JP2019126642A - Game machine - Google Patents

Abstract

To provide a game machine having high designability.SOLUTION: A slot machine 10 includes an illumination unit 50. The illumination unit 50 includes a front cover 52 and a front edge of the front cover 52 is a design part 54. The design part 54 is composed of a light-shielding part 56 in which light is shielded by a light-shielding layer formed by evaporating alumina on a surface of a base material, and a light transmission part 58 formed by separating the light-shielding layer by applying laser beams to the light-shielding layer. A front of the design part 54 is a flat surface in which height of a projection is limited. An inner lens 66 provided separately from the design part 54 is disposed behind the design part 54. A lens cut for refracting and scattering illumination light is performed on at least one surface of the inner lens 66.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a gaming machine such as a slot machine installed in a game hall such as a pachinko parlor.

  A slot machine is widely known as a game machine installed in a game arcade such as a pachinko parlor. The slot machine is provided with a design panel (design section) in which a model name and a pattern of characters are described, and the design is improved by illuminating the design panel from the back side. In addition, Patent Document 1 below describes an example in which the design characteristic is divided into a plurality of areas, one of the sections is translucent, the other is a half mirror, and so on. ing.

  As described in Patent Document 2 below, for example, it may be considered to peel off the deposited layer using a laser beam in order to make the optical characteristics of each section of the design part different as described above. That is, a vapor deposited layer (light shielding layer) having a light shielding property is formed on a transparent base material, and the deposited layer is irradiated with a laser beam to peel off the deposited layer, the remaining portion of the deposited layer (laser light The portion not irradiated) is a light shielding portion, and the portion where the vapor deposition layer is peeled off (the portion irradiated with laser light) is a light transmitting portion.

JP2011-135941A JP 2014-046152

  However, when the vapor deposition layer is peeled off using laser light, there is a problem that the laser light cannot be irradiated in the intended range. That is, in order to irradiate the laser light in the intended range, it is necessary to change the relative positional relationship between the laser light and the target (work) to which the laser light is irradiated. It is not practical to move the apparatus because the apparatus is complicated and large in size and high in cost. Therefore, only the irradiation angle of the laser beam is changed without moving the work and the generation position of the laser beam.

  However, when changing the irradiation angle of the laser beam, if there is a protrusion in the vicinity of the irradiation destination, it becomes a shadow of the protrusion and the laser beam can not reach the portion where the laser beam is desired to be irradiated There is a problem of being irradiated. Moreover, when the lens cut which refracts and scatters illumination light is given to the back surface of the design part, there also exists a problem that a laser beam will be refracted by a lens cut and it will be irradiated to the unintended range. And if laser light cannot be irradiated to the range intended in this way, the designability will be lowered.

  The present invention has been made in view of the above background, and an object thereof is to provide a gaming machine with high designability.

In order to achieve the above object, the gaming machine of the present invention provides:
A design part having a light-shielding part shielded by the light-shielding layer and a light transmission part formed by irradiating the light-shielding layer by irradiating laser light, and a design part arranged on the back side of the design part to illuminate the design part In a gaming machine equipped with a light source,
The surface that forms the light transmission part of the design part is a flat surface in which the height of the protrusion is limited so as not to hinder the laser light irradiated when forming the light transmission part,
Between the design part and the light source, an inner lens provided separately from the design part and provided with a lens cut that refracts and scatters illumination light from the light source is provided. It is a feature.

  The inner lens may be formed in a plate shape, and lens cuts having different aspects may be applied to the front surface on the design portion side and the rear surface on the light source side.

  The surface on the opposite side to the surface forming the light transmission part of the design part is the light transmission part of the design part in order to limit the refraction angle of the laser light irradiated when forming the light transmission part. It may be a flat surface substantially parallel to the surface to be formed.

  In the present invention, the surface forming the light transmitting portion of the design portion is a flat surface in which the height of the protrusion is limited so as not to inhibit the laser light irradiated when forming the light transmitting portion. There is no possibility that the laser beam cannot reach the shadow of the projection or that the projection is irradiated with the laser beam. Further, according to the present invention, since the inner lens in which the lens cut is performed is provided separately from the design portion, the laser light is refracted by the lens cut as compared with the case where the lens cut is performed in the design portion. There is no such thing as being irradiated to the part that is not. Thereby, according to this invention, a design can be improved by irradiating a desired range with a laser beam.

  In the present invention, since the inner lens is provided separately from the design portion, lens cutting can be performed on both surfaces of the inner lens. If the lens cut modes of these two surfaces are made different, a more complicated illumination light refraction mode can be reproduced, and the design can be further improved.

  The light transmitting portion of the design portion is formed on the surface opposite to the surface forming the light transmitting portion of the design portion in order to limit the refraction angle of the laser light irradiated when forming the light transmitting portion. If the flat surface is substantially parallel to the surface to be formed, the design property can be further improved by preventing the laser light from being refracted when exiting the design portion and being irradiated to an unintended portion.

It is an outline view of a slot machine. It is an external view of the shutter of an open position. It is an external view of the shutter of a closed position. It is an exploded view of a shutter. It is explanatory drawing which shows the area | region made to function as a half mirror, and the area | region made to function as a light-shielding part. It is a rear view of a shutter. It is explanatory drawing which shows a mode that suction / discharge is performed from a thermal radiation hole with the movement of a shutter. It is an external view of an electrical decoration unit. It is an exploded view of an electrical decoration unit.

  As shown in FIG. 1, the slot machine (game machine) 10 includes a storage box 11 and a front door 12, and a game machine main body is configured of these. In the storage box 11, a reel unit in which a plurality of reels are unitized, a hopper device for paying out medals, and a setting change for changing a setting of the slot machine 10 (changing a setting regarding advantages and disadvantages for a player) A main board provided with a button and a setting change key (or a keyhole for inserting the setting change key) is stored. The front door 12 is divided into an upper door 12a and a lower door 12b, and the upper door 12a and the lower door 12b are respectively pivotally attached to the storage box 11 and supported openably and closably.

  On the front surface of the upper door 12a, a liquid crystal display 15 for displaying various images, and a transparent window 16 for visualizing the reel are provided. A plurality of types of symbols are arranged on the outer peripheral surface of the reel. When the reel is stopped, three symbols are displayed for each reel through the transparent window 16.

  The lower door 12b has a medal insertion slot 22 for inserting medals, a bet button 23 (operation member) operated when betting a credited medal, and a start lever 24 (operation member) operated when starting a game. ), Stop buttons 26a to 26c (operation members) for stopping the rotating reels, a medal tray 28 for receiving medals paid out from the hopper device, and a clearing button 29 (operation for clearing credited medals) Member).

In the slot machine 10, the start lever 24 is activated when a medal is betted by inserting a medal into the medal insertion slot 22 or by operating the bet button 23, and the game starts when the activated start lever 24 is operated. Be done. When the game is started, a winning combination lottery is executed to determine any one of the plurality of winning combinations or a lost, and the reel starts to rotate. When the rotation speed of the reel reaches a constant speed and steady rotation is performed, the operation of the stop buttons 26a to 26c is activated, and when the activated stop buttons 26a to 26c are operated, the reel corresponding to the operated stop button is stopped. It can be done. When all the reels are stopped and the symbol combination corresponding to the winning combination determined in the winning combination lottery is displayed, the winning combination is won, and the process corresponding to the winning winning combination (winning process) Is executed.
<Mechanical performance of operation button>
In the slot machine 10, the mechanical performance of each of the operation members such as the operation button and the operation lever is determined in consideration of the application and the arrangement position, and the operation resistance of the bed button 23 (operation (press ) Is set larger than the operation resistance force of the stop buttons 26a to 26c.

  The bet button 23 and the stop buttons 26a to 26c are operation members operated in accordance with the progress and execution of the game. The bet button 23 is operated almost every game, and the stop buttons 26a to 26c are operated every game. The operation frequencies of the bet button 23 and the stop buttons 26a to 26c are approximately the same.

  On the other hand, with regard to the bet button 23, the operation unit (operation surface) faces upward and is operated by tapping from above, so the player is not only easy to apply power, but the weight of the operation unit is that of the operation unit. Since it is added in the operation direction, there is a high possibility of malfunction.

  On the other hand, with regard to the stop buttons 26a to 26c, the player faces the front (horizontal direction, side) and is operated from the front (horizontal direction, side) so that the player operates. Not only is it difficult to add the possibility of malfunction due to the weight of the operation unit. Further, the stop buttons 26a to 26c are required to be easy to operate and to be accurate in order to stop the reel at the position aimed at.

  In consideration of such circumstances, in the present embodiment, the operation resistance of the bet button 23 is set larger than the operation resistance of the stop buttons 26a to 26c. In other words, the operation resistance of the stop buttons 26 a to 26 c is set smaller than the operation resistance of the bet button 23.

  Specifically, the operation resistance of the bet button 23 is about 1.0N, and the operation resistance of the stop buttons 26a to 26c is about 0.7N.

  By increasing the operation resistance of the bet button 23, it is possible to obtain an effect such as preventing a malfunction. Further, by reducing the operation resistance of the stop buttons 26a to 26c, the force required to operate the stop buttons 26a to 26c can be reduced, so that an effect of reducing the player's fatigue can be obtained. In particular, the effect of alleviating fatigue when the player plays a game for a long time is large.

  In the present embodiment, the area of the operation surface of the bet button 23 is larger than that of the stop buttons 26a to 26c.

  Furthermore, in the present embodiment, the operation detection distance of the bet button 23 and the stop buttons 26a to 26c (the distance indicating which operation is detected when the operation unit is moved from the initial position) is 1 mm. Yes. However, due to variations in part dimensions and the like, this operation detection distance may have an error of, for example, about ± 0.2 mm.

  In this embodiment, the operation stroke of the bet button 23 and the stop buttons 26a to 26c (the distance indicating how much the operation unit can be moved from the initial position) is 2 mm.

  Furthermore, in this embodiment, as the bet button 23 and the stop buttons 26a to 26c, the double amplitude is 1.5 mm, the vibration frequency is 10 to 15 Hz, the vibration period is 3 to 5 minutes, and the operation direction of the operation unit is 10 minutes. A malfunction (time when it is detected that it is operated even though it is not operated) when applying the vibration of 1 ms or less is used.

In the present embodiment, the bet button 23 and the stop buttons 26a to 26c are those having a malfunction of 1 ms or less when an impact of 70 m / s ² is applied three times in the operation direction of the operation unit. There is.

  In this embodiment, the operation resistance force of the bet button 23 is set to be larger than the operation resistance force of the stop buttons 26a to 26c. However, the operation resistance force of the bet button 23 and the stop buttons 26a to 26c is described. Further, the operation resistance force of the bet button 23 and the stop buttons 26a to 26c may be made common, such as 0.7N or 1.0N. By doing this, it is possible to prevent giving a sense of discomfort when operating. In particular, when the player plays a game for a short time, the above-described effects become remarkable.

  Further, in the present embodiment, the example in which the operation resistance force of the bet button 23 and the stop buttons 26a to 26c is defined has been described. Not only operating members that are operated with the progress and execution of the game like the stop buttons 26a to 26c, but also operating members (effect buttons) that are operated with the progress and execution of the production, and settings such as volume and light quantity It includes various operation members such as operation members operated with the operation and the above-mentioned setting change button.

  Also, in general, the effect button with the operation unit facing upward (operated from above) is often continuously hit compared to the effect button with the operation unit facing forward (horizontal direction, side direction). For this reason, with respect to the effect button (or the effect button to be repeatedly hit) with the operation unit facing upward, the operation unit is set to any one within the range of 0.6N to 0.8N, for example. It is preferable to improve the operability by making the operation resistance smaller than the effect button or the bet button 23 facing forward (horizontal direction, side direction).

  On the other hand, there are relatively few cases where the operation button is directed forward (horizontal direction, side direction), for example, a notification that the operation right has acquired the right to enter an advantageous gaming state by operating the operation button. It is relatively often operated when it is operated in a single shot (such as once), and when it is an opportunity for the player to improve interest. Therefore, there is also a problem that if the operation resistance is small and the operation feeling is weak, it is not possible to enliven the interest sufficiently. For this reason, with respect to the effect button (or the effect button that is not repeatedly hit or the effect button that is operated when it becomes an opportunity for the player to be more interesting) with the operation unit facing forward (horizontal direction, side), For example, it is preferable to increase the operation resistance more than the effect button or the bet button 23 with the operation unit facing upward, such as setting the operation resistance to about 5 N, to improve the operation feeling.

  In addition, as the production button has a larger area on the operation surface of the operation unit, a scene with a higher expectation level (a scene in which a transition to a particularly advantageous gaming state among advantageous gaming states or a transition to an advantageous gaming state may occur). There is a tendency to be operated in a scene notified with high probability. For this reason, it is preferable that the operation resistance of the effect button is determined according to the size of the operation surface of the operation unit, that is, the operation resistance is increased as the area of the operation surface increases.

  Of course, regardless of the type of effect button, the operation resistance of the effect button may be uniformly set larger than other operation members (for example, the bet button 23).

  In addition, if the setting change button has a small operation resistance, for example, there may be a case where an injustice such as operating a piano wire or the like from a gap is performed. For this reason, when the operation member is the setting change button, it is preferable to set the operation resistance to be larger (for example, set to about 1.5 N) than that of the other operation members (for example, the bet button 23).

  Note that the setting change button has a high possibility that the above-described fraud is performed if the area of the operation surface is large. Therefore, the area of the operation surface is changed to another operation member (for example, the bet button 23 or the stop button 26a). ~ 26c) (when the operation surface is circular, the diameter is about 10 mm).

  As described above, the operation resistance force of each operation member takes into consideration the direction of the operation unit, the use of the operation member (what kind of scene and purpose is operated), the area of the operation surface of the operation unit, etc. It is preferable to determine.

Of course, in addition to (or instead of) the operation resistance force, the operation detection distance and operation stroke of each operation member also take into account the direction of the operation unit, the use of the operation member, the area of the operation surface of the operation unit, etc. It is preferable to determine.
<Shutter>
As shown in FIGS. 1 to 3, the slot machine 10 is provided with a pair of shutters 30 (moving members) on the left and right. In addition, the shutter 30 is substantially symmetrical with respect to the shape, and the function of each part is common to the left and right. Therefore, the parts of the shutter 30 and the shutter 30 are given the same reference numerals on the left and right to share the description.

  As shown in FIG. 1, the shutter 30 is disposed in front of the liquid crystal display 15, and as shown in FIG. 2, the open position where the end portions 32 (end portions and facing portions) are separated from each other, and FIGS. As shown in FIG. 3, the end portions 32 are provided slidably (movable) between closed positions facing (approximated or in contact with) each other. Thus, in this embodiment, when the shutter 30 is closed, the end portion 32 of one (one side) shutter 30 approaches or contacts the end portion 32 of the other (opposite side) shutter 30. That is, in the present embodiment, the end 32 of one shutter 30 functions as an end of the present invention, and the end 32 of the other shutter 30 functions as an opposing part of the present invention.

  As shown in FIG. 4, the shutter 30 includes an outer panel 34 (exterior body, front cover), a back cover 36, a light source substrate 38, and an inner panel 40 (design member). The outer panel 34 is formed in a box shape whose opening is directed to the back side, and constitutes an exterior of the front side of the shutter 30. The back cover 36 is formed in a plate shape, and is disposed behind the outer panel 34 so as to close the opening on the back side of the outer panel 34.

  The light source substrate 38 and the inner panel 40 are housed in the space formed between the outer panel 34 and the back cover 36. The light source substrate 38 has a plurality of LEDs 42 (light sources) disposed on the front surface. Further, the inner panel 40 is formed so as to cover the light source substrate 38 from the front side, and is illuminated by the LEDs 42 from the rear side.

  In the shutter 30, the inner panel 40 and the outer panel 34 are formed of a light transmitting material, and the outer panel 34 transmits light from the inside to the outside and reflects light from the outside. It is configured to function as a mirror (semi-transmissive part).

  Specifically, in the present embodiment, the outer panel 34 is formed by depositing aluminum on the surface of a base made of a light-transmitting material to form a vapor deposition layer (light shielding layer), and then forming dots on the light shielding layer. It is formed by applying a laser peeling process. The dot laser peeling process repeats the process of irradiating laser light to a fine spot-like area and peeling off the light shielding layer at this position while changing the peeling position (laser beam irradiation destination). It is processing.

With such a configuration, when the LED 42 is turned on, light from the inner panel 40 illuminated by the LED 42 is transmitted through the outer panel 34, so that the inner panel 40 is transmitted (transmitted) through the outer panel 34. It becomes visible (easy to see). On the other hand, when the LED 42 is turned off, only the outer panel 34 illuminated by the external light is viewed (the inner panel 40 becomes invisible (difficult to view)). Thus, the designability can be improved by switching which of the outer panel 34 and the inner panel 40 is to be viewed.
<Integrity of the design of the inner panel>
Further, as shown in FIG. 5, in the slot machine 10, the left and right inner panels are formed so that when the shutter 30 is closed, the left and right inner panels 40 form one design (in this embodiment, the character's face). The panel 40 is designed. That is, the left and right inner panels 40 are designed so as to be visually recognized as one design (face) when the LED 42 is lit in a state where the shutter 30 is closed. Thus, the designability can be further improved by expressing an integrated design by the left and right inner panels 40 in a state where the shutter 30 is closed.

  As described above, in order to express an integrated design by the left and right inner panels 40, it is preferable that the left and right inner panels 40 be as close as possible with the shutter 30 closed. However, even when the shutter 30 is closed, the end portion 32 (outer panel 34) exists between the left and right inner panels 40, and a gap corresponding to this thickness is generated. It is also possible to cut out the exterior of the end 32 and make the left and right inner panels 40 closer when the shutter 30 is closed, but in this case, cutting the end 32 when the shutter 30 is opened. Since the inner panel 40 is exposed from the notch and the designability is lowered, it is not realistic.

  Therefore, in the slot machine 10, the outer panel 34 is provided with a region that does not function as the above-described half mirror but functions as a light shielding portion having a light shielding property.

  Specifically, in the present embodiment, the region that functions as the light shielding unit is a region that includes the end portion 32 and that is recognized as a gap between the left and right inner panels 40 when the player observes. . And about this area | region, irradiation of the laser beam mentioned above is not performed (a light shielding layer is not peeled). In this way, this region, that is, the region recognized as the gap between the left and right inner panels 40 becomes a light shielding portion in which the light shielding layer is left, and the back side (left and right inner panels) regardless of whether the LED 42 is lit or not. 40 gaps) cannot be seen.

  As described above, in the slot machine 10, when the LED 42 is lit with the shutter 30 closed, the left and right inner panels 40 express an integrated design without making the gap between the left and right inner panels 40 visible. it can.

  In the above embodiment, the shutter that opens and closes to the left and right is described as an example, but the opening and closing direction of the shutter can be freely set. In the above-described embodiment, the example in which the shutter is a double-sided open / close type has been described. However, only one shutter is provided, and this shutter has an end portion facing the opposite portion (for example, from the side edge portion of the liquid crystal display to the front). A single-side open / close type may be used, such as opening and closing between a closed position that abuts on a standing side wall portion or the like and an open position in which an end portion is separated from the facing portion. Of course, the position where the shutter is provided is not limited to the front of the liquid crystal display and can be set freely.

Moreover, although the said embodiment demonstrated in the example which forms the area | region made to function as a half mirror (semi-transmissive part) by irradiating a laser beam to the light shielding layer formed by vapor deposition, other methods (for example, sheet | seat) A region that functions as a half mirror may be formed by attaching or applying a paint. Of course, although the example which forms the area | region made to function as a light-shielding part by irradiating a laser beam to a light-shielding layer was demonstrated, you may form the area | region made to function as a light-shielding part by methods other than this.
<Heat dissipation structure of shutter>
Referring back to FIG. 4, as described above, the shutter 30 includes the light source substrate 38 on which the LEDs 42 are disposed, and the light source substrate 38 is disposed between the outer panel 34 and the back cover 36. For this reason, the heat from the light source substrate 38 (LED 42) is easily accumulated in the inside of the shutter 30 (the space between the outer panel 34 and the back cover 36).

  Therefore, in the slot machine 10, the rear cover 36 is provided with the heat radiation holes 44. Thereby, in accordance with the movement of the shutter 30, intake air and exhaust to the outside of the shutter 30 are performed from the heat radiation hole 44 to the inside of the shutter 30, and heat inside the shutter 30 can be released to the outside of the shutter 30.

  Further, as shown in FIG. 6, in the present embodiment, the heat radiating holes 44 are formed in a long hole shape that is long in the left and right, that is, in the moving direction of the shutter 30. By so doing, the heat inside the shutter 30 can be released more efficiently as the shutter 30 moves.

  Further, in the present embodiment, the heat radiation hole 44 is provided in one side portion and the other side portion of the rear cover 36 in the moving direction of the shutter 30, and the heat radiation hole 44 (first heat radiation hole) provided in the one side portion is provided. The heat radiation holes 44 (second heat radiation holes) provided on the other side are alternately arranged. In other words, the arrangement positions of the first heat radiating hole and the second heat radiating hole in the height direction (direction orthogonal to the moving direction of the shutter 30) are different (the first heat radiating hole and the second heat radiating hole are the shutters). The arrangement positions in the direction orthogonal to the movement direction of 30 differ from one another). By carrying out like this, compared with the case where the 1st heat radiating hole and the 2nd heat radiating hole are arrange | positioned at the same height (the same arrangement position about a height direction), it is between 1st heat radiating holes and 2nd heat radiating holes. Therefore, the strength of the back cover 36 can be improved and damage to the back cover 36 can be prevented.

  Further, in the present embodiment, the heat dissipation holes 44 are provided in the left and right side wall portions (side surfaces) of the back cover 36 (see FIG. 7). In other words, the heat dissipation holes 44 are formed so as to include the surface (side surface) that is visually recognized when the back cover 36 is observed from the moving direction of the shutter 30. In this way, air can be sucked and discharged more efficiently through the heat radiation holes 44.

  That is, the vicinity of the heat radiation hole 44 on the front end side in the moving direction of the shutter 30 becomes a positive pressure (pressure higher than atmospheric pressure) due to the wind pressure accompanying the movement of the shutter 30, and air can be efficiently sucked from the heat radiation hole 44. Further, since the heat radiation hole 44 on the rear end side in the moving direction of the shutter 30 becomes a negative pressure (pressure lower than the atmospheric pressure) with the movement of the shutter 30, it is possible to efficiently exhaust air from the heat radiation hole 44 ( (See FIG. 7).

  Furthermore, as shown in FIG. 7, in the present embodiment, the left and right side surfaces of the back cover 36 are inclined as being inclined toward the center of the back cover 36 toward the back side (the liquid crystal display 15 side). Yes. As a result, air can be sucked and discharged more efficiently from the heat radiation holes 44.

  That is, on the tip side in the moving direction of the shutter 30, the outside air is guided to the liquid crystal display 15 side by the side surface of the back cover 36 (the outside air is induced to be pushed between the liquid crystal display 15 and the side surface of the back cover 36) It is possible to efficiently make the vicinity of the heat radiation hole 44 positive pressure, and the intake efficiency is increased.

  On the rear end side in the movement direction of the shutter 30, the air path of the gas (outside air) passing between the back cover 36 and the liquid crystal display 15 increases as the shutter 30 moves, and the side surface of the back cover 36 is By performing the same function as a part called a diffuser provided on the lower surface of the rear end of the automobile, it is possible to efficiently make the vicinity of the heat radiation hole 44 negative pressure, and the exhaust efficiency is increased.

  The heat dissipation holes provided in the back cover 36 may be provided so as to increase the heat dissipation efficiency (intake and exhaust efficiency) within a range in which the strength of the back cover 36 is maintained and light from the LEDs 42 does not leak. Therefore, the configuration of the details is not limited to the above embodiment and can be changed as appropriate.

  For example, although the above embodiment has been described with an example in which a heat radiation hole having a long shape is provided in the moving direction of the shutter 30, the shape of the heat radiation hole can be freely set.

  In the above embodiment, the height positions of the first heat radiation hole (heat radiation hole provided on one end side in the movement direction of the shutter) and the second heat radiation hole heat radiation hole (heat radiation hole provided on the other side in the movement direction of the shutter) are different. However, the first heat radiating hole and the second heat radiating hole may be arranged side by side at the same height.

Furthermore, since the positions and the number of the heat dissipation holes can be freely set, for example, as in the heat dissipation holes 46 shown in FIG. 4 and FIG. 4 and 6, an IC chip (drive circuit) (not shown) for driving and controlling the LED 42 is provided on the back surface of the light source substrate 38, and the heat radiation hole 46 is provided on the back surface of the back cover 36. It is formed at a position corresponding to the IC chip in the plane portion. The heat of the IC chip is released from the heat radiating hole 46.
<Heat dissipation holes that also function as relief parts>
In the slot machine 10, the heat dissipation holes 44 and the heat dissipation holes 46 described above also function as relief portions.

  Here, the escape portion is a space (space) provided so that a protruding portion protruding from the mounting member mounted on the front surface side of the back cover 36 toward the back cover 36 does not interfere (contact) with the back cover 36. Is shown.

  The mounting member is the light source substrate 38 (see FIG. 4) in the present embodiment.

  Furthermore, as a protrusion part, the screw | thread (or a part of screw | thread) used when attaching the inner panel 40 (refer FIG. 4) to the light source board | substrate 38 is mentioned.

  Specifically, in FIG. 4, a through-hole for passing a screw is formed in the inner panel 40, and a screw hole that is screwed into the light source board 38 is formed, so that the inner panel 40 is moved from the front side of the light source board 38. When screwing (when the head of the screw is located on the front side of the inner panel 40), the screw that protrudes through the screw hole formed in the light source substrate 38 to the back side (back cover 36 side) of the light source substrate 38 The tip of the projection becomes a protrusion.

  Further, in FIG. 4, in the case where a through hole is formed in the light source substrate 38 and a screw hole is formed in the inner panel 40, and the inner panel 40 is screwed from the back side of the light source substrate 38 (the screw head is on the back side of the light source substrate 38 When located, the head of the screw located on the back side of the light source substrate 38 serves as a projection.

  Then, the interference with such a projection (the tip or head of the screw) is avoided, and the heat radiation function which is the original function of the heat dissipation hole is also provided (heat is The position, shape, and size of the heat radiating hole 44 and the heat radiating hole 46, or the position, shape, and size of the protruding portion (position to screw, type of screw, size, etc.) are determined so as not to impair the escape function. Has been. That is, the size of the heat dissipation hole 44 (or heat dissipation hole 46) provided at the position corresponding to the protrusion is such that a heat escape path is formed between the protrusion and the heat dissipation hole 44 (or heat dissipation hole 46). In addition, it is formed one size larger than the size of the protrusion. By doing this, the heat radiation holes 44 and the heat radiation holes 46 not only have a heat radiation function but also function as a relief.

  In the above example, the mounting member is the light source substrate 38, but the mounting member is not limited to this. For example, in FIG. 4, a plate-like intermediate member (hereinafter referred to as a sheet metal) made of metal or the like is disposed between the back cover 36 and the light source substrate 38, and the sheet metal is attached to the back cover 36. Furthermore, when the light source substrate 38 is attached to the sheet metal, the sheet metal is a mounting member. Further, in this case, a portion protruding toward the back surface (back cover 36) from the mounting member (sheet metal), such as a tip or a head of a screw used for attaching the light source substrate 38 to the mounting member (sheet metal), becomes a projecting portion.

  In the above-described example, the example in which the protrusion is a part of the screw (tip or head) has been described, but the protrusion is not limited thereto. For example, in FIG. 4, the electronic components provided on the back side of the light source substrate 38 or the tips of the legs of the electronic components protruding on the back side of the light source substrate 38 (the electronic components provided on the front side of the light source substrate 38 The tip portion of the foot may be a projecting portion or the like) which penetrates the light source substrate 38 and protrudes to the back side of the light source substrate 38. In this case, the position, shape and size of the heat radiating hole 44 and the heat radiating hole 46, or the position and shape of the protruding portion so as to function as a relief portion of such a protruding portion (such as an electronic component or a leg of an electronic component). The size (the position, shape, or size of the electronic component or the foot of the electronic component) may be determined.

  In the above example, the heat radiation hole 44 and the heat radiation hole 46 provided in the back cover 36 of the movable storage member (shutter 30 in the present embodiment) in which the light source substrate 38 is stored function as an escape portion. Although described, the heat radiating hole provided in the back cover of a fixed storage member (a storage member such as a fixed case that does not move like a shutter) in which the light source substrate 38 is stored may function as an escape portion. . Furthermore, a heat radiating hole provided in the back cover of a fixed (or movable) storage member in which a heat generating component other than the light source substrate 38 is stored may function as an escape portion.

  As described above, the heat dissipation holes are provided on the back cover that constitutes the back of the storage member in which the heat generating component is stored, and the function of releasing the heat from the heat generating component to the outside of the storage member, and the front side of the back cover And a function as a relief portion for avoiding contact with a protruding portion projecting from the mounting member mounted to the inside of the storage member toward the back cover.

  And by giving two functions to one member (heat radiation hole) in this way, compared to the case where the two functions are realized by different members, space efficiency is good, and space saving and miniaturization are achieved. Is possible.

<Lighting unit>
Returning to FIG. 1, in the slot machine 10, in addition to the above-described shutter 30, an electric decoration unit 50 is provided at the upper center portion of the upper door 12a. As shown in FIG. 8, the electric decoration unit 50 includes a front cover 52, and a front end portion of the front cover 52 is a design portion 54. The design portion 54 includes a light-shielding portion 56 that is shielded (has a light-shielding property) by a vapor deposition layer (light-shielding layer), and a transparent (translucent) light-transmitting portion 58 from which the light-shielding layer is peeled off. .

  The front cover 52 is formed by depositing aluminum on the surface (front side) of a base material such as a transparent plastic to form a vapor deposition layer (light-shielding layer), and then irradiating a region corresponding to the light transmitting portion 58 with laser light. It forms by peeling a light shielding layer from a base material. That is, in the design portion 54, the area irradiated with the laser light becomes the light transmitting portion 58, and the area where the light shielding layer is left without being irradiated with the laser light becomes the light shielding portion 56.

  In the present embodiment, the substantially rectangular frame-shaped region is left as the light-shielding portion 56 (without irradiating laser light), and the light is emitted by irradiating the inside of the frame-shaped region with the laser light to peel off the light-shielding layer. Although the transmission portion 58 is formed, the shape of the region to be the light transmission portion 58 (the shape of the region to be irradiated with the laser beam) can be freely set. For example, a region corresponding to the shape of a character or a pattern may be used as the light transmitting portion 58.

  As described above, the design portion 54 (light transmission portion 58) is formed by irradiating laser light. Therefore, if the design portion 54 has a protrusion, the design portion 54 is obstructed by the protrusion, and the laser light is directed to the intended region. There is a problem that irradiation can not be performed and the designability is reduced. For this reason, in the slot machine 10, the front surface of the design portion 54 (the surface forming the light transmission portion) is a flat surface. The flat surface indicates a flat (smooth) surface in which the height of the protrusion is limited to 0.5 mm or less, more preferably 0.1 mm or less.

  By carrying out like this, a laser beam can be irradiated to the intended range, without being disturbed by a protrusion, and design nature can be improved. In addition, even if the front surface of the design portion 54 is a flat surface as described above, when a part or all of the front surface of the design portion 54 is curved, the laser beam is intended by being obstructed by such a curved structure. The area may not be irradiated. For this reason, the design part 54 is set so that the angle formed by the normal lines at any two points (two points) on the front surface (excluding the step and the side wall of the groove) is 20 ° or less, more preferably 10 ° or less ( Is preferably designed).

  As shown in FIG. 9, the electrical decoration unit 50 is provided with a rear cover 60 behind the aforementioned front cover 52, and between the front cover 52 and the rear cover 60, a light source substrate 62, a reflector 64, An inner lens 66 is housed. The light source board 62 has a plurality of LEDs 68 (light sources) arranged on the front surface and is fixed to the rear cover 60. The reflector 64 is formed in a cylindrical shape connecting the light source substrate 62 and the design portion 54, and guides illumination light from the light source substrate 62 (LED 68) to the back surface of the design portion 54.

  The inner lens 66 is formed in a plate shape and is attached to the distal end portion of the reflector 64.

  The inner lens 66 has a lens cut on the front side (a plurality of light refracting surfaces are formed), and refracts and scatters the illumination light from the light source substrate 62. As described above, by illuminating through a lens cut, it is possible to reproduce an illumination aspect such as, for example, visual recognition as if countless light sources are scattered, and the design can be improved.

  In the slot machine 10. A lens cut is also applied to the back side of the inner lens 66. By doing this, it is possible to reproduce a more complicated refracting mode of the illumination light as compared with the case where the lens cut is performed on only one side, and the design can be further improved.

  Furthermore, in the slot machine 10, the lens cut modes (size, shape, direction, etc. of each light refracting surface) are made different between the front side and the back side of the inner lens 66. By doing so, it becomes possible to reproduce a more complicated refraction mode of illumination light, and the design can be further improved.

  It is also conceivable that the lens cut is made on the back side of the front cover 52 (design part 54). However, in the slot machine 10, the inner lens 66 provided separately from the front cover 52 is subjected to lens cutting, so that it is not necessary to perform lens cutting on the back side of the design portion 54. Further, as described above, the design portion 54 (light transmission portion 58) is formed by irradiating a laser beam to peel off the light shielding layer. Therefore, when a lens cut is applied to the back side of the design portion 54, the laser is cut. When light exits the design portion 54, there is a possibility that it will be refracted by the lens cut and irradiated to an unintended part.

  For this reason, in the slot machine 10, no lens cut is applied to the back side of the design portion 54. Furthermore, in order to limit the refraction angle of the laser beam on the back surface of the design portion 54, the height of the protrusion is limited to a flat surface substantially parallel to the front surface of the design portion 54 (similar to the front surface of the design portion 54). Flat surface). By doing so, it is possible to prevent a problem that the laser beam emitted from the design portion 54 is irradiated to an unintended portion.

  In the above embodiment, the example in which not only the protrusion is provided on the front surface of the design portion 54 but also the recess is not described, but the light shielding portion 56 may be entirely or partially recessed (as the recess). Also good). In other words, there is a problem that the laser beam is blocked by the protrusion when the light shielding portion 56 has a protrusion, and the laser light is refracted by the recess when the light transmitting portion 58 has a recess. There is a problem that an unintended part is irradiated. On the other hand, in the light shielding portion 56 to which the laser light is not irradiated, the above-described problem hardly occurs even if the concave portion exists. Therefore, the whole or a part of the light shielding portion 56 may be a concave portion.

  Moreover, in the said embodiment, although the example which arrange | positions the inner lens 66 immediately after the front cover 52 (design part) was demonstrated, it has a light transmittance between the front cover 52 and the inner lens 66, and is a model. A print sheet printed with a name or a pattern of a character may be arranged.

  In the above-described embodiment, an example in which the present invention is applied to a slot machine as a gaming machine has been described. However, the present invention may be applied to a gaming machine other than a slot machine, such as a pachinko machine.

The above-mentioned embodiment includes the following technical ideas regarding the operation resistance of the operation member [Appendix 1]
In a gaming machine provided with a plurality of operation members,
As the operation member, a bet button operated when betting a game medium used for a game and a stop button operated when stopping the reel are provided.
A gaming machine characterized in that the operation resistance required for the operation of the bet button is set larger than the operation resistance required for the operation of the stop button.
[Appendix 2]
In a gaming machine provided with a plurality of operation members,
As the operation member, a bet button operated when betting a game medium used for a game and a stop button operated when stopping the reel are provided.
A game machine characterized in that the operation resistance required for the operation of the stop button is set smaller than the operation resistance required for the operation of the bet button.
[Appendix 3]
The gaming machine according to claim 1 or 2, wherein the bet button is disposed with the operation surface facing upward.
[Appendix 4]
The gaming machine according to any one of claims 1 to 3, wherein the stop button is disposed with the operation surface facing forward.
[Appendix 5]
The gaming machine according to any one of claims 1 to 4, wherein the area of the operation surface of the bet button is larger than the area of the operation surface of the stop button.
[Appendix 6]
The gaming machine according to any one of claims 1 to 4, wherein the area of the operation surface of the stop button is smaller than the area of the operation surface of the bet button.

10 Slot machines (gaming machines)
12 Front door 12a Upper door 12b Lower door 15 Liquid crystal display 23 Bet button (operation member)
24 Start lever (operation member)
26a-26c Stop button (operation member)

30 Shutter (moving member)
32 End (End, Opposite)
34 Outer panel (exterior body, front cover)
36 back cover 38 light source substrate 40 inner panel (design member)
42 LED (light source)
44, 46 Heat dissipation holes (heat dissipation holes, first heat dissipation holes, second heat dissipation holes)

DESCRIPTION OF SYMBOLS 50 electric decoration unit 52 front cover 54 design part 56 light-shielding part 58 light transmission part 60 back cover 62 light source board 64 reflector 66 inner lens 68 LED (light source)

Claims (2)

A design part having a light-shielding part shielded by the light-shielding layer and a light transmission part formed by irradiating the light-shielding layer by irradiating laser light, and a design part arranged on the back side of the design part to illuminate the design part In a gaming machine equipped with a light source,
The surface that forms the light transmission part of the design part is a flat surface in which the height of the protrusion is limited so as not to hinder the laser light irradiated when forming the light transmission part,
Between the design part and the light source, an inner lens provided separately from the design part and provided with a lens cut that refracts and scatters illumination light from the light source is provided. A featured gaming machine.   The gaming machine according to claim 1, wherein the inner lens is formed in a plate shape, and different lens cuts are applied to the front surface on the design part side and the back surface on the light source side.

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