JP4707900B2 - Effective line display structure of symbol display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a see-through plate body in which a symbol combination line of symbols that can be displayed by symbols in a plurality of rows and stages that are stopped and displayed on a symbol display portion is arranged substantially vertically on the front side of the symbol display portion. It is related with the effective line display structure of the symbol display apparatus made to display with the effective line provided in FIG.
[0002]
[Prior art]
In gaming machines such as pachinko machines, slot machines, or pachinko slot machines, it is considered that the right to develop a combination game based on variable control conditions including starting and stopping each time that occurs during a game, and to have a special gaming state. Various types of symbol display devices such as a drum-type symbol display device, a belt-type symbol display device, and a liquid crystal-type symbol display device are suitably employed as game devices capable of establishing and displaying the symbol combination conditions. For example, FIG. 13 illustrates a game board 10 of a pachinko machine equipped with a belt-type symbol display device, and the belt-type symbol display device 20 installed on the game board 10 has a basic configuration as shown in FIG. As one example, a plurality of symbol display units 22 (generally, three in the left column, the middle column, and the right column) are accommodated and set in parallel in one main body case 21. Each symbol display unit 22 is stretched and mounted on a rotation drive means 24 provided on a set plate 23 that also serves as a drive board, and pulleys 25a, 25b, and 25c constituting the rotation drive means 24, and is divided into colors on the outer surface of the film. A single unit including an endless symbol belt 26 provided with various symbols 27 such as numerals, alphabet letters, other figures and marks, positioning detection means 28, illumination means 29, and the like. Yes. In the main body case 21 in which the three symbol display units 22 are accommodated and set in parallel, the symbol belt 26 in each symbol display unit 22 faces side by side in the symbol display portion 30 opened to the front side of the case 21. It is out.
[0003]
The symbol display device 20 configured as described above has an opening formed in the large decorative member 11 by being installed and fixed so as to be aligned with the back side of the large decorative member 11 assembled in the front center of the game board 10. The symbol display portion 30 is aligned with the see-through window portion 12, and the front side belt portion 26 a of each of the symbol belts 26 faces the see-through window portion 12. In the symbol display device 20, as shown in FIG. 15, the symbols 27 for three frames are set to face the fluoroscopic window portion 12 for each symbol belt 26. Nine (3 rows × 3 rows) symbols 27 are stopped and displayed. Here, the symbol combination lines appearing with a total of 9 symbols 27 in 3 rows × 3 rows stopped and displayed in the fluoroscopic window section 12 are: (1) each symbol stopped in the upper row of each row, (2) Symbols stopped in the middle row of each row, (3) Symbols stopped in the lower row of each row, (4) Symbols stopped in the upper left row, middle row, middle row, lower right row, (5) There are a total of five types of symbols stopped at the lower left column, middle middle column, and upper right column.
[0004]
Therefore, in order to display each of the symbol combination lines (1) to (5) described above, each symbol combination line is placed on the see-through plate body 13 attached to the see-through window portion 12 of the large decorative member 11. Corresponding first to fifth effective lines L1, L2, L3, L4, and L5 are formed.
[0005]
[Problems to be solved by the invention]
By the way, the conventional effective lines L1, L2, L3, L4, and L5 formed on the see-through plate body 13 are applied to the surface of the see-through plate body 13 with a paint having an appropriate color tone, or a seal or the like is pasted thereon. Generally, it is formed by deposition or vapor deposition. However, in a pachinko machine, a slot machine, or a pachinko slot machine, a large number of decorative lamps 14 and decorative members painted in colorful colors are provided in the vicinity of the large decorative member 11 for the purpose of improving gaming effects and decorative effects. Since 15 and the like are arranged, the effective lines L1, L2, L3, L4, and L5 are difficult to see and the visibility is low. For this reason, in pachinko machines, there is a problem that the symbol arrangement of the symbol combination line is difficult to understand when a reach occurs during symbol fluctuations, and in slot machines and pachinko slot machines, as a game machine use rights medium There is a problem that the symbol arrangement of the symbol combination line set according to the number of coins or pachinko balls inserted is difficult to understand.
[0006]
OBJECT OF THE INVENTION
The present invention has been proposed to solve this problem in view of the above-mentioned problems inherent in the prior art described above, and the irradiation light from the light source disposed in the vicinity of the see-through plate is applied to the present invention. The design is such that the visibility of the effective line is improved by reflecting the reflective surface of the protrusion provided on the transparent plate constituting the see-through plate body and displaying the effective line on the bright protrusion. An object is to provide an effective line display structure of a display device.
[0007]
[Means for Solving the Problems]
  In order to overcome the above-described problems and achieve the intended purpose suitably, the present invention provides:
  A symbol combination line of symbols that can be displayed by symbols in a plurality of rows and stages stopped and displayed on the symbol display section is displayed as an effective line provided on the fluoroscopic plate disposed on the front side of the symbol display portion. An effective line display structure of a symbol display device designed to
  Along the combination line of the symbols that are stopped and displayed on the symbol display section on the outer surface of the transparent plate constituting the fluoroscopic plate bodyLinearlyA ridge that is extended and configured with a plurality of reflecting surfaces and protrudes in a predetermined cross-sectional shape;
  From the light source which is disposed in a posture facing the transparent plate adjacent to the left end surface and the right end surface facing the end of the protruding portion of the transparent plate, and is controlled to be turned on / off according to the game mode. Become
  The projecting height of the protrusion is low in the vicinity of the side end surface where the light source is disposed in the transparent plate, and gradually increases as the distance from the light source is set to be the highest in the center in the extending direction.
  The opacity of each reflecting surface of the ridge is set so as to gradually increase from the side of both end faces of the transparent plate toward the center,
  When the light source is controlled to turn on, the light emitted from the light source is reflected by each reflecting surface of the ridge, and the ridge that is bright on the surface of the fluoroscopic plate is displayed as the effective line. It is characterized by having comprised.
  In addition, in order to overcome the above-described problems and achieve the intended purpose suitably, another invention of the present application is:
  A symbol combination line of symbols that can be displayed by symbols in a plurality of rows and stages stopped and displayed on the symbol display section is displayed as an effective line provided on the fluoroscopic plate disposed on the front side of the symbol display portion. An effective line display structure of a symbol display device designed to
  Along the combination line of the symbols that are stopped and displayed on the symbol display section on the outer surface of the transparent plate constituting the fluoroscopic plate bodyLinearlyA ridge that is extended and configured with a plurality of reflecting surfaces and protrudes in a predetermined cross-sectional shape;
  A light source that is disposed in a posture facing the transparent plate adjacent to either the left end surface or the right end surface of the transparent plate facing the end of the ridge, and is controlled to be turned on / off according to the game mode. And consist of
  The protruding height of the protruding portion is set to be low in the vicinity of the side end surface where the light source is disposed in the transparent plate, and gradually increases toward the side end surface on the opposite side,
  The opacity of each reflecting surface of the protrusion is set so as to gradually increase from the side end surface side where the light source is disposed in the transparent plate toward the opposite side end surface side,
  When the light source is controlled to turn on, the light emitted from the light source is reflected by each reflecting surface of the ridge, and the ridge that is bright on the surface of the fluoroscopic plate is displayed as the effective line. It is characterized by having comprised.
[0008]
[Action]
  Irradiation light from a light source arranged in the vicinity of the see-through plate body is reflected by a plurality of reflecting surfaces on the transparent plate constituting the see-through plate body.Consists ofReflection is performed on each reflecting surface of the ridge portion protruding in a predetermined cross-sectional shape, and the effective line is displayed on the bright ridge portion thereby, so that the effective line is clearly displayed and visibility is improved..
[0009]
  When the light source is disposed adjacent to the left end face and the right end face of the transparent plate,The protrusion height of the protrusion protruding from the outer surface of the transparent plate is low in the vicinity of the side end surface of the transparent plate where the light source is disposed, and gradually increases as the distance from the light source increases so that the center in the extending direction is With the highest setting,If the opacity of the reflective surface of the ridge is set so as to gradually increase from the side of both end faces toward the center, the entire ridge is brightened substantially uniformly and the effective line is clearly displayed. Is done.
  When the light source is disposed adjacent to either the left end surface or the right end surface of the transparent plate,The protruding height of the protrusion protruding from the outer surface of the transparent plate is set to be low in the vicinity of the side end surface where the light source is disposed in the transparent plate and gradually increased toward the opposite side end surface. As well asIf the opacity of the reflective surface of the ridge is set to gradually increase from the side end surface on which the light source is disposed toward the opposite side end surface, the entire ridge is substantially uniform. The effective line is clearly displayed.
  If a plurality of the light sources are arranged at the required vertical intervals, the light emitted from these light sources is emitted obliquely with respect to the reflective surface of the ridge, and the irradiated light is reflected on the reflective surface. The effective line is clearly displayed with favorable reflection.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Next, the effective line display structure of the symbol display device according to the present invention will be described in detail below with reference to the accompanying drawings by giving a preferred embodiment. In addition, the same code | symbol is attached | subjected and demonstrated about the member / part same as the already-explained member / part demonstrated with the prior art with reference to FIGS.
[0011]
FIG. 1 is a schematic perspective view showing an effective line display structure of a symbol display device according to a preferred embodiment of the present invention.
The effective line display structure of the embodiment extends along the combination line of the symbols 27 that are stopped and displayed on the symbol display unit 30 on the outer surfaces of transparent plates 33 (33A to 33D) to be described later constituting the see-through plate body 31. The projection 35 (35A to 35E) provided in a predetermined cross-sectional shape by a plurality of opaque or semi-transparent reflecting surfaces 38, and the see-through plate at a portion adjacent to the end face of the see-through plate 31 The light source 32 is disposed in a posture directed toward the body 31 and is controlled to be turned on / off in accordance with the game mode. That is, in the effective line display structure of the embodiment, the irradiation light of the LED lamp 32 or the like as the light source applied to the end face of the see-through plate 31 made of, for example, an acrylic plate or a glass plate goes straight through the inside of the see-through plate 31. In other words, a so-called “edge light effect” is used in which the light is totally reflected at the interface between the see-through plate 31 and the air and finally comes out from the facing surface facing the end surface.
[0012]
The see-through plate body 31 is formed by superposing a plurality of transparent plates 33 (33A to 33D) formed in a rectangular shape of the same size. The see-through window of the large decorative member 11 shown in FIG. The size of the unit 12 is such that it can be mounted vertically. In the symbol display device 20 that stops and displays a total of nine symbols 27 on a symbol display unit 30 in a plurality of rows and a plurality of rows, specifically, 3 rows × 3 rows, as described above, the combination of symbols is established. Since there are five types of lines in total, the protrusions 35 (35A to 35E) corresponding to the first to fifth effective lines L1, L2, L3, L4, and L5 on the transparent plate 33 (33A to 33D). ), The effective lines L1, L2, L3, L4, and L5 can be displayed on the see-through plate body 31.
[0013]
(Transparent plate)
As the transparent plate 33, an existing acrylic plate or glass plate excellent in transparency, light diffusibility, etc. is adopted, and its thickness H is about 3 mm (FIG. 5). The protrusion 35 described above is formed on a certain rear surface 36 (surface facing the symbol display portion 30). Specifically, as shown in FIG. 4, horizontal protrusions 35A, 35B, and 35C corresponding to the upper first effective line L1, the middle second effective line L2, and the lower third effective line L3 are respectively provided. The formed first transparent plate 33 (33A) (FIG. 4 (a)), the right inclined ridge 35D and the left inclined ridge 35E corresponding to the fourth and fifth effective lines L4 and L5, respectively. The formed second transparent plate 33 (33B) (FIG. 4 (b)), the third transparent plate 33 (formed with the right inclined protrusion 35D corresponding to the fourth effective line L4 extending downward to the right. 33C) (FIG. 4 (c)), a fourth transparent plate 33 (33D) (FIG. 4 (d)) formed with a left inclined protrusion 35E corresponding to the fifth effective line L5 extending downwardly to the left. Etc. can be implemented. Therefore, based on the first transparent plate 33A shown in FIG. 4 (a), (A) the first transparent plate 33A is moved back and forth with the second transparent plate 33B shown in FIG. 4 (b). (B) The third transparent plate 33C shown in FIG. 4 (c) and the fourth transparent plate 33D shown in FIG. 4 (d) are overlapped on the first transparent plate 33A in the front-rear direction. By combining them, the see-through plate body 31 capable of displaying the five effective lines L1, L2, L3, L4, and L5 can be configured.
[0014]
(Projection)
For example, as shown in FIG. 5, each of the protrusions 35 </ b> A to 35 </ b> E extends linearly with a triangular cross section, and protrudes from the back surface 36 of the transparent plates 33 </ b> A to 33 </ b> D to be inclined to face each other. 38. These reflecting surfaces 38 and 38 are processed into a so-called polished glass shape, and are macroscopically opaque or semi-transparent, but microscopically have a concavo-convex shape in which a large number of microscopic surfaces are connected. ing. The horizontal protrusions 35A, 35B, and 35C, the right inclined protrusion 35D, and the left inclined protrusion 35E are not constant in protrusion height, as shown in FIG. It is set so that it is low in the vicinity of the LED lamp 32 and becomes higher as the distance from the LED lamp 32 increases, and the irradiation light from the LED lamp 32 reaches the reflection surfaces 38 and 38 at a required angle and is reflected. Is set to get. Here, in the case of the irradiation form in which the LED lamps 32 and 32 are disposed adjacent to both the left end surface 39 and the right end surface 40 of the transparent plate 35, the protrusions 35A, 35B, 35C, 35D, and 35E are The central portion is set to be the highest and gradually lower toward the left end surface 39 and the right end surface 40. That is, the irradiation light from each LED lamp 32 is reflected (irregularly reflected) by the minute surfaces of the reflecting surfaces 38 and 38 in the corresponding protrusions 35A to 35E, and is emitted to the surface 37 side of the transparent plates 33A to 33D. The protrusions 35A to 35E are displayed brightly.
[0015]
On the other hand, the opacity of the reflecting surfaces 38, 38 in each of the protrusions 35A, 35B, 35C, 35D, 35E is not uniform over the entire length, and the opacity is in the vicinity of the LED lamp 32 as described later. It is small (close to transparency) and is set so that the opacity gradually increases as the distance from the LED lamp 32 increases. Specifically, as schematically shown in FIG. 6B, the LED lamp 32 is provided in an irradiation form in which the LED plate 32 is disposed adjacent to the left end surface 39 and the right end surface 40 of the transparent plate 33 (33A to 33D), respectively. In this case, the opacity of the reflecting surfaces 38, 38 of the protrusions 35A, 35B, 35C, 35D, 35E is set so as to gradually increase from the side surfaces 39, 40 toward the center. Further, as shown in FIG. 7, in the case of the irradiation form in which the LED lamp 32 is disposed adjacent to either the left end face 39 or the right end face 40 of the transparent plate 33 (33A to 33D) (FIG. 7). (a), (b)), the opacity of the reflecting surfaces 38, 38 of the protrusions 35A, 35B, 35C, 35D, 35E is determined from the side end surface 39/40 side where the LED lamp 32 is disposed. It is set so as to gradually increase toward the side end surface 40/39 on the opposite side. As a result, when the LED lamp 32 is controlled to be lit, the entire projections 35A to 35E are brightened substantially uniformly and brightly by the irradiation light from the LED lamp 32.
[0016]
(light source)
As described above, the light source 32 is preferably a known LED lamp having a diameter approximately equal to the thickness of each of the transparent plates 33A to 33D and emitting irradiation light with high forward directivity. In addition, the reflecting surfaces 38, 38 of the protrusions 35A, 35B, 35C, 35D, 35E can be suitably irradiated. A plurality of LED lamps 32 serving as light sources are disposed at the required vertical intervals with respect to the left end surface 39 and / or the right end surface 40 of the transparent plate 33 (33A to 33D), and corresponding protrusions 35A. The angle is adjusted in the direction along the extending direction of ˜35E, and the irradiation light from these LED lamps 32 is at a required angle with respect to the reflecting surfaces 38, 38 of the protrusions 35A, 35B, 35C, 35D, 35E. Is set to reach at. Each LED lamp 32 can be individually controlled to be turned on / off by a lamp control unit (not shown). Furthermore, the LED lamp 32 can employ various emission colors such as red, blue, green, yellow, white, and orange.
[0017]
Next, the effective line display structure of the symbol display device according to the embodiment including the above-described components will be described based on a specific form example.
[0018]
[First embodiment]
FIG. 1 is a schematic perspective view showing an effective line display structure of the symbol display device according to the first embodiment. In the first embodiment, as shown in FIG. The first transparent plate 33A shown in FIG. 4 and the second transparent plate 33B shown in FIG. 4B are overlapped on the front and rear, and the transparent plate body 31 is configured by two transparent plates 33A and 33B. . As described above, the first transparent plate 33A is formed with the horizontal protrusions 35A, 35B, and 35C corresponding to the first, second, and third effective lines L1, L2, and L3. Since the second transparent plate 33B is formed with a right-inclined ridge portion 35D and a left-inclined ridge portion 35E corresponding to the fourth and fifth effective lines L4 and L5, the two transparent plates A perspective plate body provided with five protrusions 35A, 35B, 35C, 35D, and 35E corresponding to the five effective lines L1, L2, L3, L4, and L5, simply by overlapping 33A and 33B in the front and rear direction 31 is configured.
[0019]
Further, the LED lamps 32 (32a to 32j) in a posture in which the transparent plates 33A and 33B are directed to the portions adjacent to the left end surface 39 and the right end surface 40 of the first transparent plate 33A and the second transparent plate 33B. ) Are arranged at every required vertical interval. Specifically, in the first transparent plate 33A, the LED lamps 32a and 32b arranged horizontally in the left and right upper stages are aligned with the horizontal ridge 35A corresponding to the first effective line L1. The portion 35A is irradiated, and the LED lamps 32c and 32d arranged horizontally in the left and right middle stages are aligned with the horizontal protrusion 35B corresponding to the second effective line L2, and irradiate the protrusion 35B. The LED lamps 32e and 32f arranged horizontally in the lower left and right stages irradiate the protrusion 35C in alignment with the horizontal protrusion 35C corresponding to the third effective line L3. On the other hand, in the second transparent plate 33B, the LED lamp 32g arranged in a lower right slope in the upper left stage and the LED lamp 32h arranged in a left upper slope in the lower right stage correspond to the fourth effective line L4. The LED lamp 32i that irradiates the right inclined ridge 35D and is arranged in a lower left inclined shape in the upper right stage and the LED lamp 32j that is arranged in a right upward inclined condition in the lower left stage are the fifth effective line L5. The left inclined protrusion 35 </ b> E corresponding to is irradiated. In addition, as LED lamp 32 (32a-32j) is arrange | positioned by the right-and-left both sides of transparent plate 33A, 33B, as shown in FIG. 6 and mentioned above, each said protrusion 35A, 35B, 35C, The opacity of the reflecting surfaces 38 and 38 at 35D and 35E is set so as to gradually increase from the side end surfaces 39 and 40 toward the center as shown in FIG. 6 (b).
[0020]
In the effective line display structure of the symbol display device according to the first embodiment configured as described above, a lamp control unit (not shown) according to a game mode such as a pachinko machine or a slot machine on which the symbol display device 20 is mounted. The LED lamps 32 (32a to 32j) are individually controlled to be turned on / off, and when the LED lamps 32a to 32j are controlled to be turned on, the irradiation light from the LED lamps 32a to 32j corresponds to the corresponding protrusions. The projections 35A, 35B, 35C, 35D, and 35E reflected by the reflecting surfaces 38 and 38 of 35A, 35B, 35C, 35D, and 35E and brightened by this are effective lines L1 and L on the surface 37 of the see-through plate body 31. Displayed as L2, L3, L4, L5. For example, when the LED lamps 32a and 32b are controlled to be lit, the horizontal protrusion 35A is bright and the first effective line L1 is clearly displayed, and when the LED lamps 32c and 32d are controlled to be lit. The horizontal protrusion 35B is bright and the second effective line L2 is clearly displayed, and when the LED lamps 32e and 32f are turned on, the horizontal protrusion 35C is bright and the third The effective line L3 is clearly displayed. Further, when the LED lamps 32g and 32h are controlled to be lit, the right inclined protrusion 35D is brightly displayed and the fourth effective line L4 is clearly displayed, and when the LED lamps 32i and 32j are controlled to be lit. The left inclined protrusion 35E is bright and the fifth effective line L5 is clearly displayed.
[0021]
In the effective line display structure of the first embodiment, a total of five effective lines L1, L2, L3, L4, and L5 are obtained by overlapping the first and second transparent plates 33A and 33B in total. Can be displayed. Therefore, compared with the case where one effective line is provided for each transparent plate (when five effective lines L1 to L5 are provided, five transparent plates 33 are required), the thickness of the see-through plate body 31 is significantly reduced. Since it can be suppressed (FIG. 3), there is no perspective problem such as the symbols 27 that are stopped and displayed on the symbol display section 30 appear to be distorted, and there is also an increase in cost associated with an increase in the number of members. Absent. In addition, since the entire protrusions 35A, 35B, 35C, 35D, and 35E are brightened substantially uniformly, the corresponding effective lines L1, L2, L3, L4, and L5 are clearly displayed.
[0022]
[Second Embodiment]
FIG. 8 is a schematic perspective view showing the effective line display structure of the symbol display device according to the second embodiment. In this second embodiment, as shown in FIG. The illustrated first transparent plate 33A, the third transparent plate 33C shown in FIG. 4C, and the fourth transparent plate 33D shown in FIG. This is a type in which the see-through plate body 31 is constituted by transparent plates 33A, 33C, 33D. As described above, the first transparent plate 33A is formed with the horizontal protrusions 35A, 35B, and 35C corresponding to the first, second, and third effective lines L1, L2, and L3, The third transparent plate 33C has a right-inclined protrusion 35D corresponding to the fourth effective line L4, and the fourth transparent plate 33D has a left corresponding to the fifth effective line L5. Since the sloped ridge 35E is formed, the three transparent plates 33A, 33C, and 33D are simply overlapped in the front-rear direction to correspond to the five effective lines L1, L2, L3, L4, and L5. A see-through plate body 31 provided with five protrusions 35A, 35B, 35C, 35D, 35E is formed.
[0023]
In addition, the LEDs in a posture in which the transparent plates 33A, 33C, and 33D are directed to the portions adjacent to the left end surface 39 and the right end surface 40 of the first, third, and fourth transparent plates 33A, 33C, and 33D. The lamps 32 (32a to 33j) are arranged at every required vertical interval. Specifically, in the first transparent plate 33A, the LED lamps 32a and 32b arranged horizontally in the left and right upper stages are aligned with the horizontal ridge 35A corresponding to the first effective line L1. The portion 35A is irradiated, and the LED lamps 32c and 32d arranged horizontally in the left and right middle stages are aligned with the horizontal protrusion 35B corresponding to the second effective line L2, and irradiate the protrusion 35B. The LED lamps 32e and 32f arranged horizontally in the lower left and right stages irradiate the protrusion 35C in alignment with the horizontal protrusion 35C corresponding to the third effective line L3. On the other hand, in the third transparent plate 33C, the LED lamp 32g disposed in the upper left lower slope and the LED lamp 32h disposed in the lower right lower slope correspond to the fourth effective line L4. The right inclined protrusion 35D is irradiated, and in the fourth transparent plate 33D, an LED lamp 32i disposed in a lower left inclined shape at the upper right stage and an LED disposed in a right upward inclination at the lower left stage. The lamp 32j irradiates the left inclined protrusion 35E corresponding to the fifth effective line L5. As shown in FIG. 6 and as described above, the protrusions 35A, 35B are provided as the LED lamps 32 (32a-32j) are disposed on the left and right sides of the transparent plates 33A, 33C, 33D. , 35C, 35D, and 35E, the opacity of the reflecting surfaces 38 and 38 is set so as to gradually increase from the side end surfaces 39 and 40 toward the center as shown in FIG. 6B.
[0024]
In the effective line display structure of the symbol display device according to the second embodiment configured as described above, a lamp control unit (not shown) according to a game mode such as a pachinko machine or a slot machine on which the symbol display device 20 is mounted. The LED lamps 32 (32a to 32j) are individually controlled to be turned on / off, and when the LED lamps 32a to 32j are controlled to be turned on, the irradiation light from the LED lamps 32a to 32j corresponds to the corresponding protrusions. The projections 35A, 35B, 35C, 35D, and 35E reflected by the reflecting surfaces 38 and 38 of 35A, 35B, 35C, 35D, and 35E and brightened by this are effective lines L1 and L on the surface 37 of the see-through plate body 31. Displayed as L2, L3, L4, L5. For example, when the LED lamps 32a and 32b are controlled to be lit, the horizontal protrusion 35A is bright and the first effective line L1 is clearly displayed, and when the LED lamps 32c and 32d are controlled to be lit. The horizontal protrusion 35B is bright and the second effective line L2 is clearly displayed, and when the LED lamps 32e and 32f are turned on, the horizontal protrusion 35C is bright and the third The effective line L3 is clearly displayed. Further, when the LED lamps 32g and 32h are controlled to be lit, the right inclined protrusion 35D is brightly displayed and the fourth effective line L4 is clearly displayed, and when the LED lamps 32i and 32j are controlled to be lit. The left inclined protrusion 35E is bright and the fifth effective line L5 is clearly displayed.
[0025]
In the effective line display structure of the second embodiment, a total of five effective lines L1, L2,... Are combined by superimposing the first, third, and fourth transparent plates 33A, 33C, 33D. L3, L4, and L5 can be displayed. Therefore, compared with the case where one effective line is provided for each transparent plate (when five effective lines L1 to L5 are provided, five transparent plates 33 are required), the thickness of the see-through plate body 31 is considerably reduced. Therefore, there is no perspective problem such as the symbols 27 that are stopped and displayed on the symbol display unit 30 appear to be distorted, and the cost is not increased due to an increase in the number of members. Furthermore, the right inclined protrusion 35D and the left inclined protrusion 35E are formed separately on the third transparent plate 33C and the fourth transparent plate 33D, do not cross, and are irradiated by separate LED lamps 32. Accordingly, each of the fourth effective lines L4 and the fifth effective lines L5 is displayed properly and clearly and clearly. In addition, since the entire protrusions 35A, 35B, 35C, 35D, and 35E are brightened substantially uniformly, the corresponding effective lines L1, L2, L3, L4, and L5 are clearly displayed.
[0026]
[Example of change]
In addition, the aspect which irradiates each protrusion 35A, 35B, 35C, 35D, 35E corresponding to the said effective lines L1-L5 with the LED lamp 32 is what was shown to the said 1st Embodiment and 2nd Embodiment. It is not limited to. For example, FIG. 10 shows a modified example of the first embodiment. Each transparent plate is disposed at a portion adjacent to the left end surface 39 and the right end surface 40 in the first transparent plate 33A and the second transparent plate 33B. The LED lamps 32 (32a to 32l) in a posture directed to 33A and 33B are arranged in three stages at every required vertical distance. Specifically, in the first transparent plate 33A, the LED lamps 32a and 32b arranged horizontally in the left and right upper stages are aligned with the horizontal ridge 35A corresponding to the first effective line L1. The portion 35A is irradiated, and the LED lamps 32c and 32d arranged horizontally in the left and right middle stages are aligned with the horizontal protrusion 35B corresponding to the second effective line L2, and irradiate the protrusion 35B. The LED lamps 32e and 32f arranged horizontally in the lower left and right stages irradiate the protrusion 35C in alignment with the horizontal protrusion 35C corresponding to the third effective line L3. On the other hand, in the second transparent plate 33B, the LED lamp 32g arranged horizontally in the upper left stage, the LED lamp 32i arranged horizontally in the middle left stage, and the LED lamp arranged horizontally in the lower right stage. 32l irradiates the right inclined ridge 35D corresponding to the fourth effective line L4, the LED lamp 32h disposed horizontally in the upper right stage, and the LED lamp 32j disposed horizontally in the right middle stage. The LED lamp 32k arranged horizontally in the lower left stage irradiates the left inclined protrusion 35E corresponding to the fifth effective line L5.
[0027]
On the other hand, FIG. 11 shows a modified example of the second embodiment. In the first, third, and fourth transparent plates 33A, 33C, 33D, the portions adjacent to the left end surface 39 and the right end surface 40 are shown. The LED lamps 32 (32a to 33r) oriented to the respective transparent plates 33A, 33C, and 33D are arranged in three stages at every required vertical distance. Specifically, in the first transparent plate 33A, the LED lamps 32a and 32b arranged horizontally in the left and right upper stages are aligned with the horizontal ridge 35A corresponding to the first effective line L1. The portion 35A is irradiated, and the LED lamps 32c and 32d arranged horizontally in the left and right middle stages are aligned with the horizontal protrusion 35B corresponding to the second effective line L2, and irradiate the protrusion 35B. The LED lamps 32e and 32f arranged horizontally in the lower left and right stages irradiate the protrusion 35C in alignment with the horizontal protrusion 35C corresponding to the third effective line L3. On the other hand, in the third transparent plate 33C, the LED lamps 32g, 32h, 32i, 32j, 32k, and 32l arranged horizontally in the left and right upper stage, the left and right middle stage, and the left and right lower stage respectively correspond to the fourth effective line L4. The right inclined protrusion 35D is irradiated, and further, in the fourth transparent plate 33D, the LED lamps 32m, 32n, 32o, 32p, and 32q arranged horizontally in the upper left and right, the left and right middle, and the lower left and right, respectively. 32r irradiate the left inclined protrusion 35E corresponding to the fifth effective line L5.
[0028]
The timing and mode of displaying the first to fifth effective lines L1, L2, L3, L4, and L5 by irradiating the corresponding protrusions 35A, 35B, 35C, 35D, and 35E with the LED lamps 32. Etc. depend on the game mode of the pachinko machine, slot machine, or pachinko slot machine, and are different for each game machine. For example, in a pachinko machine, when a reach state is reached during a symbol variation game, a specific symbol combination may be established by automatically selecting and lighting the plurality of LED lamps 32. The arrangement can be suitably displayed by the effective lines L1, L2, L3, L4, and L5. Further, in the slot machine or the pachinko type slot machine, the plurality of LED lamps 32 are automatically selected according to the number of coins and pachinko balls that are game machine use right media and are controlled to be displayed. The number of active lines L1, L2, L3, L4, L5 can be selected.
[0029]
Further, in each of the effective line display structures in the first embodiment example, the second embodiment example, and the respective modified examples, a plurality of LED lamps 32 (32a to 32j / 32a to 32l / 32a to 32r) are used. The effective lines L1, L2, L3, L4, and L5 are displayed, so that by changing the lighting timing and lighting time of the respective LED lamps 32, for example, the light is transmitted to the effective lines L1, L2, L3, Various line displays such as making it appear as if it moves on L4 and L5, or making it appear to blink are possible. Further, if the LED lamps 32 set to a plurality of different emission colors are used, the color identification display of the effective lines L1, L2, L3, L4, and L5 is also possible.
[0030]
In the first embodiment, the second embodiment, and the respective modifications, the LED lamps 32 are arranged in the vicinity of the left end surface 39 and the right end surface 40 of each transparent plate 33 (33A, 33B, 33C, 33D). Although the case where it is provided has been illustrated, as described above, the LED lamp 32 may be disposed on either the left end face 39 or the right end face 40.
[0031]
Furthermore, in the first embodiment example, the second embodiment example, and the respective modifications, the LED lamps 32 (32a to 32f) for irradiating the horizontal protrusions 35A, 35B, and 35C on the first transparent plate 33A. However, as shown in FIG. 12, for example, as shown in FIG. 12, the corresponding horizontal protrusions 35A, 35B and 35B are irradiated horizontally. , 35C, an LED lamp 32 may be additionally provided in an inclined state at a position offset by a required amount vertically. Thus, when each LED lamp 32 is additionally provided, the irradiation light from the added LED lamp 32 reaches the reflecting surface 38 of the corresponding horizontal protrusion 35A, 35B, 35C at a required angle. Even in this case, the protrusions 35A, 35B, and 35C can be appropriately brightened.
[0032]
Each of the protrusions 35A, 35B, 35C, 35D, and 35E is not limited to the triangular cross section shown in the embodiment, and can appropriately reflect the irradiation light from the LED lamp 32. For example, various shapes such as a square cross-section or a U-shape can be adopted. In the embodiment, the description has been given of the case where the two inclined surfaces 35A, 35B, 35C, 35D, and 35E having the triangular cross section are the reflecting surfaces 38. However, the protruding portions 35A, 35B, A plane parallel to the plate surfaces of the transparent plates 33A, 33B, 33C, and 33D in 35C, 35D, and 35E can be an opaque or translucent reflective surface 38. In this case, the three surfaces become the reflecting surface 38, and the ridges 35A, 35B, 35C, 35D, and 35E can be made to shine more clearly. That is, with respect to the protrusions, it is possible to make all of the formation surfaces as reflection surfaces, and for example, the number of reflection surfaces can be increased compared to the case where the reflection surfaces are formed by grooves formed in a transparent plate. it can. Therefore, by making the cross-sectional shape of the ridges polygonal, the number of reflecting surfaces can be increased and the shining portion can be made more bright.
[0033]
In the embodiment described above, it is assumed that the fluoroscopic plate 31 is provided with five effective lines L1, L2, L3, L4, and L5. However, the fluoroscopic plate 31 has four or less or six or more effective lines. It is also possible to provide a line. In any case, all the effective lines can be suitably displayed by using the minimum number of transparent plates.
[0034]
Moreover, in the said Example, although the belt type symbol display apparatus was illustrated, the symbol type display apparatus which the effective line display structure of this application makes object includes the drum type symbol display apparatus mentioned above, a liquid crystal type symbol display apparatus, etc. Of course.
[0035]
【The invention's effect】
  As described above, according to the effective line display structure of the symbol display device according to the present invention, the irradiation light from the light source disposed in the vicinity of the see-through plate is provided on the transparent plate constituting the see-through plate. Since the effective line is displayed on the projecting portion which is reflected by the reflecting surface of the strip and thereby brightened, there is an advantage that the effective line is clearly displayed and the visibility is improved..
[0036]
  When the light source is disposed adjacent to the left end face and the right end face of the transparent plate,The protrusion height of the protrusion protruding from the outer surface of the transparent plate is low in the vicinity of the side end surface of the transparent plate where the light source is disposed, and gradually increases as the distance from the light source increases so that the center in the extending direction is With the highest setting,If the opacity of the reflective surface of the ridge is set so as to gradually increase from the side of both end faces toward the center, the entire ridge is uniformly brightened and the effective line is clearly displayed. There are benefits to get.
  When the light source is disposed adjacent to either the left end surface or the right end surface of the transparent plate,The protruding height of the protrusion protruding from the outer surface of the transparent plate is set to be low in the vicinity of the side end surface where the light source is disposed in the transparent plate and gradually increased toward the opposite side end surface. As well asIf the opacity of the reflective surface of the ridge is set so as to gradually increase from the side end surface on which the light source is disposed toward the opposite side end surface, the entire ridge is uniform. Therefore, there is an advantage that the effective line can be clearly displayed.
  If a plurality of the light sources are arranged at the required vertical intervals, the light emitted from these light sources is emitted obliquely with respect to the reflective surface of the ridge, and the irradiated light is reflected on the reflective surface. The effective line is clearly displayed with favorable reflection.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing an effective line display structure of a symbol display device according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing a state in which the see-through plate body shown in FIG. 1 is formed by superimposing a first transparent plate and a second transparent plate on the front and back.
3 is a side cross-sectional view showing a state in which the symbol display device in which the effective line display structure shown in FIG. 1 is implemented is mounted on the back side of a game board to which large decorative parts are attached.
FIG. 4 is a schematic perspective view showing the form of each transparent plate constituting the see-through plate body, wherein (a) illustrates the first transparent plate formed with three horizontal protrusions; ) Exemplifies a second transparent plate having a right-inclined ridge and a left-inclined ridge, and (c) exemplifies a third transparent plate having a right-inclined ridge, d) has illustrated the 4th transparent plate which formed the protrusion part of the left inclination.
FIG. 5 shows that the light emitted from the LED lamps disposed on both end faces of the transparent plate is reflected by the reflecting surface forming the protruding portion and is emitted to the surface side of the transparent plate, whereby the protruding portion is brightened. It is explanatory sectional drawing which shows the aspect which displays an effective line.
FIG. 6A is a graph showing a case where the LED lamps are disposed adjacent to the left end surface and the right end surface of the transparent plate, and the protrusions gradually increase from the side end surfaces toward the center portion. By setting as described above, it is an explanatory cross-sectional view showing that the irradiation light from the LED lamp reaches the reflection surface at a required angle and is easily reflected,
(b) shows the opacity of the reflecting surface forming the ridges gradually from the side of both end faces toward the center when LED lamps are respectively disposed adjacent to the left end face and right end face of the transparent plate. It is explanatory sectional drawing which shows that the whole said protrusion part is brightened uniformly by setting so that it may increase to.
FIG. 7 shows that when an LED lamp is disposed on either the left end surface or the right end surface of a transparent plate, the opacity of the reflecting surface forming the protrusion is opposite from the side end surface side where the LED lamp is disposed. It is explanatory sectional drawing which shows that the whole said protrusion part is brightened substantially uniformly by setting so that it may increase gradually toward the side edge surface side, (a) is transparent LED lamp The case where it arrange | positions adjacent to the left end surface of a board is illustrated, (b) has illustrated the case where LED lamp is arrange | positioned adjacent to the right end face of a transparent plate.
FIG. 8 is a schematic perspective view showing an effective line display structure of a symbol display device according to a second embodiment of the present invention.
9 is a perspective view showing a state in which the see-through plate body shown in FIG. 8 is formed by superimposing the first transparent plate, the third transparent plate, and the fourth transparent plate in the front-rear direction.
FIG. 10 is a schematic perspective view showing an effective line display structure of a symbol display device according to a modification of the first embodiment.
FIG. 11 is a schematic perspective view showing an effective line display structure of a symbol display device according to a modification of the second embodiment.
FIG. 12 shows an irradiation mode in which the LED lamp is disposed at a position offset vertically with respect to the ridge portion so that the irradiation light from the LED lamp reaches the ridge portion at a required angle. It is a schematic perspective view which shows.
FIG. 13 is a front view showing a game board of a pachinko machine having a symbol display device installed on the back side.
14 is a side cross-sectional view of the game board shown in FIG. 13 cut away at the site where the symbol display device is installed. FIG.
FIG. 15 is a perspective window portion of a large decorative part for an effective line in which a specific symbol combination can be established in the case of a symbol display device that stops and displays a total of nine symbols in three rows × three rows. It is explanatory drawing which shows the state formed in the see-through | perspective board body arrange | positioned in.
[Explanation of symbols]
27 designs
30 Symbol display
31 fluoroscopic plates
32 (32a-32r) LED lamp (light source)
33A First transparent plate
33B Second transparent plate
33C Third transparent plate
33D Fourth transparent plate
35A Horizontal ridge
35B Horizontal ridge
35C Horizontal ridge
35D Right inclined ridge
35E Left inclined ridge
38 Reflective surface
39 Left side edge
40 Right side end face
L1 first effective line
L2 Second effective line
L3 third effective line
L4 4th effective line
L5 5th effective line

Claims (3)

The symbol combination lines of the symbols more can be revealing in each drawing pattern a plurality of rows, a plurality of stages that are stopped on the symbol display unit, the effective line which is provided on the transparent plate member disposed on the front side of the symbol display section It is an effective line display structure of a symbol display device designed to display with
The outer surface of the transparent plate constituting the transparent plate body, wherein the symbol display section along the line combination of FIG handle stopped and displayed is extended in a straight line, a predetermined cross-section is composed of a plurality of reflecting surfaces a protruding portion projecting from the shape,
Wherein disposed in facing the ends of the definitive transparent plate the ridges and Contact left end face respectively adjacent to the right end face posture directed to the transparent plate, turning on and off is controlled in accordance with the game mode that consists of a light source,
The projecting height of the protrusion is low in the vicinity of the side end surface where the light source is disposed in the transparent plate, and gradually increases as the distance from the light source is set to be the highest in the center in the extending direction.
The opacity of each reflecting surface of the ridge is set so as to gradually increase from the side of both end faces of the transparent plate toward the center,
The light source is the light source or al of the irradiation light when is lighting control reflected by the reflecting surfaces of the protrusions, whereby said transparent plate member projecting strip portion is the effective line which is AkiraTeru on the surface of effective line display structure of the symbol display device characterized by being configured to appear as a down. The symbol combination lines of the symbols more can be revealing in each drawing pattern a plurality of rows, a plurality of stages that are stopped on the symbol display unit, the effective line which is provided on the transparent plate member disposed on the front side of the symbol display section It is an effective line display structure of a symbol display device designed to display with
The outer surface of the transparent plate constituting the transparent plate body, wherein the symbol display section along the line combination of FIG handle stopped and displayed is extended in a straight line, a predetermined cross-section is composed of a plurality of reflecting surfaces a protruding portion projecting from the shape,
Wherein an end portion of the protruding portion faces the left end Menma et definitive the transparent plate is disposed in a posture in which oriented transparent plate adjacent to one of the right end face, turned-in response to game mode made of a light source and being turned off controlled,
The protruding height of the protruding portion is set to be low in the vicinity of the side end surface where the light source is disposed in the transparent plate, and gradually increases toward the side end surface on the opposite side,
The opacity of each of the reflecting surfaces of the protrusions is set to gradually increase toward the side of the side end face on the opposite side from the side of the light source side end surface that is disposed to definitive the transparent plate,
The light source is the light source or al of the irradiation light when is lighting control reflected by the reflecting surfaces of the protrusions, whereby said transparent plate member projecting strip portion is the effective line which is AkiraTeru on the surface of effective line display structure of the symbol display device characterized by being configured to appear as a down. The light source corresponding to the protrusion extending horizontally on the transparent plate includes a light source disposed horizontally next to the protrusion on the left end surface or the right end surface, and the horizontal light source. The effective line display of the symbol display device according to claim 1, wherein the effective line display includes a light source that is disposed at a predetermined distance from the light source in the vertical direction and irradiates light obliquely with respect to the reflection surface of the protrusion. Construction.

Images