CN210612848U - Nail plate ball lifting and placing mechanism - Google Patents

Abstract

The utility model relates to a nail plate ball lifting and placing mechanism, which comprises a ball dropping mechanism; the ball falling mechanism comprises a ball holding plate and a control mechanism; when a ball enters the ball holding plate, the ball can roll on the ball holding plate; wherein the control mechanism is connected with the ball holding plate by a spring; the spring and a spindle passing through the electromagnetic coil are connected to a fixed plate through a connecting shaft; when the electromagnetic coil is energized, the mandrel is magnetically attracted, so that the spring can pull the ball holding plate to retreat, and the ball falls down without being supported; when the electromagnetic coil is not energized, the mandrel is not attracted by magnetic force, but the ball holding plate is restored to the original position through the restoring force of the spring so as to receive the next input ball.

Description

Nail plate ball lifting and placing mechanism

Technical Field

The utility model relates to a ball lifting and releasing mechanism of a game machine, in particular to a nail plate ball lifting and releasing mechanism.

Background

In gaming machines, chips such as coins or balls are important tools in gaming, and many kinds of gaming machines are tools that apply these chips as prizes, and the chips themselves are media of gaming. In a game machine, a ball is often transported to an upper end of a board (e.g., a peg board) of the game machine and dropped down onto the board to play a game.

In order to input the ball falling below the game machine board to the upper end of the game machine board, the game machine needs to have a mechanism that can make the ball flow circularly, so that the ball can be conveyed to the upper end of the game machine board and put into the game machine board, thereby achieving the requirement of game operation. The current game machine is more and more complex in design, and an effective and simple ball falling mechanism is also lacked to enable the ball to fall at different positions above the board surface.

Therefore, it is desirable to provide a new nail plate ball lifting and placing mechanism, which can transport the ball upward to the upper end of the game machine panel and put it into the panel, and recover the ball under the panel and transport it upward again, so as to solve the above-mentioned defects in the prior art.

SUMMERY OF THE UTILITY MODEL

Therefore, the present invention is directed to solve the above problems in the prior art, and the present invention provides a ball lifting and placing mechanism, which uses a ball holding plate and a control mechanism to form a ball dropping mechanism, wherein a ball input from a lane can move on the ball holding plate of the ball dropping mechanism, and the control mechanism can control the ball holding plate to retreat backward, so that the ball loses support and drops downward on the ball holding plate of the game machine, and the receiving groove and the guide groove below the accessible re-guide the ball into the lane. In the scheme, the ball path can use the jacking mechanism and the jacking mechanism to convey a plurality of balls upwards in sequence and input the balls into the ball holding plate again, so that the balls can form circulating flow to meet the operation requirement of the game machine.

In order to achieve the above purpose, the utility model provides a nail plate ball lifting and placing mechanism, which comprises a ball dropping mechanism; the ball falling mechanism comprises a ball holding plate and a control mechanism; when a ball enters the ball holding plate, the ball can roll on the ball holding plate; wherein the control mechanism is connected with the ball holding plate through a spring; the spring and a spindle passing through the electromagnetic coil are connected to a fixed plate through a connecting shaft; when the electromagnetic coil is energized, the mandrel is magnetically attracted, so that the spring can pull the ball holding plate to retreat, and the ball falls down without being supported; when the electromagnetic coil is not energized, the mandrel is not attracted by magnetic force, but the ball holding plate is returned to the original position by the restoring force of the spring so as to receive the next input ball.

Furthermore, the device also comprises a ball lifting track which comprises a ball path, a jacking mechanism and a jacking mechanism; the fairway is a hollow fairway, which comprises a lower opening and an upper opening, and a ball body can climb upwards along the hollow fairway; wherein the ball holding plate is connected with an upper opening of the ball lifting track; the ball output from the upper opening enters the ball holding plate; the jacking mechanism is positioned below the lane and used for jacking the sphere upwards to a preset position; the propping mechanism is positioned on the side edge of the hollow lane; the abutting mechanism comprises an elastic abutting piece which is an elastically pivoted structure; and a driving mechanism is connected with the jacking mechanism and used for driving the jacking mechanism to move up and down.

Further, the ball holding plate further comprises a nail plate, wherein the ball holding plate extends out through a through groove of the nail plate, and when the ball holding plate is retracted backwards, the ball holding plate is retracted from the through groove of the nail plate, so that the ball loses support and falls into a receiving groove below the nail plate.

Furthermore, the receiving groove is provided with an inclined angle, so that the ball body moves towards the left side along the receiving groove and enters the back surface of the nail plate through the through hole of the nail plate, and the back surface of the nail plate is provided with an inclined guide groove; so that the ball will move to the right side along the inclined guiding slot, and the ball can enter the lower opening of the lane.

Furthermore, the driving mechanism is connected with the center of a wheel body through a mandrel of a motor, and the jacking mechanism is connected with the wheel body in an eccentric direction through a connecting shaft; one end of the connecting shaft is connected with the wheel body in a mutual rotating way, and the other end of the connecting shaft is pivoted with the jacking mechanism and can pivot relative to the jacking mechanism.

Furthermore, a counting sensor is arranged at an opening above the fairway and used for detecting the ball body passing through the upper part of the fairway so as to achieve the purpose of counting.

Furthermore, the inner side of the upper opening of the fairway is provided with a pivoting piece which is slightly L-shaped and comprises two side arms, and the middle of the pivoting piece is fixed on the side wall of the fairway in a pivoting way; the outer side of the side wall is fixed with a counting sensor through a fixing piece.

Further features of the invention and advantages thereof will be apparent from the following description, when read in conjunction with the accompanying drawings.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 shows an application diagram of the assembly of the present disclosure.

FIG. 2 shows a rear view of the pegboard of FIG. 1.

Fig. 3 shows a schematic view of the ball lifting track of the present disclosure.

Fig. 4A shows an operation diagram of the ball entering the lane according to the present invention.

Fig. 4B shows an operation diagram of the jacking mechanism of the present disclosure for jacking the ball upwards.

Fig. 4C shows an operation diagram of the pushing mechanism pushing the ball.

Fig. 5A shows a schematic position diagram of the pivot member when the ball enters the fairway.

Fig. 5B shows a schematic position diagram of the pivot member when the jacking mechanism pushes against the ball body.

Fig. 5C shows a schematic position diagram of the pivot member after the ball above the lane is output from the lane.

Fig. 5D shows a schematic position diagram of the pivot member when the propping mechanism props against the ball body.

Fig. 6A is a schematic diagram illustrating the operation of the ball holding plate of the ball dropping mechanism of the present invention.

Fig. 6B is a schematic diagram illustrating the operation of the ball holding plate of the ball dropping mechanism of the present invention to return to its original position.

Detailed Description

With the above and other objects in view, there is provided, in accordance with the invention, a method for manufacturing a semiconductor device.

Referring to fig. 1 to 6B, a nail plate lifting and ball releasing mechanism of the present invention is shown, which includes the following components:

a ball lifting track 10 includes a ball path 11, a lifting mechanism 12 and a supporting mechanism 13. As shown in fig. 3, the lane 11 is a hollow lane 11, and the lane 11 includes a lower opening 111 and an upper opening 112, so that a ball 3 can climb up along the hollow lane. The jacking mechanism 12 is located below the lane 11 and is used for jacking the ball 3 up to a predetermined position. The abutting mechanism 13 is located on the side of the hollow lane 11. The propping mechanism 13 includes an elastic propping member 131, and the elastic propping member 131 is an elastically pivotable structure, and when it pivots upward, the ball 3 can pass through, and when it pivots downward, the ball 3 can be propped against, and will not fall off.

When the ball 3 enters the lower opening 111 of the lane 11 (see fig. 4A), the lifting mechanism 12 pushes the ball 3 up to touch the elastic propping element 131 (see fig. 4B). At this time, the elastic propping element 131 will pivot upward to connect the ball 3 to the upper ball 3 (or space). When the lifting mechanism 12 is withdrawn downward, the elastic supporting member 131 will rebound downward to a predetermined position, and fix the ball 3 above it (refer to fig. 4C). By repeating the above operations, a plurality of balls 3 can be sequentially moved along the lane 11 to the upper opening 112 of the lane 11 and then outputted from the upper opening 112.

A driving mechanism 20 is connected to the jacking mechanism 12 for driving the jacking mechanism 12 to move up and down. The driving mechanism 20 is connected to the center of a wheel 22 by a spindle 211 of a motor 21, and the lifting mechanism 12 is connected to the wheel 22 in an eccentric direction by a connecting shaft 121. One end of the connecting shaft 121 is rotatably connected to the wheel 22, and the other end is pivotally connected to the lifting mechanism 12 and can pivot relative to the lifting mechanism 12.

A ball drop mechanism 30 is connected to the upper opening 112 of the ball lifting rail 10. The ball dropping mechanism 30 includes a ball holding plate 31 and a control mechanism 32. The ball holding plate 31 is connected to the upper opening 112 of the ball lifting rail 10. The ball 3 output from the upper opening 112 enters the ball holding plate 31 and rolls on the ball holding plate 31. The control mechanism 32 is connected to the ball holding plate 31 by a spring 33. The spring 33 and a spindle 35 passing through the solenoid 34 are connected to a fixed plate 37 through a coupling shaft 36. When the solenoid 34 is energized, the spindle 35 is magnetically attracted, so the spring 33 pulls the ball holding plate 31 backward, and the ball 3 falls down without being supported, as shown in fig. 6B. As shown in FIG. 6A, when the solenoid 34 is not energized, the spindle 35 is not magnetically attracted, and the ball holding plate 31 returns to the original position due to the restoring force of the spring 33, connecting the upper opening 112 of the ball lifting rail 10 to receive the next ball 3 to be output.

As shown in fig. 1, it shows a game board, which is a peg board 40, wherein the ball holding board 31 extends through a slot 41 of the peg board 40, so that in the above operation, the ball holding board 31 will be retracted from the slot 41 of the peg board 40, so that the ball 3 loses its support and falls into the receiving slot 60 below the peg board 40. The receiving slot 60 is inclined at an angle such that the ball 3 will move along the receiving slot 60 to the left and enter the back of the nail plate 40 through the through hole 42 (refer to fig. 2) of the nail plate 40, and an inclined guiding slot 43 is formed on the back of the nail plate 40. The ball 3 will then move along the inclined guide groove 43 to the right (refer to fig. 2) and enter the lower opening 111 of the lane 11.

Therefore, when the ball holding plate 31 retracts backward, the ball 3 can fall down from the ball holding plate 31 to the receiving groove 60, then roll from the receiving groove 60 to the guiding groove 43 on the back of the nail plate 40, enter the ball path 11 of the ball lifting rail 10 along the guiding groove 43, be pushed up to the upper side of the ball path 11 by the jacking mechanism 12, and then enter the ball holding plate 31 from the upper opening 112 of the ball path 11, thereby completing a cycle.

Wherein a counting sensor 52 is disposed at the upper opening 112 of the lane 11 for detecting the ball 3 passing through the upper portion of the lane 11, so as to achieve the purpose of counting. Wherein the inner side of the upper opening 112 of the fairway 11 is provided with a pivot 50, the pivot 50 is substantially L-shaped and comprises two side arms 501, 502, the middle of the pivot 50 is pivotally fixed to the side wall 16 of the fairway 11. The outer side of the side wall 16 is fixed to a counter sensor 52 by a fixing member 53. Fig. 5A to 5D show the operation of the pivot 50 when the ball 3 moves in the lane 11. Wherein when the ball 3 enters the lane 11, the position of the pivot 50 is shown in fig. 5A; when the lifting mechanism 12 is pressed against the ball 3 below the lane 11, the position of the pivot 50 is as shown in fig. 5B, wherein when the ball 3 in the lane 11 reaches above the lane 11, one side arm 501 of the pivot 50 is touched to pivot the pivot 50 along the side wall 16, so that the other side arm 502 of the pivot 50 passes through the counting sensor 52 and the counting sensor 52 senses that a ball 3 passes through, thereby achieving the counting function. Then, when the ball 3 above the lane 11 is output from the lane 11, the position of the pivot 50 is shown in fig. 5C. Finally, when the propping mechanism 13 props against the ball 3 under the lane 11, the position of the pivot 50 is shown in fig. 5D.

The ball falling mechanism has the advantages that the ball holding plate and the control mechanism are used for forming the ball falling mechanism, balls input from a ball channel can move on the ball holding plate of the ball falling mechanism, the control mechanism can control the ball holding plate to retreat backwards, the balls lose support and fall downwards onto a nail plate of the game machine, and the balls can be guided into the ball channel again through the receiving groove and the guide groove below the balls. In the scheme, the ball path can use the jacking mechanism and the jacking mechanism to convey a plurality of balls upwards in sequence and input the balls into the ball holding plate again, so that the balls can form circulating flow to meet the operation requirement of the game machine.

In conclusion, the humanized body-to-body design of the scheme is quite in line with the actual requirements. The method has the advantages of obvious breakthrough and improvement on the existing defects compared with the prior art, really has the improvement on the efficiency and is not easy to achieve. The scheme is not disclosed or disclosed in domestic and foreign documents and markets and conforms to the patent law.

The above detailed description is directed to a specific description of a possible embodiment of the present invention, but this embodiment is not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the spirit of the present invention should be included within the scope of the present invention.

Claims (7)

1. The utility model provides a nail board rises puts ball mechanism which characterized in that includes:

a ball falling mechanism; the ball falling mechanism comprises a ball holding plate and a control mechanism; the ball holding plate is used for rolling on the ball holding plate when a ball enters the ball holding plate; wherein the control mechanism is connected with the ball holding plate by a spring; the spring and a spindle passing through the solenoid coil are connected to a fixed plate through a coupling shaft.

2. The pegboard ball-lifting and releasing mechanism of claim 1, further comprising a ball-lifting track comprising a lane, a jacking mechanism, and a jacking mechanism; the fairway is a hollow fairway, which comprises a lower opening and an upper opening, and a ball body can climb upwards along the hollow fairway; wherein the ball holding plate is connected with an upper opening of the ball lifting track; the ball output from the upper opening enters the ball holding plate; the jacking mechanism is positioned below the lane and used for jacking the sphere upwards to a preset position; the propping mechanism is positioned on the side edge of the hollow lane; the abutting mechanism comprises an elastic abutting piece which is an elastically pivoted structure; and a driving mechanism is connected with the jacking mechanism and used for driving the jacking mechanism to move up and down.

3. The pegboard ball-lifting and ball-releasing mechanism of claim 2, further comprising a pegboard, wherein the ball-holding board extends through a slot of the pegboard, and wherein when the ball-holding board is retracted, the ball-holding board is retracted from the slot of the pegboard, so that the ball is unsupported and drops into a receiving slot below the pegboard.

4. The nail plate lifting and ball releasing mechanism according to claim 3, wherein the receiving slot is provided with an inclination angle such that the ball will move to the left along the receiving slot and enter the back of the nail plate through the through hole of the nail plate, and the back of the nail plate is provided with an inclined guiding slot; so that the ball will move to the right side along the inclined guiding slot, and the ball can enter the lower opening of the lane.

5. The nail plate ball lifting and releasing mechanism according to claim 2, wherein the driving mechanism is connected to the center of a wheel body by a spindle of a motor, and the jacking mechanism is connected to the wheel body in an eccentric direction by a connecting shaft; one end of the connecting shaft is connected with the wheel body in a mutual rotating way, and the other end of the connecting shaft is pivoted with the jacking mechanism and can pivot relative to the jacking mechanism.

6. The nail plate lifting and ball releasing mechanism as claimed in claim 2, wherein a counting sensor is provided at the upper opening of the lane for detecting the ball passing through the upper portion of the lane for counting.

7. The pegboard ball-lifting and placing mechanism of claim 6, wherein the inside of the upper opening of the lane has a pivot, the pivot being substantially L-shaped and including two side arms, the middle of the pivot being pivotally secured to the side walls of the lane; the outer side of the side wall is fixed with a counting sensor through a fixing piece.

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