JP6266739B1 - Wiring holding structure for gaming machines - Google Patents

Abstract

To provide a wiring holding structure for a gaming machine in which the wiring cord is not easily damaged when the wiring cord is passed through the wiring insertion opening. A wiring holding portion provided on a holding plate surface protrudes from one side to the other side to hold a wiring cord X on the wiring holding portion, and on the other side of the wiring holding portion, the wiring cord In the wiring holding structure for a gaming machine having a holding piece 18 that forms a wiring insertion port 22 for inserting X into the wiring holding portion, a corner 46a on the holding plate surface side of the side edge of the holding piece 18 is provided. Make a staircase. According to such a configuration, when the wiring cord X is passed through the wiring insertion port 22, even if the wiring cord X strongly contacts the holding piece 18, the corner 46 a of the holding piece 18 and the wiring cord X are applied at a plurality of locations. Since the load applied to the wiring cord X in contact is dispersed, it is possible to prevent the coating of the wiring cord X from being broken due to contact with the corner portion 46a. [Selection] Figure 10

Description

  The present invention relates to a gaming machine wiring holding structure for holding a wiring cord at a predetermined position inside a casing or the back of a machine in a gaming machine such as a pachinko machine or a slot machine.

  Conventionally, a large number of electrical members (switches or light emitters such as LEDs) and control boards are mounted inside a casing of a slot machine or the back of a pachinko machine. Along with this, so-called wiring cords (power cords) And a lot of harnesses). If such wiring cords are arranged randomly and randomly, the wiring cords may interfere with each other and rub against each other or get entangled. Also, the maintenance work of the control board becomes complicated and the wiring is troublesome. Or an unexpected failure such as disconnection or damage. For this reason, a wiring holding structure for gaming machines (hereinafter also simply referred to as “wiring holding structure”) for holding wiring inside the housing or on the holding plate surface of the back of the machine has been proposed.

  For example, as shown in FIG. 19, a holding piece 180 is disposed so as to straddle the wiring holding portion 150 on the holding plate surface 50 from one side to the other side, and the wiring cord X is connected to the wiring holding portion by the holding piece 180. A wiring holding structure held at 150 is known (for example, Patent Document 1). Such a wiring holding structure is configured to insert the wiring code X into the wiring holding unit 150 from the narrow wiring insertion port 220 formed on the side of the wiring holding unit 150.

Japanese Patent Laid-Open No. 2001-054666 FIG.

  By the way, in the conventional wiring holding structure described above, as shown in FIG. 20, when the wiring cord X is passed through the narrow wiring insertion port 220, the wiring cord X comes into contact with the corner portion 460 of the holding piece 180. Become. Here, in such a conventional wiring holding structure, since the corner portion 460 of the side edge of the holding piece 180 is squared at a right angle, when the operator strongly presses the wiring cord X against the corner portion 460 of the holding piece 180. There is a possibility that the covering of the wiring cord X may be damaged at the corner portion 460.

  The present application has been made in view of such a situation, and an object thereof is to provide a wiring holding structure for a gaming machine in which the wiring cord is not easily damaged when the wiring cord is passed through the wiring insertion slot.

  A first aspect of the present invention is a wiring holding structure for a gaming machine for holding a wiring cord in a wiring holding portion provided on a predetermined holding plate surface inside or on the back side of the gaming machine, wherein the wiring holding A portion extending from one side to the other side, holding the wiring cord in the wiring holding portion, and inserting the wiring cord into the wiring holding portion on the other side of the wiring holding portion A wiring holding structure for a gaming machine comprising a holding piece forming a wiring insertion opening, wherein at least a part of a side edge of the holding piece has a rounded corner at the holding plate surface side. is there. In such a configuration, when the wiring cord comes into contact with the rounded corners of the holding piece, the contact area between the two becomes larger than in the conventional configuration, so that the load applied to the coating of the wiring cord is conventionally increased. Distributed compared to the configuration. For this reason, such a wiring holding structure for gaming machines has an advantage that when the wiring cord is passed through the wiring insertion opening, even if the wiring cord strongly contacts the corner of the holding piece, the coating of the wiring cord is not easily broken. .

  A second aspect of the present invention is a wiring holding structure for a gaming machine for holding a wiring cord in a wiring holding portion provided on a predetermined holding plate surface inside or on the back side of the gaming machine, wherein the wiring holding A portion extending from one side to the other side, holding the wiring cord in the wiring holding portion, and inserting the wiring cord into the wiring holding portion on the other side of the wiring holding portion A wiring holding structure for a gaming machine comprising a holding piece forming a wiring insertion opening, wherein at least a part of a side edge of the holding piece is chamfered at a corner on the holding plate surface side. In such a configuration, when the wiring cord comes into contact with the corner portion of the holding piece, the wiring cord comes into contact with the slope formed at the corner portion by chamfering. Widened compared to the configuration. Therefore, even in such a configuration, the load applied to the coating of the wiring cord is distributed as compared with the conventional configuration. For this reason, such a wiring holding structure for gaming machines has an advantage that when the wiring cord is passed through the wiring insertion opening, even if the wiring cord strongly contacts the corner of the holding piece, the coating of the wiring cord is not easily broken. .

  A third aspect of the present invention is a wiring holding structure for a gaming machine for holding a wiring cord in a wiring holding portion provided on a predetermined holding plate surface inside or on the back side of the gaming machine, wherein the wiring holding A portion extending from one side to the other side, holding the wiring cord in the wiring holding portion, and inserting the wiring cord into the wiring holding portion on the other side of the wiring holding portion A holding piece for forming a wiring insertion opening, wherein at least a part of a side edge of the holding piece is formed with a stepped corner on the holding plate surface side. It is a structure.

  In such a configuration, the corner on the holding plate surface side of the side edge of the holding piece has a stepped shape, and a plurality of corners are formed at the corner, so that the wiring cord contacts the corner. Then, the wiring cord comes into contact with the corner portion at a plurality of locations, and the load applied to the coating of the wiring cord is dispersed. Therefore, even in such a wiring holding structure for gaming machines, when the wiring cord is passed through the wiring insertion port, even if the wiring cord strongly contacts the corner of the holding piece, the advantage that the coating of the wiring cord is not easily broken. There is. Furthermore, in the first aspect and the second aspect described above, it is possible to prevent damage to the coating of the wiring cord. However, since the wiring cord and the corner are in contact at one place, the wiring cord is connected to the wiring insertion port. When passing, there is a concern that the wiring cord may be twisted and disconnected due to friction with the corners. On the other hand, in the third aspect, since the wiring cord and the corner of the holding piece are brought into contact with each other at a plurality of positions, the wiring cord is hardly twisted when the wiring cord is passed through the wiring insertion port, and the wiring cord is disconnected. There is no fear.

  When the wiring holding structure for a gaming machine of the present invention is configured to hold a plurality of the wiring cords in the wiring holding portion, the plurality of wiring cords are held in the wiring holding portion. The wiring insertion port normally has a predetermined width less than the diameter of the wiring cord, and has a diameter of 2 of the wiring cord along the side edge of the holding piece. It has a slit shape that is at least twice as long, and by bending the holding piece in a direction away from the holding plate surface, the wiring insertion opening can be widened to a width that is equal to or larger than the diameter of the wiring cord. It is proposed that it is configured.

  When the wiring insertion port is slit-like as in this configuration, before the previous wiring cord finishes passing through the widened wiring insertion port, the next wiring cord enters the wiring insertion port and the rib and By sandwiching between the holding pieces, it is possible to prevent the wiring insertion port from returning to the normal state after the previous wiring cord has been passed. For this reason, according to such a configuration, it is possible to efficiently pass a plurality of wiring cords through the wiring insertion opening without expanding the wiring insertion opening many times from the normal state.

1 is a perspective view of a reel unit 1 according to Embodiment 1. FIG. 1 is a perspective view of a wiring holding structure of Example 1. FIG. It is a right view which shows the wiring holding structure of Example 1 by carrying out the top plate 5 longitudinally. FIG. 6 is an explanatory diagram illustrating a procedure for inserting a wiring code X into the wiring holding unit 15 in the wiring holding structure according to the first embodiment. In FIG. 3, (a) AA sectional view, (b) BB sectional drawing, (c) CC sectional drawing. FIG. 6 is an explanatory diagram illustrating a contact mode between the wiring cord X and the holding piece 18 when the wiring cord X is passed through the wiring insertion port 22 in the wiring holding structure of the first embodiment. In the wiring holding structure of Example 2, it is explanatory drawing which shows the contact aspect of the wiring code X and the holding piece 18 when passing the wiring code X through the wiring insertion port 22. FIG. It is a right view which shows the wiring holding structure of Example 3 by carrying out the top plate 5 longitudinally. In FIG. 8, (a) AA sectional view, (b) BB sectional drawing, (c) CC sectional drawing. FIG. 10 is an explanatory diagram showing a contact state between the wiring cord X and the holding piece 18 when the wiring cord X is passed through the wiring insertion port 22 in the wiring holding structure of the third embodiment. It is explanatory drawing which shows the wiring holding structure of a modification. (A) is a perspective view of the wiring holding part 15a of Example 4, (b) is a perspective view which shows the wiring holding part 15a by carrying out the holding piece 18 longitudinally. It is the perspective view which looked at the wiring holding structure of Example 4 from the upper part. It is a right view which shows the wiring holding structure of Example 4 by carrying out the top plate 5 longitudinally. They are (a) AA sectional view taken on the line in FIG. 14, (b) BB sectional drawing, (c) CC sectional view. (A) is a top view of the wiring holding structure of Example 4, (b) is a right view which shows the wiring holding structure of Example 4 longitudinally through the top plate 5. FIG. 11 is an explanatory diagram showing a procedure for inserting a wiring code X into a wiring holding portion 15a in the wiring holding structure of Example 4; FIG. 18 is an explanatory diagram illustrating a procedure for inserting the wiring code X into the wiring holding unit 15 a continued from FIG. 17. It is a perspective view of the conventional wiring holding part 150. FIG. FIG. 11 is an explanatory diagram showing a contact state between the wiring cord and the holding piece 180 when the wiring cord X is passed through the wiring insertion port 220 in the conventional wiring holding structure.

  Embodiments of the present invention are described according to the following examples.

  The present embodiment is a wiring holding structure that holds a wiring cord related to a reel unit disposed inside a housing of a slot machine on an upper surface of a top plate of the reel unit. That is, in this embodiment, the upper surface of the top plate of the reel unit corresponds to the holding plate surface according to the present invention.

  FIG. 1 is a perspective view of the reel unit 1 of the slot machine. The reel unit 1 includes a frame 2 as a frame. The frame 2 includes a rectangular bottom 3, a pair of left and right side portions 4 that rise from both left and right ends of the bottom portion 3, and a top plate 5 that is horizontally interposed between the upper ends of the pair of left and right side portions 4. have. As the top plate 5, a plate member made of ABS resin filled with glass fibers is preferably employed in order to increase the rigidity of the frame 2. A stepping motor (not shown) is mounted in the frame 2 and a reel 7 is connected to a rotation shaft of the stepping motor. A rotation detection sensor (not shown) that optically detects the rotation angle of the reel 7 is disposed in the frame 2.

  As shown in FIG. 1, a horizontally long board case 9 is mounted on the top surface of the top plate 5, and a reel control board (not shown) for controlling the rotation of the reel 7 is accommodated in the board case 9. . The reel control board is connected to a wiring cord connected to a stepping motor and a rotation detection sensor, and a wiring code connected to a main control board (not shown) for controlling the game. As shown in FIG. 1, the top plate 5 of the reel unit 1 is provided with a wiring holding portion 15 for holding the wiring cords together on the top surface of the top plate 5. Two wiring holding portions 15 are provided on the right side and the left side of the top surface of the top plate 5, and, as shown in FIG. It can be held in a lying state. Each wiring holding portion 15 is provided with a wiring holding structure for holding the wiring code X in the wiring holding portion 15. The wiring holding structures provided in the four wiring holding parts 15 are all the same.

  As shown in FIGS. 2 and 3, the wiring holding structure disposed in the wiring holding portion 15 is constituted by a holding piece 18 that is integrally formed with the top plate 5. The holding piece 18 extends over the wiring holding portion 15 so as to straddle from the back side to the near side of the wiring holding portion 15 a, and holds the wiring cord X of the wiring holding portion 15 so as to cover the top plate 5 from above. To do. The tip of the holding piece 18 is an open end, and the holding piece 18 has a narrow wiring insertion port 22 for inserting the wiring cord X into the wiring holding portion 15 on the front side of the wiring holding portion 15. Form. The holding piece 18 is a tongue piece having a rectangular shape in plan view, and includes a standing part 40, a horizontal extension part 41, and a proximity extension part 42. The standing portion 40 is erected on the upper surface of the top plate 5 on the back side of the wiring holding portion 15. The horizontal extension part 41 extends horizontally from the upper end of the upright part 40 to the near side and covers the wiring holding part 15 from above. The proximate extension portion 42 has a V-shape in a side view extending obliquely upward after extending obliquely downward from the tip of the horizontal extension portion 41, and the bent portion and the top plate of the proximate extension portion 42 5 is formed with a wiring insertion port 22. The holding piece 18 is configured to be able to tilt the proximity extending portion 42 on the distal end side in the vertical direction by bending in the vertical direction. Further, the top plate 5 is formed with a rectangular opening 44 at a portion facing the holding piece 18 in the vertical direction. The opening 44 is for facilitating integral molding of the top plate 5 and the holding piece 18 by injection molding. The wiring holding portion according to the present invention includes those provided on the opening 44 formed in the top plate 5 as in the present embodiment. That is, the holding plate surface according to the present invention includes not only the plate material but also the opening formed in the plate material.

  As shown in FIGS. 2 and 3, the wiring holding unit 15 is configured to hold the three wiring cords X in a state of being laid in the left-right direction. The three wiring cords X held by the wiring holding portion 15 constitute the same wire harness, and both ends of the three wiring cords X are connected to a common connector (not shown). As shown in FIG. 2, the back side of the wiring holding part 15 is covered by the standing part 40 of the holding piece 18, and the upper side is covered by the horizontal extending part 41 of the holding piece 18. The wiring code X can be inserted only from the wiring insertion port 22 formed on the front side of the wiring holding portion 15. As will be described later, the wiring holding structure of the present embodiment is configured so that the wiring cord X held in the wiring holding portion 15 can be easily extracted in order to enable replacement repair and reuse of the wire harness. Yes.

  As shown in FIG. 3, the wiring insertion port 22 is a portion where the gap between the top plate 5 and the holding piece 18 is the narrowest on the front side of the wiring holding portion 15, and the bend of the adjacent extending portion 42 of the holding piece 18. Is formed between the portion and the top plate 5. The width W of the wiring insertion port 22 is narrower than the diameter D of the wiring cord X in a normal state (a state where the holding piece 18 is not bent). For this reason, the wiring cord X held in the wiring holding portion 15 is not dropped from the wiring holding portion 15 due to vibration or impact applied to the top plate 5. Thus, although the wiring insertion port 22 normally has a width that makes it difficult for the wiring cord X to pass through, the wiring cord X can be easily passed by bending the tip end side of the holding piece 18 upward. Can be widened.

  As shown in FIG. 3, the proximity extending portion 42 of the holding piece 18 that forms the wiring insertion port 22 has a V-shape when viewed from the side, and the top plate 5 is located on the front side and the back side of the wiring insertion port 22. The interval between the holding pieces 18 is tapered toward the wiring insertion opening 22. For this reason, when inserting / removing the wiring cord X into / from the wiring holding portion 15, as shown in FIG. 4, if the wiring cord X is pushed into the wiring insertion port 22 along the top plate 5, the wiring cord X extends adjacently. By pressing the portion 42 and the holding piece 18 bends upward, the wiring insertion port 22 can be widened to a width equal to or larger than the diameter D of the wiring cord X. Thus, in such a wiring holding structure, the wiring code X can pass through the wiring insertion port 22 by pushing the wiring code X into the wiring insertion port 22 along the top plate 5. When inserting / removing from / to the portion 15, it is necessary to press the wiring cord X against the adjacent extension portion 42 of the holding piece 18.

  In the wiring holding structure of the present embodiment, as shown in FIGS. 5A to 5C, both side edges of the proximity extending portion 42 of the holding piece 18 are corners on the upper surface side of the top plate 5. 46 is rounded and rounded. When inserting / removing the wiring cord X, when the wiring cord X is pressed against the adjacent extension portion 42 of the holding piece 18, the wiring cord X comes into contact with the corner portion 46 of the holding piece 18, as shown in FIG. However, in this embodiment, the corner portion 46 has a rounded shape, and the contact area between the wiring cord X and the corner portion 46 is larger than that of the conventional configuration, so that a load applied to the coating of the wiring cord X is increased. Distributed compared to the conventional configuration. Therefore, in the present embodiment, even when the wiring cord X is strongly pressed against the proximity extension portion 42 when the wiring cord X is passed through the wiring insertion port 22, the corner portion 46 of the proximity extension portion 42 is used. There is an advantage that the coating of the wiring cord X is hardly broken.

In this embodiment, the wiring holding structure of the first embodiment is partially changed. In addition, since structures other than the changed part demonstrated below are common in Example 1, about the common structure, the same code | symbol is attached | subjected in a text and a figure, and detailed description is abbreviate | omitted.
In the first embodiment, the side edges of the proximity extension portion 42 of the holding piece 18 are rounded at the corners 46 on the upper surface side of the top plate 5 (see FIG. 6). As shown in FIG. 7, the same corner 46 is chamfered instead of a round shape. In the present embodiment, as shown in FIG. 7, the contact area between the wiring cord X and the corner portion 46 is brought into the conventional configuration by the wiring cord X coming into contact with the slope formed at the corner portion 46 by chamfering. In comparison with the conventional configuration, the load applied to the coating of the wiring cord X is distributed. Therefore, even in the present embodiment, even when the wiring cord X is strongly pressed against the proximity extension portion 42 when the wiring cord X is passed through the wiring insertion port 22, the corner portion 46 of the proximity extension portion 42 is used. There is an advantage that the coating of the wiring cord X is hardly broken.

  In the present embodiment, the shape of both side edges of the proximity extending portion 42 of the holding piece 18 is changed from the first embodiment. In addition, since the other structure is common in Example 1, about the common structure, the same code | symbol is attached | subjected in a text and a figure, and detailed description is abbreviate | omitted.

  As shown in FIG. 8, even in this embodiment, the width W of the wiring insertion port 22 is normally smaller than the diameter D of the wiring cord X, so that the wiring cord X is connected to the wiring insertion port 22. In order to pass, it is necessary to press the wiring cord X against the adjacent extension portion 42 and bend the holding piece 18 upward to widen the wiring insertion port 22. Here, in this embodiment, as shown in FIG. 9, the staircases that are reduced in width toward the upper surface of the top plate 5 on the upper surface side of the top plate 5 are formed on both side edges of the proximity extending portion 42 of the holding piece 18. A corner 46a is formed, and two corners 49a and 49b that are squared at right angles are formed inside and outside the corner 46a. The stepped corner portion 46a is continuous over the entire length of the adjacent extension portion 42, and the corner portion 46a extends in the extending direction of the holding piece 18 between the two steps of the corners 49a and 49b. A straight groove 48 extending along the line is formed.

  According to such a configuration, as shown in FIG. 10, when the wiring cord X is pressed against the close extension portion 42, the wiring cord X abuts against the inner and outer corners 49 a and 49 b of the corner portion 46 at two locations. The load applied to the coating of the wiring cord X is divided into two. Therefore, even in the present embodiment, even when the wiring cord X is strongly pressed against the proximity extension portion 42 when the wiring cord X is passed through the wiring insertion port 22, the corner portion 46 a of the proximity extension portion 42 is used. There is an advantage that the coating of the wiring cord X is hardly broken.

  Further, when this embodiment is compared with the first and second embodiments, in the first and second embodiments (see FIGS. 6 and 7), the wiring cord X and the corner portion 46 are in surface contact at one location. When passing the wire through the wiring insertion port 22, there is a concern that the wiring cord X may be twisted and disconnected due to friction with the corner portion 46. On the other hand, in the present embodiment (see FIG. 10), the wiring cord X and the corner 46a of the holding piece 18 are in contact with each other at two locations, so that when the wiring cord X is strongly pressed against the adjacent extension portion 42, the wiring There is an advantage that the cord X is difficult to twist and the wiring cord X is not likely to be disconnected.

  FIGS. 11A to 11C show a wiring holding structure of a modified example in which the wiring holding structure of the third embodiment is partially changed. Hereinafter, each modified example will be described. Since the configuration other than the changed portion described below is the same as that of the third embodiment, the same reference numerals are used in the text and the drawings for the common configuration, and detailed description will be given. Omitted.

  FIG. 11A is a modification in which the shape of both side edges of the proximity extending portion 42 of the holding piece 18 is changed. Specifically, in this modification, the corners 46b on the upper surface side of the top plate 5 on both side edges of the proximity extending portion 42 are formed in three steps, and the corner 46b includes three steps. The corners 49a, 49b, 49c are formed on the inside, outside, and center. In such a modified example, when the wiring cord X is pressed against the proximity extension portion 42, the wiring cord X contacts the three corners 49a, 49b, 49c of the corner portion 46b at three locations. The load applied to the coating can be divided into three. As described above, the stepped corner portion according to the present invention is not limited to two steps, and may have three or more stepped shapes.

  FIG. 11B is a modification in which the shape of the proximity extending portion 42 of the holding piece 18 is changed. Specifically, in the present modification, a wide concave groove 47 is formed in the central portion on the side facing the top surface of the top plate 5 in the proximity extending portion 42. As in this modification, the shape of the central portion of the holding piece according to the present invention is not particularly limited as long as stepped corners are formed on both side edges, and can be appropriately changed.

  FIG. 11C is a modification in which roundness is given to the inner and outer corners 49a and 49b of the stepped corner 46a. Thus, the stepped corners according to the present invention may be rounded at some or all corners. In the third embodiment, the stepped corner 46a is bent at a right angle. However, the stepped corner according to the present invention is not limited to a bent corner at a right angle, and the corner has an acute angle. Or it may be bent at an obtuse angle.

  This embodiment is obtained by changing the position of the wiring holding portion and the configuration of the wiring holding structure from the third embodiment. Configurations not mentioned in the following description are the same as those in the third embodiment. For this reason, about the common structure, the same code | symbol is attached | subjected in a text and a figure, and detailed description is abbreviate | omitted.

  In the present embodiment, as shown in FIG. 12, the wiring holding portion 15 a is provided on the upper surface of the top plate 5 on the near side of the substrate case 9. The wiring holding portion 15a is configured to hold the three wiring cords X in a state of being laid in the left-right direction. The three wiring cords X held by the wiring holding portion 15a constitute the same wire harness, and both ends of the three wiring cords X are connected to a common connector (not shown). The wiring holding structure for holding the wiring cord X in the wiring holding portion 15a includes a front end 17 of the substrate case 9, a holding piece 18a extending from the front end 17 to the front, and the top plate 5. And a pair of raised ribs 20 extending back and forth along the left and right side edges of the holding piece 18a. In addition, although the reinforcing rib 21 extended in the left-right direction is also formed in the upper surface of the top plate 5 around the wiring holding portion 15a, the reinforcing rib 21 is a dedicated rib for reinforcing the top plate 5, It does not have a function of holding the wiring code X. Further, as will be described later, the wiring holding structure of the present embodiment is configured such that the wiring cord X held in the wiring holding portion 15a can be extracted in order to enable replacement repair and reuse of the wire harness.

  As shown in FIGS. 12 to 15, the holding piece 18 a is formed integrally with the substrate case 9, and extends on the wiring holding portion 15 a so as to straddle from the back side of the wiring holding portion 15 a to the near side. Narrow wiring for holding the wiring cord X of the wiring holding portion 15a so as to cover the top plate 5 from above and inserting the wiring cord X into the wiring holding portion 15a on the front side of the wiring holding portion 15a. The insertion port 22 is formed. The holding piece 18a is a tongue piece having a rectangular shape in plan view, and extends horizontally from the front end 17 of the board case 9 to the front side to cover the wiring holding portion 15a, A separating extension that bends upward at the tip of the horizontal extension 23 and extends obliquely upward toward the near side; and a most advanced portion 25 that extends substantially horizontally from the tip of the spacing extension; Consists of. And this holding piece 18a is formed so that the separate extension part and the most advanced part 25 can be tilted up and down by bending the horizontal extension part 23 up and down. In addition, the holding piece 18a is formed with a small protrusion 26 that protrudes toward the top surface of the top plate 5 at the tip of the horizontal extension 23, and the holding piece 18a is reinforced on the base end side of the holding piece 18a. For this purpose, reinforcing ribs 27 are formed.

  As shown in FIGS. 12 to 15, the pair of raised ribs 20 are formed on the top surface of the top plate 5, and are formed on the front and rear sides along the left and right edges of the holding piece 18 a. The raised ribs 20 are formed integrally with the top plate 5, and the pair of raised ribs 20 are provided at symmetrical positions around the holding piece 18a and have a symmetrical shape. The raising rib 20 is formed from the front side of the substrate case 9 over the entire length of the holding piece 18 a and extends to the front end of the top plate 5. More specifically, the raised rib 20 has a relatively low low wall portion 29 formed so as to cross the wiring holding portion 15a from the near side of the substrate case 9, and a relatively high height formed on the near side of the wiring holding portion 15a. The high wall portion 31 and the inclined wall portion 30 formed between the low wall portion 29 and the high wall portion 31 and continuously inclined from the height of the low wall portion 29 to the height of the high wall portion 31 are configured. The In addition, as shown in FIG. 13, the raising rib 20 is formed in the outer side of the both-sides edge of the holding piece 18a, and does not overlap with the holding piece 18a in the up-down direction.

  As shown in FIGS. 12 and 13, the wiring insertion port 22 is on the front side of the wiring holding portion 15 a and is formed between the side edge portion of the holding piece 18 a and the upper end portion of the raised rib 20. And the gap between the raised ribs 20 is the narrowest part. As shown in FIGS. 14 and 15 (b), the wiring insertion port 22 is in a normal state (a state in which the holding piece 18a is not bent), and is separated from the distal end side of the horizontal extending portion 23 of the holding piece 18a. The base end side of the raised rib 20 is formed in a portion overlapping with the inclined wall portion 30 on the left and right. In the normal state, the wiring insertion opening 22 has a width that makes it difficult for the wiring cord X to pass therethrough so that the wiring cord X does not fall off the wiring holding portion 15a due to vibration or impact, but the holding piece 18a is bent upward. Thus, the wiring cord X can be widened to a width that allows easy passage.

  The wiring insertion port 22 will be described in detail. As shown in FIGS. 16 (a) and 16 (b), the holding piece 18a and the raised rib 20 are normally longer than the length D of the diameter D of the wiring cord X, as shown in FIGS. It overlaps to the left and right over L. And in the part which the holding piece 18a and the raising rib 20 overlap on right and left, the clearance gap between the holding piece 18a and the raising rib 20 becomes the fixed width W narrower than the diameter D of the wiring cord X. For this reason, the wiring insertion port 22 normally has a constant width W that is narrower than the diameter D of the wiring cord X, and is a slit that continues back and forth over a length L that is twice or more the diameter D of the wiring cord X. It has a shape. As described above, the wiring insertion port 22 has a shape in which the wiring cord X cannot normally pass through, but as shown in FIG. 14, the holding piece 18a is bent upward so that the wiring insertion port 22 is connected to the wiring cord. The wiring cord X can be easily passed through the wiring insertion port 22 by expanding the width to a width equal to or larger than the diameter of X.

  As shown in FIG. 14, on the front side of the wiring insertion port 22, the separation extending portion 24 of the holding piece 18 a inclined downward toward the wiring insertion port 22 and the horizontal high wall portion 31 of the raising rib 20, The interval between the holding piece 18 a and the raised rib 20 is configured to be tapered toward the wiring insertion port 22. According to such a configuration, when the wiring cord X is passed from the outside to the wiring insertion port 22, the wiring cord X can be easily moved to the narrow wiring insertion port 22 by the guiding action of the separation extending portion 24 and the high wall portion 31. Can be reached. Furthermore, the wiring cord X passes through the wiring insertion port 22 by pushing the wiring cord X into the narrow portion between the spaced extension 24 and the high wall portion 31 and bending the holding piece 18a upward. It can be widened to a possible width.

  Further, as shown in FIG. 14, on the back side of the wiring insertion port 22, the horizontal extending portion 23 of the horizontal holding piece 18 a and the inclined wall portion 30 of the raising rib 20 that is inclined upward toward the wiring insertion port 22. Thus, the interval between the holding piece 18 a and the raised rib 20 is configured to be tapered toward the wiring insertion port 22. According to this configuration, when the wiring cord X is passed from the wiring holding portion 15 a to the wiring insertion port 22, the wiring cord X is narrowed by the guide action of the horizontal extension portion 23 and the inclined wall portion 30. Can be easily reached. Furthermore, the wiring cord X passes through the wiring insertion opening 22 by pushing the wiring cord X into the narrow portion between the horizontal extension portion 23 and the inclined wall portion 30 and bending the holding piece 18a upward. It can be widened to a possible width.

  With reference to FIGS. 17 and 18, a procedure for inserting / removing the wiring cord X into / from the wiring holding portion 15a will be specifically described. As described above, since the three wiring cords X held in the wiring holding portion 15a constitute the same wire harness, the three wiring cords X are collectively connected to the wiring holding portion 15a. Insert and remove.

  When inserting the wiring cord X into the wiring holding portion 15a, first, as shown in FIG. 17A, the wiring cord X is picked on the outside (on both sides or one side) of the raising rib 20, and the holding piece 18a is moved to the outermost position. It inserts between the front-end | tip part 25 and the high wall part 31 of the raising rib 20. As shown in FIG. In this state, when the wiring cord X is pushed inward, as shown in FIG. 17B, the wiring cord X is moved to the wiring insertion port 22 by the guiding action of the separation extending portion 24 and the high wall portion 31. It can be easily reached. Furthermore, the wiring cord X passes through the wiring insertion port 22 by pushing the wiring cord X into the narrow portion between the spaced extension 24 and the high wall portion 31 and bending the holding piece 18a upward. It can be widened to an easy width. For this reason, if the picked wiring cord X is pushed further into the back side, as shown in FIG. 18 (a) → 18 (b) → 18 (c), the widened wiring insertion port 22 is passed through and the wiring cord X can be inserted up to the wiring holding portion 15a.

  When extracting the wiring code X from the wiring holding portion 15a, the procedure reverse to that at the time of insertion is performed. That is, as shown in FIG. 18 (c) → 18 (b), the wiring cord X held in the wiring holding portion 15a is picked on the outside (both sides or one side) of the raising rib 20 and pulled up to the near side. Accordingly, the wiring cord X can easily reach the wiring insertion port 22 by the guiding action of the horizontal extension portion 23 and the inclined wall portion 30. Furthermore, the wiring cord X passes through the wiring insertion opening 22 by pushing the wiring cord X into the narrow portion between the horizontal extension portion 23 and the inclined wall portion 30 and bending the holding piece 18a upward. It can be widened to an easy width. For this reason, if the picked wiring cord X is further lifted to the near side, as shown in FIG. 18 (a) → 17 (b) → 17 (a) The code X can be extracted from the wiring holding part 15a.

  Thus, in the wiring holding structure of the present embodiment, the interval between the holding piece 18a and the raised rib 20 is formed so as to taper from the near side toward the wiring insertion port 22. For this reason, simply inserting the wiring code X from the front side toward the wiring insertion port 22 widens the wiring insertion port 22 to a width that allows the wiring code X to pass through, and inserts the wiring code X into the wiring holding portion 15a. it can. Further, in the wiring holding structure of the present embodiment, the interval between the holding piece 18 a and the raised rib 20 is formed to be tapered from the wiring holding portion 15 a toward the wiring insertion port 22. For this reason, it is possible to widen the wiring insertion port 22 to a width that allows the wiring code X to pass by simply pulling the wiring code X forward from the wiring holding portion 15a, and to remove the wiring code X from the wiring holding portion 15a. it can.

  Further, in this embodiment, the wiring insertion port 22 is formed between the holding piece 18 a and the end of the raised rib 20, and is formed at a position separated from the top surface of the top plate 5 by the height of the raised rib 20. ing. Therefore, as shown in FIGS. 17 and 18, when passing the wiring cord X through the wiring insertion opening 22, the wiring cord X is firmly picked up by the abdomen of the finger without causing the finger to interfere with the upper surface of the top plate 5. There is an advantage that you can work in.

  Further, in the present embodiment, the holding piece 18a is composed of a separation extending portion 24 that extends obliquely upward toward the front side, a horizontal extending portion 23 that extends substantially horizontally, and a foremost portion 25. In all the portions of the holding piece 18a, the holding piece 18a extends in a direction not close to the top surface of the top plate 5. According to this configuration, by pulling the wiring cord X of the wiring holding portion 15a obliquely upward toward the wiring insertion port 22, the wiring cord X can be passed through the wiring insertion port 22 without being hooked on the holding piece 18a. . For this reason, according to the wiring holding structure of the present embodiment, the wiring cord X can be extracted from the wiring holding portion 15a by a one-step operation of pulling the wiring cord X obliquely upward.

  Further, in the present embodiment, the raising rib 20 is inclined upward from the wiring holding portion 15 a toward the wiring insertion opening 22 at the site where the inclined wall portion 30 is formed. According to such a configuration, when the wiring cord X is extracted from the wiring holding portion 15a, the inclined wall portion 30 exerts an effect of guiding the wiring cord X to the height of the wiring insertion port 22. The wiring cord X can be smoothly pulled out from the wiring holding portion 15 a without being hooked on the wiring 20.

  In this embodiment, the wiring insertion port 22 normally has a width W narrower than the diameter D of the wiring cord X, and is twice or more the diameter D of the wiring cord X along the side edge of the holding piece 18a. It forms a slit shape continuous over the length L of. According to this configuration, when the wiring code X is passed through the wiring insertion port 22, the next wiring code X enters the wiring insertion port 22 before the previous wiring code X finishes passing through the widened wiring insertion port 22. Thus, by sandwiching between the holding piece 18a and the raising rib 20, it is possible to prevent the wiring insertion port 22 from returning to the normal state after the previous wiring cord X has passed. For this reason, in the present embodiment, a plurality of wiring cords X can be efficiently passed through the wiring insertion port 22 without increasing the width of the wiring insertion port 22 many times from the normal state.

  In the present embodiment, the raised rib 20 is not only formed on the front side of the wiring holding portion 15a, but also formed so as to cross the wiring holding portion 15a from the back side to the front side. Is held above the top surface of the top plate 5 by the height of the low wall portion 29 of the raised rib 20 in the wiring holding portion 15a. For this reason, in this embodiment, when the wiring cord X is extracted from the wiring holding portion 15a, the wiring cord X held in the wiring holding portion 15a can be firmly picked not by the tip of the finger but by the belly portion of the finger. There is an advantage that it can be performed (see FIG. 18C).

  Further, in the present embodiment, as shown in FIG. 14, a small protrusion 26 protruding in the upper surface direction of the top plate 5 is formed at the tip of the horizontal extension 23 of the holding piece 18a. In such a configuration, when the wiring cord X is inserted into the wiring holding portion 15a, a light response can be obtained at the small protrusion 26, so that the wiring cord X has been normally inserted up to the wiring holding portion 15a. , There is an advantage that the operator can confirm surely by response. Here, as shown in FIG. 15B, the small protrusions 26 are formed on the inner side of both side edges of the holding piece 18a. For this reason, in the part where the small protrusion 26 is formed, stepped corners 46c that are reduced in width toward the top surface of the top plate 5 are formed on both side edges of the holding pieces 18a. In the corner portion 46c, two-step corners are formed on the inner side and the outer side. According to this configuration, when the wiring cord X contacts the small protrusion 26, the wiring cord X contacts the inner and outer corners of the corner portion 46c at two locations, so that the load applied to the coating of the wiring cord X is divided into two. The Therefore, in this embodiment, even when the wiring cord X is strongly pressed against the small protrusion 26 of the holding piece 18a when the wiring cord X is passed through the wiring insertion port 22, the corner portion 46c of the holding piece 18a. Thus, there is an advantage that the coating of the wiring cord X is hardly broken. As described above, the present invention may be such that only the portion of the corners on the both side edges of the holding piece that the wiring cord comes into strong contact with is locally formed in a stepped shape.

  Further, the wiring holding structure of the present embodiment has the wiring insertion port 22 formed on the front side of the wiring holding portion 15a, so that the top plate is compared with the conventional configuration in which the wiring insertion port is formed above the wiring holding portion 15a. The height of the wiring holding structure with respect to 5 can be suppressed, and the space above the top plate 5 can be used for other purposes as much as the wiring holding structure is not bulky.

  Further, in the present embodiment, the raising rib 20 not only functions as a wiring holding structure but also has a function of reinforcing the top plate 5, and therefore, the amount of the top plate 5 corresponding to the arrangement of the raising rib 20 is provided. It is possible to reduce the thickness or reduce the number of dedicated ribs that reinforce the top plate.

  Although the embodiment of the present invention has been described above, the wiring holding structure for a gaming machine of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the gist of the present invention.

  For example, the above embodiment is an example in which the top surface of the reel unit of the slot machine is the holding plate surface according to the present invention. The holding plate surface according to the present invention is the back surface of the front door or the surface of the substrate case. It may be. That is, the holding plate surface according to the present invention is not limited to a horizontal surface such as the top surface of the top plate, and may be an inclined surface or a vertical surface. Further, the present invention is not limited to the wiring holding structure of the slot machine, but can be similarly applied to the wiring holding structure of the pachinko machine.

  In addition, the wiring holding unit 15 according to the above embodiment holds the three wiring cords X constituting one set of wire harnesses. However, the number of wiring cords held in the wiring holding unit according to the present invention and The type, thickness, and shape are not particularly limited, and a plurality of wiring cords may be bundled together.

5 Top plate 9 Substrate case 15, 15a, 150 Wiring holding part 17 Front side end part 18, 18a, 180 Holding piece 20 Raising rib 22, 220 Wiring insertion slot 23 Horizontal extension part 24 Spacing extension part 25 Most advanced part 26 Small protrusion 28 Proximal extension 29 Low wall 30 Inclined wall 31 High wall 40 Standing part 41 Horizontal extension 42 Proximity extension 44 Opening 46, 46a, 46b, 46c, 460 Corner 47 Groove 48 groove 49a, 49b, 49c angle 50 holding plate surface X wiring cord

Claims (1)

A wiring holding structure for a gaming machine for holding a wiring cord in a wiring holding part provided on a predetermined holding plate surface inside or behind the gaming machine,
Extending the wiring holding part from one side to the other side, holding the wiring cord in the wiring holding part, and inserting the wiring cord into the wiring holding part on the other side of the wiring holding part A holding piece for forming a wiring insertion port for
A wiring holding structure for a gaming machine, wherein at least a part of a side edge of the holding piece has a stepped corner on the holding plate surface side.

Images