BE364389A - - Google Patents

Description

       

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  Improvements to coin machines.



   The present invention relates to amusing coin operated apparatus in which various coins can be returned to the operator provided that he has correctly made certain calculations based on the instructions of the instructions affixed to, the device.



   One object of the invention is, inter alia, an apparatus of the kind referred to above in which skill is required in using the apparatus, this skill consisting in making calculations mentally or in the process. another way, and to manipulate and govern the apparatus in such a way as to be able, within reasonable limits of accuracy, to anticipate the results of a purely mechanical operation.



   The term "coins". here adopted,

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 includes, in addition to government coins, all disks, tokens or similar objects to which the device can - * - be adapted.



   With a view to this object, the invention comprises an amusing coin-operated apparatus, of the above-mentioned species, comprising the combination of a certain number of mobile organs operating concurrently, the means of putting these organs into operation. movement (for example at different determined speeds) and means of adjusting the kinetic energy of these competing organs so as to determine, at the discretion of the operator, the order in which each of them will perform a determined movement.



   Preferably, a single setting member is adopted which is mechanically connected to all the cooperating parts in order to put them into action simultaneously.



   The invention also aims at an amusing coin-operated apparatus of the above-mentioned kind comprising the combination of a certain number of cooperating movable members (for example rotating wheels); a device (for example moved by a counterweight) to set these components in motion at different speeds; device for applying a determined braking load to each of these components; a device by means of which one or more coins introduced into the apparatus modify the braking load of any of the cooperating members at the will of the operator; a device by which the one of the cooperating organs which was the first to perform a determined movement indicates the corresponding result.

   For example, the mechanism put into action by the cooperating member which has first achieved its determined mode of movement can be arranged so as to throw one or more coins out of the apparatus.



   The means of applying the braking load in question to the cooperating members can be arranged such that the load is applied either during the whole period.

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 duration of the movement of said organ is for part of the time only.



   It is preferable to have, on each of the aforementioned cooperating organs, a sign to indicate the position thereof, which sign may consist of the figure of an animal such as a horse or any other sign attached to the cooperating organ or marked on this one,
It is also possible to arrange a device to automatically vary the initial relative speed of the cooperating members, at each of the successive operations of the apparatus.



   In a suitable embodiment, the apparatus comprises a counterweight mechanically connected to each of the cutting members so that, when the counterweight can fall, these members are thereby set in motion; a trigger member holding the counterweight in position to start the device; a mechanism (actuated for example by a sliding rod) for releasing the trigger member so as to allow the counterweight to fall;

   stop device actuated by the introduction of a coin into the apparatus, in order to prevent the action of the trigger mechanism, finally a mechanism (for example actuated by a crank) to put the counterweight back in position in order to switch on the appliance,
The invention also aims, in a coin-operated apparatus, for example an amusing coin-operated apparatus such as has been described above, a device.

   to deflect a determined part of the coins, introduced into the apparatus, from the path they normally follow, This coin deflection mechanism comprises a chute for the descent of the coins or equivalent device acting in such a way to deflect each nth part (for example each 6th part) which passes along this coulotte, of the course

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 followed by all other coins.



   In a suitable embodiment of this mechanism, a token wheel is provided comprising several pockets around its circumference, each of these pockets being arranged to receive a part in a certain angular position of the wheel, these pockets being shaped so that they let the parts fall at different angular positions of the same wheel, respectively.



   These features of the invention and others will be fully described below.



   An embodiment of the invention will now be explained, given by way of example, with reference to the accompanying drawings.



   In these drawings, FIG. 1 is a front elevation partially in section of a fraction of the upper part of the apparatus;
Fig. 2 is a front elevation of the lower part;
Fig. 3 is a front elevation showing certain parts omitted in FIG. 1 and others. parts in a different position;
Fig. 4 is a front elevation of the coin wheel and the conjugate members, on a larger scale than in FIGS. 1 to 3;
Fig. 5 is a perspective of the mechanism which rotates the tokens;
Fig. 6 is a perspective which shows the stop device and the triggering system of the organ which controls the counterweight;
Figs. 7,8 and 9 are elevations showing the stop mechanism in three different positions;

   
FIG. 10 is a vertical section taken along line 2 -2 of FIG. 2;
Fig. 11 is a vertical section following the

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 line 11-11 of fig. 10;
Fig. 12 is a plan of the members shown in FIG. 10;
Fig. 13 is an end elevation of the coin wheel, the chute and the movable stops shown in the upper part of FIG. 4;
Fig. 14 is a perspective, more or less schematic of the entire apparatus.



   The same numerals designate the same parts in the various figures of the drawings.



   The apparatus comprises five cooperating rotating wheels 20, mounted in free play, side by side, on an axle.
21. Preferably the sign employed. To indicate the po-. The position of the wheels (for example the image of an animal) is placed around the circumference of these wheels and is visible through a window provided in the outer casing enclosing the mechanism of the apparatus. This outer casing may have an ornamental and attractive character. Most of the sash is omitted in the drawings to make them clearer. On supports 22 is rotatably mounted an axis 23 to which the counterweight 24 is fixed.

   This counterweight is maintained in the position, shown in solid lines in fig. 2, with the aid of a ratchet wheel 25 mounted on the axle 23 and a pawl 26 controlled by a spring. The axis 23 can rotate so as to bring the counterweight 24 to the position indicated in dotted lines in FIG. 2, by means of a crank 27 (fig. 14) which is mechanically connected to the shaft 23 by the gear 28 which has the appropriate gear ratio.

   The counterweight 24 carries a protruding appendage 29 arranged so as to rest on an end cross member 30 of a rectangular frame 31 which oscillates at 32, at the upper part of the uprights 33 and which is balanced so that it occupies. normally an inclined position as shown in FIG.

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 EMI6.1
 2. ' A spring buffer 34 is placed under the other end of the oscillating frame. The extreme cross member 30 of the frame
31 is approximately shaped 'in segment and carries, at its lower part, a plate 36 which normally bears' on a projection 37 fixed to a rod 38 which is articulated, at its lower end 39, on a part 40 of the frame of the apparatus.

   The lateral branches of the oscillating frame 31 are tubular rods 41 (fig. 10): On these rods are mounted, near the end 35 of the frame, ring supports 42 which carry an axis 43. On that there are mounted, in different angular positions, five eccentric wheels 44 having the same eccentricity. Each of these eccentrics is offset from the neighboring eccentrics by an angle of 72. The collar of each eccentric carries an appendage 45 which is articulated to a slide 46 in the form of a sleeve which slides on a rod 47. The rods
47 are carried by a tubular bar 48 fixed to the lateral branches 41 of the oscillating frame and which are all approximately parallel to these lateral branches.

   On each sleeve 46 is articulated, at 49, the lower end of a connecting rod 50, the upper end of which is articulated at 51 to a pawl-holder arm 52, mounted on the axis 21 (see FIG. 1). On this ratchet arm
52 is articulated a pawl 53, arranged so as to act on a ratchet wheel 54 which is integral with the wheel
20 corresponding. A knob 55 of the ratchet arm 52 limits the oscillation of the pawl 53 as it moves away from the ratchet wheel 54.

   All the arms 45 and the sleeves 46 are similar and all the pivots 49 are arranged in the same way on these sleeves, but it should be noted that because of the difference in the angular position of the eccentrics 44, the sleeves 46 are located in different positions along the rods 47, as can be seen with reference to FIG. 12

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 and are therefore also at different distances from the axis of oscillation 32 of the oscillating frame.



   Normally the parts described above occupy the positions shown in figs. 1 and 2.



   When the counterweight 24 is brought to the position indicated by dotted lines in FIG. 2 and is released by the means indicated above, the dead weight acting on the end cross member 30 of the oscillating frame raises the end 35 of this frame and the pawls 52 respectively engage their ratchet wheels 54 '. The downward movement of the cross member at the end of the frame, due to the weight of the left half of the frame, as seen in FIG. 2, is larger than the half on the right, forces these pawls to set in motion at different speeds the ratchet wheels and .. consequently the cooperating wheels 20.



   The crank 27 is connected to a shaft .142 on which the toothed wheel 28 is fixed, by a single tooth clutch controlled by a spring (not shown). Using this crank, the counterweight is raised and when it has passed dead center it falls, out of the operator's control, on the oscillating frame 31. It is evident, therefore, that the cooperating parts are not influenced by hesitation on the part of the operator, so that a false start or false movement of the cooperating organs which would move them away from their initial positions is prevented.



   The shaft 43 rotates through an angle of 72 with each operation of the apparatus so as to adjust the position of each eccentric 44 and, therefore, to vary the speed at which the corresponding wheels are set. movement. At one of the ends of said shaft, is fixed a star wheel 56 which has five radiating arms 57 and notches 58 'at its circumference, between two consecutive arms. The star wheel 56. Is maintained

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 stationary by a curved stop member 59 which carries a tooth 60 arranged so as to penetrate into any one of the notches 58. The member 59 is articulated, at one end, to an arm 61 mounted on the support 42 voi - sin and, at the other end, is connected by a tension spring 62, to another arm 63 of the same support.

   An arm 67, controlled by a spring 68, is articulated at 64 on a console 65 fixed to the frame 66. The arm 67 carries two nozzles 69, 70 which are located in the path traversed by the end controlled by a spring. the member, 59 and by the radiating arm 57 respectively, when the end cross member 35 of the oscillating frame 31 is raised. When this end of the part 59 is located above the neighboring radial arm 57 (see fig. 2) it is obvious that the tooth 60 first emerges from the notch 58 of the star wheel 56: the latter turns then until this tooth enters the next notch.



  In this way, the angular positions of the eccentrics 44; are. modified each time the device is operated.



   A separate brake is applied to each of the cooperating wheels 20; these brakes act on said wheels with a determined power which can be modified by the weight of one or more coins introduced into the apparatus, and which reduces or balances the braking load. Each brake comprises a brake lever 71 articulated at 72 on an upright 73, and arranged to apply to a given load. On one end, this brake lever carries a shoe 74 which acts on a brake drum 75 of the corresponding wheel 20 and at the other end, on a token container 76 arranged to tilt on an axis 77. Each tilting token container is arranged to receive the tokens introduced into the apparatus to reduce or balance the pressure exerted by the brake on the corresponding wheel.

   The casing of the apparatus is provided with a number of

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 slots for the introduction of coins, corresponding to the various wheels and each slot communicates by a separate chute, as will be explained later, with one of the coin receptacles mentioned above.



   The brake shoes 74 can normally be in contact with the brake drums 75 or, if desired, they can be held apart from these drums and automatically put into action after the co-operating wheels 20 have started to turn. . In the latter case, each brake lever 71 can be mechanically connected, by connecting rods and appropriate arms, to one of the parts of the mechanism by which these wheels are set in motion, for example the oscillating frame 31, of such a the so that the brakes are automatically applied after the wheels have started to turn.



   A device is provided for stopping each of the wheels 20 after it has made a determined movement and for putting this wheel back in place for the subsequent operation of the apparatus. Each wheel '20 is provided with a movable eyebolt 78 which normally bears on one end of a lever 79 which actuates the mechanism which tilts the coin container. The stud 78 is mounted on the wheel 20 in the direction of the spoke and is retracted inside the wheel or pushed out of its circumference, at the desired time, by means of a mechanism described below.

   Each of the cooperating wheels 20 also comprises on one of its lateral faces near the circumference, a button 80 which acts on a fork 81 articulated on a console 82 fixed on a cross member 83 of the main frame, so as to stop the wheel 20. and return it to its initial position; ready for the next operation of the appliance. Normally the fork 81 is in the position shown in fig. 1 outside the path of the button 80. The lever 79 is connected by a connecting rod 84 to an elbow lever 85 of which

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 the other arm passes through a groove 87 and carries a button 88 on which the fork rests in the position shown in FIG. 1. A tensioning spring 89 is connected at one end to the fork 81 and, at the other end, to the upright 66 of the frame of the apparatus.

   The fork 81 is also connected by a connecting rod 90 to a bellows-shaped member 91 which is articulated at 92 on the cross member.
83.



   When the wheel 20 is started, the pin 78 is reprocessed and, just before this wheel has completed its nth (i.e. its 6th) revolution, this pin is again pushed out as will be explained later, ' so that it will bear on the lower face of the lever 79 and will cause the latter to swing around its pivot
93 (see fig. 3). This movement of the lever imparts an initial forward movement to the fork 81 which is thus pushed into the path of the stud 80 and comes into contact with the latter. By the moderating action of the bellows 91, the wheel is gradually stopped and, during the return movement of the fork, it is returned to its initial position shown in FIG. 1 and is again ready for subsequent operation of the device.



   Each of the eyebolts 78 slides in a radial sheath 94 of the wheel 20 and is connected to a slide 95 mounted on a guide 96 on this wheel. A back and forth movement is imparted to the pin 78 while the wheel 20 rotates under the action of a planetary gear. On the shaft 21 is wedged a sun wheel 97 (see fig. 3) which meshes with a toothed wheel 98 mounted on a pin 99 fixed on the wheel 20. On this same pin is also mounted a toothed pinion 100 which meshes with a toothed wheel 101 mounted on a pin 102 of wheel 20.

   A bent part 103, fixed on the toothed wheel: 101, is connected by a rod 104 to the slide '95. Toothed wheels 98,100 and 101 constitute a

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 planetary gear; the gear ratio of this gear is such that the piton 78 is pushed to its greatest distance outside the circumference of the wheel 20, approximately at the moment when the latter has completed a determined number of revolutions, that is to say eight rounds.



   Each of the cooperating wheels and each of the braking mechanisms comprise, in conjunction with them, a tilting token container 76. To each of these tilting containers is conjugated a tilting system arranged to be actuated by the. co-operating member corresponding when it has accomplished a determined movement and are also connected organs actuated by any one of the co-operating wheels which is the first to accomplish its movement, and which serve to prevent the operation of the tilting systems combined with all the other cooperating wheels, each tilting system comprises a slide 105 controlled by a spring 106 and connected by a connecting rod 107 to the lever 79.

   The connection between the lever 79 and the connecting rod 107 is constituted by a button 108 fixed on this lever and penetrating into the groove 109 of this connecting rod, a pusher 110, controlled by a spring 111, is articulated at 112 on the slide 105 and is arranged so as to actuate a second slide 113 controlled by a spring 114 (see FIG. 1).



   The slides 105 and 113 are mounted on guides carried by a frame 115 (see especially FIGS. 4 and 14) on which depends a lug 116 in which the journal 93 is mounted. Each of the slides 113 has a notch 117 which receives the rounded end of a lever 118 which is articulated at 119 on a support 120 mounted on the guide of the slider 113. The other end of the lever 118 'is arranged so as to come into contact. with a protruding appendage 120 'of the coin container 76 so as to tilt it.

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  Each of the push-buttons 110 carries a button 122 which can come into contact with the free end of an arm 123 fixed to an oscillating axis 124 mounted on the supports 125 of the frame 115. Each push-button 110 is associated with a lug 126 which is mounted idle. on the oscillating shaft 124 and comprises a tail piece 127 connected by a spring 128 to an appendage 129 of the arm 123, so that there can be relative movement between the arm 123 and the lug 126 but that normally, when the arm is actuated by the button 122, the lug 126 is forced to move integral with the arm 123. At the front end of the swing shaft 124 is an arm 129 actuated by a spring. 130. On this arm is articulated, near its lower end, a lever 121.

   One end of this lever 131 is shaped so as to constitute a pawl 132 which is kept engaged by means of a spring 134 on the ratchet 133 mounted on the frame 115, and the other end of this lever carries a roller 135. A rod 137 controlled by a spring 138 is slidably mounted on a support 136 carried on the frame 115. This rod is connected by a connecting rod 139 to an arm 140 which is located in the path of a cam 141 mounted on a shaft 142 which is arranged so as to be rotated by the crank 27. Each pusher 110 carries a shank 143 which normally occupies a vertical position and the upper part of which is close to the corresponding shank 126 (see fig. 1 and 4).



   It will be understood that there is a rocker system and coin container such as those described above for each of the cooperating wheels 20, but only an arm 129 and a conjugate ratchet and ratchet system. The parts are normally in the position shown in fig. 1.



   At each operation of the apparatus, the pin moves 78 of the wheel 20 which performs the first sequence

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 of predetermined movements, namely for example eight revolutions, causes the corresponding lever to swing to the position shown in FIG. 3, with the result that the pusher 110 is brought to the right as seen in lesfig. 1 and 3 and pushes the slide 113 to the right, causing the lever 118 to tilt the coin container 76, corresponding so that the coins are discharged from this container, for example in a chute. properly arranged, leading to a bucket located outside the casing of the apparatus.

   This movement of the pusher 110 forces the pin 122 to come into contact with the arm 123 so that all the pins 126 oscillate in the position shown in FIG. 3. The tail 143 of the pusher 110 mentioned above comes out of the path of the pin 126, but the tails of the other pushers
110 remain in their initial position because the corresponding sliders 105 have not been actuated and the corresponding pins are in the path of these tails. Accordingly, when any one of the wheels 20 performs the series of predetermined movements, the corresponding lever 79 is put into action and the slider 105 is carried forward.

   During this movement, the tail 143 meets the corresponding lug 126, so that the pusher 110 rotates on its pivot 112 as seen by the dotted line in FIG. 3. As a result, the slide 113 is not actuated and the corresponding coin container 76 does not tilt. Thus, whichever of the slides 105 is actuated first rotates the shaft 124 and brings the arm 123 to the position shown in FIG. 3. In this position the, pawl 132 locks the lugs 126 in the tilting position.

   When operating the crank 27 to oscillate the counterweight to the position shown

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 in dotted lines in FIG. 2, as was said previously, the cam 141 acts on the arm 140 and lowers the rod 137 contrary to the action of the spring 138 so that a projecting rim 144, located at the upper end of the rod in question, comes into contact with the roller 135 and raises the pawl 132 by moving it away from the ratchet 133. The spring 130 is then free to act to return the arm 129 and the lugs 126 to their original position.

   In the event that any of the lugs 126 bear against the corresponding shank 143, the spring 128 allows the necessary relative movement between the lug 126 and the arm 123 so that the lug in question and the shank can be moved. move away from each other.



   The apparatus, as stated above, has a number of coin acceptors corresponding to the number of cooperating wheels and the number of coin receptacles attached thereto.



  To prevent the counterweight 24 from being moved too soon, a stop device is provided comprising an oscillating member actuated by gravity, a device by means of which the introduction of a coin into any one of the channels actuates this member if it is in the desired position to be actuated, and a stop member which is brought from its stop position to the non-stop position by the action of the member.



   Each of the aforementioned coin slots communicates with a separate tilting tilting chute 145, one of them being affixed to each of the tilting coin containers 76, and each of these slots being hinged near its upper end. lower, as we see, in 146, on an amount 147.



  From each of the coulottes, at its upper end is suspended a rod .148 (see fig. 4 and 6). The lower end of each rod 148 is bifurcated and is articulated

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 to an arm 149 of a sleeve 150 mounted on a shaft 151 carried by uprights 152. Each of the arms 149 is attached to a separate sleeve and each sleeve also carries a pendant arm 153. A rod 155, movable in the direction of its length and which carries at its end an operating button 156 is carried by parts 154, one of which is shown in part in FIG. 6, and which are suspended from the cross member 83. The pendant arm 153 bears against a rod 157 carried by an arm 158 which is articulated, at its lower end, on a rod 159 mounted between the cross members 83.



   This arm constitutes the oscillating member placed under the action of gravity mentioned above: normally it is supported, as shown in fig.



  6 against a stopper pin 160 mounted between the side flanges of a stopper member 161 with U-section, on one side of the rod 159. A second stopper pin is placed in this same member 161, on the other side of the same rod. The member 161 carries, at its lower part a projection 163 which normally penetrates into a groove 164 comprised between two shoulders 165, 166 of the rod 155. The upper part of the rod 38 has a groove in which an end of the rod engages. 'an angled lever articulated at 168 on a support 169 attached to the rear cross member 83. The free end of the other arm of this angled lever is bifurcated as seen at 170 and passes between two flanges 171 mounted on the shaft 158 movable in the direction of its length.



   A coin introduced into the apparatus rolls along the chute 145, tilts it and pulls the rod 148 upwards so that the corresponding sleeve 150 rotates. The pendant arm 153 is thus caused to actuate the member 158 which in turn acts on the stopper 161 to bring it to its non-stop position as is clearly shown in the figures.

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 fig. 7,8 and 9. A stopper 172 fixed to the cross members 83 limits the movement of the stop member 161. When this member is out of the groove 164, the rod 155 can move. lengthwise, towards the operator so as to rotate the lever 167 at right angles and pull the rod 38 to the right in the direction indicated by the arrow in fig. 6.

   This movement releases the part 37 from under the plate 36 which results in the frame 31 immediately oscillating under the action of the dead weight 24 which weighs on this frame: the cooperating wheels 20 are then set in motion as has been explained. above.



   If the rod 155 is either pushed or pulled, in the direction of its length, by the operator when the member 158 is actuated by the introduction of a coin into any one of the slots referred to above, the stopper 161 will not be able to move because of the friction exerted between it and the shoulders 165 or 166. As soon as the operator releases the rod, which is the member 158 acts automatically on the stop member as has been explained.



  Thus the object of this two-part stopper is to allow a coin inserted into the apparatus and the pendant arm 153 to actuate the member 158 even when the rod 155 is held by the rod. operator.



   Any suitable system can be adopted to automatically put the above stopper back in place, for example a mechanism connecting the stopper member to a part which automatically returns to its initial position each time. device operation. In the device shown in the drawings, the re-installation is effected by means of a U-shaped collar 173 which embraces one of the side branches 41 of the oscillating frame and which is connected by a connecting rod 174. to one of the arms of an elbow lever 175 pivoting at 176 on a

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 support 177 carried by the frame 115.

   The free end of the U-shaped collar 173 is closed by a pin 178 and the other arm of the elbow lever above is disposed such that when the aforesaid part 41 touches the pin 178 and the elbow lever swings on its pivot, the other arm comes into contact with the member 158. In this way the stop member is put back in place as shown in FIG. 7 and, at the same time, by means of the arm during
153 and rod 148, the tilting money chute 145 is returned to its normal position.



   A system can be adopted to divert a small proportion of the coins introduced into the apparatus from their normal path, either to modify or allow modification of the braking load, so as to cover the necessary expenses and ensure a benefit the owner of the device, this proportion being indicated on the instructions affixed to the device.



   To this end, we can fit out, at any appropriate point, a chute or an equivalent organ and a combined mechanism to divert every nth, (for example every 6th) part which passes through this chute, away from it. so much of the route followed by all the other pieces.

   Usually this deflection member can take the form of a coin wheel having several pockets on its periphery, each of these pockets being arranged to receive a coin in an angular position of the coin wheel, these pockets being shaped. so as to drop the parts respectively at different angular positions of the wheel,
In the apparatus shown in the drawings, each cooperating wheel 20 has a corresponding tilting chute 145 and each of the chute is coupled with a coin deflection mechanism which will now be described with special reference to FIG.



   4. At the exit end of chute 145 is

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 arranged a coin wheel 179 rotatably mounted on a shaft 180 carried by the frame 147. This coin wheel has, on its periphery, six pockets, five of which numbered 181 to 185 inclusive are all similar, but the sixth numbered 186 is slightly different in shape.



   All these pockets are arranged so that the coins passing along the chute 145 fall into these pockets and gradually impart a rotary motion to the wheel 179. Each of the pockets 181 to 185 has a circular bottom and has a wall. conductor 187 which is substantially tangent to the bottom and slightly inclined rearward with respect to the direction of rotation of the wheel indicated by the arrow. It is easy to understand that, in the position of the wheel shown in FIG. 4, a coin will fall into pocket 182. The inclination of conductive wall 187 is chosen such that when this pocket arrives at the angular position shown for pocket 183, the part will roll from pocket 182 into pocket. piece 188 which flips the pieces.

   A similar operation takes place when any one of the pockets 181, 183, 184 or 185 occupies the position indicated for the pocket 182. The conductive wall of the pocket 186 is notched so as to present a circular recess 189 in which the part will be housed and which will prevent it from rolling out of the pocket when the latter occupies the position of pocket 183.



  This part will be retained in the pocket 186 until the latter has reached the angular position shown as occupied by the pocket 184 and then the part is free to fall from this pocket into a bucket 190.



  The coins which enter the pockets 181 to 185 inclusive all pass through the parts 188 which return the coins, and, from there, fall into the corresponding coin receptacles 76, but all

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 coins which enter pocket 186 fall into august 190 and are retained for the purpose set out above.



   The coin wheel is prevented from turning in either direction and is retained so that a pocket is always suitably disposed relative to the outlet end of the chute 145 by means of two movable stop members 191,192 articulated at 193,194 respectively on the frame 147. Buttons 195,196 determine the normal position of the stop members 191,192 respectively. These members cooperate with the studs 197 of the coin wheel 179 to keep the latter in immobility; there is a stud for each pocket of the coin wheel. The coulotte 145 carries a point 198 which protrudes on one of the sides.

   This point, when the coulotte in question tilts under the weight of a coin which passes through it, comes into contact with the tail of the stop member 191, so that the stop member tilts out of the path of the piton 197 and that the coin wheel can turn in the direction of the arrow. Stop buttons 199 and 200 limit the downward movement of the chute 145 and of the movable stop 191, respectively.



   As the coins roll along the chute 145, they are received in the pockets of the coin wheel 179, with their faces vertical, and these coins are to be deposited in the tilting coin receptacles 76 shaped ' trough and whose walls are horizontal. The member 188 which rotates the parts, arranged for effecting the change (see especially Fig. 5) has an upper part roughly U-shaped and a lower trough-shaped part. The three walls 201, 202, 203 of the U-shaped part are vertical and arranged so that the open side of this compartment is oriented

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 towards the coin wheel 179. The wall 201 is extended downwards so as to form a side wall
204 of the trough-shaped part.

   The other wall 205 of this part is spaced from the wall 203 and is joined to the wall 204 by an end wall 206 which is located near the coin wheel 179. The bottom 207 of the d-shaped part The trough descends from the wall 206 to the tilting coin container 76.



   Under the lower end of the U-shaped part is an inclined partition 208, triangular in shape, the base of which is in the plane of the wall 201, one side in the plane of the wall 206 and the vertex in the trihedral angle formed by the walls 205, 206 and the base wall 207.

   The wall 203 ends above the partition 208 and the distances between the walls 201 and 203 and between the lower edge of the wall 203 and the partition 208 are such that any coin which passes from a pocket of the wheel coin 179 in the U-shaped part of the part which rotates the parts, will tilt when its edge meets the partition 208 and will tend to land face down; but the partition is not wide enough to carry the coin, so that the coin is forced to fall from the partition 208 onto the bottom wall 207, from which it slides face down into the coin container 76.



   Near the exit of the coins from the tilting coin container 76 is an inclined chute 209 which leads to a bucket (not shown) located outside the casing of the apparatus, so that all coins which is in the tilted container 76 will be discharged from the apparatus. The bottom of the chute 209 extends beyond the edge of this chute, as seen at 210 to prevent coins from falling between the end 76 of the container and the chute; extension 210 is provided with a slot to provide

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 tongue 211 curved downwards to allow the passage of the appendix 211 when the coin receptacle is tilted.



   It is assumed that the foregoing description will make the operation of the apparatus as a whole clearly understood since the operation of each particular mechanism as well as its construction have already been described. In summary, the operator looks at the eccentrics 44 and, from their angular position, judges which of the cooperating wheels 20 will be launched at the greatest speed. It then takes into consideration the braking load of each wheel as determined by the coins in the receptacles 76 and, based on these factors, decides what the co-operating wheels are. 'rantes who' will be the first to have accomplished a determined number of revolutions.



   In order for the operator to be able to make these calculations, the eccentrics 44 and the coin receptacles 76 are visible through a window provided with a pane made in the outer casing of the apparatus. The operator first oscillates the counterweight to the position shown in dotted lines in fig. 2 and thus returns the coin receptacles 76 to their normal position. The operator then introduces a coin into the slot in the above-mentioned outer casing relating to the wheel 20 which he considers to be the first to accomplish the determined number of revolutions. The coin releases the aforesaid stopper comprising the gravity actuated oscillating member 158 and the stopper 161. The operator then pulls the rod 155 by means of the operating button 156.

   This movement releases the part 37 from below the oscillating frame 31 and the wheels 20 are thus set in motion. If the operator has done his calculations correctly, the coin he introduced into the machine

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 (provided it has not entered pocket 186 of coin wheel 179) will be returned to him.



   We see that the operations of the device do not constitute a game of chance but a game of skill.



     Provided that the operator makes exact calculations as to which of the co-operating wheels has first completed the determined number of revolutions, it is certain that the coin or coins which he introduces into the apparatus to reduce or balance the braking load applied to the chosen cooperating wheel, will be returned to it.



   The invention is not limited to the embodiment described above in detail. You can obviously make significant changes without going out of your way. For example in the device described, the coins serve to reduce or balance the braking load of a certain cooperating wheel but they can be used to increase this load.



  On the other hand, the apparatus can be arranged so that the operator can increase or decrease or balance the load of any of the cooperating wheels at will.



   The calculations of the operator do not need, as has been said above, to have as their object to determine which of the cooperating organs will accomplish the first a determined series of movements, because no It is important what other result can be admitted as being to be predicted by calculation. The device can be designed accordingly.



   In any case, the operator is in a position to regulate the speed of any one or all of the cooperating members so as to increase it, or decrease it, or maintain it in order to bring the speed up. result he calculated. The tilting mechanism of the coin receptacles 76 will be modified in an appropriate manner corresponding to the particular purpose for which use is to be made.

 <Desc / Clms Page number 23>

 the device.



   Instead of using the weight of the coin to vary the braking load, or in addition to that weight, any other means can be used, such as a weight, the weight of which can be adjusted. position along a rod, a spring balance or any other known mechanical system. In this case, the introduction of the coin into the device can only be used to put it in a position to operate.



   The kinetic energy of the cooperating members can be regulated or absorbed by applying weights to be lifted by the cooperating members, by means of any suitable mechanical system, such as a toothed wheel, winding gear or levers. It is also possible to have a mechanism by which these weights to be lifted are increased, decreased or maintained by the introduction of coins or by the accumulation of coins in the apparatus or by any other suitable means such as use. independent weights or weights that can be attached along a rod or lever.



   For example, each cooperating wheel 20 can carry at its periphery or near it a stud which comes into contact with a star wheel and prints a slack. gradually to this wheel as the wheel 20 turns. It will be understood that with this form of gear the star wheel has imparted to it on its contact circumference a speed approximately equal to the linear speed of the pin on the cooperating wheel, so that the application of a relatively light weight, such as that of a coin, with the star wheel, exerts a considerable delaying influence on the cooperating wheel.



   The star wheel is arranged to drive a gear wheel, or else can be integral with it.



  This wheel meshes with a vertically movable rack;

 <Desc / Clms Page number 24>

 preferably the arrangement is such that the rack rises during operation of the apparatus. A suitable pawl engages with the ratchet teeth of the rack to support the latter in the intervals of the intermittent movements communicated by the star wheel.



   At its upper part the rack is connected to a pivoting lever, at the free end of which is fixed a receptacle for the coins introduced into the apparatus. The arrangement is such that the weight of these parts is applied, with the mechanical advantage resulting from the presence of the lever, to the rack and, through this, to the star wheel.



   The tilting mechanism of the coin receptacle 76 by which coins for the related cooperating wheel 20 are discharged from the apparatus may be similar to that described. above and can be controlled by the star wheel arranged for this purpose. It can still be controlled by the aforementioned rack when the latter reaches the limit of its movement.



   Instead of using a star wheel to obtain a reduction in the number of movements determined by weight, any suitable reduction gear controlled by the cooperating member can be used. It is also possible, when using coins introduced into the apparatus, to apply this weight directly or by a lever or by a system of levers, at will. In all cases where a weight is raised during operation of the apparatus, a ratchet and ratchet mechanism may be provided to retain the weights in their raised position until the operation is completed. when the pawl or pawls can be released to allow the weights to drop to their lowest position, ready for another operation.


    

Claims (1)

-: R E V E N D I C A T 1 0 N S: - 1 Amusing device operated by the introduction of coins comprising, in combination, a number of movable members operating concurrently: a device for setting these members in motion (for example at different predetermined speeds) 'and a device for regulating the kinetic energy of these cooperating organs so as to fix, at the will of the operator, the order in which each of them will have performed a determined series of movements. 2. An amusing coin-operated apparatus as set forth in claim 1, wherein a single motor mechanism is operatively connected to all of the cooperating organs to set them in motion simultaneously. 3, An amusing coin-operated device of the species defined above, comprising, in combination, a number of cooperating members (eg rotating wheels); a device (for example moved by a weight) for setting these cooperating members in motion at different speeds: a device for applying a determined braking load to each of these cooperating members; a device by means of which the coin or coins introduced into the apparatus modify the braking load of a particular cooperating member, at the discretion of the operator; finally a device by means of which each of the cooperating organs, .quel he. or, which is the first to complete a determined series of movements, furnishes an appropriate indication of it. 4 An apparatus as referred to in claim 3, comprising a mechanism controlled by the cooperating member which has first completed a series of <Desc / Clms Page number 26> determined movement, used to remove the coin or coins from the appliance. An apparatus as claimed in any one of the preceding claims, further comprising a device by means of which the relative initial speed of the cooperating members is automatically changed with each subsequent operation of the machine. - born. Apparatus such as that referred to in any one of the preceding claims comprising a counterweight which is mechanically connected to each of the cooperating members so that when this weight can fall, the member in question will be set in motion by this counter. - weight: a system for maintaining this counterweight in position in order to start the apparatus; a device (for example controlled by a sliding rod) for triggering the movable drive member so as to allow with the counterweight to fall: a stop mechanism activated by the introduction of a coin into the apparatus to prevent the operation of the triggering system; finally a device (for example controlled by an operating crank) for putting the counterweight back in position for starting the device. 7 Apparatus such as that referred to in claim 6, in which the triggering device and the resetting device in question are actuated by hand-driven organs, arranged so that the resetting device place cannot be operated until the trigger mechanism has been operated to return the drive mechanism to the position in which it holds the weight in position. 8 Apparatus such as that referred to in claim 7, in which the trigger system is actuated by a sliding rod and the reset system <Desc / Clms Page number 27> in place by a crank, characterized by the fact that this sliding rod, when it moves to @@ berer the drive system, is carried in the traje--. roof of this crank. 9 In an apparatus according to claim 6, the combination with the counterweight, an oscillating frame controlled by this counterweight "and a mechanism serving the above purpose, the position of which can be adjusted along the frame, this mechanism connecting the various cooperating bodies. 10 Apparatus as claimed in claim 9, comprising a certain number of rotating wheels, constituting the cooperating members, mounted idly, side by side, on a shaft carried by the main frame of the apparatus, a shaft carried by the oscillating frame; several eccentrics corresponding in number to the cooperating wheels, mounted on said shaft in different angular positions, each comprising a collar connected respectively, by an arm to a slide (for example to a sleeve mounted on a rod carried by the oscillating frame) ;: a certain number of connecting rods each connecting one of the sleeves A to an arm forming a pawl, mounted on the shaft on which the rotating cooperating wheels are mounted; finally a pawl fixed to each arm et.disposé so as to act on a ratchet wheel adjoining the corresponding cooperating wheel. Apparatus according to claim 10 further comprising a mechanism for automatically rotating the shaft on which the bridge mounted said eccentrics, at each successive operation of the apparatus. 12. Apparatus according to claim 11, characterized by a star wheel fixed to said shaft; by a pivoting detent member, arranged so as to engage in notches located at the periphery of the star wheel to prevent the latter from turning, and by a lug, <Desc / Clms Page number 28> placed under the influence of a spring, articulated on the frame of the apparatus and arranged so that, when the oscillating frame tilts, this lug first releases the trigger from the star wheel and then makes turn the latter and thus modify the position of the eccentrics. 13. Apparatus according to claim 1 further comprising a mechanism for stopping each of the cooperating barley after it has made a determined sequence of movements and for putting this member back in place for the subsequent operation of the same. 'device: 14. Apparatus according to claim 13, co-operating by testing a number of rotating wheels each provided with a stud fixed to one of their faces; an articulated fork arranged so that it is normally outside the path of this stud; a bellows system controlling said fork; a mechanism actuated by the cooperating member when it has accomplished the determined number of movements, to impart a nominal forward movement to said fork so that said gou, jcn engages therein for the purpose above exposed. An amusing apparatus operated by the insertion of coins, comprising in combination a number of cooperating members; a mechanism for setting these members in motion (for example at different determined speeds): a braking mechanism attached to each of these members and arranged to apply a determined braking load to them; separate tilting coin receptacle, mechanically connected to each braking system ,. to receive the coins introduced into the apparatus in order to vary the load applied by said brake; a certain number of tilting mechanisms each adapted to one of the coin receptacles and arranged so as to be actuated by the corresponding cooperating member when the latter has accomplished a determined series of movements; finally a mechanism actuated by that <Desc / Clms Page number 29> of the cooperating bodies which was the first to accomplish this mechanism to prevent the operation of the tilting systems controlled by all the other cooperating bodies. 16 Apparatus according to claim 15 in. which each tilting system comprises a slide arranged to be controlled by one of the cooperating members; a pusher articulated on this slide and arranged to actuate a second slide mechanically connected to the coin receptacle; part forming the tail of this pusher and an articulated lug arranged so as to be actuated by said pusher in the trajectory or out of the trajectory of this tail, and this for the stated purpose. 17 Apparatus as referred to in claim 16, comprising a device (for example a ratchet and ratchet system) actuated by the pusher to stop the lug in the position in which it is carried, by the pusher, and a mechanism for releasing this stop system and returning the lug to its original position, which mechanism is arranged so as to be actuated by a member (for example a crank) which must be moved before the cooperating members have been set in motion. 18. Apparatus according to claim 16 comprising a number of co-operating rotating wheels, each mounted idly on a shaft; a movable eyebolt on each of these wheels a lever mechanically connected to the tilting coin receptacle, and a mechanism for moving this eyebolt while the wheel turns, so that at the end of the determined sequence of movements (i.e. eight completed - tions) said pin is pushed out of the wheel and meets said lever so as to tilt the coin receptacle and pour out the coin or coins which it contains. 19 Apparatus according to claim 18, wherein a stud is disposed along the radius in the wheel <Desc / Clms Page number 30> cooperating and is arranged so as to be pushed out of the periphery of the wheel by a mechanism comprising a planetary gear whose sun wheel is fixed on the shaft and the planet wheel is mounted on the cooperating wheel, and a bent part with a rod mechanically connecting the planetary gear to a slide carrying this pin so as to impart to it a back and forth movement, the gear ratio of the gear wheels being such that the piton is brought to its greatest distance approximately when the cooperating wheel has completed the determined number of revolutions. Apparatus according to claim 6 provided with a plurality of chutes receiving the change, wherein the apparatus the stop system comprises, for the stated purpose, an oscillating member; a mechanism by means of which the insertion of a coin activates this member if the latter is in the operating position and if a stop member is brought from its stop position to its non-stop position. -stopping by the action of said oscillating member. 21 Apparatus according to claim 6, further comprising a mechanism for automatically replacing said stopper, for example a connecting rod connecting the stopper to a part which automatically returns to its initial position. after each operation of the appliance. In a coin apparatus (eg such as that referred to in claim 1) a mechanism for diverting a determined proportion of coins introduced into the apparatus from their normal path. 23 Coin deflection mechanism as referred to in claim 22 comprising a coin chute or equivalent member and a mechanism cooperating with this member to divert every nth (for example every 6th) coin, passing through this chute , <Desc / Clms Page number 31> the route followed by the other parts. 24 A coin deflection mechanism as referred to in claim 23, comprising a coin wheel having several pockets at its periphery, each of these pockets being, arranged to receive a coin at one position. determined angle of the wheel, these pockets being shaped so as to respectively allow the parts to fall at different angular positions of the wheel. A coin deflection mechanism as set forth in claim 24, wherein a coin wheel is disposed near the end. outlet of the chute and in which the pockets are arranged such that the parts passing through the chute fall into the pockets and impart a gradual movement to the wheel. 26 A coin deflection mechanism as set forth in claim 25, further comprising a device which normally prevents the coin deflection. rotation of the coin wheel in either direction, and a system controlled by inserting a coin into the apparatus which frees the wheel to turn in one direction. 27 A deflection mechanism as referred to in claim 26 characterized by an oscillating inclined chute arranged to tilt when a part passes through it; by two stops mounted on a pivot arranged to cooperate with studs of the coin wheel to prevent rotation of the latter and a device adapted to the chute when the latter tilts to bring one of the stops out of the path of said studs. A fun coin operated apparatus as contemplated by any one of the preceding claims 1 to 21, <Desc / Clms Page number 32> included, with a coin deflection mechanism as referred to in one of the preceding claims 22 to 27 inclusive, combined with each of the cooperating members. A coin amusement apparatus, as referred to in claim 6, provided with a deflection mechanism as referred to in any of the preceding claims 22 to 27, in which an organ moved by a part introduced into the device (for example a tilting chute) is operatively connected to the above-mentioned stop mechanism. An amusing coin apparatus as summarily described above and shown in the accompanying drawings.