JP2006061609A - Electric power unit for game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an easily regeneratve electric power unit for a game machine. <P>SOLUTION: An input circuit board 3 and an output circuit board 4 are detached from a base circuit board 5, and while electrolytic capacitors 6, 7, 13, an input side electric terminal A and an output side electric terminal E are as they are mounted to the input circuit board 3 and output circuit board 4, the degradation degrees of the electrolytic capacitors 6, 7, 13 can be easily checked, and the functions of the electrolytic capacitors 6, 7, 13 can be easily refreshed. Afterwards, when the electrolytic capacitors 6, 7, 13 are degraded little or refreshing is completed, the input side electric terminal A of the input circuit board 3 and an input side electric terminal B of the base circuit board 5 are connected to be conductible to each other, and the output side electric terminal E of the output circuit board 4 and an output side electric terminal F of the base circuit board 5 are connected to be conductible to each other to regenerate the electric power unit 1. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a power supply device that allows easy reproduction of a gaming machine.

A power supply device of a gaming machine such as a pachinko machine or a slot machine uses an electrolytic capacitor as a capacitor that forms a smoothing circuit or a back-up circuit (see, for example, Patent Document 1).
JP 2001-286612 A

  A game machine has a short period of time for using one commercially available model at a game store, such that one model is replaced with another different model several months after it is marketed. And the game machine discarded from the game store as a used game machine is processed as industrial waste. However, the lifetime of the electrical components used in the discarded gaming machine is set to be considerably longer than the usage period of the gaming machine. For this reason, the power supply that converts the AC power supplied from the island power supply in the gaming machine installation facility called the island into the DC power used for the gaming machine is removed from the gaming machine discarded from the game store and played. However, it can be used for new gaming machines. However, among many electrical components used in power supply devices, electrolytic capacitors can be used as they are, or cannot be used as they are, depending on the state of the electrolyte depending on the conditions used. However, the performance varies. Therefore, when regenerating the power supply device for use in a new game machine, an electrolytic capacitor that is less deteriorated due to symptoms such as loss of capacity or increased leakage current can be used as it is, but an electrolytic capacitor that is often deteriorated Must be replaced with a new electrolytic capacitor, so it is necessary to check the degree of deterioration of the electrolytic capacitor. In addition, since the amusement machine discarded from the amusement store has not been used in the amusement store for a long time, the function of the electrolytic capacitor can be achieved by charging the electrolytic capacitor if it has not been charged or discharged for a long time. Can be played. However, in a gaming machine power supply device, a large number of electrical components for converting an AC power supply to a DC power supply used in a gaming machine are mounted on one circuit board by soldering, so the power supply device is used in a new gaming machine. In order to regenerate, the power supply housing is disassembled, the circuit board on which the above-mentioned many electrical components are mounted is taken out from the inside of the power supply housing, and a large number of electrolytic capacitors are removed from the taken-out circuit board. After removing each one individually, it is necessary to check the degree of deterioration of the electrolytic capacitor or refresh to regenerate the function of the electrolytic capacitor by charging. After that, an electrolytic capacitor with little deterioration, a new electrolytic capacitor, and a refreshed electrolytic capacitor are mounted on one circuit board by soldering again, and the circuit board on which a large number of electrical components including the electrolytic capacitor are mounted is mounted on the housing of the power supply device. The power supply must be regenerated by mounting it inside the body. Therefore, there is a drawback that it takes a lot of labor and a lot of time to regenerate the power supply device.

  A power supply device for a gaming machine according to the present invention is such that a power supply circuit board on which an electrical component constituting a power supply circuit for converting an alternating current power source into a direct current power source used in a gaming machine is mounted is an input side electrolytic capacitor in the electrical component An input circuit board mounted, an output circuit board on which an output-side electrolytic capacitor in the electrical component is mounted, and a base circuit board on which an electrical component other than the electrolytic capacitor in the electrical component is mounted are divided and configured. The circuit board is provided with input side electrical terminals, the output circuit board is provided with output side electrical terminals, the base circuit board is provided with input side electrical terminals and output side electrical terminals, and the input side of the input circuit board The electrical terminal and the input side electrical terminal of the base circuit board are connected to each other, and the output side electrical terminal of the output circuit board and the output side electrical terminal of the base circuit board are connected to each other. I, the power supply circuit for converting an AC power into a DC power supply is the most important feature that is configured. In the power supply device of the gaming machine according to the present invention, the electrolytic capacitor mounted on the input circuit board and the electrical component constituting the rectifier circuit among the electrical components mounted on the base circuit board are adjacent to each other, and are connected to the output circuit board. The mounted electrolytic capacitor and the electric component constituting the constant voltage circuit among the electric components mounted on the base circuit board are adjacent to each other, or the base circuit board is cut by cutting the line into one line. Two places are provided, and short-circuit electric terminals are individually provided at each of the cut ends of the two cut places. The input circuit board has one set of two short-circuit electric terminals and two sets of two short-circuit electric terminals. The output circuit board is provided with two sets of short-circuited electrical terminals and two sets of two short-circuited electrical terminals connected to each other. 1 Are connected to each other, and one pair of short-circuit electrical terminals at one of the two cut locations is connected to each other, and one set of two short-circuit electrical terminals on the output circuit board and the other of the two locations. It is also characterized in that the single line is configured to be energized by being connected to the short-circuited electrical terminal at the cut end at the cut location.

  According to the power supply device of the gaming machine according to the present invention, the input circuit board is mounted with the input-side electrolytic capacitor and the input-side electric terminal in the electric parts constituting the power supply circuit, and the output circuit board is provided with the power supply circuit. An output-side electrolytic capacitor and an output-side electrical terminal in the electrical component to be configured are mounted, and an electrical component other than the electrolytic capacitor in the electrical component, an input-side electrical terminal, and an output-side electrical terminal are mounted on the base circuit board. So, remove the input circuit board and output circuit board from the base circuit board, and easily keep the electrolytic capacitor, input side electrical terminal and output side electrical terminal mounted on the input circuit board and output circuit board, and the degree of degradation of the electrolytic capacitor It can be checked or the function of the electrolytic capacitor can be easily refreshed. Or when the refresh is finished, the input side electrical terminal of the input circuit board and the input side electrical terminal of the base circuit board are connected to each other so as to be conductive, and the output side electrical terminal of the output circuit board and the output side electrical terminal of the base circuit board are connected. By connecting the terminals to each other in a conductive manner, the power supply device is regenerated, so that the power supply device can be properly regenerated without adversely affecting the electrical components mounted on the base circuit board with less effort and less time. It can be carried out. The electrolytic capacitor mounted on the input circuit board and the electrical component constituting the rectifier circuit among the electrical parts mounted on the base circuit board are adjacent to each other and mounted on the electrolytic capacitor mounted on the output circuit board and the base circuit board If the electrical components constituting the constant voltage circuit among the electrical components are adjacent to each other, the input circuit board, the output circuit board, and the base circuit board are connected to each other so as to be conductive, so that the AC power supply is connected to the DC power supply. Thus, it is possible to obtain a power supply device that does not generate high-frequency noise during the operation of converting to. The base circuit board is provided with two cut portions of the line cut on one line, and a short-circuit electric terminal is individually provided at each of the cut ends of the two cut positions. A set of two short-circuited electrical terminals and a short-circuit circuit connecting the two sets of short-circuited electrical terminals are provided, and the output circuit board has one set of two short-circuited electrical terminals and one set of two short-circuited electrical terminals. A short circuit connecting the terminals to each other, and a set of two short-circuit electric terminals on the input circuit board and a short-circuit electric terminal at a cut end at one of the two cut positions are connected to each other, and an output circuit board Are connected to each other at one of the two cut locations, so that the one line can be energized. If so, electrolysis If the input circuit board on which the capacitor and the input-side electrical terminal are mounted and the output circuit board on which the output-side electrical terminal is mounted are not conductively connected to the base circuit board, one line on the base circuit board can be energized. Since the power supply circuit is not configured, it is possible to prevent forgetting to attach the electrolytic capacitor, the input circuit board on which the input side electrical terminal and the output side electrical terminal are mounted, and the output circuit board to the base circuit board. .

  1 to 7 show the best mode of the present invention. FIG. 1A shows a side surface in which the input circuit board 3 and the output circuit board 4 are removed from the base circuit board 5. A side view of the input circuit board 3 and the output circuit board 4 attached to the base circuit board 5 is shown. FIG. 2 is an exploded view of the power supply device 1. FIG. 3 shows the appearance of the power supply device 1 with the input circuit board 3 and the output circuit board 4 removed from the base circuit board 5. FIG. 4 shows the appearance of the power supply device 1 in which the input circuit board 3 and the output circuit board 4 are attached to the base circuit board 5. FIG. 5 shows a wiring structure of the input side connectors 8; 9; 19; 20 and the output side connectors 14; 15; 21; FIG. 6 shows a circuit configuration of the power supply device 1. FIG. 7 shows the back side of the pachinko machine to which the power supply device 1 is attached.

  As shown in FIG. 2, the power supply device 1 has a structure in which all electric components constituting a power supply circuit for converting an AC power supply into a DC power supply used for a gaming machine are mounted on a power supply circuit board 2. The power circuit board 2 is divided into an input circuit board 3, an output circuit board 4, and a base circuit board 5. The input circuit board 3 is a circuit board called a printed wiring board in which a wiring made of a metal foil conductor is attached to the surface of a rectangular plate-shaped synthetic resin substrate. The side electrolytic capacitors 6; 7 and the input side connectors 8; 9 are mounted by soldering. As the electrolytic capacitor 6, a plurality of electrolytic capacitors having a large shape such as 22 μF for 200 V and 0.047 μF for 250 V are used in terms of the performance of the circuit in which the electrolytic capacitor 6 is used. As the electrolytic capacitor 7, a plurality of electrolytic capacitors having a large shape such as 12000 μF or 3300 μF are used in view of the performance of the circuit in which the electrolytic capacitor 7 is used.

  The input side connectors 8 and 9 are attached to one side portion of the input circuit board 3 that is located on the side of the base circuit board 5 and separated from each other in the extending direction of the one side section. The input-side connectors 8; 9 are input-side electrical terminals called cylindrical female terminals (see the input-side electrical terminals A in FIG. 1) penetrating vertically in a synthetic resin connector body (see the connector body C in FIG. 1). ). Since the input side electrical terminal of the input side connector 8 is connected to the + side electrical terminal of the electrolytic capacitors 6; 7, the input side connector 8 is conceptualized as a + side female connector. Since the input side electrical terminal of the input side connector 9 is connected to the-side electrical terminal of the electrolytic capacitors 6; 7, the input side connector 9 is conceptualized as a-side female connector.

  The input circuit board 3 is provided with a plurality of screw insertion holes 10 and a plurality of notches 11. The screw insertion hole 10 is a portion for inserting a screw portion of a set screw 64 that fixes the input circuit board 3 to the case base 48. One of the plurality of notches 11 located on the electrolytic capacitor 7 side is a counterpart member for attaching the power supply device 1 using the attachment hole 55 in a state where the input circuit board 3 is attached to the case base 48. When the case base 48 is attached with a set screw (not shown), this is a relief for ensuring the operation of the set screw (not shown) and its fastening tool. When the input circuit board 3 is attached to the case base 48, two of the plurality of notches 11 located on the input side connector 9 side are the AC output connector 27 mounted on the base circuit board 5 and the fuse 29 in the electrical component. This is the part that escapes.

  The output circuit board 4 is a circuit board called a printed wiring board in which a wiring made of a metal foil-like conductor is attached to the surface of a rectangular plate-shaped synthetic resin substrate, and the output side of the power circuit in the electric component constituting the power circuit. In this structure, the electrolytic capacitor 13 and the output side connectors 14 and 15 are mounted by soldering. As the electrolytic capacitor 13, a plurality of electrolytic capacitors having a large shape such as 0.1 μF corresponding to 5.5V are used. On the output circuit board 4, an electric double layer capacitor (not shown) such as 22 μF corresponding to 5.5 V is mounted as a backup power source separately from the electrolytic capacitor 13, although the shape is smaller than that of the electrolytic capacitor 13.

  The output side connectors 14 and 15 are attached to one side portion of the output circuit board 4 on the side of the base circuit board 5 so as to be separated from each other in the extending direction of the one side part. The output side connectors 14 and 15 are output side electrical terminals called cylindrical female terminals (see the output side electrical terminals E in FIG. 1) that penetrate vertically through a connector body made of synthetic resin (see the connector body G in FIG. 1). ). Since the output side electrical terminal of the output side connector 14 is connected to the + side electrical terminal of the electrolytic capacitor 13, the output side connector 14 is conceptualized as a + side female connector. Since the negative electrical terminal of the electrolytic capacitor 13 is connected to the output electrical terminal of the output connector 15, the output connector 15 is conceptualized as a negative female connector. The distance that the output side connectors 14; 15 are separated from each other in the extending direction of one side of the base circuit board 5 is different from the distance that the input side connectors 8; 9 are separated from each other in the extending direction of one side of the base circuit board 5. Therefore, a person installs the input circuit board 3 and the output circuit board 4 on the base circuit board 5 by comparing the distance of the output side connectors 14; 15 with the distance of the input side connectors 8; The place can be grasped at a glance.

  The output circuit board 4 is provided with a plurality of screw insertion holes 16 and notches 17. The screw insertion hole 16 is a portion for inserting a screw portion of a set screw 65 that fixes the output circuit board 4 to the case base 48. In the state where the output circuit board 4 is attached to the case base 48, the notch 17 is used when the case base 48 is attached to a mating member for attaching the power supply device 1 using the attachment hole 55 with a set screw (not shown). This is a relief for ensuring the operation of the set screw and the fastening tool outside the figure.

  The base circuit board 5 is a circuit board of a form called a printed wiring board in which a wiring made of a metal foil-like conductor is attached to the surface of a rectangular plate-shaped synthetic resin board, and an AC power source is converted into a DC power source used for a gaming machine Of the electric components constituting the power supply circuit, the electric components other than the electric double layer capacitors and electrolytic capacitors 6; 7; 13, the input side connector 19; 20, the output side connector 21; 22, and the heat sink 23 are mounted. .

  The input-side connectors 19 and 20 are attached to one side portion of the base circuit board 5 located on the input circuit board 3 side so as to be separated from each other in the extending direction of the one side section. The input-side connectors 19 and 20 are input-side electrical terminals called rod-shaped male terminals (see input-side electrical terminals B in FIG. 1) penetrating vertically in a synthetic resin connector body (see connector body D in FIG. 1). It is configured as a male connector having Since the input side electrical terminal of the input side connector 19 is connected to the + side wiring with respect to the + side electrical terminal of the electrolytic capacitors 6; 7, the input side connector 19 is conceptualized as a + side male connector. Since the input side electrical terminal of the input side connector 20 is connected to the-side wiring to the-side electrical terminal of the electrolytic capacitors 6; 7, the input side connector 20 is conceptualized as a-side male connector.

  The output-side connectors 21 and 22 are attached to one side portion of the base circuit board 5 located on the output circuit board 4 side so as to be separated from each other in the extending direction of the one side section. The output-side connectors 21 and 22 are configured as male connectors having output-side electrical terminals called rod-shaped male terminals that penetrate vertically through a synthetic resin connector body. Since the output side electrical terminal of the output side connector 21 is connected to the + side wiring with respect to the + side electrical terminal of the electrolytic capacitor 13, the output side connector 21 is conceptualized as a + side male connector. Since the output side electrical terminal of the output side connector 22 is connected to the − side electrical terminal of the electrolytic capacitor 13, the output side connector 22 is conceptualized as a − side male connector.

  Screw insertion holes 24 are provided at the four corners of the base circuit board 5. The screw insertion hole 24 is a portion for inserting a screw portion of a set screw 66 for attaching the base circuit board 5 to the case base 48. An escape hole 25 is provided between the input side connectors 19; 20 and between the output side connectors 21; 22 on the base circuit board 5. The escape hole 25 is a portion into which the input board attachment body 59 and the output board attachment body 61 are inserted when the base circuit board 5 is attached to the case base 48. Another side portion of the base circuit board 5 positioned in a direction orthogonal to the side where the input side connectors 19; 20 and the output side connectors 21; 22 are provided includes an AC input connector 26, an AC output connector 27, a DC current. The output connector 28, the plurality of fuses 29, and the power switch 30 are mounted by soldering. On the other side of the base circuit board 5 facing the other side, a rectifier circuit IC31 incorporating a diode bridge constituting the rectifier circuit is mounted by soldering. Since the rectifier circuit IC31 generates a large amount of heat, it includes a dedicated radiator 32.

  The heat radiating plate 23 is composed of a metal plate material with good heat dissipation, which is integrally provided with one piece 33, another piece 34, a connecting piece 35, a radiator attaching portion 36, and a substrate attaching portion 37. The connecting piece 35 is in contact with the side surface of the rectifier circuit IC 31 mounted on the base circuit board 5, which is located on the output side connector 21 side of the radiator 32, and the radiator mounting portion 36 is in contact with the upper surface of the radiator 32. The set screw 38 is fastened to the radiator 32 from a screw insertion hole (not shown) formed in the radiator mounting portion 36, and the one piece 33 is arranged along the extending direction of the other side portion of the base circuit board 5. An unillustrated screw insertion hole in which the piece 34 is arranged along the extending direction of one side located on the output side connector 21; 22 side in the base circuit board 5 and the set screw 38 is formed in the base circuit board 5. The heat radiating plate 23 is attached to the base circuit board 5 by being fastened to an attachment hole (not shown) formed in the board attachment portion 37. A screw insertion hole 46 is provided in the other piece 34 of the heat sink 23. The screw insertion hole 46 is a portion into which a screw portion of a set screw 76 for attaching the case cover 68 to the heat radiating plate 23 is inserted.

  Screw insertion hole 24 in base circuit board 5, relief hole 25, input side connector 19; 20, output side connector 21; 22, heat sink 23, rectifier circuit IC 31, radiator 32, AC input connector 26, AC output connector 27, In the central portion surrounded by the DC output connector 28, the fuse 29, and the power switch 30, there are a fuse 40, a step-up transformer 41, an input processing unit 42, a DC constant voltage transformer 43, a resistor 44, and a backflow prevention diode. Is installed by soldering. The fuse 40, the transformer 41; 43, the input processing unit 42, the resistor 44, and the backflow prevention IC 45 are an electric double layer capacitor or an electrolysis of electric components constituting a power supply circuit that converts an AC power source into a DC power source used for a gaming machine. Electric components other than the capacitors 6; 7; 13 are configured. Although one resistor 44 and one backflow prevention IC 45 are shown, there are a plurality of resistors.

  The case base 48 is a member for mounting the power supply circuit board 2, and includes a bottom wall 49, four side walls 50, a base board mounting part 51, an input board mounting part 52, and an input board support part from one metal plate material. 53 and the output board attaching part 54 are integrally formed. The bottom wall 49 has a square shape that can accommodate the power supply circuit board 2. The four side walls 50 are bent at right angles from the four sides of the bottom wall 49 upward. Attachment holes 55 are provided at the four corners of the bottom wall 49 where the four side walls 50 are separated from each other. The attachment hole 55 is a portion into which a screw portion of a set screw (not shown) for attaching the case base 48 to a mating member for attaching the power supply device 1 is inserted. The height of the pair of side walls 50 facing each other upward from the bottom wall 49 is higher than the height of the other pair of side walls 50 facing each other upward from the bottom wall 49. The base board mounting portion 51 is an end located on the side of the input-side connector 19; 20 and the output-side connector 21; 22 on the other pair of side walls 50 facing upward from the bottom wall 49. It is bent at a right angle from the top of the part to the inside. The four base board mounting portions 51 are individually provided with mounting holes 57. The attachment hole 57 is a portion for fastening the screw portion of the set screw 66. The upper surface of the base substrate mounting portion 51 having the mounting hole 57 is located in one plane parallel to the upper surface of the bottom wall 49.

  The input board mounting portion 52 is formed from the upper portion located on the side of one input connector 19 in the pair of side walls 50 facing upward from the bottom wall 49 and upward from the bottom wall 49. Are bent at right angles from the upper part of the extension 58 extending from one of the pair of side walls 50 having a lower height to the input connector 20. The input board support part 53 is bent inward at right angles from the upper part located on the side of the one input side connector 20 in the pair of side walls 50 facing upward in the upward direction from the bottom wall 49. An input board mounting body 59 is provided on the bottom wall 49 so as to project upward from a position between the base board mounting parts 51; 51 located on the input side connector 19; 20 side. The input board attaching part 52, the input board supporting part 53, and the input board attaching body 59 are provided with attachment holes 60 individually. The attachment hole 60 is a portion for fastening the screw portion of the set screw 64. The upper surface of the input board mounting portion 52 having the mounting hole 60, the upper surface of the input board support portion 53, and the upper surface of the input board mounting body 59 having the mounting hole 60 are parallel to the upper surface of the bottom wall 49 and the upper surface of the base board mounting portion 51. It is located in one plane higher than the height above the bottom wall 49 at.

  The output board mounting portion 54 is perpendicular to the inside from the top of one side wall 50 located on the output side connector 21; 22 side of the pair of side walls 50 facing upward from the bottom wall 49. Can be folded. An output board mounting body 61 is provided on the bottom wall 49 so as to protrude upward from the position between the base board mounting parts 51 located on the output side connectors 21; 22 side. Mounting holes 62 are individually provided in the output board mounting portion 54 and the output board mounting body 61. The attachment hole 62 is a portion for fastening the screw portion of the set screw 65. The upper surface of the output board mounting portion 54 having the mounting hole 62 and the upper surface of the output board mounting body 61 having the mounting hole 62 are parallel to the upper surface of the bottom wall 49 and extend upward from the bottom wall 49 on the upper surface of the base board mounting portion 51. Located in one plane higher than the height. In the best mode, the height of the upper surface of the output board mounting portion 54 having the mounting hole 62 and the upper surface of the output board mounting body 61 having the mounting hole 62 upward from the bottom wall 49 is the mounting hole of the input board mounting portion 52. The upper surface having the upper surface 60 and the upper surface having the mounting hole 60 of the input board supporting portion 53 and the upper surface of the input board mounting body 59 having the mounting hole 60 have the same height from the bottom wall 49 upward.

  The case cover 68 is a member that covers the fuse 40, the transformer 41; 43, the input processing unit 42, the resistor 44, and the backflow prevention IC 45 in the base circuit board 5. 70 and the engaging part 71 are integrally formed. The ceiling wall 69 has a rectangular shape that covers the fuse 40, the transformer 41; 43, the input processing unit 42, the resistor 44, and the backflow prevention IC 45 in the base circuit board 5. The three side walls 70 are bent at a right angle downward from three sides excluding one side located on the radiator 32 side of the top wall 69. The height of one side wall 70 located on the output side connector 21; 22 side of the three side walls 70 downward from the top wall 69 is lower than the height of the remaining two side walls 70 downward from the top wall 69. The height of the remaining two side walls 70 downward from the top wall 69 is the same. A large number of heat radiation holes 72 are formed in the top wall 69 and the remaining two side walls 70. Although the heat radiating hole 72 is provided in each of the three side walls 70, a part is illustrated.

  Mounting holes 74 are provided in the two side walls 70 located on the output side connector 21; 22 side. The attachment hole 74 is a portion for fastening the screw portion of the set screw 76. The engaging portion 71 is provided on two side portions of the top wall 69 that are located on the side of the one piece 33 and the other piece 34 of the heat radiating plate 23, and includes a horizontal piece and a horizontal piece that protrude linearly outward from the top wall 69. It is provided with a vertical piece bent at a right angle downward from the tip. An escape hole 75 for escaping the head of the set screw 38 is provided on a side portion of the top wall 69 located on the side of the piece 33 of the heat radiating plate 23.

  In FIG. 1, in the state where the fuse 40, the transformer 41; 43, the input processing unit 42, the resistor 44, and the backflow prevention IC 45 are directed upward in the base circuit board 5, the base circuit board 5 is the base board mounting portion of the case base 48. 51, the upper part of the input board mounting body 59 and the upper part of the output board mounting body 61 of the case base 48 protrude upward from the base circuit board 5 through the escape holes 25 of the base circuit board 5. The base circuit board 5 is attached to the case base 48 by fastening the set screw 66 from the screw insertion hole 24 of the base circuit board 5 to the attachment hole 57 of the base board attachment part 51. When the base circuit board 5 is attached to the case base 48, the two side portions of the base circuit board 5 where the one piece 33 of the heat sink 23 and the power switch 30 are located are two side walls 50 having a low height of the case base 48. The upper surface of the base circuit board 5 on which the fuse 40, the transformer 41; 43, the input processing unit 42, the resistor 44, and the backflow prevention IC 45 are mounted does not protrude above the two side walls 50 having a low height. .

  Thereafter, the two side walls 70 having a high height in the case cover 68 are routed from above between the DC output connector 28 and the other piece 34 of the heat sink 23, and between the input side connector 19; 20 and the transformer 41. The inner surface of one side wall 70 located on the side of the input side connector 19; 20 on the two side walls 70 having a high height is in contact with the upper surface of the base circuit board 5. The one side wall 70 is arranged outside the surface located on the input side connector 19 side of the radiator 32 so as to be brought into contact with the surface located on the input side connector 19 side. The lowest side wall 70 is arranged inside the other piece 34 of the heat sink 23 so that the outer surface of the lowest side wall 70 contacts the inner surface of the other piece 34 of the heat sink 23. A plurality of engaging portions 71 of 8 is hooked to the piece 33 and the other piece 34 in the heat radiating plate 23. That is, the vertical piece of the engaging portion 71 is disposed outside the one piece 33 and the other piece 34, and the horizontal piece of the engaging portion 71 is in contact with the upper surfaces of the one piece 33 and the other piece 34. The set screw 76 is fastened from the screw insertion hole 46 of the heat sink 23 to the mounting hole 74 of the case cover 68. As a result, the case cover 68 covers the fuse 40, the transformer 41; 43, the input processing unit 42, the resistor 44, and the backflow prevention IC 45 in the base circuit board 5, and the case cover 68 covers the base circuit board 5 as shown in FIG. Fixed. When the case cover 68 is fixed to the base circuit board 5, the case cover 68, the base circuit board 5, the heat sink 23 and the heat radiator 32 shown in FIG. 2 are connected to the fuse 40, the transformer 41; 43, the input processing unit 42, A closed space in which the resistor 44 and the backflow prevention IC 45 are confined is formed.

  In FIG. 3, after the case cover 68 is fixed to the base circuit board 5 as shown in FIG. 3, the input circuit board 3 and the output circuit board 4 are fixed to the base circuit board 5 and the case base 48. For this purpose, the input side connector 8; 9 of the input circuit board 3 and the input side connector 19 of the base circuit board 5 in a state where the electrolytic capacitors 6; 7 and the input side connectors 8; 9 on the input circuit board 3 are directed upward. 20 are fitted to each other, the input circuit board 3 is placed on the upper surface of the input board mounting portion 52 of the case base 48, the upper surface of the input board support portion 53, and the upper surface of the input board mounting body 59, and the set screw 64 is mounted on the input circuit. The input board mounting part 52, the input board support part 53, and the mounting hole 60 of the input board mounting body 59 are fastened from the screw insertion hole 10 of the board 3. Further, in a state where the electrolytic capacitor 13 and the output side connector 14; 15 on the output circuit board 4 are directed upward, the output side connector 14; 15 of the output circuit board 4 and the output side connector 21; 22 of the base circuit board 5 Are fitted together, the output circuit board 4 is placed on the upper surface of the output board mounting portion 54 of the case base 48 and the upper surface of the output board mounting body 61, and the set screw 65 is attached to the output board from the screw insertion hole 16 of the output circuit board 4. Fastened to the mounting hole 62 of the part 54 and the output board mounting body 61. As a result, the input circuit board 3 and the output circuit board 4 are fixed to the base circuit board 5 and the case base 48 as shown in FIG. Therefore, since the input circuit board 3, the output circuit board 4, and the base circuit board 5 are fixed by the single case base 48, the input side connectors 8; 9; 19; 20 and the output side connectors 14; 15; 21; Conductive contact can be properly maintained.

  In FIG. 1 a, the input circuit board 3 moves to the case base 48 side when the base circuit board 5 is attached to the case base 48 with the set screw 66 and the case cover 68 is attached to the base circuit board 5. An input side electrical terminal A formed as a female terminal in the input side connector 8; 9 of the input circuit board 3 and an input side electrical terminal B formed as a male terminal in the input side connector 19; 20 of the base circuit board 5 Are fitted to each other so as to be conductive, the connector body C in the input side connectors 8; 9 is superimposed on the connector body D in the input side connectors 19; 20, and the connector body C and the connector body D are in contact with each other. . In this state, the set screw 64 is fastened from the screw insertion hole 10 to the attachment hole 60, whereby the input circuit board 3 is attached to the case base 48 as shown in FIG. Further, the output circuit board 4 is moved to the case base 48 side, and the output side electrical terminal E formed as a female terminal in the output side connector 14; 15 of the output circuit board 4 and the output side connector 21 of the base circuit board 5; The output side electrical terminal F formed as a male terminal in 22 is fitted to each other so as to be conductive, and the connector body G in the output side connector 14; 15 is superimposed on the connector body H in the output side connector 21; 22. Then, the connector body G and the connector body H come into contact with each other. In this state, the set screw 65 is fastened from the screw insertion hole 16 to the attachment hole 62, whereby the output circuit board 4 is attached to the case base 48 as shown in FIG.

  As shown in FIG. 1b, in the state where the input circuit board 3 and the output circuit board 4 are attached to the base circuit board 5 and the case base 48 to which the case cover 68 is fixed, a person who is not shown in FIG. After the set screw 64 is removed with such a fastening tool, the input side electrical terminal A is pulled out from the input side electrical terminal B by holding the case base 48 and lifting the input circuit board 3 linearly upward. 3 is removed from the case base 48. Further, after a person removes the set screw 65 with a fastening tool such as a driver (not shown), the case base 48 is pressed and the output circuit board 4 is linearly lifted upward, so that the output side electric terminal E is connected to the output side. The output terminal board 4 is removed from the electrical terminal F, and the output circuit board 4 is removed from the case base 48.

  In this way, the input circuit board 3 on which the electrolytic capacitors 6; 7 are mounted and the output circuit board 4 on which the electrolytic capacitor 13 is mounted constitute an electric power circuit that converts an AC power source into a DC power source used in a gaming machine. Among the components, the electric double layer capacitor and the electrolytic capacitor 6; 7; are mounted on the base circuit board 5 on which the electric components other than 13 and 13 are mounted and the case base 48 to which the case cover 68 is fixed. After the screws 64; 65 are removed, the input circuit board 3 and the output circuit board 4 are removed from the case base 48 by holding the case base 48 and lifting the input circuit board 3 or the output circuit board 4 linearly upward. . For this reason, when the power supply device 1 is removed from the gaming machine discarded from the game store and played back, the input circuit board 3 and the base circuit board 5 and the case cover 68 remain attached to the case base 48 in the power supply apparatus 1. The output circuit board 4 can be easily detached from the case base 48. The input side electrical terminal A of the input circuit board 3 and the output side electrical terminal E of the output circuit board 4 are formed by female terminals, and the input side electrical terminal B and the output side electrical terminal F of the base circuit board 5 are formed by male terminals. Therefore, when the input circuit board 3 and the output circuit board 4 are removed from the base circuit board 5 and placed on the work table, the input side electrical terminal A and the output side electrical terminal E are bent or damaged. Can be prevented.

  Since only the electrolytic capacitors 6; 7; 13 are mounted on the input circuit board 3 and the output circuit board 4 removed from the case base 48 by soldering as the electric components constituting the power supply circuit, the electrolytic capacitor 6 7; 13 and input side connector 8; 9 and output side connector 21; 22 are mounted on the input circuit board 3 and the output circuit board 4, and a probe for checking the degree of deterioration of the electrolytic capacitors 6; 7; 13. Or a voltage applicator such as a charging terminal for performing refresh is brought into contact with the input side electrical terminal A and the output side electrical terminal E. By doing so, the degree of deterioration of the electrolytic capacitors 6; 7; 13 can be easily checked, and the function of the electrolytic capacitors 6; 7; It can be or Interview. After that, when the deterioration of the electrolytic capacitors 6; 7; 13 is small or when the refresh is finished, the input circuit with the electrolytic capacitors 6; 7; 13 and the input side connectors 8; 9 and the output side connectors 14; The board 3 and the output circuit board 4 are attached to the case base 48, the input side connectors 8; 9 and the input side connectors 19; 20 are connected to each other so as to be conductive, and the output side connectors 14; 15 and the output side connectors 21; Since the power supply device 1 is regenerated if they are connected to each other in a conductive manner, the power supply device 1 can be appropriately regenerated without adversely affecting the electrical components mounted on the base circuit board 5 with less labor and less time. It can be carried out. In the input circuit board 3, the electrolytic capacitors 6; 7 and the input side connectors 8; 9 are arranged close to each other, and in the output circuit board 4, the electrolytic capacitor 13 and the output side connectors 14; 15 are arranged close to each other. Then, the rectifier circuit IC31 and the transformer 41 and the input side connector 19; 29 are arranged close to each other. In the base circuit board 5, the transformer 43 and the output side connector 21; 22 are arranged close to each other. By connecting the output circuit board 4 and the base circuit board 5 to each other as shown in FIG. 4, it is possible to obtain the power supply device 1 that does not generate high-frequency noise during the operation of converting the AC power supply to the DC power supply.

  5, the wiring structure of the input side connectors 8; 9; 19; 20 and the output side connectors 14; 15; 21; 22 in the power supply circuit board 2 will be described. The input-side connector 8 of the input circuit board 3 has a plurality of input-side electrical terminals 78 corresponding to the input-side electrical terminals A and two short-circuited electrical terminals 79 in the connector body corresponding to the connector body C in FIG. Provided. The input side electrical terminals 78 are individually connected to the + side electrical terminals of the electrolytic capacitors 6; 7 by wiring shown by a thick solid line made of a metal foil conductor on the input circuit board 3. The two short-circuit electric terminals 79 are connected to each other by a short-circuit circuit 80 made of a metal foil conductor on the input circuit board 3. The input side connector 9 of the input circuit board 3 is provided with a plurality of input side electrical terminals 81 corresponding to the input side electrical terminals A of FIG. 1 in a connector body corresponding to the connector body C of FIG. The negative side electric terminals of the electrolytic capacitors 6 and 7 are individually connected to the input side electric terminals 81 by wirings indicated by thick solid lines made of metal foil conductors in the input circuit board 3. That is, the input circuit board 3 is provided with a set of two short-circuit electrical terminals 79 and a short-circuit circuit 80 connecting the two sets of short-circuit electrical terminals 79 to each other.

  The output-side connector 14 of the output circuit board 4 has a plurality of output-side electrical terminals 83 corresponding to the output-side electrical terminals E in FIG. 1 and two short-circuit electrical terminals 84 in a connector body corresponding to the connector body G in FIG. Provided. The output-side electrical terminal 83 is individually connected to the + -side electrical terminal of the electrolytic capacitor 13 by a wiring indicated by a thick solid line made of a metal foil conductor in the output circuit board 4. The two short-circuit electric terminals 84 are connected to each other by a short-circuit circuit 85 made of a metal foil conductor on the output circuit board 4. The output side connector 15 of the output circuit board 4 is provided with a plurality of output side electrical terminals 86 corresponding to the output side electrical terminals E of FIG. 1 in a connector body corresponding to the connector body G of FIG. The output side electrical terminal 86 is individually connected to the negative side electrical terminal of the electrolytic capacitor 13 by wiring shown by a thick solid line made of a metal foil conductor in the output circuit board 4. That is, the output circuit board 4 is provided with a set of two short-circuit electric terminals 84 and a short-circuit circuit 85 that connects the two sets of short-circuit electric terminals 84 to each other.

  One line 88 on the base circuit board 5 is provided with two cut portions 89 and 90 where the line 88 is cut off. The input side connector 19 of the base circuit board 5 has a plurality of input side electrical terminals 91 corresponding to the input side electrical terminal B in FIG. 1 and two short circuit electrical terminals 92 in a connector body corresponding to the connector body D in FIG. Provided. Wirings indicated by thick solid lines made of metal foil-like conductors in the base circuit board 5 with respect to the + side electrical terminals of the electrolytic capacitors 6 and 7 are individually connected to the input side electrical terminals 91. Two short-circuited portions 93 at one cut point 89 are individually connected to the two short-circuited electrical terminals 92 by a short-circuit wiring 94 made of a metal foil-like conductor in the base circuit board 5. In the input side connector 20 of the base circuit board 5, a plurality of input side electrical terminals 95 corresponding to the input side electrical terminals B in FIG. 1 are provided in a connector body corresponding to the connector body D in FIG. Wirings indicated by thick solid lines made of metal foil conductors in the base circuit board 5 with respect to the negative electric terminals of the electrolytic capacitors 6; 7 are individually connected to the input electric terminals 95.

  The output-side connector 21 of the base circuit board 5 has a plurality of output-side electrical terminals 96 corresponding to the output-side electrical terminals F in FIG. 1 and two short-circuit electrical terminals 97 on the connector body corresponding to the connector body H in FIG. Provided. The output-side electrical terminal 96 is individually connected with a wiring indicated by a thick solid line made of a metal foil-like conductor in the base circuit board 5 with respect to the + -side electrical terminal of the electrolytic capacitor 13. The two short-circuit electric terminals 97 are individually connected to the two cut ends 98 at one cut point 90 and the short-circuit wiring 99 made of a metal foil-like conductor on the base circuit board 5. The output side connector 22 of the base circuit board 5 is provided with a plurality of output side electrical terminals 100 corresponding to the output side electrical terminals F of FIG. 1 in a connector body corresponding to the connector body H of FIG. Wirings indicated by thick solid lines made of metal foil conductors in the base circuit board 5 with respect to the negative electric terminal of the electrolytic capacitor 13 are individually connected to the output electric terminal 100.

  Therefore, when both the input circuit board 3 and the output circuit board 4 are removed from the base circuit board 5, one line 88 in the base circuit board 5 is in a state of being cut at the cutting points 89 and 90. Yes. Then, when the input side connector 8 of the input circuit board 3 and the input side connector 19 of the base circuit board 5 are fitted together, the short-circuit electrical terminal 79 and the short-circuit electrical terminal 92 are connected to each other so as to be electrically conductive, and the output circuit When the output side connector 14 of the board 4 and the output side connector 21 of the base circuit board 5 are fitted to each other, the short circuit electrical terminal 84 and the short circuit electrical terminal 97 are electrically connected to each other. As a result, one line 88 in the base circuit board 5 can be energized by the short-circuit electrical terminals 79; 84; 92; 97, the short-circuit 80; 85, the cut ends 93; 98, and the short-circuit wires 94; Composed. That is, when the power supply device 1 is regenerated by the configuration of FIG. 4, the input circuit board 3 and the output circuit board 4 on which the electrolytic capacitors 6; 7; 13 and the input side connectors 8; 9 and the output side connectors 14; 15 are mounted. If it is not attached to the case base 48, the single circuit 88 in the base circuit board 5 is not configured to be energized, and the power supply circuit is not configured, so the electrolytic capacitors 6; 7; 13 and the input side connectors 8; 9 In addition, it is possible to prevent forgetting to attach the input circuit board 3 and the output circuit board 4 on which the output side connectors 14 and 15 are mounted to the base circuit board 5 and the case base 48.

  In FIG. 6, the outline of the power supply circuit of the power supply device 1 will be described. The power supply circuit includes a power switch 30, an AC input connector 26, an AC output connector 27, a DC output connector 28, an input side processing unit 111, and a DC power supply generation unit 112. The input side processing unit 111 includes an overcurrent protection circuit 113, a 100 V (volt) detection circuit 114, a smoothing circuit 115, a relay 116, and a relay control circuit 117. Smoothing circuit 115 generates a DC power source for operating relay 116. The relay 116 includes a relay coil 119 and a relay contact 120. The DC power supply generation unit 112 includes a full-wave rectifier circuit 121, a smoothing circuit 122, a constant voltage circuit 123, and a backup circuit 124. The electrolytic capacitor of the smoothing circuit 115 is constituted by the electrolytic capacitor 6 shown in FIG. The electrolytic capacitor of the smoothing circuit 122 is constituted by the electrolytic capacitor 7 shown in FIG. The capacitor of the backup circuit 124 is constituted by the electrolytic capacitor 13 shown in FIG. 2 and an electric double layer capacitor not shown.

  When the island-side power supply 125 such as the island-side transformer in the pachinko parlor and the AC input connector 26 are connected to each other and the power switch 30 is turned on, the rectifier circuit (not shown) in the 100V detection circuit 114 is protected against overcurrent. An AC power supply such as AC 24V supplied via the circuit 113 is converted into a relay driving DC power supply, and the smoothing circuit 115 reduces the pulsation of the relay driving DC power output from the rectifier circuit; The DC power output from the smoothing circuit 115 is supplied to the relay coil 119 via the relay control circuit 117, and the relay contact 120 is closed. As a result, the power line noise that has entered the AC power input via the relay contact 120 is removed by a noise filter (not shown), and then the AC power is output to the full-wave rectifier circuit 121. 121 full-wave rectifies the AC power supply and outputs it to the smoothing circuit 122. The smoothing circuit 122 flattens the voltage and outputs it to the constant voltage circuit 123. The constant voltage circuit generates a constant voltage of DC5V; DC12V and outputs the direct current. The data is output to the output terminal 28a of the connector 28. A direct current power supply such as coarse rectified DC24V that has passed through the full-wave rectifier circuit 121 is output to the output terminal 28b of the direct current output connector 28, and an alternating current power supply such as AC24V that is input via the relay contact 120 is an alternating current output connector 27. To the output terminal 27a.

  When the 100 V detection circuit 114 detects that the AC 100 V power supply is connected to the AC input connector 26, the 100 V detection circuit 114 cuts off the supply of the relay drive power to the relay control circuit 117 of the relay 116. The relay control circuit 117 supplies or cuts off power to the relay coil 119 of the relay 116 based on the relay drive power from the 100 V detection circuit 114, the input signal from the power switch 30, and the overvoltage detection signal from the constant voltage circuit 123. To control. When the 100V detection circuit 114 does not detect AC 100V and the constant voltage circuit 123 does not detect overvoltage, the relay control circuit 117 supplies power to the relay coil 119 when the power switch 30 is turned on, or The power supply to the relay coil 119 is cut off by opening the switch 30. A line 88 illustrated in FIG. 5 is a line that connects the power switch 30 and the relay coil 119 illustrated in FIG. 6, for example. Thus, if the line 88 is constituted by a line connecting the power switch 30 and the relay coil 119, the circuit configuration is easy.

  As shown in FIG. 7, on the back surface of the game board 127 in a pachinko machine as a game machine, for example, a main control device 128 for controlling the game in general, a symbol control device 129 for controlling the symbol display, a display A display light control device 130 for controlling the light and a sound control device 131 for controlling the sound effect are attached. On the back surface of the gaming machine frame 132 on which the gaming board 127 is mounted, a tank mechanism 133 that stores balls supplied from the supply mechanism of the gaming machine installation facility, and the balls stored in the tank mechanism 133 are used as prize balls. A ball payout mechanism 134 for paying out a ball tray outside the figure on the front side of the ball, a ball launch mechanism outside the figure for launching a ball supplied from the ball tray to the game area on the front side of the game board 127, a ball payout mechanism 134 and a ball launch mechanism A launching / dispensing control device 135 and a power supply device 1 are attached. 6 is connected to the AC output connector 27 of FIG. 6 in the power supply device 1 by wiring. A main control device 128, a symbol control device 129, an indicator light control device 130, a sound control device 131, and a firing / dispensing control device 135 are connected to the DC output connector 28 of FIG. 6 in the power supply device 1.

  In FIG. 5, if the short circuit electrical terminals 79; 84; 92; 97, the short circuit 80; 85, the cut ends 93; 98, and the short circuit wires 94; 99 are not provided, the base circuit boards of the input circuit board 3 and the output circuit board 4 5 and the case base 48 cannot be forgotten to be attached, but the wiring structure of the input circuit board 3, the output circuit board 4 and the base circuit board 5 can be simplified.

The side view which shows a power supply device typically (best form). The disassembled perspective view which shows a power supply device (best form). The exploded perspective view which removed the input circuit board and the output circuit board (best form). The exploded perspective view (best form) which attached the input circuit board and the output circuit board. FIG. 2 is a schematic plan view (best mode) showing a wiring structure of a power circuit board. The circuit diagram which shows a power supply device (best form). The rear view which shows a pachinko machine (best form).

Explanation of symbols

A Input side electrical terminal B Input side electrical terminal E Output side electrical terminal F Output side electrical terminal 1 Power supply 2 Power supply circuit board 3 Input circuit board 4 Output circuit board 5 Base circuit board 6 Electrolytic capacitor 7 Electrolytic capacitor 13 Electrolytic capacitor 79 Short circuit Electrical terminal 80 Short circuit 84 Short circuit electrical terminal 85 Short circuit 88 Line 89 Cutting location 90 Cutting location 92 Short electrical terminal 93 Cut end 97 Short electrical terminal 98 Cut end

Claims (3)

  A power supply circuit board on which an electric component constituting a power supply circuit for converting an AC power supply into a DC power supply used in a gaming machine is mounted. An input circuit board on which an electrolytic capacitor on the input side of the electric component is mounted; and the electric component The output circuit board on which the output-side electrolytic capacitor is mounted and the base circuit board on which electrical components other than the electrolytic capacitor in the electrical component are mounted are divided, and the input circuit board is provided with input-side electrical terminals. The output circuit board is provided with an output side electrical terminal, the base circuit board is provided with an input side electrical terminal and an output side electrical terminal, the input side electrical terminal of the input circuit board and the input side electrical terminal of the base circuit board Are connected to each other, and the output side electrical terminal of the output circuit board and the output side electrical terminal of the base circuit board are connected to each other, thereby converting an AC power source into a DC power source. Power supply of the game machine that the power supply circuit is characterized in that it is configured.   The electrolytic capacitor mounted on the input circuit board and the electrical component constituting the rectifier circuit among the electrical parts mounted on the base circuit board are adjacent to each other and mounted on the electrolytic capacitor mounted on the output circuit board and the base circuit board 2. The power supply device for a gaming machine according to claim 1, wherein among the electric components thus formed, the electric components constituting the constant voltage circuit are adjacent to each other.   The base circuit board is provided with two cut portions of the line cut on one line, and a short-circuit electric terminal is individually provided at each of the cut ends of the two cut positions. A set of two short-circuited electrical terminals and a short-circuit circuit connecting the two sets of short-circuited electrical terminals are provided, and the output circuit board has one set of two short-circuited electrical terminals and one set of two short-circuited electrical terminals. A short circuit connecting the terminals to each other, and a set of two short-circuit electric terminals on the input circuit board and a short-circuit electric terminal at a cut end at one of the two cut positions are connected to each other, and an output circuit board Are connected to each other at one of the two cut locations, so that the one line can be energized. A characteristic feature of Power supply of the gaming machine according to claim 1.

Images