NL8301195A - ROTATABLE TARGET FOR PROJECTILE OF A GAME WITH DIRECTION DETECTION BODIES. - Google Patents

Description

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Subject: Rotatable target for projectile of a game with direction detecting devices.

The invention relates to a target for a so-called "pinbaH" machine and more particularly to a rotatable target.

Skill games, known as "pinball" games, test the skill of a player in manipulating a projectile, such as a metal bullet, over a playing field with a number of targets to be hit by the bullet. The player's ability to keep the ball in play and aim the ball at the various targets is reflected in a score which is automatically recorded in response to the bullet hitting the various targets. Almost testing the skill of the player, "pinball" games provide an audio and visual indication by means of lamps, sound devices and a large number of movable targets.

15 The different types of targets used in ITpinball games include rotatable targets that rotate when hit by the bullet. A typical, rotatable target includes a rotatable shaft and wings extending therefrom in the path of the rolling ball. Organs interacting with the rotatable target count the number of rotations of the target and reflect this in the player's score. The greater the velocity of the bullet striking one of the wings, the greater the target's rotational speed and the greater the number of times the target will rotate before friction-to-stop. is being brought. In this way, a rotatable target rewards a player not only for the direction in which the player advances the bullet, but also for the force with which the player moves the bullet.

In order for "pinball" games to properly demonstrate the player's skill, scoring systems have been designed that reflect the player's skill, generally assigning higher value points to harder-to-hit targets than easy ones. targets to be hit. Until now, rotatable targets have been assigned points of the player's score according to the number of rotations of the target's axis. Therefore, the player scores 35 points of roughly the same value, regardless of which 8301195 -: i - 2 - side of the rotatable target is hit by the ball. Generally, both sides of the rotatable target cannot be hit equally easily, and a rotatable target that rewards the player equally regardless of the affected side does not fully reflect the skill in the score. Even if the both sides of the rotatable target are equally accessible, by assigning different point values according to the side of the target affected and the direction of rotation of the target thereby occurring, the player obtains an incentive to the bullet more carefully to target.

The object of the invention is to provide a rotatable target for a "pinball" game or the like, which in addition to counting the. rotations detects the direction of rotation and allocates points accordingly.

To this end, the invention provides a target for a game, such as a "pinball" game or the like, which target rotates when hit by a projectile moving across a playing field, and which target is provided with means to both number of target rotations as well as the direction of rotation to determine a score of 20. assign a player accordingly. The rotatable target has a rotatable axis, wings extending radially outward from the axis and intended to be struck and rotated by the projectile, and a detectable member eccentric to the axis of the shaft is mounted. A pair of spaced-apart sensing members are located at the rotational path of the detectable member to determine their passage, and members interacting with the sensing members interpret the number of rotations of the axis and the rotational direction according to the number of times, that the detectable part passes the sensing means and the direction in which it passes the sensing means.

A feature of the invention is that the rotatable target assumes a predetermined resting position, which is preferably maintained by both shaft disbalance, so that the target assumes a preferred position relative to the slope of the playing field , and magnetic, in that a part is mounted eccentrically to the shaft and magnetically attracted to a part which is in a certain angular position relative to the axis 8301195 - 3.

The invention will be explained in more detail below with reference to the drawing. In the drawing: Fig. 1 shows a top view of a small part of a "pinball" -5 playing field, on which a rotatable target according to the invention is mounted; fig. 2 shows a view on the line II-II of fig. 1; and fig. 3 shows a view on the line III-III of fig. 1.

Figure 1 shows a rotatable target 10 mounted on a portion of a "pinball" playing field 12. The playing field 12 is flat and slopes towards the front of the game, so that the projectile or bullet 14 naturally tends to move down the playing field in the direction of the arrow 16 (fig. 2), unless the ball is propelled by means of a plunger, fins, impact devices, etc., the ball then moving upwardly along the playing field in the direction of the arrow 18, 18 '(fig. 1). The rotatable target 10 has an axis 20 which extends upwardly from the playing field 12 and can rotate about a centerline perpendicular to the surface of the playing field, and wing members 20 extending radially outward. extend from the shaft so that when the ball strikes the wing members, the shaft is thereby rotated and the wing members also rotate.

Depending on which side of the shaft and in which direction the ball rolls, i.e. up or down the playing field, the shaft 20 will be rotated in one of its two rotational directions. The speed at which the bullet strikes the wing members 20 determines the speed of rotation.

According to the invention, means, generally designated 2k, are provided to measure not only the number of rotations of the target axis 20, as has hitherto been common in rotatable targets for pinball games, but also the direction of rotation For this purpose, a detectable member 26 is disposed eccentrically with respect to the axis 20 of the rotatable target and a pair of spaced apart spacers 28 are provided to pass the detectable member 26 in its sweep motion. determine the axis of the shaft Sensors 28 are affected successively by the swinging detectable member 26, and by use 8301195

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In the case of suitable interpretation means, such as known microprocessors, the direction of rotation can be determined in accordance with the order in which the sensing means detect the swiveling part. It is preferable that the sensing means, which are arranged in separated angular positions relative to the axis of rotation of the shaft 20, are not diametrically opposed, ie they are not aligned with the axis of the axis. shaft extends. When the sensing members 28 are not diametrically opposed, the direction of rotation can be interpreted according to a difference in time. between affecting the first 28a and 28b sensors and the time between affecting the second 28b and first 28a sensors.

The sensing means should be spaced at least about 20 ° apart to ensure successive influence, and if the temper is used to interpret the direction, the sensing means should be no more than about 120 ° from to be separated.

Shaft 20 shown is an all-metal part that includes a portion that extends above the playing field 12 and supports the wing members 22, and a portion that extends below the playing field and the detectable part 26 At the top end of the shaft is an integrally threaded segment 30, which is received in a threaded bore 32 of the wing members 22 about the wing members. to confirm it. At the bottom of the shaft there is an integral, narrow pin segment 3, which is incorporated into a bearing assembly 36, which simplifies smooth rotation of the shaft. The illustrated wing members 22 include a central core 38 with a threaded bore 32 with which the core is mounted on the shaft, and a pair of wings 40 extending diametrically opposite sides thereof. The core 38 has a non-functional design to contribute to the visual aspect of the "pinball" game. The wings 40, which are integrally formed with the core 38, for example of plastic, extend outwardly from the core by a distance of one or more ball diameters in order to pass through the ball 11, which moves across the playing field 12. , to be affected.

The shaft 20 is rotatably mounted in a U-shaped arm kh with a lower panel t6 supporting the army system, an upper 830 1 1 9 5 - 5 - * -¾ ψ · * · panel U8 attached to it. the bottom surface of the playing field panel is attached, and a connecting vertical front panel 50. The army system 36, which is located on the top surface of the bottom panel k6 and is attached to the bottom panel by a bolt 52, which passes through the bottom panel. first panel has a narrow upwardly opening cavity 5b.

The narrow pin portion 3 of the spindle extends into the cavity 5b and rests on a ball bearing 56 retained therein. The top panel M3 has an aperture 60 which connects to an aperture 62 of the playing field panel, through which aperture the spindle 20 which opening 10 is provided with a low-friction sleeve 6k which, together with the delivery system 36, simplifies smooth rotation of the shaft 20.

Devices in the form of electric switches 28 determine the number of rotations and the direction of rotation of the shaft. The switches are mounted on a. back panel 70 »which is secured by screws 72 to a pair of integrally formed tabs Jb3 extending downwardly from the front end of the top panel b8.

As indicated, the switches 28 are mounted on the side 76 of the rear panel 70, which faces away from the shaft 22, and are affected by an approach contact, but not an actual contact, of the detectable part 26. In the illustrated embodiment, the detectable member 26 consists of a magnet and the switches 28 are tongue switches, which are affected by the swinging magnet attached to the end of an arm 80 extending radially outward from the shaft 20 stretches. Since the tongue-25 switches 28 are magnetically affected, the back panel 70 on which they are mounted is non-metallic and consists of, for example, a PC panel, while the arm bra itself is metal, such as steel. The back panel 70 may also include electronic components which interact with the switches 28, including a printed circuit, and the switches and associated circuitry are connected to microprocessors via conductors 82 to interpret the influence of the switches.

The influence of the two switches 28 indicates a full rotation of the shaft. The order in which the switches are influenced is a function of the direction of rotation of the shaft. Where the switches 28a, b are spaced apart on a non-diametrical line, the time difference between switching the first 28a and second 8301195-6 switch 28b and switching the second and first switches is a measure for the ams chopping sequence. However, the rotatable target 10, as will be explained later, is designed to have a predetermined rest position and therefore the direction of rotation can be determined by only the sequence of switching of the switches.

So that the wings 4o are completely free for the upward or downward lit evidence? of the cow 1U. the rotatable target 10 assumes a predetermined tust orientation, in which the wings i + 0 are generally perpendicular to the slope of the playing field panel.

10. The resting orientation is influenced both by gravity and by magnetic path. The arm W consists of a ferromagnetic metal, through which the magnet 26 is attracted. Furthermore, the magnet 26 and the arm 80. with which the magnet is connected to the axis 20, the axis out of its equilibrium position. The arm b6 is mounted so that its front panel 50 faces toward the front of the game, along its inclination, and the weight of the magnet 28 and the arm 80 and the magnet is attracted by the front panel reinforce each other in establishing the rest position of the rotatable target 10. with the magnet facing the front of the game and the wings 20 ^ 0 perpendicular to the slope of the playing field 12 .. Therefore, the wings 40 are at rest completely free for the upward or downward movement of the ball 14.

Although the arm 80 and the magnet 26 are intended to unbalance the shaft 20, the disturbance in balance is not so great that it will interfere with free rotation of the target 10. The arm 80 consists of a thin, flat bar of light metal, preferably ferrous metal, with a collar 86 at one end, through which collar the shaft 20 passes and which is fixed to the shaft by means of an adjustment screw 88. . A light magnet 26 is obtained by a polymer material, 30 in which magnetic particles are embedded, and the magnet is clamped between the arm 80 and a flat top plate 90 riveted thereto.

It is clear that changes are possible within the scope of the invention. For example, the magnet and the magnetically influenced switches can be replaced by mechanical switches located within the swing of the pivoting arm. The rotation of the rotatable target can also be detected by a pair of optoelectronic devices. The detectable part, for example the 830 1 19 5 - τ - magnet, can be supported in the wings and the scrap switches can be mounted on the surface of the playing field. The rotatable target may include a single wing, which is rotated in different directions depending on whether the wing is struck from the top or from the bottom.

8301195

Claims (8)

1. A target for a pinball game or the like having a generally level playing field over which a projectile is movable, characterized by an axis, wing members extending radially outwardly of the axis, members about the axis for rotation with the wing members 5 mounted above the playing field, so that the wings can be hit by the projectile, whereby the projectile striking the wing members causes the shaft to rotate, means for both a number of rotations of the shaft and the direction of rotation thereof. determining and scoring means according to the number of rotations and the direction of rotation. 2. A target for a "pinball" game or the like having a generally level playing field over which a projectile is movable, characterized by a shaft, wing members extending radially outward from the shaft, means about the shaft for mount rotation so that the wing members extend above the field of play and can be hit by the projectile, causing the missile striking the wing members to rotate the axis, a pair of sensing members and members about a pair of sensing members by the axis to be mounted in separate angular positions with respect to the axis of rotation of the axis, members supported by the axis eccentrically with respect to the axis of rotation thereof and detectable successively with each rotation of the axis by each of the sensing means, and means for interpret the direction of rotation according to the order in which the detectable members are passed through the sensors. Target according to claim 2, characterized in that the wing members extend in two radial directions from the axis. k. Target according to claim 3, characterized in that the wing members extend in opposite radial directions from the axis. Target according to claim 2, characterized in that the detectable members consist of a magnet and the sensing members are magnetically sensitive. Target according to claim 5, characterized in that the sensing means consist of a pair of electrical switches which are reversed by the magnet with each rotation of the shaft. 830 1 19 5 A - 9 - Target according to claim 2, characterized by means for returning the shaft and the associated wing members to a predetermined rotational position after the end of the rotation. 8. A target according to claim 7 for use in an inclined playing field, characterized in that the position reset members are provided with means for unbalancing the axis. Target according to claim 7, characterized in that the position reset members consist of a first part, which is eccentrically connected to the shaft, and a second part, which can be mounted at the swing path of the first part, one of the parts is magnetic and the other can be attracted magnetically. Target according to claim 2, characterized in that the pair of scanners is arranged along a line which does not extend through the axis of the shaft, whereby the direction of rotation can be interpreted by the difference in time, in which the detectable members pass through the first and second sensing means and the second and first sensing means. 8301195