Pinball game gacha machine
By using a rack and pinion drive control gear and return spring mechanical structure, the problem of failure of hydraulic or electric device driven striking parts is solved, ensuring the normal operation and gaming experience of the pinball gashapon machine.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU HEWAN TECHNOLOGY CO LTD
- Filing Date
- 2025-07-22
- Publication Date
- 2026-06-09
Smart Images

Figure CN224331472U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of entertainment equipment technology, specifically to a pinball-themed gashapon machine. Background Technology
[0002] Pinball-themed gashapon machines are entertainment devices that launch pinballs onto a game panel. The panel guides the pinball along a designed path using tracks of specific shapes and layouts, increasing the game's fun and controllability. Some pinball-themed gashapon machines also utilize electromagnets to control the opening and closing or movement of certain components, achieving special effects or functions, such as controlling the pinball to enter specific areas to trigger reward mechanisms.
[0003] Pinball-style gashapon machines have two striking devices on the game area panel to hit the pinball, causing it to roll upwards into a specific area to trigger a reward mechanism. Existing pinball-style gashapon machines use hydraulic or electric actuators to control the striking devices. These actuators are prone to failure after prolonged use, resulting in a loss of control over the striking devices. Furthermore, there may be delays in the response of the hydraulic or electric actuators, causing the timing of the striking devices to differ from the operator's expected timing, greatly affecting the operator's gaming experience. Utility Model Content
[0004] To address the aforementioned problems, the purpose of this utility model is to provide a pinball-style gashapon machine. The operator can control the striking element to swing and strike by driving the gears with a rack and pinion, while the return spring can reset the rack after use to ensure normal use next time. This application controls the striking element through a purely mechanical structure, avoiding the problems of failure or delayed response of hydraulic or electric devices, and ensuring the operator's gaming experience.
[0005] The technical solution adopted in this utility model is as follows:
[0006] A pinball-themed gashapon machine includes a main body, a game area panel, a striking element rotatably mounted on the front of the game area panel, and a mounting plate fixed to the back of the game area panel. A control gear, which is fixedly connected to the striking element, is rotatably connected to the mounting plate. The control gear meshes with a rack, and a return spring connected to the mounting plate is connected to the rack.
[0007] Preferably, the mounting plate is equipped with a buffer spring for abutting against the end of the rack.
[0008] Preferably, the mounting plate is provided with several arc-shaped limiting protrusions that fit against both sides of the rack.
[0009] Preferably, a stop block that abuts against the side wall of the control gear is fixedly provided on the mounting plate.
[0010] Preferably, the front of the game area panel is provided with an attack buffer, which includes an annular mounting base fixed on the game area panel. A connecting rod is movably disposed in the annular mounting base. The connecting rod is connected to an electric telescopic device. A conical pressure head is fixedly disposed at the upper end of the connecting rod. A sensing circuit board is disposed on the upper surface of the annular mounting base.
[0011] Preferably, the main body of the pinball racing gashapon machine is provided with a prize ball release mechanism. Above the prize ball release mechanism is a prize ball placement box that communicates with the prize ball release mechanism. A V-shaped plate is movably arranged in the prize ball placement box. The V-shaped plate is connected to a lifting mechanism. A through groove is opened on the V-shaped plate. A ball outlet pipe and a guide plate are vertically arranged in the through groove and fixed to the bottom of the prize ball placement box. The ball outlet pipe communicates with the bottom of the prize ball placement box. The upper end of the ball outlet pipe is inclined toward the lowest point of the V-shaped plate. The upper end of the guide plate is inclined toward the lowest point of the upper end of the ball outlet pipe.
[0012] Preferably, the prize ball release mechanism includes a vertical circular cavity, with a ball inlet at the upper end and a ball outlet at the lower end. A turntable is rotatably connected to the axis of the vertical circular cavity, and a drive mechanism for driving the turntable to rotate is connected to the turntable. A receiving groove for accommodating a single prize ball is provided on the side wall of the turntable.
[0013] Preferably, two guide posts are fixedly installed on the V-shaped plate. The two guide posts are located on both sides of the ball outlet tube and aligned with the gap between the ball outlet tube and the guide plate. The upper end face of the guide post is inclined towards the lowest point of the upper end face of the ball outlet tube.
[0014] Preferably, a guide plate is fixedly installed in the prize ball placement box, with the upper end of the guide plate inclined downwards and the lower end of the guide plate inclined upwards.
[0015] Preferably, the lifting mechanism includes a winding rod rotatably disposed in the prize ball placement box, the winding rod being connected to a drive motor for driving the winding rod to rotate, a connecting rope being fixedly connected to the winding rod, and the connecting rope being fixedly connected to a V-shaped plate.
[0016] In summary, due to the adoption of the above technical solution, the beneficial effects of this utility model are:
[0017] The operator can control the striking component to swing and strike by driving the gear with a rack and pinion, and the return spring can reset the rack after use to ensure normal use next time; this application controls the striking component through a purely mechanical structure, avoiding the problems of failure or reaction delay of hydraulic or electric devices, and ensuring the operator's gaming experience. Attached Figure Description
[0018] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this utility model and should not be regarded as a limitation on the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.
[0019] Figure 1 A schematic diagram of the overall structure provided for an embodiment of this utility model;
[0020] Figure 2 A schematic diagram of the internal structure of the prize ball placement box provided in this embodiment of the utility model;
[0021] Figure 3 A schematic diagram of the prize ball release mechanism provided in this embodiment of the utility model;
[0022] Figure 4 Another perspective structural schematic diagram of the prize ball release mechanism provided in this embodiment of the utility model;
[0023] Figure 5 This is a schematic diagram of the game area panel structure provided in an embodiment of the present utility model;
[0024] Figure 6 A schematic diagram of the attack buffer structure provided in this embodiment of the utility model;
[0025] Figure 7 A schematic diagram of the control structure of the striking component provided in an embodiment of this utility model.
[0026] Figure reference numerals: 1-Pinball-themed gashapon machine body; 101-Ball receiving port; 102-Elastic striking mechanism; 103-Control handle; 104-Support leg; 105-Universal wheel; 106-Game area panel; 107-Attack buffer; 1071-Conical pressure head; 1072-Sensing circuit board; 1073-Annular mounting base; 1074-Connecting rod; 108-Striking component; 1081-Mounting plate; 1082-Control gear; 1083-Transmission gear set; 1084-Rack; 1085-Return spring; 1086-Buffer spring; 1087-Arc-shaped limit protrusion; 1088-Stop block; 10 9-Ball launching channel; 2-Prize ball placement box; 201-Ball replenishment port; 202-Drive motor; 203-Connecting rope; 204-Rewinding rod; 205-Guide upright plate; 206-Guide plate; 207-Ball outlet tube; 208-Guide column; 209-V-shaped plate; 210-Through groove; 3-Prize ball release mechanism; 301-Turntable; 302-Receiving groove; 303-Ball inlet; 304-Ball outlet; 305-Vertical circular cavity; 306-Infrared sensor; 307-Bracket; 308-Self-locking motor; 309-Driven gear; 310-First detection hole; 311-Second detection hole; 4-Door panel. Detailed Implementation
[0027] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.
[0028] Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.
[0029] In the description of this utility model, it should be noted that if terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer" appear to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship commonly used when the product is in use, they are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.
[0030] The following is combined Figure 1-7 This utility model will be described in detail.
[0031] Example
[0032] A pinball-themed gashapon machine includes a main body 1, a game area panel 106, a striking element 108 rotatably mounted on the front of the game area panel 106, and a mounting plate 1081 fixed to the back of the game area panel 106. A control gear 1082, which is fixedly connected to the striking element 108, is rotatably connected to the mounting plate 1081. The control gear 1082 meshes with a rack 1084, and the rack 1084 is connected to a return spring 1085 connected to the mounting plate 1081.
[0033] Two striking components 108 are provided. A rack 1084 is connected to a control handle 103 located outside the main body 1 of the pinball gashapon machine. The control handles 103 are located on both sides of the main body 1 of the pinball gashapon machine, making it convenient for the operator to control with both hands. A transmission gear set 1083 is rotatably mounted on the mounting plate 1081, which meshes with the rack 1084 and the control gear 1082, so that the distance between the control gear 1082 and the rack 1084 can be adjusted, thereby making it convenient for the operator to grip the rack 1084 for control.
[0034] The operator can drive the control gear 1082 through the rack 1084 to make the striking element 108 swing and strike, while the return spring 1085 can reset the rack 1084 after use to ensure normal use next time. This application controls the striking element through a purely mechanical structure, avoiding the problems of failure or reaction delay of existing hydraulic or electric devices, and ensuring the operator's gaming experience.
[0035] A pinball launching channel 109 is provided on one side of the game area panel 106. A pinball injection port is provided on the upper surface of the pinball racing gashapon machine body 1. The injection port is aligned with the pinball launching channel 109, so that the pinball can be placed into the pinball launching channel 109 for launching. An elastic ball striking mechanism 102 (the elastic ball striking mechanism is the prior art) is provided at the lower end of the pinball launching channel 109. The elastic ball striking mechanism 102 generates elastic force by compressing a spring to launch the pinball. After being launched, the pinball enters the game area panel 106 and moves freely. When the pinball falls to the striking member 108, the operator can control the lateral movement of the rack 1084, thereby controlling the striking member 108 to swing and strike the pinball.
[0036] A buffer spring 1086 is mounted on the mounting plate 1081 to abut against the end of the rack 1084. The buffer spring 1086 can buffer the inward pushing force of the rack 1084, preventing the side wall of the mounting plate 1081 from being damaged by impact. The buffer spring 1086 also provides a reset function, and the buffer spring 1086, together with the reset spring 1085, can make the movement of the rack 1084 smoother, improving the comfort of use.
[0037] The mounting plate 1081 has several arc-shaped limiting protrusions 1087 that fit against both sides of the rack 1084. These arc-shaped limiting protrusions 1087 limit the movement of the rack 1084, ensuring correct lateral movement. Furthermore, the small contact area between the arc-shaped limiting protrusions 1087 and the rack 1084 prevents excessive friction from affecting the control feel. A cover plate (not shown in the figure) is also provided on the back of the mounting plate 1081. This cover plate can cover the rack 1084, control gear 1082, transmission gear set 1083, and buffer spring 1086 inside the mounting plate 1081, ensuring their normal operation within the mounting plate 1081.
[0038] A stop 1088 is fixedly installed on the mounting plate 1081, abutting against the side wall of the control gear 1082. The stop 1088 can limit the rotation range of the control gear 1082, preventing the striking part 108 from rotating too much and colliding with the game area panel 106 and being damaged.
[0039] An attack buffer 107 is provided on the front of the game area panel 106. The attack buffer 107 includes an annular mounting base 1073 fixed on the game area panel 106. A connecting rod 1074 is movably disposed in the annular mounting base 1073. The connecting rod 1074 is connected to an electric telescopic device. A conical pressure head 1071 is fixedly disposed at the upper end of the connecting rod 1074. A sensing circuit board 1072 is disposed on the upper surface of the annular mounting base 1073. When the ball rolls to the attack buffer 107 and comes into contact with the sensing circuit board 1072, the sensing circuit board 1072 generates a sensing signal and controls the controller to quickly pull the conical pressure head 1071 downward. The conical pressure head 1071 squeezes the ball, causing the ball to fly away, thereby changing the trajectory of the ball and increasing the fun of the game.
[0040] The main body 1 of the pinball racing gashapon machine is equipped with a prize ball release mechanism 3. Above the prize ball release mechanism 3, there is a prize ball placement box 2 connected to the prize ball release mechanism 3. A V-shaped plate 209 is movably installed in the prize ball placement box 2. The V-shaped plate 209 is connected to a lifting mechanism. A through groove 210 is opened on the V-shaped plate 209. A ball outlet pipe 207 and a guide plate 205 are vertically installed in the through groove 210 and fixed to the bottom of the prize ball placement box 2. The ball outlet pipe 207 is connected to the bottom of the prize ball placement box 2. The upper end of the ball outlet pipe 207 is inclined towards the lowest point of the V-shaped plate 209. The upper end of the guide plate 205 is inclined towards the lowest point of the upper end of the ball outlet pipe 207.
[0041] The lifting mechanism can lift the V-shaped plate 209, and then release the V-shaped plate 209 so that it automatically falls back under its own weight. This repeated action can agitate the prize balls, breaking the balance between them and allowing them to exit through the ball outlet tube 207. The guide plate 205 and the ball outlet tube 207 with its inclined upper opening, in conjunction with the V-shaped plate 209, allow the prize balls to roll smoothly towards the opening of the ball outlet tube 207. The prize ball placement box 2 is connected to the prize ball release mechanism 3 through the ball outlet tube 207, ensuring that the prize balls can smoothly enter and exit the prize ball release mechanism 3, guaranteeing the operator's gaming experience. Multiple guide plates 205 can be provided depending on the usage. The inner diameter of the ball outlet tube 207 is slightly larger than the inner diameter of the prize balls, ensuring that only prize balls can pass through the ball outlet tube 207 sequentially.
[0042] The main body 1 of the pinball racing gashapon machine is equipped with a ball-receiving opening 101. A rolling channel is provided in the main body 1 of the pinball racing gashapon machine to connect the ball-receiving opening 101 with the prize ball release mechanism 3. When a certain number of points are obtained, the prize ball release mechanism 3 discharges the prize ball, which rolls through the channel to the ball-receiving opening 101. Then the prize ball release mechanism 3 resets and another prize ball is placed.
[0043] The prize ball release mechanism 3 includes a vertical circular cavity 305. The upper end of the vertical circular cavity 305 is provided with a ball inlet 303, and the lower end of the vertical circular cavity 305 is provided with a ball outlet 304. A turntable 301 is rotatably connected to the axis of the vertical circular cavity 305. The turntable 301 is connected to a drive mechanism for driving the turntable 301 to rotate. A receiving groove 302 for accommodating a single prize ball is opened on the side wall of the turntable 301. The receiving groove 302 can only accommodate one prize ball, realizing the single delivery of the prize ball. The operation process of the prize ball release mechanism 3: The prize ball is discharged from the ball outlet tube 207 and enters the vertical circular cavity 305 from the ball inlet 303. At this time, the receiving groove 302 is aligned with the ball inlet 303, and the prize ball falls into the receiving groove 302 for placement. When a certain number of points are obtained, the controller controls the drive mechanism to drive the turntable 301 to rotate. The prize ball moves with the rotation of the turntable 301 until the receiving groove 302 is aligned with the ball outlet 304. Then, the prize ball is discharged from the ball outlet 304 and finally rolls through the channel to the ball receiving port 101.
[0044] The drive mechanism includes a bracket 307, on which a self-locking motor 308 is fixedly mounted. The output shaft of the self-locking motor 308 is connected to a drive gear, and a driven gear 309 that meshes with the drive gear is connected to the shaft center of the turntable 301. The self-locking motor 308 drives the turntable 301 to rotate through the meshing of the drive gear and the driven gear 309. Because the self-locking motor 308 has a self-locking function after rotation, it can keep the turntable 301 stationary after rotating a certain angle.
[0045] like Figure 4 As shown, two sets of infrared sensors 306 are installed on the bracket 307. A first detection hole 310 and a second detection hole 311 for detection by the infrared sensors 306 are opened on the back of the turntable 301. The distance from the first detection hole 310 to the axis of the turntable 301 is different from the distance from the second detection hole 311 to the axis of the turntable 301 (i.e., the running trajectories of the first detection hole 310 and the second detection hole 311 are different). The second detection hole 311 is aligned with the receiving groove 302. One set of infrared sensors 306 is located on the running trajectory of the second detection hole 311 and is directly above the axis of the turntable 301; the other set of infrared sensors 306 is located on the running trajectory of the first detection hole 310 and is on the same horizontal plane as the axis of the turntable 301 (i.e., the straight line from the first detection hole 310 to the axis of the turntable 301 intersects the straight line from the second detection hole 311 to the axis of the turntable 301 at a 90° angle).
[0046] This application includes two sets of prize ball release mechanisms 3 capable of releasing different prize balls. One of the prize ball release mechanisms 3 is as follows: Figure 3 As shown, the turntable 301 on the left is provided with two receiving slots 302 and corresponding slots 302. Figure 4The two first detection holes 310 and two second detection holes 311 are located on the right side; when in the middle... Figure 4 When the position is shown, one of the first detection holes 310 and the second detection hole 311 are aligned with the corresponding infrared sensors 306. The infrared sensor 306 corresponding to the first detection hole 310 is not blocked by the turntable 301. At this time, the infrared sensor 306 detects that there is no obstruction, and then controls another set of infrared sensors 306 through the second detection hole 311 to detect whether there is any obstruction in the receiving slot 302. If there is obstruction, it indicates that there is a prize ball in the receiving slot 302, and the pinball racing gashapon machine can be run for entertainment, so as to ensure that there is a prize ball to be output. The turntable 301 rotates in one direction. During the rotation, the infrared sensor 306 corresponding to the first detection hole 310 is blocked by the turntable 301, so the detection of whether there is a prize ball in the receiving slot 302 is not performed at this time. When it rotates 180°, the infrared sensor 306 corresponding to the first detection hole 310 is aligned with the first detection hole 310 again, and the detection operation of the prize ball begins. The prize ball release mechanism 3 rotates in one direction. When points are scored, the turntable 301 rotates at a certain angle until the receiving slot 302 aligns with the ball outlet 304 to release the prize ball. The turntable 301 will not be reset after the game ends.
[0047] Another prize ball release mechanism 3: such as Figure 3 As shown, the turntable 301 on the right is provided with a receiving slot 302 and a corresponding... Figure 4 There is a first detection hole 310 and a second detection hole 311 on the left side of the turntable 301; the maximum rotation angle of the turntable 301 is 180°, and the operation steps of the infrared sensor 306 to detect whether the prize ball exists are the same as those of the aforementioned prize ball release mechanism 3; after the turntable 301 obtains a certain number of points in the same game, the turntable 301 rotates a certain angle until the receiving groove 302 aligns with the ball outlet 304 to release the prize ball, and then the turntable 301 will reverse and reset; if the score does not reach the set value after the game ends, the turntable 301 will also reverse and reset.
[0048] Discharge sensors can be installed below the two ball outlets 304. The discharge sensors can be photoelectric sensors. When the prize ball is discharged from the ball outlet 304, it will break the light beam, thereby detecting whether the prize ball is discharged normally and knowing the prize status of different prize balls.
[0049] Two guide posts 208 are fixedly installed on the V-shaped plate 209. The two guide posts 208 are located on both sides of the ball outlet tube 207 and aligned with the gap between the ball outlet tube 207 and the guide plate 205. The upper end face of the guide post 208 is inclined towards the lowest point of the upper end face of the ball outlet tube 207. Some prize balls may roll into the gap between the ball outlet tube 207 and the guide plate 205, causing the prize balls to not be completely discharged. Therefore, two guide posts 208 are set to compensate for the insufficient guidance in the gap between the ball outlet tube 207 and the guide plate 205, so that all prize balls can be discharged from the ball outlet tube 207 in sequence.
[0050] A guide plate 206 is fixedly installed in the prize ball placement box 2. The upper end of the guide plate 206 is inclined downwards, and the lower end of the guide plate 206 is inclined upwards. The front of the prize ball placement box 2 is in an inclined state (the front of the prize ball placement box 2 can be made of transparent glass). The guide plate 206 is located on the inner side of the front of the prize ball placement box 2. After the lower end of the guide plate 206 is inclined, the prize balls are lifted by the V-shaped plate 209, causing the prize balls near the inner side of the front of the prize ball placement box 2 to roll towards the center. After the V-shaped plate 209 falls, the downward-inclined upper end of the guide plate 206 causes the prize balls to roll towards the center again, which can play a role in stirring and mixing, ensuring the random output of the prize balls.
[0051] The lifting mechanism includes a winding rod 204 rotatably mounted in the prize ball placement box 2. The winding rod 204 is connected to a drive motor 202 for rotating it. A connecting rope 203 is fixedly connected to the winding rod 204 and to the V-shaped plate 209. The lifting mechanism can also use a screw lifting device or a telescopic rod lifting mechanism; however, to save space, this application preferably uses a lifting mechanism where the winding rod 204 winds up the connecting rope 203. The drive motor 202 drives the winding rod 204 to rotate, winding up the connecting rope 203, thereby lifting the V-shaped plate 209. After the drive motor 202 rotates in the opposite direction, the winding rod 204 releases the connecting rope 203, and the V-shaped plate 209 moves downwards under its own weight. The drive motor 202 can be directly connected to the shaft of the winding rod 204, or it can drive the winding rod 204 through a drive gear and a driven gear.
[0052] A material receiving sensor is installed on the inner wall of the ball outlet tube 207. The material receiving sensor can be a photoelectric sensor. When the prize ball passes through the ball outlet tube 207, it will break the light beam, thereby detecting whether the prize ball has passed through the ball outlet tube 207. If the material receiving sensor does not detect the prize ball passing through the ball outlet tube 207, the material receiving sensor will notify the staff to replenish the prize ball through the controller.
[0053] The upper end of the ball outlet tube 207 is tilted at an angle of 45°. Setting it at 45° allows the prize ball to enter the ball outlet tube 207 more effectively.
[0054] The prize ball storage box 2 has a ball replenishment opening 201, and a door panel 4 is hinged to the prize ball storage box 2 to block the ball replenishment opening 201. The door panel 4 is equipped with a door lock structure, and when a prize ball needs to be replenished, the door panel 4 can be opened to put a prize ball into the prize ball storage box 2 through the ball replenishment opening 201.
[0055] The main body 1 of the pinball racing gashapon machine is connected to at least four legs 104. The lower end of the legs 104 is connected to casters 105, which facilitates the movement of the entire pinball racing gashapon machine. The casters 105 are equipped with brake devices.
[0056] The above are merely preferred embodiments of this utility model and are not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, or improvements made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A pinball-themed gashapon machine, comprising a pinball-themed gashapon machine body (1), wherein a game area panel (106) is provided in the pinball-themed gashapon machine body (1), and a striking element (108) is rotatably provided on the front of the game area panel (106), characterized in that, The back of the game area panel (106) is fixed with a mounting plate (1081). A control gear (1082) that is fixedly connected to the striking component (108) is rotatably connected to the mounting plate (1081). The control gear (1082) meshes with a rack (1084). The rack (1084) is connected to a return spring (1085) that is connected to the mounting plate (1081).
2. The pinball-themed gashapon machine according to claim 1, characterized in that, The mounting plate (1081) is equipped with a buffer spring (1086) for abutting against the end of the rack (1084).
3. The pinball-themed gashapon machine according to claim 1, characterized in that, The mounting plate (1081) is provided with several arc-shaped limiting protrusions (1087) that fit against both sides of the rack (1084).
4. A pinball-themed gashapon machine according to claim 1, characterized in that, A stop (1088) is fixedly provided on the mounting plate (1081) to abut against the side wall of the control gear (1082).
5. A pinball-themed gashapon machine according to claim 1, characterized in that, The front of the game area panel (106) is provided with an attack buffer (107). The attack buffer (107) includes an annular mounting base (1073) fixed on the game area panel (106). A connecting rod (1074) is movably arranged in the annular mounting base (1073). The connecting rod (1074) is connected to an electric telescopic device. A conical pressure head (1071) is fixedly arranged at the upper end of the connecting rod (1074). A sensing circuit board (1072) is arranged on the upper surface of the annular mounting base (1073).
6. A pinball-themed gashapon machine according to claim 1, characterized in that, The main body (1) of the pinball racing gashapon machine is provided with a prize ball release mechanism (3). Above the prize ball release mechanism (3) is a prize ball placement box (2) connected to the prize ball release mechanism (3). A V-shaped plate (209) is movably arranged in the prize ball placement box (2). A lifting mechanism is connected to the V-shaped plate (209). A through groove (210) is opened on the V-shaped plate (209). A ball outlet pipe (207) and a guide plate (205) fixed to the bottom of the prize ball placement box (2) are vertically arranged in the through groove (210). The ball outlet pipe (207) is connected to the bottom of the prize ball placement box (2). The upper end of the ball outlet pipe (207) is inclined toward the lowest point of the V-shaped plate (209). The upper end of the guide plate (205) is inclined toward the lowest point of the upper end of the ball outlet pipe (207).
7. A pinball-themed gashapon machine according to claim 6, characterized in that, The prize ball release mechanism (3) includes a vertical circular cavity (305), with a ball inlet (303) at the upper end of the vertical circular cavity (305) and a ball outlet (304) at the lower end of the vertical circular cavity (305). A turntable (301) is rotatably connected to the axis of the vertical circular cavity (305), and a drive mechanism for driving the turntable (301) to rotate is connected to the turntable (301). A receiving groove (302) for accommodating a single prize ball is opened on the side wall of the turntable (301).
8. A pinball-themed gashapon machine according to claim 6, characterized in that, Two guide posts (208) are fixedly installed on the V-shaped plate (209). The two guide posts (208) are located on both sides of the ball outlet tube (207) and aligned with the gap between the ball outlet tube (207) and the guide plate (205). The upper end face of the guide post (208) is inclined towards the lowest point of the upper end face of the ball outlet tube (207).
9. A pinball-themed gashapon machine according to claim 6, characterized in that, A guide plate (206) is fixedly installed in the prize ball placement box (2). The upper end of the guide plate (206) is inclined downwards, and the lower end of the guide plate (206) is inclined upwards.
10. A pinball-themed gashapon machine according to claim 6, characterized in that, The lifting mechanism includes a winding rod (204) rotatably installed in the prize ball placement box (2). The winding rod (204) is connected to a drive motor (202) for driving the winding rod (204) to rotate. A connecting rope (203) is fixedly connected to the winding rod (204), and the connecting rope (203) is fixedly connected to the V-shaped plate (209).