JP3663157B2 - Crane game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a crane game machine, and more particularly to an improved technique for an arm that holds a prize.
[0002]
[Prior art]
Conventionally, a crane game machine is widely known as a prize acquisition game. This crane game machine moves a gripping pawl device to a position above a target prize within a case where a plurality of prizes are arranged, and then lowers the gripping pawl device to grip the prize by a claw member of the gripping pawl device. Then, it is raised and the gripped prize is carried to the mouth to obtain a prize.
For example, in the crane game described in Japanese Utility Model Publication No. 7-36707, the guide rail disposed at the upper part of the housing is supported so as to be movable in a horizontal plane, and is expanded and contracted by a carrier provided slidably on the guide rail. A gripping claw device supported so as to be movable up and down is connected via a tube. The gripping claw device is provided with a pair of claw members each supported at its upper end so as to be openable and closable, and each claw member is biased in a closing direction via a spring. And if this claw member is made to open against the spring through the drive device, it is lowered, and after reaching the prize or the floor, if the claw member is released by the drive device, the claw member is closed by the spring. As a result, the prize is held.
[0003]
[Problems to be solved by the invention]
However, in the above-mentioned prior art, when the gripping pawl device is stopped above the prize, it is only seen that the specified amount of the claw member opens and closes thereafter, so that it is not interesting and the nail is placed at the place intended by the player. There is a problem that satisfaction cannot be obtained in that the member cannot be positioned. In other words, the position of the claw member relative to the prize is determined when the gripping pawl device is stopped above the prize, and the player cannot freely set the position of the claw member relative to the prize. If there is a prize at a position that interferes with the rotation trajectory of the claw member, the prize cannot be obtained.
Therefore, according to the present invention, since the arm for gripping the prize can be positioned at the place intended by the player without the influence of the turning trajectory, the prize cannot be obtained as well as the prize can be obtained. Even if this is the case, it is possible to provide a crane game machine in which the player can be fully convinced and can be satisfied.
[0004]
[Means for Solving the Problems]
  In order to solve the above problem, the invention described in claim 1A floor portion (for example, the floor portion 8 in the embodiment) in which a prize (for example, the prize K in the embodiment) is arranged in a case (for example, the transparent case 6 in the embodiment) of the housing (for example, the housing 1 in the embodiment). ) Is provided on the floor, and an operating means (for example, for advancing in the embodiment) for receiving an operation input from a player is provided in the housing. A switch SW1, a left arm switch SW2, and a right arm switch SW3), and a rail (for example, the rail 12 in the embodiment) that moves according to an operation input from the operation means is provided in the housing. Two arms (for example, the left arm 9a in the embodiment, which can move along the rail according to an operation input from the operation means) A crane game machine arm 9b) is provided,Arm moving means (for example, stepping motors M3, M4, driving pulley 24, timing belt 25, driven pulley 26 in the embodiment) for moving each of two arms movably provided along the rail, and the rail Rail moving means (for example, the moving device 45 in the embodiment) for moving theA rail moving process in which the rail moving means moves the rail to above the prize intended by the player according to the player's operation;From the operating meansFor player operationTherefore, the arm moving means in which the arm moving means moves each of the two arms., Regardless of the operation input from the operation meansAfter the rail lowering process in which the rail moving means lowers the rail, and after the rail lowering process,Regardless of the operation input from the operation meansA gripping process in which the arm moving means moves the arms further inward along the rail, and after the gripping process,Regardless of the operation input from the operation meansThe rail moving means raises the rail.TrapAfter the return process to move the upper part of theRegardless of the operation input from the operation meansThe arm moving means performs an opening process for moving the arm outward.
  The invention described in claim 2A floor portion for arranging a prize is provided in a case of the housing, a drop opening for the prize is provided on the floor portion, and operating means for receiving an operation input from a player is provided in the housing, A crane game machine provided with a rail that moves in accordance with an operation input from the operation means, and two rails that are movable along the rail in accordance with an operation input from the operation means.Arm moving means for moving each of the two arms movably provided along the rail (for example, stepping motors M3 and M4, driving pulley 24, timing belt 25, driven pulley 26, and winding device 93 in the embodiment) And rail moving means for moving the rail, from the operating meansRail movement processing in which the rail moving means moves the rail to above the prize intended for the player according to the player's operation;From the operating meansFor player operationTherefore, the arm moving means moves the two arms and moves the arms.Regardless of the operation input from the operation meansAfter the arm lowering process in which the arm moving means lowers the arm, and after the arm lowering process,Regardless of the operation input from the operation meansA gripping process in which the arm moving means moves the arms further inward along the rail, and after the gripping process,Regardless of the operation input from the operation meansThe arm moving means raises the arm and the rail moving means lifts the rail.TrapAfter the return process to move the upper part of theRegardless of the operation input from the operation meansThe arm moving means performs an opening process for moving the arm outward.
  By configuring in this way, each arm lowered between the prizes can move inward to sandwich the prize, and the target prize can be gripped.
[0005]
  Claim3The invention described inThe movement amount of the arm is determined based on data set in advance during the gripping process.It is characterized by that.
  With this configuration, the success rate of the game can be controlled to some extent on the device side, and the player can select a prize in consideration of the amount of arm movement. In addition, it is good to provide the display means which makes a player know visually the moving amount | distance of the arm to an inner side.
[0006]
The invention described in claim 3 is characterized in that the data is set by random numbers.
By configuring in this way, it is possible to provide a game that does not get tired by making the chance factor act greatly.
[0007]
The invention described in claim 4 is characterized in that the arm is provided so as to be swingable outward.
With this configuration, the inward movement of the arm does not cause excessive grabbing or breaking of the prize, and the device side further moves the arm inward and swings the arm outward. By combining with, you can freely control the success rate of the game. An adjustment member such as a spring may be provided so that the amount and strength of arm swinging can be adjusted.
[0008]
  Claim6The invention described inDuring the gripping process, the arm is moved until a predetermined pressing force is reached by a pressure sensor (for example, pressure sensor SEN8 in the embodiment) provided on the arm.It is characterized by that.
  With such a configuration, it is possible to reliably grasp the gripping state of the prize that greatly affects whether or not the prize can be gripped.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is an overall perspective view of a crane game machine according to a first embodiment of the present invention, and FIG. 2 is a perspective view of a gripping device. In this embodiment, two crane game machines 2 are provided on the left and right sides in one case 1, but one case 1 or three or more crane game machines 2 are provided. There may be.
As shown in FIG. 1, the lower half of the housing 1 is provided with an operation button 3 and a coin insertion slot 5 of the crane game machine 2 at the upper part of the front surface, respectively, and a prize outlet 4 is provided at the lower part of the front surface. ing. The left side of the operation button 3 is a forward switch SW1, the middle is a left arm switch SW2, and the right side is a right arm switch SW3. The left arm switch SW2 and the right arm switch SW3 may be levers.
[0010]
The front half and the side of the upper half of the housing 1 are covered with a transparent case 6, and the area of the two crane game machines 2 is partitioned by a partition 7 provided at the center in the left-right direction. The side portion 6a of the transparent case 6 is detachably attached so that a prize can be taken in and out from the side of the housing 1. Therefore, in some cases, it is possible to replenish prizes during the game.
A prize is arranged on each floor portion 8 in the transparent case 6, and a gripping device 10 for gripping the prize on the floor portion 8 by two arms 9 can be moved up and down by operating the operation buttons 3 above the prize. Is provided. In the floor portion 8, a drop opening 11 (shown in FIG. 25) communicating with the prize outlet 4 is formed so as to be openable in the entire width direction.
[0011]
As shown in FIG. 2, in the gripping device 10, the left arm 9a and the right arm 9b are movably supported by the rail 12 provided in the horizontal direction, and the left arm 9a and the right arm 9b approach and separate. , It is designed to open and hold prizes. A claw 13 is attached to the tip of each arm 9a, 9b.
Here, the rail 12 is covered with a cover 14, and a plurality of LED lamps 15 are arranged on the front surface of the cover 14 along the moving direction of the arms 9a and 9b as display means. The LED lamp 15 performs lottery when a coin is inserted into the coin insertion slot 5, for example, and determines the amount of movement of the arm 9 using a random number from a roulette (not shown) provided in the housing 1. To display. The range of movement of each arm 9a, 9b according to the amount of movement, that is, the range of how far the arm 9 lowered after the position of the arm 9 is determined to grab the prize is shown. That is, each arm 9a, 9b can move only to the end of the lighting range of the LED lamp 15. The arms 9a and 9b are also covered with a cover. In addition, you may comprise as a display means with a liquid crystal display, a mechanism component (for example, a scale plate and an instruction | indication component), etc. Further, the above-described roulette function may be given to this display means.
[0012]
In this way, by determining the amount of movement of the arm 9 based on data set in advance when moving the arm 9 inward, the device side can control the game success rate to some extent, and the degree of freedom of setting. The player can select a prize in consideration of the amount of movement of the arm, and the degree of freedom of selection increases and the fun increases. In particular, when random numbers are used as described above, the game can be played with a fresh sensation at all times, since the chance factor can be greatly affected and a timeless game can be provided.
The gripping device 10 is supported so as to be movable up and down by an up-and-down moving device 18 (described later) and movable in the depth direction of the housing 1 via the wires 17 in the two telescopic cylinders 16.
[0013]
3, 4, and 5 respectively show a front view, a left side view, and a plan view of the gripping device 10. The gripping device 10 includes a buffer mechanism 19 provided at an upper portion, a rail unit 20 supported by the buffer mechanism 19, and an arm 9 movably supported by a rail 12 provided in the rail unit 20. . In the following description, the cover 14 shown in FIG. 2 and the cover of the arm 9 are removed. Here, the arm 9 can be adjusted to a different length depending on the type of the prize.
As shown in FIG. 4, the rail unit 20 includes a rail 12 having a rectangular cross section that is open at the bottom and extends in the width direction of the housing 1. The front wall 12a and the rear wall 12b of the rail 12 are formed with a U-shaped cross-sectional guide portion 12c that opens inward. The guide portion 12c swings the arm 9, that is, the left arm 9a and the right arm 9b. Arm brackets 21, 21 that are movably supported are movably supported via rollers 22.
[0014]
The rail 12 is provided with a stepping motor M4 on the front wall 12a on the left end side and a stepping motor M3 on the rear wall 12b on the right end side. A driving pulley 24 fixed to the shaft of the stepping motor M4 and a driven pulley 26 rotatably supported on the right end side of the rail 12 are linked via a timing belt 25 wound around both. The right arm 9b can be moved left and right by the stepping motor M4. Similarly, a driving pulley 24 fixed to the shaft of the stepping motor M3 and a driven pulley 26 rotatably supported on the left end side of the rail 12 are linked through a timing belt 25 in the same manner. The left arm 9a can be moved left and right by the stepping motor M3.
Each arm bracket 21 is fixed to each timing belt 25 via a fixture 27. Therefore, when each timing belt 25 rotates, each arm bracket 21 moves, and the left arm 9a and the right arm 9b move along the rail 12 independently. The stepping motors M3 and M4, the driving pulley 24, the timing belt 25, and the driven pulley 26 constitute arm moving means.
[0015]
As shown in FIG. 3, the arm bracket 21 is provided with two rollers 22 provided along the rail 12 in each guide portion 12 c of the rail 12, and these four rollers 22 move along the rail 12 in total. To do. The right arm 9b and the left arm 9a of the arm 9 have the same configuration except that they are opposite to each other, and therefore the right arm 9b side will be mainly described.
[0016]
On the arm bracket 21, the upper end portion of the arm 9 is supported by a pin 28 so as to be swingable. An attachment piece 29 is provided on the right end side of the rail 12 with respect to the pin support position. The attachment piece 29 is provided with a detection piece 29 a on the right end side of the rail 12 and an attachment portion 29 b on the left end side of the rail 12.
The detection piece 29a detects that the arm bracket 21, that is, the right arm 9b has reached the right end limit position of the rail 12 by blocking the optical sensor SEN3 provided on the front wall 12a on the right end side of the rail 12. It is. Incidentally, an optical sensor SEN4 for detecting that the left arm 9a has reached the left end limit position of the rail 12 is provided at a position corresponding to the arm bracket 21 on the left arm 9a side corresponding to the optical sensor SEN3.
[0017]
In addition, a coil spring 31 is attached to the attachment portion 29b between the upper end portion of the arm 9 and the left end surface of the rail 12, and the arm 9 locked to the prize K as shown in FIG. On the other hand, an urging force can be applied in the direction in which the prize is pressed.
Here, the coil spring 31 is fixed to the attachment piece 29 a by a wing nut 32 so that the attachment length can be adjusted. By tightening the wing nut 32, the elastic force of the coil spring 31 can be adjusted.
In addition, as shown in FIG. 3, it detects that the detection part 33 provided in the fixture 27 of the right arm 9b approached the arm bracket 21 of the left arm 9a, that is, both arms 9a and 9b approached. A proximity sensor SEN5 is provided.
[0018]
A claw 13 is detachably attached to the lower end of the right arm 9b on the left end side of the rail 12 with the lower portion bent inward. Further, a sensor rod 35 is supported on the lower end of the arm 9b so as to be movable in the vertical direction via the bracket 34, and the microswitch MS1 attached to the lower end of the right arm 9b is turned ON / OFF by the upper end of the sensor rod 35. It has become. A micro switch MS2 is provided on the left arm 9a having the same configuration as the right arm 9b corresponding to the micro switch MS1. The claw 13 can be of various types according to the prize, such as forks and rods. Further, the prize may be sandwiched only by the arm 9 without providing the claw 13. In this case, it is preferable to attach a non-slip rubber or the like inside the arm 9.
[0019]
Here, various shapes of the sensor rod 35 can be used. For example, as shown in FIG. 7, if a horizontal plate 35a is attached to the lower end of the sensor rod 35, the lower end of the arm 9 is lowered. When it is in a position where it abuts against the prize K that is positioned, the horizontal plate 35a is detected first so that it does not move further downward, so that the prize K can be prevented from being damaged by the lower end of the arm 9.
[0020]
As shown in FIGS. 5 and 8 to 12, the buffer mechanism 19 is divided into upper and lower parts. The lower frame 36 fixed to the upper part of the rail 12 of the gripping device 10 and disposed horizontally, and the wire 17. And an upper frame 37 disposed horizontally.
The upper frame 37 is formed with support holes 38 at four corners (only two locations are shown in FIG. 5). A support pin 39 having a retaining portion 39a at the top is inserted into the support hole 38. Is fixed to the lower frame 36. The retaining portion 39a of the support pin 39 is formed in an inverted truncated cone shape, and is aligned with the corresponding conical surface 38a on the inner periphery of the support hole 38. The conical surface 38a is formed of a buffer member such as rubber.
[0021]
Therefore, although the lower frame 36 is supported so as to be suspended from the upper frame 37, when an upward force is applied to the lower frame 36, the position of the upper frame 37 remains the same and the lower frame 36 remains unchanged. Only can be displaced upwards. 8 is a partially enlarged view of FIG. 3 showing that the lower frame 36 is in a horizontal state, and FIG. 9 is a partially enlarged view of FIG. 3 showing a state in which the left side of the lower frame 36 receives an upward force. 11 is a partially enlarged view of FIG. 4 showing a state where the rear side of the lower frame 36 receives an upward force, and FIG. 10 is a partially enlarged view of FIG. 4 showing that the lower frame 36 is in a horizontal state. 12 is a cross-sectional view taken along line BB in FIG.
[0022]
The upper frame 37 and the lower frame 36 are connected to each other at the center at both ends in the longitudinal direction by buffer springs 40 and 40, near the support pin 39, and between the upper frame 37 and the lower frame 36. Four locations on the inner side in the length direction are connected by buffer springs 41, 41, 41, 41. Corresponding to the four buffer springs 41, 41, 41, 41, micro switches MS 3, MS 4, MS 5, MS 6 for detecting that the lower frame 36 has approached the upper frame 37 are connected to the upper frame 37 with screws 42. It has been stopped. The load when the gripping device 10 interferes with the prize can be reduced by the buffer springs 40 and 41.
As shown in FIGS. 5 and 12, the upper frame 37 of the buffer mechanism 19 configured as described above is provided with two hanging portions 43, and the ends of the wires 17 of the lifting and lowering movement device 18 are attached to the hanging portions 43. It is fixed in a state that prevents it from coming off.
[0023]
As shown in FIGS. 13 and 14, the lifting and lowering moving device 18 includes a moving device (rail moving means) 45 including a pair of moving rails 44 extending in the depth direction of the housing 1, and FIGS. 15 to 19. Further, an elevating device (arm up / down moving means) 46 for elevating and lowering the buffer mechanism 19 and the gripping device 10 along the moving device 45 is provided. Therefore, the moving device 45 moves the gripping device 10 in a direction crossing the moving direction of the arm 9.
The moving device 45 has two moving rails 44 having a U-shaped cross section as shown in FIG. The moving rails 44 are arranged so that the opening portions thereof are opposed to each other, and a traveling roller 47 of an elevating device 46 described later rolls in the moving rail 44 so that the elevating device 46 can be moved in the depth direction of the housing 1. Yes.
[0024]
As shown in FIGS. 13 and 14, a rotation shaft 48 is provided between the two moving rails 44 on the back side and the front side of the housing 1, and driven pulleys 49 and 49 are provided at the center of each rotation shaft 48. The timing belt 50 is wound around the driven pulleys 49 and 49. Further, a stepping motor M1 is attached to the front side of the housing 1 across the two moving rails 44 via a fixed bracket 51. As shown in FIG. 14, the driving pulley 52 and the driven pulley 49 of the stepping motor M1 are attached. An intermediate belt 54 is wound around a pulley 53 attached adjacent to the front side of the housing 1. Therefore, when the stepping motor M1 rotates, its power rotates the timing belt 50 via the drive pulley 52, the intermediate belt 54, the pulley 53, the rotating shaft 48, and the driven pulley 49.
[0025]
An elevating device 46 is attached to the timing belt 50, and the elevating device 46, that is, the gripping device 10 can be moved along the depth direction of the housing 1 by the rotation operation of the timing belt 50. In FIG. 13, the moving rail 44 is provided with an optical sensor SEN1 for detecting that the lifting device 46 has reached the limit position on the front side of the casing 1, that is, the gripping device 10 has reached the front limit. A light sensor SEN2 for detecting that the elevating device 46 has reached the limit position on the back side of the housing 1, that is, the gripping device 10 has reached the back limit position, is provided on the back side.
[0026]
As shown in FIGS. 15 to 19, the lifting device 46 includes a winding mechanism 56 for the wire 17 in the upper frame 55, and the lower frame 57 is supported by the timing belt 50 of the moving device 45 and is attached to the moving rail 44. A plurality of running rollers 47 that roll along are provided.
Specifically, the timing belt 50 of the elevating device 46 is attached to the lower frame 57 at the center in the width direction of the housing 1 by a bolt 58a via a fixture 58, and the top of the moving rail 44 of the moving device 45. A running roller 47 that rolls on each of the wall 44a, the lower wall 44b, and the side wall 44c is provided. As a result, when the timing belt 50 of the moving device 45 rotates, the lifting device 46 can move smoothly with respect to the moving rail 44.
[0027]
A stepping motor M2 is attached to the upper frame 55 via a bracket 59, and a rotating shaft 60 extending in the width direction of the housing 1 is rotatably supported. The worm gear 61 of the stepping motor M2 and the worm gear 62 of the rotating shaft 60 are engaged with each other. A winding pulley 63 is attached to both ends of the rotating shaft 62, and the rotating shaft 60 is rotatably supported on the side wall of the bracket 64 in a state where the winding pulley 63 is housed in a box-shaped bracket 64. The gripping device 10 can be moved up and down by the stepping motor M2.
[0028]
As shown in FIGS. 17 and 18, the winding end of the wire 17 is fixed to the winding pulley 63. Then, the lower end of the wire 17 unwound from the winding pulley 63 is attached to the suspending portion 43 of the buffer mechanism 19 via the tension pulley 65 and the guide 66 supported by the bracket 64. Here, FIG. 17 shows a state where the telescopic cylinder 16 is in the extended position, and FIG. 18 shows a state where the telescopic cylinder 16 is in the retracted position.
[0029]
17 and 18, the wire 17 is housed in the telescopic cylinder 16. The telescopic cylinder 16 has a well-known structure, and in order from the larger diameter, the upper cylinder 16a, the middle cylinder 16b installed in the upper cylinder 16a, the lower cylinder 16c installed in the middle cylinder 16b, and the lower cylinder 16c are installed. The upper cylinder 16 a is fixed to the upper frame 55, and the lower cylinder 16 d is fixed to the upper frame 37 of the buffer mechanism 19. And the stopper member 16e of the middle cylinder 16b is guided to the guide hole 16f of the upper cylinder, and dropping at the time of expansion is restricted. The lower cylinder 16c and the middle cylinder 16b are also provided with a guide hole and a stopper member (both not shown) having the same configuration as the guide hole 16f and the stopper member 16e. In addition, a resin sleeve (not shown) is provided between the cylinders in order to smooth the sliding of the cylinders such as the upper cylinder 16a and the middle cylinder 16b.
[0030]
The buffer mechanism 19 supported by the elevating device 46 by the telescopic cylinder 16, that is, the gripping device 10, can move up and down without causing the telescopic cylinder 16 to shake. Here, a micro switch MS7 is attached to the bracket 64 in the vicinity of the upper end of the upper cylinder 16a, and the micro switch MS7 is turned on and off by the upper end of the lowermost cylinder 16d at the limit position where the expandable cylinder 16 is retracted. It has become.
[0031]
FIG. 20 schematically shows the arrangement of the above-described stepping motor, microswitch, and sensors. The CPU rotates the stepping motors M1 to M4 based on signals from the optical sensors SEN1 to SEN4, the proximity sensor SEN5, and the micro switches MS1 to MS7 input to the CPU (not shown). Here, in FIG. 20, since the moving device 45 represents the depth, the lower side representing the back side is tapered.
[0032]
Specifically, when the forward switch SW1 is turned on, the stepping motor M1 rotates (forward rotation), and when the forward switch SW1 is turned off or the optical sensor SEN2 is turned on, the stepping motor M1 is stopped.
When the left arm switch SW2 is turned on, the stepping motor M3 rotates, and when the left arm switch SW2 is turned off or the proximity sensor SEN5 is turned on, the stepping motor M3 is stopped.
When the right arm switch SW3 is turned on, the stepping motor M4 rotates. When the right arm switch SW3 is turned off or the proximity sensor SEN5 is turned on, the stepping motor M4 stops and the stepping motor M2 rotates (forward rotation).
[0033]
When any one of the micro switches MS1 to MS6 is turned ON, the stepping motor M2 stops and the stepping motors M3 and M4 rotate (forward rotation) by a preset amount.
When the stepping motors M3 and M4 are rotated by a preset amount or the proximity sensor SEN5 is turned ON, the stepping motors M3 and M4 are stopped and the stepping motor M2 is rotated (reversely rotated).
When the micro switch MS7 is turned on, the stepping motor M2 stops and the stepping motor M1 rotates (reverses).
When the optical sensor SEN1 is turned on, the stepping motor M1 is stopped and the stepping motors M3 and M4 are rotated (reversed), and when the optical sensors SEN3 and SEN4 are turned on, the stepping motors M3 and M4 are stopped.
[0034]
Next, the operation of the crane game machine will be described based on the flowcharts of FIGS. Here, as described above, when a coin is inserted from the coin insertion slot 5 of the housing 1, the movement range of the arm 9, that is, the position of the arm 9 is determined by the LED lamp 15, and the arm 9 is lowered. It is determined to which position the arm 9 moves inward to grab the prize.
In step S01, it is determined whether or not the forward switch SW1 has been pressed. When the determination result is “YES”, the process proceeds to step S02, and when the determination result is “NO”, the process of step S01 is repeated.
In step S02, the stepping motor M1 is rotated to move the gripping device 10 to the back side, and the process proceeds to step S03.
In step S03, it is determined whether or not the forward switch SW1 has been released or the optical sensor SEN2 has detected. When the determination result is “YES”, the process proceeds to step S04, and when the determination result is “NO”, the process of step S03 is repeated.
[0035]
In step S04, the stepping motor M1 is stopped and the process proceeds to step S05. In step S05, it is determined whether or not the left arm switch SW2 has been pressed. When the determination result is “YES”, the process proceeds to step S06, and when the determination result is “NO”, the process of step S05 is repeated.
In step S06, the stepping motor M3 is rotated to move the left arm 9a to the right, and the process proceeds to step S07.
In step S07, it is determined whether the left arm switch SW2 has been released or the proximity sensor SEN5 has detected. When the determination result is “YES”, the process proceeds to step S08, and when the determination result is “NO”, the process of step S07 is repeated. As a result, the left arm 9a that has moved to the right can be stopped between the prize intended by the player and the prize.
[0036]
In step S08, the stepping motor M3 is stopped and the process proceeds to step S09. In step S09, it is determined whether or not the right arm switch SW3 has been pressed. When the determination result is “YES”, the process proceeds to step S10, and when the determination result is “NO”, the process of step S09 is repeated.
In step S10, the stepping motor M4 is rotated to move the right arm 9b to the left, and the process proceeds to step S11.
In step S11, it is determined whether or not the right arm switch SW3 has been released or the proximity sensor SEN5 has detected. If the determination result is “YES”, the process proceeds to step S12. If the determination result is “NO”, the process of step S11 is repeated. As a result, the right arm 9b that has moved to the left can be stopped between the prize intended by the player and the prize.
[0037]
In step S12, the stepping motor M4 is stopped to determine the lowered position of both arms 9, the stepping motor M2 is rotated, the gripping device 10 is lowered (moved downward), and the process proceeds to step S13. By this operation, the two arms 9a and 9b are lowered to the place intended by the player. Therefore, the arm 9 can be reliably inserted between the prizes.
In step S13, it is determined whether any of the micro switches MS1 to MS6 is detected. If the determination result is “YES”, the process proceeds to step S14. If the determination result is “NO”, the process of step S13 is repeated.
In step S14, the stepping motor M2 is stopped, the stepping motor M3 and the stepping motor M4 are rotated, and the operation of gripping the prize with the claws 13 of the arm 9 is performed. Specifically, both arms 9 are moved inward.
[0038]
For example, when the arm 9 is lowered to an appropriate position, the microswitches MS1 and MS2 are brought into contact with the floor surface 8 by the sensor rod 35, so that the stepping motor M2 is stopped by using the microswitch MS1 and MS2 and the gripping operation of the prize by the arm 9 is started. be able to.
On the other hand, when the sensor rod 35 comes into contact with the prize when the arm 9 is lowered, the arm 9 is not lowered to an appropriate position between the prizes. By stopping M2 and entering the next ascending operation, the prize can be prevented from being damaged and the apparatus can be prevented from being overloaded.
On the other hand, when the microswitches MS3 to MS6 detect, for example, a prize hits the lower end of the arm 9 and no prize hits the sensor rod 35, or a part of the rail 12 (for example, FIG. 9). , See FIG. 11). Even in such a case, the stepping motor M2 can be stopped to protect the prize, thereby preventing the prize from being damaged. Further, it is possible to prevent the apparatus from being overloaded as described above.
[0039]
In the next step S15, it is determined whether the arm 9 has moved by the set amount or whether the proximity sensor SEN5 has been detected. When the determination result is “YES”, the process proceeds to step S16, and when the determination result is “NO”, the process of step S15 is repeated. At this time, the arm 9 rotates around the pin 28, but is pinched so as to hold the prize with the elastic force adjusted by the wing nut 32 by the coil spring 31, so that the prize can be elastically pinched without damaging the prize.
[0040]
Here, the arm 9 operates so as to move by a set amount in order to grab a prize. A mode in which the movement amount of the arm 9 is set by the LED lamp 15 and this is displayed to the player in advance. Instead of the above, the following modes can be adopted. For example, the operation of sandwiching the arm 9 for a certain period of time, such as 0.5 seconds, or the operation of sandwiching the number of pulses, such as 100 pulses, on the program using the characteristics of the stepping motor M3 and the stepping motor M4 is continued. Can be.
[0041]
As an application example of setting by the number of pulses, setting by moving distance is also possible. In this case, the movement distance of the arm 9 when one pulse is output is calculated from the step angle for one pulse of the stepping motor M3 and the stepping motor M4, the gear ratio, and the like. Can continue. Here, in this case, the display by the LED lamp 15 can be used together.
[0042]
Furthermore, as shown by a chain line in FIG. 6, the arm 9 is provided with a pressure sensor SEN8, which can be used as an input device. In other words, the pressure sensor SEN8 is added to the portion that grips the prize, such as the claw 13 or between the arm 9 and the claw 13, and the input device is used. The operation can be continued until the value is reached. In this way, by providing the pressure sensor SEN8, it is possible to surely grasp the gripping state of the prize that greatly affects whether or not the prize can be grasped, and to increase the degree of freedom of various settings of the crane game machine such as the prize acquisition rate. At the same time, the player's grip feeling can be set according to the image.
[0043]
In step S16, the stepping motor M3 and the stepping motor M4 are stopped, the stepping motor M2 is rotated, the gripping device 10 is lifted (moved upward), and the process proceeds to step S17. As a result, the prize held by the arm 9 can be moved upward.
In step S17, it is determined whether or not the microswitch MS7 has detected. That is, it is detected by the micro switch MS7 whether or not the telescopic cylinder 16 has reached the upper limit position. When the determination result is “YES”, the process proceeds to step S18, and when the determination result is “NO”, the process of step S17 is repeated.
In step S18, the stepping motor M2 is stopped, the stepping motor M1 is rotated, the gripping device 10 is moved forward, and the process proceeds to step S19.
In step S19, it is determined whether or not the optical sensor SEN1 has been detected. That is, it is detected by the optical sensor SEN1 whether or not the gripping device 10 has reached the front limit position. If the determination result is “YES”, the process proceeds to step S20. If the determination result is “NO”, the process of step S19 is repeated.
[0044]
In step S20, the stepping motor M1 is stopped, the stepping motor M3 and the stepping motor M4 are rotated, and the operation of expanding the arm 9 is performed, and the process proceeds to step S21. As a result, the prize falls to the drop opening 11 and moves to the prize exit 4.
In step S21, it is determined whether or not the optical sensors SEN3 and SEN4 have detected. If the determination result is “YES”, the process proceeds to step S22. If the determination result is “NO”, the process of step S21 is repeated.
In step S22, the stepping motor M3 and the stepping motor M4 are stopped and the process returns to the start. By this operation, the gripping device 10 and the arm 9 are in the initial posture.
[0045]
FIG. 24 is a flowchart corresponding to FIG. 23 when the prize drop opening is small. That is, as shown in FIG. 25, when the prize drop port 11 is formed large across the width direction of the gripping device 10, the prize is successfully gripped as shown in FIGS. Then, if the arm 9 is returned to the initial position, no matter what position of the rail 12 is holding the prize, the prize can be dropped into the drop slot 11 by releasing the prize, but as shown in FIG. In the case of the drop opening 11A having an opening formed in a part of the width direction of 10, when moving the gripping device 10 to the initial position, the arm 9 gripping the prize is not moved with respect to the rail 12. Must not. Hereinafter, the flowchart shown in FIG. 25 will be described. Since the processes shown in FIGS. 21 and 22 are the same, a part of them is used and description thereof is omitted.
[0046]
If the determination result in step S17 of FIG. 22 is “YES”, the process proceeds to step S30, where the stepping motor M1 is stopped, the stepping motor M3 and the stepping motor M4 are rotated, and the width of the arm 9 is maintained. To step S31. Thereby, it is possible to move the prize toward the pit 11A which is smaller than that in the embodiment.
In step S31, it is determined whether or not the optical sensor SEN4 has detected. If the determination result is “YES”, the process proceeds to step S32. If the determination result is “NO”, the process of step S31 is repeated.
[0047]
In step S32, the stepping motor M3 is stopped, the stepping motor M4 is rotated in the reverse direction, the arm 9 is opened, and the process proceeds to step S33. As a result of this operation, the prize drops from the opened arm 9 to the drop opening 11A.
In step S33, it is determined whether or not the optical sensor SEN3 has detected. When the determination result is “YES”, the process proceeds to step S34, and when the determination result is “NO”, the process of step S33 is repeated. In step S34, the stepping motor M4 is stopped and the process returns to the start. By this operation, the gripping device 10 and the arm 9 are in the initial posture.
[0048]
Therefore, according to the above-described embodiment, the player can insert the left arm 9a and the right arm 9b independently between the prizes and prizes intended by the player. Compared with the case where it can be determined whether or not the prize can be acquired depending on the position above which the player is stopped, it is high when the player is convinced and the prize is acquired even if acquisition of the prize fails Satisfaction can be given. In addition, since the arm 9 has a structure that moves along the rail 12, it eliminates the disadvantage that the structure that opens and closes as in the prior art cannot hold a prize outside the rotation range, and has a wide range. It is possible to hold a prize and to increase the expectation given to the player. In addition, the degree of freedom of the target prize size and shape is also increased, and as described above, it is possible to flexibly cope with the change of the spout 11 corresponding to the size of the prize.
[0049]
When the arm 9 is lowered to an appropriate position, the microswitches MS1 and MS2 are brought into contact with the floor surface 8 by the sensor rod 35. Accordingly, the stepping motor M2 is stopped by using the microswitch MS1 and MS2 and the gripping operation of the prize by the arm 9 is started. However, if the sensor rod 35 hits the prize when the arm 9 is lowered, the arm 9 is not lowered to an appropriate position between the prizes. By stopping M2 and entering the next ascending operation, the prize can be prevented from being damaged and the apparatus can be prevented from being overloaded.
[0050]
Furthermore, when a prize hits the lower end of the arm 9 and no prize hits the sensor rod 35, or a large prize hits a part of the rail 12 (for example, see FIGS. 9 and 11). In this case, since any of the corresponding micro switches MS3 to MS6 is turned on and the stepping motor M2 is stopped, it is possible to prevent the prize from being damaged or the apparatus from being overloaded as in the case where the descent continues further. .
That is, in this embodiment, since the rail 12 is provided so that the arm 9 can be moved within a wide range in the width direction, the rail 12 may hit the prize in some cases. In consideration of this, the microswitches MS3 to MS6 prevent the prize from being damaged and prevent the apparatus from being overloaded.
[0051]
In addition, this invention is not restricted to the said embodiment, The following structures can be employ | adopted. The same parts as those in the previous embodiment are denoted by the same reference numerals, and the description thereof is omitted.
For example, as shown in FIG. 27, instead of providing the elevating device 46, each arm 9 itself may be expanded and contracted to raise the gripped prize. In this case, the arm 9 is divided into an upper arm 90, a middle arm 91, and a lower arm 92 in the same manner as the telescopic cylinder 16, and a wire (arm vertical movement means) 94 is connected by a hoisting device (arm vertical movement means) 93. It is provided so that it can be stretched by winding up.
[0052]
Also in this embodiment, in response to prizes of various shapes and sizes, it is possible to obtain prizes by inserting the arms 9 between the prizes. Since the three-point support for holding the prize is possible, the holding power of the prize is increased. Therefore, there is no possibility that the prize is dropped when the rail 12 is moved although the prize is held, and there is an effect that the game can be performed with peace of mind.
[0053]
In addition, as shown in FIG. 28, it is also possible to use one telescopic cylinder 16 and rotate the gripping device 10 around the telescopic cylinder 16. In this way, by rotating the rail 12, it is possible to increase the degree of freedom in selecting the direction in which the prize 9 is gripped by the arm 9, so that the arm 9 that moves along the rail 12 is gripped from a free angle. It can be inserted between prizes, making the game more interesting.
[0054]
Furthermore, in the above embodiment, the distance between the arms 9 is determined, and the range of the arm 9 after the arm 9 is lowered is displayed by the LED lamp 15 so that the arm 9 is moved to grab the prize. The LED lamp 15 can also be used as an index for determining the range of the initial position of the arm 9.
It is also possible to adopt a mode in which the floor surface 8 is inclined so as to become higher toward the drop opening 11 and the prize is dropped while shifting the prize. Moreover, you may enable it to adjust the height of the wall between the floor surface 8 and the pit 11.
In the embodiment, the motor is a stepping motor, but a DC motor, an AC motor, or the like may be used.
Further, although the lifting device 46 is moved in the depth direction by the rotation operation of the timing belt 50, for example, the lifting device 46 may be moved by rotating the screw shaft having a long lead.
[0055]
【The invention's effect】
  As explained above, claim 1, Claim 2According to the invention described in the above, each arm lowered between the prizes can move inward to hold the prize, and the player can operate the arm lowered to the intended place. It is possible to play a satisfying game.
[0056]
  Claim3According to the invention described in the above, it is possible to increase the degree of freedom of setting, such as being able to control the success rate of the game to some extent on the device side, and the player side can select a prize in consideration of the amount of movement of the arm. This has the effect of increasing the degree of freedom of selection and making it more interesting.
[0057]
  Claim4According to the invention described in (4), since the chance factor can be greatly acted to provide a timeless game, there is an effect that the game can always be played with a fresh feeling.
[0058]
  Claim5According to the invention described above, the inward movement of the arm does not cause excessive grabbing or breakage of the prize, and further, on the apparatus side, the amount of movement of the arm inside and the swinging of the arm outward By combining with, you can freely control the success rate of the game. An adjustment member such as a spring may be provided so that the amount and strength of arm swinging can be adjusted.
[0059]
  Claim6According to the invention described in the above, it is possible to reliably grasp the gripping state of the prize that greatly determines whether or not the prize can be gripped, and to increase the degree of freedom of various settings of the game machine such as the game acquisition rate. The grip feeling can be set according to the image..
[Brief description of the drawings]
FIG. 1 is an overall perspective view of an embodiment of the present invention.
FIG. 2 is a perspective view of a gripping device according to an embodiment of the present invention.
FIG. 3 is a front view of the gripping device according to the embodiment of the present invention.
FIG. 4 is a left side view of the gripping device according to the embodiment of the present invention.
FIG. 5 is a plan view of a gripping device according to an embodiment of the present invention.
FIG. 6 is an explanatory view of the operating state of the arm according to the embodiment of the present invention.
FIG. 7 is an explanatory diagram showing a lowered state of another aspect of the arm according to the embodiment of the present invention.
FIG. 8 is a partially enlarged view of FIG. 3;
FIG. 9 is an explanatory diagram of the operation state of FIG. 8;
FIG. 10 is a partially enlarged view of FIG. 4;
FIG. 11 is an explanatory diagram of the operation state of FIG. 10;
12 is a cross-sectional view taken along line BB in FIG.
FIG. 13 is a plan view of the lifting / lowering device according to the embodiment of the present invention.
14 is a front view of FIG. 13 and a cross-sectional view taken along line AA of FIG.
FIG. 15 is a front view of the lifting / lowering device according to the embodiment of the present invention.
FIG. 16 is a front view mainly showing a lifting device according to an embodiment of the present invention.
FIG. 17 is a side view mainly showing the lifting device in an extended state of the telescopic cylinder according to the embodiment of the present invention.
FIG. 18 is a side view mainly showing the lifting device in the retracted state of the telescopic cylinder according to the embodiment of the present invention.
FIG. 19 is a view on arrow Y in FIG.
FIG. 20 is a diagram illustrating an arrangement configuration of sensors and the like.
FIG. 21 is a flowchart showing the operation of the crane game machine.
FIG. 22 is a flowchart showing the operation of the crane game machine.
FIG. 23 is a flowchart showing the operation of the crane game machine.
24 is another flowchart corresponding to FIG. 23. FIG.
FIG. 25 is a plan view of an outlet according to an embodiment of the present invention.
FIG. 26 is a plan view of a pit according to another embodiment.
FIG. 27 is a front view of an arm according to still another embodiment.
FIG. 28 is a perspective view of a gripping device according to another embodiment.
[Explanation of symbols]
9 Arm
9a Left arm
9b Right arm
SEN8 Pressure sensor

Claims (6)

A floor portion for arranging a prize is provided in a case of the housing, a drop opening for the prize is provided on the floor portion, and operating means for receiving an operation input from a player is provided in the housing, A crane game machine provided with a rail that moves in accordance with an operation input from the operation means, and two rails that are movable along the rail in accordance with an operation input from the operation means. Arm moving means for moving each of two arms movably provided along the rail, and rail moving means for moving the rail, the rail moving means according to a player's operation from the operating means. and rail movement processing for moving the rail to above the prize of interest of the player, the player's operation therefore the arm moving means from said operating means before After the arm movement process of moving the respective two arms,
A rail lowering process in which the rail moving means lowers the rail regardless of the operation input from the operating means ;
After the rail lowering process , regardless of the operation input from the operating means, the arm moving means moves these arms further inward along the rail; and
After the gripping process , regardless of the operation input from the operating means, the rail moving means raises the rail and moves it to above the outlet , and
A crane game machine, wherein after the return process, the arm moving means performs an opening process to move the arm outward regardless of an operation input from the operation means. A floor portion for arranging a prize is provided in a case of the housing, a drop opening for the prize is provided on the floor portion, and operating means for receiving an operation input from a player is provided in the housing, A crane game machine provided with a rail that moves in accordance with an operation input from the operation means, and two rails that are movable along the rail in accordance with an operation input from the operation means. Arm moving means for moving each of two arms movably provided along the rail, and rail moving means for moving the rail, the rail moving means according to a player's operation from the operating means. and rail movement processing for moving the rail to above the prize of interest of the player, the player's operation therefore the arm moving means from said operating means before After the arm movement process of moving the respective two arms,
Arm lowering process in which the arm moving means lowers the arm regardless of the operation input from the operation means ;
After the arm lowering process , regardless of the operation input from the operating means, the arm moving means moves these arms further inward along the rail, and
After the gripping process , regardless of the operation input from the operating means, the arm moving means raises the arm and the rail moving means moves the rail to above the drop mouth ;
A crane game machine, wherein after the return process, the arm moving means performs an opening process to move the arm outward regardless of an operation input from the operation means.   The crane game machine according to claim 1 or 2, wherein a movement amount of the arm is determined based on data set in advance in the gripping process.   The crane game machine according to claim 3, wherein the data is set by a random number.   The crane game machine according to any one of claims 1 to 4, wherein the arm is provided to be swingable outward.   3. The crane game machine according to claim 1, wherein, in the gripping process, the arm is moved by a pressure sensor provided on the arm until a predetermined pressing force is reached. 4.

Images