small gap is provided.
The distance between the inner wall surfaces of the upper wall 812 and the lower wall 814 is set to match the distance between the upper surface of the main plate 631 of the upper bracket 630 and the lower end of the guide base 733 of the lower bracket 730.
The inner wall surface of the upper wall 812 is set to contact the upper surface of the main plate 631 of the upper bracket 630.

According to the trapezoidal shape of the opening end of the bracket cover portion 810, the outer peripheral contours of the upper wall 812 and the lower wall 814 are similar when viewed from above, and in the side view, from the side wall 813 to the lower wall 814 at the tip portion. The corners are chamfered with curved surfaces that bulge outward.
At the lower end of the opening end of the bracket cover portion 810, the outer wall of the side wall 813 is connected to the edge of the side wall 803 of the connecting portion cover portion 801 by a rib 809.
As a result, the connecting portion cover portion 801 and the bracket cover portion 810 are connected to each other only at the four locations of the upper rib 808 and the lower left and right ribs 809.

As shown in FIGS. 48A and 51B, the upper wall 812 is provided with a circular hole 815 having a large diameter extending to the vicinity of the periphery. A ring-shaped jetty 816 having a predetermined height is formed along the opening edge on the upper surface side of the hole 815 so that the axial length of the hole 815 is longer than the basic plate thickness of the upper wall 812.
In particular, as shown in FIG. 50, a virtual spherical surface QQ having a small curvature is set in the hole 815 so that the vertex is lower than the upper end of the ring-shaped jetty 816 at the center of the hole 815. A bridge 817 having a predetermined width is formed on the center line in the front-rear direction passing through the center of the hole 815 on the plan view, and both ends are connected to the inner peripheral surface of the hole 815. The bridge 817 has a lower surface that is flush with the inner wall surface of the upper wall 812, a side surface that is inclined, and a lower surface that is wider than the upper surface.
The bracket cover extension 807 described above is formed by offsetting the upper wall 812 to the height of the ring-shaped jetty 816 and extending backward with the width of the lower surface of the bridge 817.

From both side surfaces of the bridge 817, crosspieces 818 (818a to 818e) having upper edges along the virtual spherical surface QQ extend in the width direction and are connected to the inner peripheral surface of the hole 815.
The five bars 818 are arranged in the front-rear direction, and their lower edges are all in a plane flush with the inner wall surface of the upper wall 812. In particular, notches 819 through which the claws 634 and the protrusions 635 of the main plate 631 of the upper bracket 630 can be passed are formed at the lower edges of the four bars 818b to 818e on the base end side.
Each notch 819 is aligned along the bridge 817 in the front-rear direction. A similar notch 820 is formed on the inner wall surface of the upper wall 812 from the inner peripheral surface of the hole 815 to the opening end of the bracket cover portion 810 in alignment with the notch 819.

In particular, as shown in FIG. 51 (b), the most distal bar 818a similarly has a lower edge in the same plane as the inner wall surface of the upper wall 812, but has no notch. Further, a locking wall 828 parallel to the lower end wall 322 extends downward from the connection side with the inner peripheral surface of the hole 815 of the crosspiece 818a.
Although not particularly illustrated, a recess for receiving a barrier protrusion 639 provided at the front edge of the rectangular portion 631a of the main plate 631 is formed at a height position corresponding to the lower surface of the crosspiece 818a in the locking wall 828.
On the inner wall surface of the upper wall 812, as shown in FIG. 49 (b), a groove 822 corresponding to the protrusion 636 of the upper bracket 630 extends from the open end until it reaches the tip-side semicircular portion of the side wall 813. .

A pair of push-in portions 824 whose outer surfaces are recessed in a predetermined angle range on both sides across the center line in the front-rear direction are formed on the tip semicircular portion of the side wall 813 in a plan view.
The height of the pushing portion 824 is substantially the upper half of the side wall 813, and the inner wall surface of the pushing portion 824 forms a vertical (upper and lower) cylindrical surface 824 a and is flush with the inner peripheral surface of the hole 815. ing. As described above, the cylindrical surface 824a corresponds to the arc-shaped protrusion 631b of the upper bracket 630 and the arc-shaped tip of the lock piece of the lower bracket 730.

As shown in FIGS. 49 (b) and 51 (a), a pair of inner vertical walls extending backward from the semicircular tip of the side wall 813 along the lower surface side edge of the bridge 817 is provided in the sealing cap 800. 826 is formed. The rear end of the inner vertical wall 826 is located between the third and fourth bars 818b and 818c from the base end side corresponding to the approximate center of the hole 815.
The inner vertical wall 826 is set so as to be positioned in the slit 637 of the upper bracket 630 in the sealed state.
A region outward in the width direction from the position where the inner vertical wall 826 is connected to the side wall 813 is the above-described cylindrical surface 824 a that is the inner wall surface of the pushing portion 824. An outer vertical wall 827 connected to the side wall 813 at the outer edge of the cylindrical surface 824a is connected to the inner wall surface of the upper wall 812 and extends rearward in parallel with the inner vertical wall 826. The rear edge of the outer vertical wall 827 is connected to the outer edge of the locking wall 828 described above. That is, the locking wall 828 extends inward from the rear end of the outer vertical wall 827.

A lateral wall 830 parallel to the upper wall 812 and the lower wall 814 extends rearward from the lower end of the pushing portion 824 (cylindrical surface 824a), and the lower ends of the inner vertical wall 826 and the outer vertical wall 827 are side edges of the lateral wall 830, respectively. Connected to. The lower end of the locking wall 828 is also connected to the horizontal wall 830.
The rear edge of the horizontal wall 830 is located between the first and second bars 818d and 818e from the base end side. The inner side edge of the horizontal wall 830 extends in a straight line to the rear end, but the outer side edge is slightly offset rearward from the locking wall 828 and narrows.

As shown in FIG. 51A, a rectangular locking hole 831 is formed along the lower edge of the inner vertical wall 826 in a region of the horizontal wall 830 in front of the locking wall 828.
In the sealed state, the horizontal wall 830 is inserted into a gap between the respective lower ends of the vertical wall 640 of the upper bracket 630 and the lock piece 745 of the lower bracket 730 and the upper wall 734 of the guide base 733 of the lower bracket 730, 831 is set to be engaged with the claw 736 on the guide base 733.
The locking wall 828 is set to be positioned on the rear side of the claw 746 of the lock piece 745 and locked with the second locking surface 746b in the sealed state.

  In addition, the wall for each part in the upper bracket 630, the lower bracket 730, and the sealing cap 800 can be provided with an inclination for die cutting during molding. At this time, particularly in the case of the sealing cap 800, the wall portion is inclined so that the plate thickness is thinner on the opening side (that is, the side facing the assembly partner) than the back end, and the opening side is wider in the space. Therefore, the wall surfaces of the upper bracket 630 and the lower bracket 730 are also inclined surfaces such that, for example, the plate thickness becomes thinner toward the distal end side. Then, it is preferable that the sealing cap 800 is engaged with the lower bracket 730, and further, the first box 200 and the second box 300 are set to be coupled with each other with no looseness in the coupled position.

Hereinafter, the sealing procedure of the first sealing portion 34A made of the above-described member will be described.
First, as a preparation position, the first box 200 is overlaid on the second box 300 while being shifted in the sliding direction with respect to the second box 300.
52A is a side view in this state, and FIG. 52B is a cross-sectional view of the BF-BF portion in FIG. 52A, and main outlines other than the cross section are indicated by phantom lines.
The amount of displacement of both boxes is, for example, positioned so that the end plate 632 of the upper bracket 630 is placed in the vicinity of the upper edge (matching surface) of the lower end wall 322 of the second box 300, and as shown in FIG. The protruding block 642 on the rear side of the vertical wall 640 is received in the concave portion 749 on the rear side of the lock piece 745 of the lower bracket 730. The front protruding block 641 is in contact with the inner surface of the lock piece 745. Since the lower ends of the protruding blocks 641 and 642 are inclined surfaces 641b and 642b, they can be easily stacked.
In this state, the rectangular portion 631 a of the main plate 631 is placed on the flange 742 of the side guide wall 740.

Next, the sealing cap 800 is put on the upper bracket 630 and the lower bracket 730 that are overlapped. That is, with the opening of the coupling portion cover portion 801 of the sealing cap 800 first, the lower wall 814 is inserted from the front end side of the lower bracket 730 along the side guide wall 740 of the lower bracket 730 and the lower end of the guide base 733. Go.
Since the main plate 631 of the upper bracket 630 slides along the inner wall surface of the upper wall 812 from the middle, it can be smoothly inserted simply by pressing the tip of the sealing cap 800. At this time, a claw 634 and a protrusion 635 are formed on the upper surface of the main plate 631, but the seal cap 800 is provided with notches 819 and 820 through which these can be passed. Does not occur. Further, since the groove 822 of the upper wall 812 is guided by the protrusion 636 of the upper bracket 630, left and right shaking does not occur.
First, the horizontal wall 830 of the sealing cap 800 slides between the upper wall 734 of the guide base 733 of the lower bracket 730 and the lower end of the lock piece 745 of the lower bracket 730.

53A shows a state during insertion, and FIG. 53B shows a state after completion of insertion. For simplification, the upper bracket 630 is omitted in FIG.
In the middle of the insertion, although not shown in FIG. 53, the horizontal wall 830 of the sealing cap 800 is formed between the lower end of the vertical wall 640 of the upper bracket 630 and the upper wall 734 of the guide base 733 of the lower bracket 730. Slide between. Then, the claw 634 and the protrusion 635 of the upper bracket 630 pass through the notch 819 of the sealing cap 800, and the locking wall 828 is positioned at the tip of the lock piece 745 of the lower bracket 730 as shown in FIG. , The lock piece 745 is bent, and the locking wall 828 is allowed to move to the rear side of the claw 746 of the lock piece 745.
At this time, the connecting portion 228 </ b> A of the upper bracket 630 relatively enters between the pair of inner vertical walls 826 of the sealing cap 800.

Thus, when the sealing cap 800 is inserted until the opening end surface of the connecting portion cover portion 801 contacts the lower end wall 322 of the second box 300, the lock piece 745 is in the original free state as shown in FIG. Returning to FIG. 2, the locking wall 828 of the sealing cap 800 is locked to the second locking surface 746 b of the claw 746.
Further, the locking hole 831 of the lateral wall 830 is also locked to the claw 736 on the upper surface of the guide base 733.
As a result, the sealing cap 800 is locked with the lower bracket 730 at a total of four locations and cannot be removed.
The distal end of the connecting portion cover portion 801 is surrounded by the cover bank 324A.

Thereafter, the first box 200 is slid toward the coupling position with respect to the second box 300.
The protrusion block 642 of the upper bracket 630 received in the recess 749 on the rear side of the lock piece 745 of the lower bracket 730 is rounded at the front side corner, and the edge of the recess 749 is also curved, so that the recess 749 is smooth. Get over the edge of. The lock piece 745 is elastically deformed so as to bulge outward to allow the protruding block 642 to slide forward on the inner surface of the lock piece 745.

54 to 56 show the state of the first sealing portion 34A in the coupled state, and FIG. 54 (a) shows the relationship between the upper bracket 630 and the lower bracket 730 corresponding to the BF-BF portion in FIG. 52 (a). Sectional view (b) is a plan view showing the relationship between the upper bracket 630 and the sealing cap 800. 55 is a perspective view showing the sealing cap 800 removed at the coupling position, and FIG. 56 is a cross-sectional view corresponding to the BC-BC portion in FIG.
When reaching the coupling position, as shown in FIG. 54A, the protruding block 642 on the rear side of the upper bracket 630 fits into the concave portion 748 on the front side of the lock piece 745 of the lower bracket 730. The projecting block 642 is locked because the rear surface is parallel to the lower end wall 222 and the rear edge 748a of the recess 748 is also parallel to the lower end wall 322.
Further, as shown in FIGS. 54 (b) and 56, the claw 634 on the main plate 631 of the upper bracket 630 elastically crosses the foremost side beam 818a in the hole 815 of the sealing cap 800 to reach the beam 818a. Lock.

Accordingly, the upper bracket 630 cannot be removed from the sealing cap 800 due to the engagement between the claw 634 and the crosspiece 818a of the sealing cap 800, and can not be removed from the lower bracket 730 due to the engagement between the protruding block 642 and the recess 748 of the lock piece 745. . Further, as shown in FIG. 54A, the front protruding block 641 of the vertical wall 640 of the upper bracket 630 supported by the inner vertical wall 826 of the sealing cap 800 abuts against the inner surface of the lock piece 745. 55, the outer edge of the protrusion 631b of the upper bracket 630 contacts the claw 746 (first locking surface 746a: see FIG. 45) of the lock piece 745, so that the tip of the lock piece 745 is It cannot be displaced inward. As a result, it is also possible to prevent the locking wall 828 from being released from locking with the claw 746 by bending the tip of the locking piece 745.
As shown in FIG. 56, the horizontal wall 830 having the locking hole 831 is sandwiched between the lower edge of the entered vertical wall 640 and the lower edge of the lock piece 745 and the upper wall 734 of the guide base 733 and cannot be deformed. Thus, the locking between the locking hole 831 and the claw 736 is not released.
The combination of the first box 200 and the second box 300 is in a sealed state due to the combination of the above-described removal prevention.

In the sealed state, the rectangular hole 638 provided in the main plate 631 of the upper bracket 630 overlaps the rectangular recess 744 of the flange 742 of the lower bracket 730, and the protrusion 635 is placed in the notches 819 and 820 such as the rail 818 of the sealing cap 800. To position.
Further, the cover bank 226 </ b> A of the lower end wall 222 surrounds the tip of the connecting portion cover portion 801 of the sealing cap 800.
In the sealed state, the entire hole 815 of the sealing cap 800 is further filled with the cured resin P. The curable resin P is selected from a resin that is cured by irradiation with light such as ultraviolet rays, a resin that is cured by heating, or a resin that is cured with the passage of time in air, but an irreversible curable resin is preferable.

Since a gap is formed between the crosspieces 818 in the hole 815, the cured resin P extends through the gap to the main plate 631 on the back surface and the upper end surface 746c of the claw 746 of the lock piece 745, and the sealing cap 800 and the upper bracket. 630 and the lower bracket 730 are bonded. Thereby, even when the nail | claw 746 is accessed from the outside, it can prevent that the nail | claw 746 bends and can prevent unauthorized cancellation | release.
On the other hand, the notches 819 and 820 such as the crosspieces 818 are filled with the protrusions 635, so that a large amount of the cured resin P is prevented from flowing in. Thereby, even if the sealing cap 800 is formed in color, the uncured cured resin due to the difficulty of transmitting ultraviolet rays is prevented. Moreover, since the recessed part which receives the barrier protrusion 639 of the rectangular part 631a front edge is formed in the locking wall 828 with which the front end of the rectangular part 631a in the main plate 631 contacts, the cured resin P leaks from the abutting part. There is nothing.
Since the rectangular hole 638 of the main plate 631 faces the gap between the crosspieces 818, the cured resin P further extends from the rectangular hole 638 to the rectangular recess 744 of the flange 742 of the lower bracket 730 and wraps around the peripheral region to the upper bracket. 630 and the lower bracket 730 are also bonded, and a strong bonded state between the sealing cap 800, the upper bracket 630, and the lower bracket 730 is obtained.

In order to properly release the seal of the first sealing portion 34A due to a malfunction or inspection of the main control device 22, first, a rib connecting the connecting portion cover portion 801 and the bracket cover portion 810 in the sealing cap 800 808 and 809 are cut. Since the inner wall surface of the connecting portion cover portion 801 is aligned with the outer wall of the bracket cover portion 810 and has a slight gap, the connecting portion cover portion 801 can be extracted by cutting the ribs 808 and 809.
As a result, the connecting portion 228A or the connecting portions 328A and 329A are exposed. If these are cut with a tool, the first box 200 and the second box 300 can be slid to each other, and the substrate box 30 can be opened.
Therefore, if the seal is released, a trace of cutting the connecting portions 228A, 328A, and 329A, and a trace of cutting the ribs 808 and the like for removing the connecting portion cover portion 801 that conceals them as the previous stage remain.

Therefore, in order to improperly separate the first box 200 and the second box 300, the cured resin P is removed by scraping or the like, and the locking portion between the crosspiece 818 and the claw 634 in the hole 815 portion of the sealing cap 800 is removed. Although we will try to access it, the surrounding crosspiece 818 is thin and has a notch 819 so that it has a fragile structure. Therefore, if you try to remove the cured resin P, it will always be torn off with the cured resin P. Traces remain.
Even if the cured resin P is poured again into the cured resin P that cannot be removed and remains in the hole 815, traces of destruction remain due to the generation of the interface.
In addition, the locking portion between the protruding block 642 of the upper bracket 630 facing the hole 815 and the concave portion 748 of the lock piece 745 is hidden behind the main plate 631 facing the hole 815, so access is possible. I can't.
Although not specifically shown, the second and third sealing portions (36) and (38) are the same as in the first embodiment, and the use of these sealing portions including the first sealing portion 34A is also possible. This is the same as in the first embodiment.

The present embodiment is configured as described above. The upper bracket 630 and the lower bracket 730 are connected to the first box 200 and the second box 300, respectively, and are coupled to each other at the coupling position of both boxes. A sealing cap 800 that covers the upper bracket 630 and the lower bracket 730 in the coupled state of the box 300;
The sealing cap 800 includes a locking wall 828, and the lower bracket 730 includes a locking piece 745 having a claw 746 that locks to the locking wall 828, and sealing is performed in the middle of the first box 200 and the second box 300 being joined. After the cap 800 is put on the lower bracket 730, the sealing cap 800 is configured to be in a positional relationship in which the sealing cap 800 is prevented from being detached by the lock piece 745 between the first box 200 and the second box 300. The sealing structure in which the sealing cap 800 cannot be removed in the combined state of the first box 200 and the second box 300 was formed.

  Thus, after the first box 200 and the second box 300 are joined, the sealing cap 800 cannot be removed, so that the upper bracket 630 on the first box 200 side and the lower bracket 730 on the second box 300 side are mutually connected. Since access to the locked portion is blocked and the locking cannot be released, the coupling between the first box 200 and the second box 300 cannot be illegally released.

  In particular, the lock piece 745 is elastically deformed so that its claw 746 is locked to the locking wall 828 of the sealing cap 800, and the upper bracket 630 is provided with the vertical wall 640, and the first box 200 and the second box 300 are coupled. Since the vertical wall 640 comes into contact with the lock piece 745 in the state, the elastic deformation of the lock piece 745 is restricted after the first box 200 and the second box 300 are joined together, and the claw 746 and the locking wall 828 are fixed. The lock cannot be released, and the sealing cap 800 cannot be removed.

  The sealing cap 800 further includes a lateral wall 830 having a locking hole 831, and the lower bracket 730 includes a guide base 733 having a claw 736 between the first box 200 and the second box 300 until the coupling completion position. The lateral wall 830 is elastically deformed and the locking hole 831 is locked with the claw 736. In a state where the first box 200 and the second box 300 are coupled, the horizontal wall 830 is sandwiched between the vertical walls 640 and the lower edges of the lock pieces 745 and the guide base 733 to restrict elastic deformation, and the locking holes 831 and the claw 736 cannot be unlocked, and the sealing cap 800 cannot be removed.

  The locking hole 831 of the sealing cap 800 is locked with the claw 736 of the guide base 733 from the overlapping direction of the first box 200 and the second box 300, and the locking wall 828 is perpendicular to the overlapping direction. Since the other locking is not released even if an external force is applied to release one of the locking pieces 745, the assembled state of the sealing cap 800 is reliably maintained.

The first box 200 and the second box 300 are moved and coupled to each other in the sliding direction, and the sealing cap 800 is held over the lower bracket 730 from the sliding direction, so that the subsequent first box 200 and second box 300 Joining work becomes easy.
Further, because of the coupling by sliding, it is possible to reduce the gap between the upper bracket 630 and the lower bracket 730 in the sealing cap 800, and a compact sealing structure without backlash can be obtained.

After the first box 200 and the second box 300 are joined together, the hole 815 of the sealing cap 800 is filled with the cured resin and bonded to the upper bracket 630 and the lower bracket 730, so that the sealing structure is more firmly maintained. .
And since the weak part by the thin crosspiece 818 which has the notch 819 and formed the gap | interval between each other is formed in the hole 815 of the sealing cap 800, fraud such as scraping off the filled cured resin was performed. Sometimes the fragile part is damaged at the same time, leaving a trace.

  The first box 200 and the upper bracket 230 are connected by a connecting portion 228A, and the second box 300 and the lower bracket 730 are connected by connecting portions 328A and 329A. The connection of the two boxes 300 can be easily released, but since the cut trace remains, the detection is easy when it is illegally released.

Since the sealing cap 800 includes a connecting portion cover portion 801 that is connected to the bracket cover portion 810 and covers the connecting portions 228A, 328A, and 329A, the connecting portion is subject to accidental damage due to direct external force. It is not.
Since the connecting portion cover portion 801 is formed integrally with the bracket cover portion 810 as a one-part sealing cap 800, the number of components can be reduced.

Further, in the coupled state of the first box 200 and the second box 300, the connecting portion cover portion 801 is surrounded by the cover banks 226 </ b> A and 324 </ b> A so as to be engaged with the first box 200 and the second box 300. Therefore, in addition to being held by the upper bracket 630 and the lower bracket 730 covered by the bracket cover portion 810, the sealing cap 800 is fitted inside the cover banks 226A and 324A on the opening end side of the connecting portion cover portion 801. It is held in place and maintained in a wobble-free installation.
Similarly, since the opening of the connecting portion cover portion 801 is surrounded by the cover banks 226A and 324A, the connecting portions 228A and 328A are removed from the gap between the lower end walls 222 and 322 of the substrate box 30 and the connecting portion cover portion 801 with a cutter or the like. An illegal act of cutting 329A is also prevented.

  Further, the bracket cover portion 810 and the connecting portion cover portion 801 are connected by severable ribs 808 and 809, the inner wall surface of the connecting portion cover portion 801 is larger than the outer wall of the bracket cover portion 810, and the cross-sectional shape is aligned. Therefore, before the ribs 808 and 809 are cut, it is difficult to illegally access the connecting portion 228A and the like from the gap between the bracket cover portion 810 and the connecting portion cover portion 801, while the first box 200 and the second box When the connection of 300 is properly released, the ribs 808 and 809 are cut to separate the connecting portion cover portion 801 from the bracket cover portion 810, and the outside of the bracket cover portion 810 is slid and removed. Access to the connecting portion 228A or 328A, 329A is possible.

  As the sealing part in the embodiment, the first and third sealing parts 34 and 38 of the first example seal the combined state of the first box and the second box forming the substrate box, and the second sealing part 36 Although an example of sealing between the substrate box and the pedestal device (movable base portion) is shown, in the second and third embodiments, an example of sealing the combined state of the first box and the second box forming the substrate box is shown. However, the present invention is not limited to this, and the number and combination of sealing portions are arbitrary.

In the embodiment, the sealing portion is set to the lower end portion of the substrate box. However, the position of the sealing portion may be an upper portion or a side portion of the substrate box.
Further, the insertion direction of the sealing pin into the sealing portion is not limited to the embodiments in the front-rear direction of the substrate box, and may be the left-right direction or the vertical direction.
Alternatively, the present invention can be applied to the sealing of the connection portion between the main board 23 and the wiring connector in the board box, and further, the sealing target is not limited to the board box, and an arbitrary connection state that needs to be sealed. Applicable to structures.

Furthermore, although the embodiment shows an example in which the present invention is applied to a slot machine as a gaming machine, the present invention is not limited to this, and a different type of gaming machine, specifically, a ball-ball type using a gaming ball as a gaming medium. You may apply to a game machine, what is called a pachinko machine, etc. For example, a pachinko machine that unlocks a predetermined number of times when a game ball enters a specific area of a special device, a pachinko machine that generates a right when a game ball enters a specific area of a special device, and other roles You may make it implement as game machines, such as a pachinko machine provided with a thing, an arrangement ball machine, and a sparrow ball.
In addition, a non-ballistic gaming machine, for example, a gaming machine main body supported to be openable and closable on an outer frame, is provided with a storage unit and a capture device, and a predetermined number of game balls stored in the storage unit are obtained by the capture device. It may be implemented as a gaming machine in which a pachinko machine and a slot machine are fused, in which rotation of the reel is started by operating a start lever after being taken in.

Hereinafter, the features of the invention extracted from the above-described embodiments will be described together with effects as necessary.
(1) In a gaming machine provided with a structure formed by combining a first member and a second member,
A first seal forming portion and a second seal forming portion, which are provided on the first member and the second member, respectively, and are connected to each other at the connecting position of the first member and the second member
A cover member that covers the first seal forming part and the second seal forming part in a coupled state of the first member and the second member;
The cover member is provided with a seal connecting portion,
At least one of the first seal forming portion and the second seal forming portion includes a seal locking portion,
In the middle of the coupling of the first member and the second member, after covering the cover member on at least one of the first seal forming part and the second seal forming part, between the first member and the second member until the coupling completion position The seal connecting portion is configured to be in a positional relationship that is prevented from being detached by the seal locking portion,
A gaming machine having a sealing structure in which the cover member cannot be removed in a coupled state of the first member and the second member.
Since the cover member cannot be removed after the first member and the second member are joined, access to the connecting portion between the first seal forming portion and the second seal forming portion is prevented, and the connection cannot be released. The connection between the first member and the second member cannot be illegally released.

(2) The seal connecting part of the cover member can enter between the first seal forming part and the second seal forming part on the moving path of the seal locking part in the middle of the coupling of the first member and the second member. Configured to form a receptive space,
The seal connecting portion that has entered the receiving space in the middle of coupling is locked with the seal locking portion by the subsequent movement of the seal locking portion so that it cannot be detached from the receiving space. The gaming machine according to (1).
Since the seal connecting portion cannot be removed from the receiving space, the cover member cannot be removed.
(3) The seal coupling portion has a coupling hole at a site entering the receiving space,
The gaming machine according to (2), wherein the seal locking portion is locked through the connection hole.
(4) The seal connecting portion has an enlarged head at a site entering the receiving space,
The game machine according to (2), wherein the seal locking portion is locked to a side of the enlarged head that is removed from the receiving space.

(5) The seal connecting portion of the cover member is provided to be displaceable with respect to the main body portion of the cover member,
A part of the first seal forming part or the second seal forming part that interferes with the seal connecting part in the process of entering the receiving space can be avoided by displacement of the seal connecting part. The gaming machine according to any one of (2) to (4).
Even if the first seal forming portion or the second seal forming portion has a portion that interferes with the seal connecting portion, the seal connecting portion can be positioned in the receiving space, so that the degree of freedom in designing the sealing structure is improved. . (6) The seal connecting portion is supported on the main body portion of the cover member via an elastic portion,
An interference part between the seal connecting part and the first seal forming part or the second seal forming part is configured to be slidable with each other, and the seal connecting part moves over the interference part and enters the receiving space by a change in posture thereof. The gaming machine as set forth in (5), characterized in that:
The seal connecting portion can be easily positioned in the receiving space without being displaced by hand.

(7) The game according to any one of (2) to (6), wherein the seal connecting portion that has entered the receiving space is held by the first seal forming portion or the second seal forming portion. Machine.
By holding the seal connecting portion in the middle of the coupling of the first member and the second member, the subsequent coupling operation of the first member and the second member becomes easy.

(8) One of the first seal forming part and the second seal forming part is provided with a seal locking part,
After the cover member is put on at least one of the first seal forming portion and the second seal forming portion in the middle of the coupling of the first member and the second member, the seal locking portion is locked with the seal connecting portion. Configure
The other of the first seal forming portion and the second seal forming portion that does not include the seal locking portion includes a removal restricting portion,
In the coupled state of the first member and the second member, the removal restricting portion restricts the release of the lock between the seal engaging portion and the seal connecting portion, thereby forming a sealing structure in which the cover member cannot be removed. The gaming machine according to (1), characterized in that:
Since the removal restricting portion restricts the release of the lock between the seal locking portion and the seal connecting portion in the combined state of the first member and the second member, the combined state of the first member and the second member cannot be released. . (9) The seal locking portion is elastically deformed between the first member and the second member until the coupling completion position, and is locked with the seal coupling portion.
The gaming machine according to (8), wherein the removal restricting portion is configured to restrict elastic deformation of the seal locking portion in a coupled state of the first member and the second member.
Since the removal restricting portion restricts the elastic deformation of the seal locking portion, the locking of the lock seal connecting portion and the seal locking portion due to the elastic deformation cannot be released, and the cover member is securely held by the second seal forming portion. As a result, it cannot be removed.

(10) The cover member includes a first seal coupling portion and a second seal coupling portion,
The seal locking part is composed of a first seal locking part and a second seal locking part provided in the second seal forming part,
The first seal locking part is elastically deformed and locked with the first seal coupling part, and the second seal coupling part is elastically deformed and locked with the second seal locking part,
The first seal forming part includes a first removal restriction part and a second removal restriction part,
In the coupled state of the first member and the second member, the first removal restricting portion restricts elastic deformation of the first seal locking portion, and the second removal restricting portion restricts elastic deformation of the second seal connecting portion. It is comprised so that it may regulate, The gaming machine as described in (1) characterized by the above-mentioned.
The cover member is held by the second seal forming portion by locking the first seal connecting portion and the first seal locking portion, and by locking the second seal connecting portion and the second seal locking portion, respectively. Since the elastic deformation is restricted by the removal restricting portion and the second removal restricting portion, the cover member cannot be removed more reliably.

(11) The first seal locking portion of the second seal forming portion is locked from the first direction to the first seal connecting portion of the cover member, and the second seal locking portion is the surface of the cover member. The gaming machine according to (10), wherein the gaming machine is configured to be engaged with the second seal connecting portion from a second direction different from the first direction.
Since the locking directions of the first seal connecting portion and the first seal locking portion and the locking directions of the second seal connecting portion and the second seal locking portion are different from each other, an external force that releases one of the locks is applied. However, the other locking is not released, and the assembled state of the cover member is securely held.

(12) The first seal forming portion has a main plate, the main plate forms the second removal restricting portion, and the first removal restricting portion extends in the assembly direction of the cover member along the main plate. The first seal locking portion of the second seal forming portion extends in the same direction as the vertical wall, and is parallel to the distal direction of the lock piece that is elastically deformable in a plane parallel to the main plate. And a second seal locking portion is formed on the upper surface of the guide base extending parallel to the main plate, and is perpendicular to the assembly direction of the upper surface and the cover member. A nail having a locking surface;
The first seal connecting portion of the cover member is a locking wall that is perpendicular to the assembly direction to the second seal forming portion and can be locked with the claw of the lock piece, and the second seal connecting portion is the guide base. The gaming machine according to (10) or (11), wherein the gaming machine is a locking hole that is formed in a lateral wall extending in the assembling direction parallel to the upper surface of the guide base and is capable of locking with a claw on the upper surface of the guide base. .

(13) One of the mutually opposing surfaces of the vertical wall of the first seal forming portion and the lock piece of the second seal forming portion is provided with a first coupling connection portion, and the other is provided with a second coupling coupling portion. prepare for,
(1) The gaming machine according to (12), wherein the first coupling connection portion and the second coupling coupling portion form a claw locking structure in a coupled state of the first member and the second member.
The formation of the claw locking structure makes it impossible to remove the first seal forming part from the coupled state, and the claw locking structure between the first seal forming part and the second seal forming part has the first removal regulating part and the first seal. Since it forms also as a latching | locking part, a structure becomes simple.
(14) The first coupling connecting portion is a ridge extending in parallel with the overlapping direction of the first member and the second member,
The gaming machine according to (13), wherein the second coupling connecting portion is a recess that receives the protrusion.

(15) The cover member has an upper wall that is in contact with the main plate of the first seal forming portion,
Provide a plurality of crosspieces in the hole formed in the upper wall,
The main plate includes a claw that engages with one of the crosspieces in a combined state of the first member and the second member;
The gaming machine according to (13) or (14), wherein the hole of the cover member is filled with a cured resin to seal the coupled state of the first member and the second member.
When an act such as scraping off the filled cured resin for the purpose of illegally unlocking the crosspiece and the claw is performed, the crosspiece is fragile and damaged at the same time, so that traces remain reliably.
(16) The main plate of the first seal forming portion is provided with a through hole that leads the cured resin between the opposing surfaces of the main plate and the second seal forming portion, facing the gap between the crosspieces. (15) The gaming machine as described above.
In addition to the space between the cover member and the first seal forming portion, the second seal forming portion is also in an adhesive state, and the seal is strengthened.

(17) The first member and the second member are moved together in a sliding direction parallel to the overlapping surface, and the cover member is connected to the first sealing forming portion and the second sealing forming portion from the sliding direction. The gaming machine according to any one of (1) to (16), wherein
The gap between the first seal forming portion and the second seal forming portion in the cover member can be reduced, and a compact and free-of-play sealing structure can be obtained.

(18) At least one of the first member and the first seal forming portion and the second member and the second seal forming portion is connected via a connecting portion, and the first member is cut by cutting the connecting portion. The gaming machine according to any one of (1) to (17), wherein the second member can be uncoupled.
By cutting the connecting portion, it is possible to easily release the connection between the first member and the second member, and since the cut trace remains, it is easy to find it when it is illegally released.
(19) The cover member includes a connecting portion cover portion that is connected to a seal forming portion cover portion that covers the first seal forming portion and the second seal forming portion and covers the connecting portion. The gaming machine according to 18).
By being covered by the connecting portion cover portion, the connecting portion is protected from accidental damage.

(20) The first member and the second member are moved together in a sliding direction parallel to the overlapping surface, and the cover member is connected to the first sealing forming portion and the second sealing forming portion from the sliding direction. It is something to put on,
The crosspiece of the cover member is provided in a direction crossing the sliding direction,
The crossing of the claw of the main plate before the coupling of the first member and the second member is provided with a notch that allows passage of the claw of the main plate,
The game according to (15) or (16), wherein a protrusion is provided on the main plate so as to fill a notch provided in the crosspiece in a coupled state of the first member and the second member. Machine.
Assembling of the cover member and the first seal forming portion is facilitated, and a large amount of the cured resin is prevented from being filled.

(21) In a gaming machine provided with a structure formed by combining a first member and a second member,
A first seal forming portion and a second seal forming portion connected to the first member and the second member via a connecting portion, respectively, and connected to each other at a connecting position of the first member and the second member; Forming a sealing structure including a seal forming portion cover portion that covers the first seal forming portion and the second seal forming portion in a coupled state of the members;
Furthermore, it has the connection part cover part which covers the said connection part, The game machine characterized by the above-mentioned.
By cutting the connecting portion, it is possible to easily release the connection between the first member and the second member, and since the cut trace remains, it is easy to find it when it is illegally released. And a connection part is protected from accidental damage by being covered with a connection part cover part.

(22) The gaming machine according to (21), wherein the seal forming part cover part and the connecting part cover part are formed as an integral cover member via an easy-to-cut part.
Since the seal forming part cover part and the connecting part cover part are one part, the number of parts is reduced.
In the case of releasing the coupling between the first member and the second member, it is possible to remove only the connecting portion cover portion by separating the seal forming portion cover portion by cutting the easily cut portion.
(23) The connecting part cover part is cylindrical, and an inner wall surface thereof is formed larger than an outer wall of the seal forming part cover part so as to be able to pass outside the sealing forming part cover part. The gaming machine according to 22).
By detaching the connecting part cover part by sliding the outside of the seal forming part cover part, it is possible to easily access the connecting part while leaving the seal forming part cover part.
(24) The gaming machine according to (23), wherein a cross-sectional shape of an inner wall surface of the connecting portion cover portion is aligned with a cross-sectional shape of an outer wall of the seal forming portion cover portion.
Prior to the cutting of the easily cut portion, it is difficult to illegally access the connecting portion even from the gap between the connecting portion cover portion and the seal forming portion cover portion.

(25) In any one of (21) to (24), in the coupled state of the first member and the second member, the connecting portion cover portion is locked with the first member or the second member. Game machines.
In addition to being held by the first seal forming part and the second seal forming part in the seal forming part cover part, the cover member is also held by the locking of the connecting part cover part and the first member or the second member. Therefore, the attachment state without the wobbling of the cover member is maintained.
(26) The first member and the second member are formed with a surrounding portion corresponding to the peripheral edge of the opening of the connecting portion cover portion, and the connecting portion cover portion is fitted into the surrounding portion to be the first member and the second member. The gaming machine according to (25), wherein the gaming machine is locked.
When the connecting portion cover portion is fitted into the surrounding portion, the locked state is particularly sure.
Furthermore, an illegal act of cutting the connecting portion with a cutter or the like from the gap between the first member and the second member and the connecting portion cover portion is also prevented.

(27) In a gaming machine provided with a structure formed by combining a first member and a second member,
A first seal forming portion and a second seal forming portion, which are provided on the first member and the second member, respectively, and are connected to each other at the connecting position of the first member and the second member
A cover member that covers the first seal forming part and the second seal forming part,
The cover member is provided with a seal connecting portion that can be displaced with respect to the main body,
At least one of the first seal forming portion and the second seal forming portion includes a seal locking portion,
In the middle of the coupling of the first member and the second member, after covering the cover member on at least one of the first seal forming part and the second seal forming part, between the first member and the second member until the coupling completion position The seal connecting portion is configured to be in a positional relationship in which the seal engaging portion is prevented from coming off by the seal engaging portion, and the first member is filled with a cured resin between the main body portion of the cover member and the seal connecting portion at the coupling completion position. The coupling state of the second member is sealed,
A gaming machine, wherein the seal connecting portion is displaced with relative movement of the seal connecting portion and the seal locking portion to the coupling completion position, and the filling space of the cured resin is increased.
Since the seal connecting portion that is prevented from coming off by the seal locking portion and increases the filling space is fixed with the cured resin, the sealing structure is firmly held.

(28) The seal coupling portion is supported on the main body portion of the cover member via an elastic portion,
The seal connecting portion is displaced by being guided by an inclined surface formed on either the seal engaging portion or the seal connecting portion when the seal engaging portion and the seal connecting portion are relatively moved when the cover member is mounted. (27) The gaming machine described above.
In order to increase the filling space of the cured resin, it is automatically displaced when the cover member is mounted without pressing the seal connecting portion by hand.
(29) The seal connecting portion includes a plate-like portion along the wall surface of the main body portion of the cover member, the plate-like portion is located in a hole formed in the wall surface, and the elastic portion is along the hole edge. The gaming machine according to (28), characterized in that one end is connected to the hole edge and the other end is connected to the plate-like portion.
Since the elastic portion is along the edge of the hole, it has a long and narrow shape and can be formed with a characteristic that is particularly easily elastically deformed, so that a high degree of freedom in changing the posture and displacement of the seal connecting portion can be obtained.

(30) The gaming machine according to (29), wherein a weak portion is formed in the plate-like portion of the seal connecting portion.
When fraud such as scraping off the filled cured resin is performed, the fragile portion is also easily damaged at the same time, so a trace remains reliably.
(31) The gaming machine according to (29) or (30), wherein a basic shape of the hole of the main body portion where the plate-like portion of the seal connecting portion is located is circular.
Since the cured resin filled in the holes uniformly reaches every corner, reliable filling can be performed and a stable sealed state can be obtained.

(32) The first seal forming portion and the second seal forming portion can be covered with the cover member in a predetermined combination form in the middle of coupling of the first member and the second member,
The combination form of the first seal forming part and the second seal forming part is changed between the first member and the second member until the coupling completion position, and the seal locking part is locked with the seal connecting part of the cover member. The gaming machine according to (1), wherein the cover member cannot be removed from the first seal forming part and the second seal forming part.
When the seal connecting portion is locked with the seal locking portion, the cover member cannot be removed.

(33) The seal locking portion of the first seal forming portion extends to the second member side, and the seal locking portion of the second seal forming portion extends to the first member side,
The predetermined combination form is a state in which an outline enveloping the first seal forming portion and the second seal forming portion can pass through the cover member,
The first seal formation part and the second seal formation part are all accommodated in the cover member in the middle of the connection of the first member and the second member,
(32) The game according to (32), wherein, in the coupled state of the first member and the second member, the seal locking portion protrudes beyond the contour in the predetermined combination form and locks with the seal connecting portion. Machine.
In the coupled state, since the seal locking portion or the like is in the cover member, it is impossible to release the lock with the seal connecting portion by illegally cutting or the like.
(34) The cover member includes a head portion and a cylindrical portion that is connected to the bottom wall of the head portion and communicates with the internal space, and covers the first sealing formation portion and the second sealing formation portion from the cylindrical portion. Is,
The gaming machine as set forth in (33), wherein the seal connecting portion is the bottom wall.
Since a part of the configuration of the simple cover member functions as the seal connecting portion as it is, it is not necessary to provide a separate seal connecting portion.

(35) The first seal forming portion includes a first connection locking portion, the second seal forming portion includes a second connection locking portion, and the first seal forming portion and the second seal forming portion are the first connection locking portion. 1 connection latching part and 2nd connection latching part are connected in the joint position of the 1st member and the 2nd member by latching mutually,
The sealing engagement portion and the first connection engagement portion of the first seal formation portion are provided independently of each other, and the seal engagement portion and the second connection engagement portion of the second seal formation portion are provided independently of each other. The gaming machine according to any one of (32) to (34), characterized in that:
Even if an external force is applied to forcefully remove the cover member and the sealing latching portion is bent, the first coupling latching portion and the second coupling latching portion are deformed in conjunction with each other and are locked together. There is no risk of losing.

(36) The first seal forming portion includes a first connection locking portion, the second seal forming portion includes a second connection locking portion, and the first seal forming portion and the second seal forming portion are the first connection locking portion. 1 connection latching part and 2nd connection latching part are connected in the joint position of the 1st member and the 2nd member by latching mutually,
The seal locking portion and the first connection locking portion of the first seal forming portion are provided as dual-purpose members, and the seal lock portion and the second connection locking portion of the second seal forming portion are provided as dual-purpose members. The gaming machine according to any one of (32) to (34), characterized in that:
Since the sealing latching portion and the coupling latching portion of the first and second seal forming portions are each a single member, it is possible to reduce the size of the cover member that covers them.

(37) The first member and the second member are joined by moving the first seal forming portion and the second seal forming portion in opposite directions, and the cover member is connected to the first seal forming portion and the second seal. The game according to any one of (1), (32) to (36), wherein the game is placed on the first seal forming part and the second seal forming part from a direction crossing the opposing direction of the forming part. Machine.
Note that “the first seal forming portion and the second seal forming portion are coupled by moving in the opposing direction” is not only the case where the first member and the second member are overlapped and coupled from the front, but one end side is hinged. In this case, the other end side is closed from the open state and coupled.

(38) A gaming machine according to any one of the above (1) to (37), wherein the gaming machine is a pachinko gaming machine. Among them, as a basic configuration of the pachinko gaming machine, an operation handle is provided, and a ball is fired to a predetermined game area in accordance with the operation of the operation handle, and the ball is disposed at a predetermined position in the game area. As a necessary condition for winning a prize (or passing through the operating port), the identification information dynamically displayed on the display device is confirmed and stopped after a predetermined time. In addition, when a special gaming state occurs, a variable winning device (specific winning opening) disposed at a predetermined position in the gaming area is opened in a predetermined manner so that a ball can be won, and a value corresponding to the number of winnings is obtained. Examples include those to which values (including data written on magnetic cards as well as premium balls) are given.

(39) A gaming machine according to any one of the above (1) to (37), wherein the gaming machine is a slot machine. In particular, as a basic configuration of the slot machine, “variable display means for confirming and displaying the identification information after dynamically displaying an identification information string composed of a plurality of identification information is provided, and operation of the starting operation means (for example, an operation lever) is performed. The dynamic display of the identification information is started due to the stop, and the dynamic display of the identification information is stopped due to the operation of the stop operation means (stop button) or after a predetermined time has elapsed. The game machine is provided with special game state generating means for generating a special game state advantageous to the player on the condition that the confirmed identification information at that time is the specific identification information. In this case, examples of the game media include coins and medals.

(40) A gaming machine according to any one of (1) to (37), wherein the gaming machine is a fusion of a pachinko gaming machine and a slot machine. In particular, the basic configuration of the fused gaming machine includes “variable display means for confirming and displaying the identification information after dynamically displaying an identification information sequence composed of a plurality of identification information, and operating operation means for starting (for example, an operation lever). ) Is started due to the operation of (), and the dynamic display of the identification information is stopped due to the operation of the operation means for stop (stop button) or when a predetermined time elapses. Special game state generating means for generating a special game state advantageous to the player on the condition that the fixed identification information at the time of stoppage is specific identification information, and using a ball as a game medium, and the identification information The game machine is configured such that a predetermined number of balls are required at the start of the dynamic display, and a large number of balls are paid out when the special gaming state occurs.

In the first embodiment described above, the substrate box 30 corresponds to the structure in the invention, the first box 200 corresponds to the first member, and the second box 300 corresponds to the second member. The upper bracket 230 corresponds to the first seal forming portion, the lower bracket 330 corresponds to the second seal forming portion, and the claw 242 corresponds to the seal locking portion.
Further, the sealing cap 500 corresponds to the cover member, and the plate holding hole 518 formed in the upper wall 512 of the cap main body corresponds to the hole formed in the wall surface of the main body portion of the cover member.
The floating plate 520 corresponds to a seal connecting portion, the main body plate portion 520a corresponds to a plate-like portion, and the support piece 528 and the folded piece 528a form an elastic portion.
In the sealing cap 500, the cap body excluding the floating plate 520, the support piece 528, and the folded piece 528a corresponds to the body portion of the cover member.
A space S1 in which the catcher 523 of the floating plate is accommodated is a receiving space. And the rectangular hole 525 of the vertical wall 524 corresponds to a connection hole.
The bracket cover portion 510 corresponds to a seal forming portion cover portion, the rib 508 corresponds to an easily cut portion, and the cover dikes 226 and 324 correspond to enclosing portions.
A portion where the slit 521 and the notch 522 of the main body plate portion 520a are formed becomes a fragile portion.

In the modification of the first embodiment, the upper bracket 230 ′ corresponds to the first seal forming portion, and the locking protrusion 245 corresponds to the locking portion.
The floating plate 520 ′ having the enlarged head 530 corresponds to the seal connecting portion.
Others are the same as in the first embodiment.

In the second embodiment, the substrate box 30A corresponds to the structure in the invention, the first box 200A corresponds to the first member, and the second box 300A corresponds to the second member.
The seal forming unit 280 corresponds to the first seal forming unit, and the seal forming unit 380 corresponds to the second seal forming unit. The sealing cap 550 corresponds to the cover member.
In particular, the bottom wall 558 of the sealing cap 550 corresponds to the sealing connecting portion, and the locking rod 283 of the first locking portion 281 and the locking rod 383 of the second locking portion 381 correspond to the sealing locking portion. Further, the locking plate 285 of the seal forming portion 280 corresponds to the first connection locking portion, and the hook portion 385 of the seal forming portion 380 corresponds to the second connection locking portion.

In a modification of the second embodiment, the seal forming part 280B corresponds to the first seal forming part, and the seal forming part 380B corresponds to the second seal forming part.
The claw 287 portion of the locking rod 283B in the seal forming portion 280B functions as a first connection locking portion, and the tip portion of the locking rod 283B functions as a sealing locking portion. Further, the locking rod 383 in the seal forming portion 380B functions as a seal locking portion, and the leg portion 382B having the locking hole 392 functions as a second connection locking portion.
Others are the same as in the second embodiment.

In the third embodiment, the first box 200 corresponds to the first member, and the second box 300 corresponds to the second member. The upper bracket 630 corresponds to the first seal forming portion, the lower bracket 730 corresponds to the second seal forming portion, and the seal cap 800 corresponds to the cover member.
The locking wall 828 of the sealing cap 800 corresponds to the sealing connecting portion (first sealing connecting portion), the lateral wall 830 having the locking hole 831 corresponds to the second sealing connecting portion, and the lock piece 745 having the claw 746 of the lower bracket 730. Corresponds to the seal locking portion (first seal locking portion), and the guide base 733 having the claw 736 corresponds to the second seal locking portion. Then, the vertical wall 640 of the upper bracket 630 that contacts the lock piece 745 is removed from the removal restricting portion (first removal restricting portion), and the vertical wall 640 and the lock piece 745 whose lower edges are opposed to the guide base 733 are removed from the second portion. Corresponds to the Regulatory Department.
The bracket cover portion 810 corresponds to a seal forming portion cover portion, the ribs 808 and 809 correspond to easy-cut portions, and the cover dikes 226A and 324A correspond to enclosing portions.
The protruding block 642 of the vertical wall 640 corresponds to the first coupling connection portion, the recess 748 of the lock piece 745 corresponds to the second coupling connection portion, and the locking surface 642a of the projection block 642 is engaged to the rear edge 748a of the recess 748. The structure to stop corresponds to the claw locking structure.
A claw 634 on the upper surface of the main plate 631 corresponds to a claw that engages with the crosspiece, and a rectangular hole 638 corresponds to a through hole.

  The present invention is particularly useful for ensuring the security of various gaming machines including a board box containing a control board.

DESCRIPTION OF SYMBOLS 1 Slot machine 2 Case main body 3 Front door 4 Locking mechanism 5 Game panel 6 Display window 7 Coin slot 8 Operation part 9 Coin tray 10 Effect display part 11 Hopper apparatus 12 Power supply box 14 Reel 15 Reel unit 20 Main board unit 22 Main Control device 23 Main substrate 24 Small hole 25 Base device 26 Fixed base portion 28 Movable base portion 30, 30A Substrate box 32 Rail 34, 34A First sealing portion 36 Second sealing portion 38 Third sealing portion 40 Bottom plate portion 42 Mounting flange portion 43 hole 44 notch 46 mounting flange part 47 hole 48 mounting frame member 50 mounting surface part 52 leg piece 54, 54a, 54b joint part 55 lower lid part 56 posture holding member 57 claw 60 notch part 62 hole 65 support flange part 67 cover flange 68 Rotating stopper 70, 71 Shaft support plate 73 Shaft hole 75 Lock attachment hole 80 Bottom plate portion 82 Placement portion 84, 85 Side plate portion 86 Rotating shaft portion 87 Contact portion 88 Shaft hole 89 Lock attachment hole 90 Slit groove 100 Sealing block portion 101a, 101b Partition 102 Front wall 103 Rear wall 104 Locking hole 105 Notch 107 Window hole 108 Screw block 109 Screw hole 112 Return part 113 Projection step part 114 Guide groove 116 Area 118 Fixing bracket part 119 Hole 120 Locking part 122 Projection piece 126 Slit 124, 125 Boss Plate part 127 Shaft hole 128 Support pin 129 Recess 130 Reinforcement plate 132 Flat plate part 134 Vertical wall 136 Shaft support plate part 137 Hole 140 Notch hole 142 Window hole 144 Bracket part 145 Insertion hole 200, 200A First box 201 Main board housing part 202 Step part 203 Socket insertion hole 204 Paste Frame 205 Fixed surface 206 Screw hole 207 Flat portion 209 Upper end wall 210 Side wall 211 Rail forming portion 211a Band plate portion 211b Rib 212 Hooking portion 214 Locking block 215 Connection fixing portion 216 Screw hole 222 Lower end wall 226, 226A Cover ridge 226a Upper side portion 226b Side part 227A
228, 228A connecting portion 229, 229a base end side reinforcing support portion 230, 230 ′ upper bracket 231 main plate 232 end plate 233 notch 234 bank portion 235 groove 236 bead 237 slit 238 flange 240, 242 claw 240a, 242a locking surface 240b 242b Inclined surface 245 Locking projection 246 Inclined surface 250 Rectangular block 251 252 Square hole portion 254 Connection portion 255 Cylindrical body 256 Through hole 257 Large diameter hole 258 Small diameter hole 259 Groove 272 Front end wall 273 Side wall 274 Rear end wall 275 Back Wall 276 Groove 277 Hooking portion 278 Bank portion 279 Flange 280, 280B Seal forming portion 281 First locking portion 282 Leg portion 283, 283B Locking rod 285 Locking plate 286 Locking hole 287 Claw 288 Locking surface 289 Inclined surface 300, 30 A Second box 301 Bottom plate portion 302 Rib 304 Fixed block 305 Hole 308 Upper end wall 310 Side wall 311 Rail forming portion 311a Vertical wall portion 312 Hooking portion 316 Locking recess 317 Locking block 318 Slit groove 322 Lower end wall 324, 324A Cover bank 324a Side portion 324b Lower side portion 325a, 325b Base end side reinforcing support portion 326 Notch 328, 328A, 329, 329A Connection portion 330 Lower bracket 331 Base 332 Flat portion 333 Groove groove 334 Connection wall 335 End block 336 Opposing surface 337 Nail accommodation Portion 338, 339 Flange 340 Claw 350 Cover plate 351 Hole 360 Sealing block 361 Bottom wall 362 Side wall 363 Lower wall 365 Cylindrical body 366 Cylindrical hole 367 Expanded portion 368 Notch groove 372 Front end wall 373 Side wall 374 Rear end wall 375 Fitting wall 377 Hooking portion 378 Receiving wall 380, 380B Seal forming portion 381 Second locking portion 382, 382B Leg portion 383 Locking rod 385 Hook portion 386 Leg portion 387 Elastic piece 388 Claw 389 Locking Surface 390 Inclined surface 392 Locking hole 400 Sealing pin 402 First pin 420 Second pin 403 Large diameter portion 404 Small diameter portion 405 Key rib 408 Through hole 409 Large diameter hole 410 Small diameter hole 411 Slit 413 Elastic portion 414 Locking claw 415 Inclined surface 416 Locking surface 417 Notch 421 Large diameter portion 422 Small diameter portion 423 Tube hole 424 Key rib 425 Elastic portion 426 Locking claw 427 Inclined surface 428 Locking surface 500, 500 ′ Sealing cap 501 Connecting portion cover portion 502 Upper wall 503 Side wall 504 Lower wall 505 Projection 506 Flange 507 Cut 508 Rib 509 Notch 510 Bracket cover part 511 Protruding part 512 Upper wall 513 Side wall 514 Lower wall 515 Swelling part 518 Plate holding hole 519 Step part 520, 520 'Free plate 520a Main body plate part 521 Slit 522 Notch 523, 523 'Catcher 524, 524' Vertical wall 525 Rectangular hole 526 Inclined surface 527 Flange 528 Support piece 528a Folding piece 530 Expanded head 550, 550B Sealing cap 551 Cylindrical part 552a, 552b, 553a, 553b, 557a, 557b Side wall 555 Head 556 Top wall 557a, 557b Side wall 558 Bottom wall 630 Upper bracket 631 Main plate 631a Rectangular portion 631b Protruding portion 632 End plate 633 Notch 634 Claw 634a Locking surface 634b Inclined surface 635, 6 5a to 635e Projection 636 Projection ridge 637 Slit 638 Rectangular hole 639 Barrier projection 640 Vertical wall 641, 642 Projection block 641a Contact surface 642a Locking surface 641b, 642b Inclined surface 730 Lower bracket 731 End plate 732 Notch 733 Guide 734 Upper wall 735 Side wall 736 Claw 736a Locking surface 736b Inclined surface 740 Side guide wall 741 Side wall 742 Flange 743 Inclined surface 744 Rectangular recess 745 Lock piece 746 Claw 746a First locking surface 746b Second locking surface 748 Recessed edge 748a Part 749 Concave part 749a Edge part 750 Inclined surface 800 Sealing cap 801 Connection part cover part 802 Upper wall 803 Side wall 804 Lower wall 805a, 805b, 805c Notch 806 Flange 807 Bracket cover extension part 808, 09 Rib 810 Bracket cover part 812 Upper wall 813 Side wall 814 Lower wall 815 Hole 816 Ring-shaped jetty 817 Bridge 818, 818a-818e Crosspiece 819, 820 Notch 822 Groove 824 Push-in part 824a Cylindrical surface 826 Inner vertical wall 828 Locking wall 830 Horizontal wall 831 Locking hole K Overlapping surface P Cured resin QQ Virtual spherical surface S1, S2 Space Z Rotation center axis

Claims (2)

A first member having a first seal forming part; a second member having a second seal forming part; and a third member forming a seal coupling part together with the first seal forming part and the second seal forming part. ,
The third member is provided with a seal connecting portion,
One of the first seal forming part and the second seal forming part is provided with a seal locking part,
The seal locking portion is elastically deformed until the seal coupling portion is formed, and is locked with the seal coupling portion in a state where the seal coupling portion is formed,
The removal preventing part provided on the other side of the first seal forming part and the second seal forming part not provided with the seal locking part prevents the release of the lock in the state where the seal coupling part is formed, Forming a sealing structure in which the third member cannot be removed;
The sealing structure is configured to be able to be released by cutting a predetermined portion, and in a state in which the sealing structure is released, the first member and the second member are configured to leave a trace. Gaming machine.   The game machine according to claim 1, wherein a game is played using a game medium.

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