JPS58198362A - Pie moving game apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a piece moving beam device, and more particularly to an arm moving beam device in which pieces arranged in a one-way board are moved to a target location by a moving object while avoiding obstacles. .

The purpose of this is to provide a piece made of a magnet or a magnetically sensitive material, and to place this piece slidably inside an rm board made of a transparent material, with the piece placed below the rm board. A moving body made of a magnetically sensitive material or a magnet body is provided in close proximity to the lower surface of the deme board, and this moving body is coupled to the horizontal moving means and the vertical moving means, while a baffle body made of the magnetically sensitive material is provided. An annular belt with dots arranged on it is provided, and this belt is wound around a drive roller and four trollers so that the upper part of the belt is located between the lower surface of the dame board and the moving body, and the belt is placed within the machine frame. By providing a clutch means having a lever for intermittently driving the horizontal movement means and each of the vertical movement means, the pieces are connected to the movement of the moving body using magnetic force. In addition to providing a rm device that moves a piece to a target m location in a dam board, an obstacle is passed between a piece and a moving object in a jumping game to break the linkage between the piece and the moving object due to magnetic force. The aim is to make it even more interesting.

Hereinafter, one embodiment of the present invention will be described based on the meat side.

In the figure, reference numeral 1 denotes a machine frame, and inside this machine frame 1 there is an r-mu board 3 with a lid and a lid. It is arranged so that it faces from the opening 5 of 4.

It is formed by overlapping transparent synthetic resin plates 3A on the r-mu board 3 at appropriate intervals and fixing the peripheral edges, and on one of the edges there is an arm holding member 6 made of a magnetically sensitive material or a magnet.
will be placed.

Further, an arm holding/release lever T is provided inside the rm board 3 and is vertically slidable, and is normally located on the upper surface of the arm holding member 6. This arm holding release lever 7 is used to release the piece 2, which is held in close contact with the arm holding member 6 by magnetic force, from the arm holding member 6 by moving the lever 7 downward. This is to align each piece 2.

In other words, the lever 7 serves as a reset lever (7) at the end of the Gf, rm.

A movable body 8 for moving the pieces 2 in the demo board 3 is disposed below the demo board 3. This moving body 8 has horizontal movement + 1
0, a vertical moving hand R20, and a clutch means 30 that intermittently drives each of these moving means 10, 20. A magnetic body 9 such as a magnet or an electromagnet or a magnetically sensitive material made of metal such as wrought metal is disposed at the tip of the movable body 8, and is connected to the pieces 2 in the demo board 3 by magnetic force. Further, a miniaturized light bulb is built in the front of the moving body 8, and light is emitted from the lower surface of the dame board 3 to inform the user of the position of the moving body 8.

Lateral 41 movement +R10 forms a long guide groove 11A in the lateral direction in the frame 11 for lateral movement, and fits the lower part of the moving body 8 slidably into this guide groove 11A. A screw shaft 12 passing through the middle part is mounted on both ends of the frame 11 along the guide groove 11A, and this screw shaft 1
2 is connected to a clutch means 30 which will be described later. Therefore, when the screw shaft 12 is rotated by the clutch means 30, the movable body 8 screwed onto the screw shaft 12 moves laterally.

The screw shaft 12 consists of a shaft body 12A and a helical wire 128 wound around the shaft body 12A.

Note that this spiral wire 128 is not formed in a position near both ends of the frame body 11, but is instead formed in this part so that when the movable body 8 is located at both ends of the frame body 11, the movable body 8 is inserted into the frame body 11. A coil spring 13 that presses in the direction is fitted externally. Therefore, even if the screw shaft 12 continues to rotate by the clutch means 30, the t1 movable body 8 will not be pressed against the frame body 11111i1, and when the movable body 8 moves in the opposite direction, The movable body 8 is moved by the elastic force of the coil spring 13.
is forcibly screwed onto the screw shaft 12, allowing smooth movement in the opposite direction.

During vertical movement, R2G moves along a pair of rails 2 in the vertical direction inside the machine frame 1.
1, the frame 11 of the lateral moving means 10 is slidably disposed on this rail 21, a rack 22 is disposed on a part of the rail 21 along the rail 2HC, and this rack 2
A pinion shaft 24 having a pinion 23 meshing with the pinion 2 is mounted on the frame 11.

The clutch means 30 includes small gears 31, 32, . !
:, lateral movement 11b hand & 10+7) The small wheel 3 is fixed to the side end of the frame 11 (7) and drives the built-in motor 33.
1.32, and each shaft 12, 24 has a crown gear 35, 36 which transmits data to the drive body 34, and the pinion gears 31, 32 are intermittently engaged with the crown-table 35, 36 of the drive body 34.
The rotation of the motor 33 is controlled by the screw shaft 12 and the pinion 1il.
The signal is transmitted intermittently at 124 days.

The drive body 34 includes a motor 33 and a gear train 34 that transmits the drive of the motor 33 to two upper crown gears 35 and 36.
Consists of B. Note that a power supply brush 39 for supplying power to the motor 33 is disposed on the upper lid 34A of the driving body 34. This brush 39 is formed along the rail 21 and is brought into contact with the next power supply 840 .

The swing levers 37 and 38 have swing plates 37A and 38A,
Lever 3 fixed to a part of these swing plates 37A, 38A
It consists of 78,388. Swing plate 37A.

38A is arranged parallel to the rail 21 and at the inner and outer sides of the rail 21, with its lower edge pivotally connected to the machine frame 1 so that its upper edge can swing freely in the lateral direction.

- 10,000, at the opposite end of the screw shaft 12 and the pinion shaft 24 to which the small gear 3L 32 is fixed, there is a l1af
j37A, 38A are engaged with the upper 911 edge! - arrange the lights 41 and 42; In addition, the rocking plate 37A.

The levers 37B and 38El fixed to a portion of the lever 38A are formed so that a portion thereof protrudes outside the machine frame 1.

Therefore, due to the swinging of the levers 371B and 38El, the screw shaft 12 or the pinion shaft 24 is moved in the axial direction via the engagement pulleys 41 and 42, and the meshing position with the crown gear 35 and 36 is changed, so that the forward rotation is significantly reduced. It will be reversed. The pinion gears 31 and 32 are located in the crown gears 35 and 36, and when the pinion gears 31 and 32 do not mesh with the crown gears 35 and 36, they maintain a neutral state, and each shaft 12.
24 does not rotate.

In the machine frame 1, there is provided an annular belt 50 in which baffles 51 made of a magnetically sensitive material are arranged in a scattered manner.

This belt 50 is wound around a dryer roller 52 and a burner roller 53 so that its upper portion is located between the lower surface of the R-mu board 3 and the movable body 8. The obstructing body 51 of this annular belt 50 is an iron plate 5 formed in a narrow rectangular shape.
1A are attached to the belt 50 so as to be parallel to the width direction of the bell) 50, or by fixing iron powder or the like to the belt 50. The annular belt 50 is made of a transparent synthetic resin film. Then, on the top surface, for example, a picture of a rock or the like is printed on the obstruction body 51, and the other parts are printed as a road, and a translucent spear is applied to the belt 50.
It's good as well. In this case, the internal lateral shifter R10 can be prevented from being exposed to the outside through the transparent R-mu board 3, and the appearance can be improved.Moreover, the position of the moving body 8 can be determined by the miniature light bulb of the moving body 8 mentioned above. It can be confirmed without compromising the deme functionality. Therefore, a more interesting demo board 3 is provided. The holding plate 3B is made of a transparent thin plate made of synthetic resin, and prevents the belt 50 from hanging down within the machine frame 1, and keeps the baffle 51 close to the lower surface of the deme board 3 at all times.

The drive roller 52 is driven by a dry f-roller drive body 56 consisting of a motor 54 and a tooth row 55 that transmits the drive of the motor 54. The drive roller 52 is divided into two parts in the axial direction, and nine rollers 52A,
52B are meshed with the driving gears ss and so of the drive roller drive body 56 via respective drive gears 57 and 58.

The respective drive chain wheels 57, 58 are formed to have different diameters, and the respective drive teeth aSS.

60 are also formed to have different diameters and are coaxially fixed. Therefore, the divided rollers 52A and 53B (b) have different rotation speeds, and the annular belt 50 wound around the drive roller 52 has different circulation speeds, making the Deme more interesting. can.

As a matter of course, the piece 2 and the moving body 8 are linked by magnetic force as described above, so if the piece 2 is a magnetic body, the moving body 8 is made of a magnetically sensitive material or a magnetic body. If the movable piece 2 is a magnetically sensitive material, the movable body 8 is a combination of magnets. Further, the combination of materials for the piece 2 and the arm holding member 6 is similar to that described above, so that they are connected to each other by magnetic force.

In use, the power switch 61 is turned on to rotate each drive body 34,56. Therefore, the annular belt 50
circulates. Next, by moving the moving body 8 by moving the levers 37B and 38B of the horizontal movement means 10 and the vertical movement means 20, the piece 2 moves the obstacle 5 on the annular belt 50.
Move to the arm holding member 6 while avoiding 1. This operation is performed for each piece 2, and the time when these operations are completed is the end of the rm. When the obstacle 51 passes between the piece 2 and the moving body 8 during the movement of the piece 2, the linkage between the pieces 2 and the moving body 8 is severed by the obstacle 51, and for example, the r-m When the board 3 is arranged on the machine frame 1 with an inclination, it slides downward, and when the board 3 is arranged horizontally on the machine frame 1, the piece 2 is left in that position. shall be.

Since the present invention is configured as described above, the pieces 2 can be moved by the moving body 8 and moved to a predetermined position on the rm board 3 to play.

In addition, an annular bell 50 is provided in which baffles 51 made of a magnetically sensitive material are arranged in a scattered manner, and the upper part of the bell 50 is located between the lower surface of the rm board 3 and the movable body 8. The drive roller 52 and Gaitoro, -ra 53 and I! Since the pieces are arranged in a hanging manner, when the piece 2 is moved by the moving body 8, the connection due to the magnetic force can be broken. Therefore, piece 2 must be moved while avoiding this obstacle 51, and r-
This makes it possible to provide an rm device that is more difficult to play and more interesting.

Note that the lateral movement means 10 has a screw shaft 12 in the frame 11.
is horizontally mounted, and the movable body 8 is externally fitted and screwed onto this screw shaft 12, and the movable body 8 is fitted into a guide groove 11A formed in the frame 11 in parallel with the screw shaft 12. By configuring the movable body 8 to be moved by the rotation of the screw shaft 12, lateral movement is possible with a simple configuration. Moreover, the movement is accurate because it is screwed together.

Further, the vertical movement means 20 is provided with a pair of rails 21 formed along the longitudinal direction of the machine frame 1, and the rails 21 are
The frame 11 of the horizontal movement means 10 is slidably disposed on the top,
On the other hand, a rack 22 is formed inside the machine frame 1 along this rail 21, a pinion 23 that meshes with this rack 22 is provided, and the frame 11 is moved by rotation of this pinion 23. Therefore, reliable and accurate vertical feeding can be performed, and the structure can be simplified.

Historically, the clutch means 30 has a pair of rocking plates 3711 and 388 disposed parallel to the rail 21 of the vertical movement means 20 and on the inner and outer sides of the rail 21, and the rocking plates 378, 38
8 has its lower southern part pivoted to the machine frame 1 so that the upper ylAs can swing freely in the horizontal direction, and the screw shaft 12 of the horizontally moving arm 1R10 and the pinion shaft 24 of the vertical moving means 20 are connected to each other. Small gears 31 and 32 are fixed to one shaft end of each, and engagement gears 41 and 42 are fixed to the other shaft end, and the small gears 31 and 32 are meshed with crown gears 35 and 36 connected to the motor 33. At the same time, the alignment zones 41 and 42 are connected to the swing plates 37A and 38.
The clutch means 30 has a simple structure and quick response by engaging with the upper edge of A and further fixing <-378, 38El to the rocking plates 37A and 38A.
will be able to be provided. In addition, the clutch can always be operated no matter where the moving hands R10, 20 are located on the rail 21.

As explained above, according to the present invention, it is possible to provide a deme device that uses magnetic force to link pieces with the movement of a moving object to move them to a target location in a C-mo board, while avoiding obstacles caused by obstacles. You have to move the pieces around, which makes playing the dame interesting.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention; Fig. 1 is an overall perspective view, Fig. 2 is an overall plan view with the top cover and dame disk removed, and Fig. 6 is an overall left 1lllf 1 view of the pier notch. , 4th
The figure is a right side view of the same, Fig. 5 is a partially cutaway plan view showing each moving means and clutch means, w46 factor is a rear view of the same, No. 7- is a right side view of the same, and 8th factor is an annular belt and its A partially cutaway plan view showing the drive section, FIG. 9 is the same pressure side 1 view, and FIG. 10 is the r-
FIG. 3 is an exploded perspective view of the board. 1... Machine frame 2... Piece 3... R-mu board
3A...Synthetic resin & 3Ei...Press plate 4
...Lid 5°...Opening 6...Arm holding member
1... Arm holding release lever 8... Moving body 9
゛°°Magnet body 10... Laterally moving hand* 11... Frame body 11A゛... Guide groove 12... Screw shaft
12A...Shaft body 1211...Spiral wire 13.
・・Coil spring 20°・・Vertical movement means 21°・・Rail 22 Pa・Rack 23°°° Binion 2
4”° Pinion shaft 30°・Clutch means 31.
32... Small gear 33... Motor 34°... Drive body 34A°... Upper cover 34B... Gear train 35,
36°...crown gear 37.38...swing lever 39
...Power supply brush 40...Power supply! 41,42・
... Engagement pulley 50 ... Annular belt 51 ... Obstruction body 51^ ... Iron plate 52 ... Dry Zoro roller 53 ... Guide roller 54 ... Motor
55...Gear train 56...Drive roller driving body
57.58... Drive gear 59.60... Drive gear 61"... Power switch.

Claims (1)

[Claims] 1. A piece made of a magnet or a magnetically sensitive material is provided, and this piece is slidably arranged in a dame board made of a transparent material,
- A movable body having a magnetically sensitive material or a magnet body for magnetically linking the pieces is provided below the r-mu board in close proximity to the lower surface of the r-mu board, and this movable body is used as a horizontal movement means and a vertical movement means. An annular belt is provided, in which baffles made of a magnetically sensitive material are arranged in a scattered manner, and this belt is connected to a drive roller so that the upper part thereof is located between the lower surface of the ram board and the movable body. The lateral moving means and the vertical moving means are each provided with a clutch means having a lever for intermittent driving. Piece movement r-me device. 2. The lateral moving means is provided with a screw shaft mounted horizontally within the frame, the moving body is externally fitted onto the screw shaft, and a guide formed in the frame as a half of the screw shaft is provided. A piece 411i11r-A'kkWL according to claim 1, wherein a moving body is fitted into the groove and the moving body is moved by one shaft of the screw shaft. The moving means is provided with a pair of rails formed along the longitudinal direction of the machine frame, and the frame body of the horizontal moving means is slidably disposed on these rails. A rack is formed in the machine frame, a pinion is provided that meshes with this rack, and a pair of rocking plates are arranged on the inside and outside of the rail, and this rocking plate is attached to the top of the pinion. The lower end of the inner part is pivoted to the machine frame so that it can swing freely in the horizontal direction, and the screw shaft of the lateral moving means and the pinion shaft of the vertical moving means are each attached to a small shaft. A gear is fixed with an engagement date to the other shaft end, the small gear is connected to a motor and meshed with the nine-crown gear, and the engagement pulley is engaged with the upper edge of the rocking plate. The arm moving dame device according to claim 2 or 6, wherein a lever is fixed to the swing plate.