CH194589A - Automatic device for introducing coins for the distribution of objects, in particular tickets. - Google Patents

Description

  

  Automatic device for inserting coins for the distribution of objects, in particular tickets. The subject of the invention is an automatic device for the introduction of coins for the distribution of objects, in particular tickets. This apparatus comprises a device for collecting and totalizing coins of which the totalizing members during the totalization move by an extent corresponding to the total value of the coins introduced into the apparatus and the means which are used to form in the device the amount to be paid and of which the organs driven during the formation of the amount effect a displacement of a magnitude corresponding to the price of the object.

   Next, the apparatus according to the invention presents a device which is intended to couple these latter driven members with the totalizing members of the totalizing device in order to compare the respective amounts and finally a control device whose operation depends on the position. which said coupled members occupy after the comparison operation and which acts on the distribution members of the apparatus according to the result of said comparison.



  In the accompanying drawings are shown, by way of example, three embodiments of the invention.



  The first embodiment, which is an apparatus for the emission of objects with delivery of the rest, is shown in FIGS. 1 to 31.



  Fi-. 1 shows, in section on 1-1 of fi * 9, all of the control mechanisms, balance calculation and actuation of balance distributors.



       Fig. 3 is a plan view, partially in section, of the assembly according to FIG. 1.



       Fig. 3 is the section through the coin collecting and totalizing mechanism following 3- # 3 of FIG. 5.



       Fig. 4 is a similar section along 4-4 of FIG. 5.



       Fig. 5 is the section along 5-5 of fig. 3. Fig. 6 is a partial section on 6-6 of FIG. 3.



       Fig. 7 shows in detail an alignment device and return to zero.



       Fig. 8 shows another detail.



       Fig. 9 is a plan view of part of the apparatus, shown in FIGS. 4 and 7. Fig. 10, 11, 12 and 13 represent the elements of the group of the coin totalizing mechanism corresponding to coins whose value belongs to the numerical order; ,units.



       Fig. 14, 15 and 16 similarly represent the elements of the group of the coin totalizing mechanism belonging to the numerical order of tens.



       Fig. 7 shows separately the control device of the totalizing mechanism.



       Fig. 18 is a plan view of part of the members of FIG. 17.



       Fig. 19 shows in elevation part of another control of the apparatus.



       Fig. 20, 21 and 22 show in detail the transfer mechanism between the two groups of the totalizer mechanism under different operating conditions.



       Fig. 23, 24 and 25 show in detail and under different operating conditions one of the transfer mechanisms inserted between the different groups of the device to be calculated It remains and to control the drive of the collection device and the ticket issuing device and the rest.



       Fig. 26 shows in detail a coupling device with its control.



       Fig. 27 shows the coin collector with his order and with the control of the ticket dispenser and the rest.



       Fig. 28 is a plan view of the device shown in FIG. 27, this device being mounted in the frame of the apparatus shown in section.



       Fig. 29 shows, on a smaller scale, the assembly of the supply ducts for the coins introduced into the apparatus, of the collector of these coins, of the ticket dispenser: and of the dispensers of the rest. Fig. 30 is partly the front view of the apparatus and partly the view of its interior without box and without mechanism.



       Fig. 31 is the diagram of the elements of the differential mechanism as well as of its controls.



  Figs. 32 to 35 partially show a second embodiment, the totalizing mechanism of which differs from that of the first embodiment.



       Fig. 32 and 33 are the following sections, 3r32 and 33-â3 of fig. 34 and 35 respectively, while FIG. 34 is the following section 34 -, 34 of 1a fig. 32.



       F'ig. 3.5 is a partial plan view. Figs. 36 to 41 finally show a third embodiment, representing an apparatus intended for the distribution of objects with different values against the introduction of coins of an amount corresponding to said values.



  Fig. 36 is an overall view, partially in section, along 36-36 of FIG. 3 7.



       Fio% 3 7 is a plan view of FIG. 36. with parts in. chopped off.



       Fig. 38 is a view of the coin collector and its control as well as the control for the object distribution device.



       Fig. 39 is a plan view with part in section taken along 89-39 of FIG. 38. Fig. 40 shows, on a smaller scale, the supply conduits for the coins introduced into the apparatus.



       Fig. 41 is partly the front view of the apparatus and partly its interior view without box and without mechanisms.



  The apparatus according to fig. 1 to 31 co @ m- carries a mechanism for the formation of the post in the apparatus as described in patent no. <B> 169512. </B>



  As described in said patent, to which reference is made with regard to the constitution and operation of the mechanism in question. , this mechanism comprises combining elements and selector keys, these elements and keys being able to be provided in such a way that, by the operation of each key and by effect of the operation described in said patent, one obtains predetermined strokes of several organs for forming the upright in the apparatus, these courts establishing the functioning of the other organs of the apparatus.

   Between the keys and the slides indicated by 1 and 2 and corresponding to the members indicated by 83 and 36 respectively in the description of the above-mentioned patent is inserted the combination-selector mechanism for the formation of the upright in the apparatus described. in said patent.

   The control of the slides 2 from the shaft at. cam 3 (a slide being provided for each numerical order or in general for each series of data for the formation of the upright in the machine), is carried out (fi- ,. 1, 2, 5 and 19) using cams 4 and 5 of the shaft 3 which act on the rollers 6 and 7 of a lever 8 pivoted at 9; the toothed sector <B> 1.0 </B> of this lever drives a toothed wheel 11 integral with a shaft <B> 210 </B> on which are wedged the pinions 12, each of which drives, always over a full -course, a shoe 14 by the teeth of a set of teeth whose primary line is indicated by 13 in FIG. 19.

   This pad corresponds to the pad 37 shown in fi * 2 of the mentioned patent. The slides, each driven by its shoe 14 on a stroke proportional to the amount formed in the device, drive the corresponding pinions 145, 146, 152, 161 (fig. 5) as well as the pinions 224 (fig. 2) which transmit the command to a printer mechanism and to an adder (not shown).



  The device also comprises (fig. 3-18) a totalizing mechanism which receives the coins (the money introduced by the user and which moves components whose position mechanically represents the value of the amount introduced, the total consisting of said coins. .



  Coupled with this totalizing mechanism is a calculating mechanism and balance distributor of the type described in patent no. 189263.



  This mechanism (fig. 1, 2, 5, 27, 29, 30, 31) comprises cams which are carried in different angular positions corresponding to the remainder to be delivered at each maneuver of the apparatus and which, during operation of the device, give rise at the desired moment: to the actuation of the remaining coin dispensers.

   These cams, indicated by 16, 17, 18, 19 in fig. 1, 2 and 5 correspond substantially (apart from what will be described below) to the cams indicated by 30, 31, 32, 33 in the description of patent no. 189263.



  The reservoirs 20 with the remainder distributors 31 actuated by the cams 16, 17, 18, 19 (fig. 1, 2, 29, 30) correspond to the reservoirs and distributors 59 and 61 of patent no 189263 and are ordered by the mechanism 21, 22, 23, 23 ', 24, 25, 26, 25', 28, 29, 30, which corresponds to mechanism 37, 36, 40, 40 ', 44, 48, 48', 49, 50, 62 of said patent. The mouths for the exit of the coins from my remainder open in the funnel 223 opening to, in turn, the basin 9,1.



  At an appropriate moment of the operating cycle, the cams 27, 27 '(fig. 1 and 27) give rise to the oscillation of the arm 88 by acting on its rollers 224 and 225 and, consequently, to the oscillation. of the shaft 89 integral with the frame 21, 22, so that the levers 23 idle on the shaft 21. are pushed against the respective cams 16, 17, 18, 19 and are moved or not, depending on the portion said cams which are located opposite the slats 23 'of said levers; consequently, the levers 23 drive or not the rods 24 and the respective remainder .distri scorers depending on the position of the cooperating cams 16, 17, 18, 19.



  The cams 16 and 17 which are driven by the coin totalizer and which, in the first part of the operation, take a position which depends on the value of the amount introduced, are then coupled with the mechanism to form in the apparatus the amount to be collected by means of a mechanism described below, which carries the cams corresponding to the digital orders of the coins introduced into the apparatus, in positions which correspond to the dif ference between the amount entered and the amount to be collected by the device;

   the movement of said cams 16 and 17 takes place taking into account, where appropriate, the position of the other cams 18, 19 belonging to lower numerical orders and whose position depends solely on the mechanism for forming in the apparatus the amount to be collected. The mechanism thus performs the calculation of the remainder.

   Depending on the determined remainder, the cams 16, 17, 18, 19 then give rise to the issue of the remainder coins when this remainder is positive, while the position of these cams acts on the collection and payment device. Issue of the ticket in order to prevent its operation when the amount of coins introduced into the apparatus is smaller than the amount which has been formed in the apparatus.



  On the other hand, in the embodiment of the device not provided with remainder distribution, the cams prevent the operation of the device for collecting and distributing the object when the amount introduced does not correspond exactly to the amount to be cashed.

   The coins introduced into the machine pass from the totalizer to a collector 32 which brings them into the duct 90 (fig. 29 and 30) opening into a collection tank which can be opened only by authorized personnel, or in duct 214 opening into:

  bowl 91 for return to the user when the conditions for their introduction or for the distribution of the object are not satisfactory. while a guide 33 brings to -conduit 215 and consequently to the collection tank the objects which have been issued by operating effect .don nant, instead of returning the amount introduced into da machine; on the other hand, when the ma noeuvre has been done correctly, said guide brings the object to the conduit 216 opening into the bowl 91 accessible to the user.



  In the case where the apparatus is intended for the distribution of tickets, the apparatus may be provided with a mechanism for printing the tickets, this mechanism being of any known type, it is not described in the patent ac tuel; the elements of this mechanism are carried each time in the desired position by effect of the formation of the amount carried out by the user, while its operation for printing the ticket is produced by the general operation of the apparatus.

   The ticket printing mechanism operates each time the machine is operated and if the ticket is not to be delivered, but sent to the collection tank, the printing device affixes an appropriate cancellation indication thereto.



  The coordinated operation of the various mechanisms of the apparatus is carried out using a system of cams which drive the various mechanisms in the necessary order of succession and at the appropriate amount; said cams are rotated by the main shaft 3 which is driven by means of a crank 213 acting through a reducer 211, 212. The device can also be actuated by means of a crank. assistance of an electric motor by means of an automatic disengaging clutch, of known type, which cuts off the supply of electric current to the motor when the:

  operating cycle is completed; The closing of the motor supply circuit in such a case is produced automatically in the last part of the stroke of button 1 for the formation of the upright in the machine which has been operated by the user.



  In the embodiment shown in FIGS. 1 to 30, the totalizing device (fig. 3 to 19) is organized for coins: of coins of four different values and it is divided into sections corresponding to two decimal orders (units and tens);

   in its operation, it totals the products of the numbers of the different pieces introduced by their respective unit value, giving rise to the displacement of respective driven totalizing organs belonging to the different decimal orders (two in the case considered) on angles proportional to the total value of said introduced coins; These displacements are then transmitted to the differential mechanism for the calculation and automatic distribution of the remainder.

        The totalizer comprises, for the order of the units. (fig. 3, 5, 10, 11, 12 and 13) a sector 34 intended for coins of minimum value, for example one unit, this sector (fig. 11) being mounted on the shaft 92 journalled in the partitions 35 and 36 belonging to the frame of the apparatus.

   This sector comprises a peripheral chamber 37 are intended to receive at one of its ends the parts which are there. <B> a </B> carried by a duct 38, while the opposite end of the chamber 37 is closed at 39; in one of the front walls of the chamber 37 is formed an arcuate slot 40, the sector 34 carries a finger 46.



       Another sector 41 (Fig. 12) is mounted loose on shaft 92 next to sector 34; sector 41 is also provided with an arched chamber 42 whose mouth at the upper end corresponds to duct 43, while the opposite end of said chamber is closed at 44. Sector 41 is intended for parts having a value greater than the coins supplied to sector 34, sector 41 in the case shown corresponding to coins with two units. The arched chamber 42 of the sector 41 comprises an arched slot 45 in which the finger 46 integral with the sector 34 and penetrating into the chamber 42 can move; of sector 41 carries a finger 52.



  A disc 47 is mounted idle on the shaft 92 next to the sector 41; this disc, which functions in a manner analogous to that of sectors 34 and 41,: comprises a chamber 48 intended to receive, from duct 49, the coins having a value greater than those of sectors 34 and 41; the chamber 48 is closed at 50 and is provided with an arcuate slot 51 in which the finger 52 projecting from the sector 41 can move. The disc 47 is provided on a part of its periphery with teeth 53.



  An arm 62 (fig. 10) integral with the shaft 92 carries a finger 63 which can move in the arcuate slot 40 @ of the chamber 37 of the sector 34.



  The control arm 62 is provided with three teeth 64, 65 -and 66 which can come into contact with the closed ends 39, 44, 50 of the chambers 37, 42, 48; said teeth 64, 65, 66 can drive in the negative direction respectively (fig. 3) the sectors 34 and 41 and the disc 47. In the sectors 34 and 41 are formed arc slots 67 and 68 placed facing the tooth 66 intended to act on the end 50 of the chamber 48 of the disc 47 and allowing the passage of said tooth 66.



  On -l'arbre 92 is still mounted crazy sector 54 (fig. 4.5 and 15) which is intended to receive parts of the order of tens and comprises an arched chamber 55 which is closed at 56 and receives the parts of the conduit 57. On the mean radius of the arc chamber 55 is formed the arc slot 58 in which can move a finger 59 carried by an arm 60 (Fig. 14) integral with the sleeve 61 on d 'tree 92.



  Beside the sector 54, on the sleeve 61 is mounted a disc 69 (fig. 16) provided with tooth 75 as well as notches 69 'and a front tooth 70 which can be engaged by a similar front tooth 71 integral with the. sector 54. This sector 54 is provided with an arcuate slot 72 housed on the circle on which the tooth 71 is placed.



  The arm 60 which is fixed to the sleeve 61 loose on the shaft 92 and which cooperates with the sector 54 is provided. a tooth 73 which acts by pushing on the bottom 56 of the chamber 55 of the sector 54, as well as a tooth 74, which can move in the slot 72 of the sector 54 and engage with the tooth 70 of the disc 69 on the face of this tooth 70 which is opposite to its face cooperating with the tooth 71 of the sector 54.



  The totalizing members of the totalizing device are provided with: a braking device consisting of plates 76 (FIG. 6) which can move on the stationary rods 77 and subjected to the forces of the springs 78. This braking device prevents movement. @ excessive amounts that said totalizing members could accomplish by inertia during operation in view of the high weight of the coins with which they are loaded;

   the purpose of this braking device is also to keep said members in their position in which they unload the coins before they are driven by the return teeth 64, 65, 66, 74, 73; the plates 76 act on the disks 47 and 69 as well as on the sectors 34, 41 and 54.



  The driven discs 47 and 69 of the totalizing device are provided with an alignment device: intended to immobilize them in certain angular positions after having been moved. This aligner device is shown in fig. 4 and 9 for the say that 69 and it has the three-arm lever 79 pivoted on the shaft 80.

   This arm is ordered; on the one hand, by the spring 81, one end of which is connected to the frame of the apparatus, on the other hand, by the cams 84, 85 via the tooth 86 and the roller 87 carried by the vier 79, and finally by the roller 84 'carried by the cam 84.

   When the cams 84 and 85 have been brought into the necessary position by the shaft 3 on which they are wedged, the cam 84 allows the release of the arm 79 under the action of the spring 81, so that the spout 79 'of the arm 79 engages in one of the alignment notches 69 'provided on a portion of the periphery of the disc 69, which instantly immobilizes this disc in the desired position. The arm 79 is always hand held in its correct position by the effect of the cooperation of the crowns of the cams 84 and 85 with the tooth 86 and the roller 87.

   Immediately before the disc 69 begins its return stroke, the roller 84 'which -cooperates with the ramp 79 "of the lever 79 recalls this arm 79: in its inactive position and releases the tooth 79' of the disc 69.



       Given that the teeth 53 of the disc 47 occupy a large part of its periphery, for the operation of the alignment device, a disc 47 'integral with the .disk 47 is provided, having at its periphery notches with which a similar lever cooperate at lever 79, 79 'and a corresponding control mechanism; this mechanism is analogous to that described with respect to the arm 79, 79 '; therefore, this mechanism is neither shown nor described.

      The position of the chambers 37, 42, 48, 55 and the mean radii of the arcuate slots 40, 45, 51, 58 of said chambers in which the fingers 63, 46, 52, 59 move are established taking into account the dimensions and unit values of coins dcs different values for which the totalizer is provided, and this in such a way that the angle which embraces each coin housed in the respective chamber is proportional to the value of the coin.

       Thus, in the case represented where the three chambers 37, 42, 48 correspond respectively to parts of one unit, two units and five units, having different diameters, the arc corresponding to a one-unit room in chamber 37 of sector 34 has an angle of 9, while the arc corresponding to a two-unit room in chamber 42 of sector 41 has an angle of 18 and the arc corresponding to one room to five units in the chamber 48 of the disc 47 has an angle of 45.



  The chamber 55 of the sector 54 which corresponds to coins with ten units is arranged so that each coin with ten units corresponds again to the value of 9 since this sector 54 operates in the order of tens and consequently in said sector an angle of 9 'corresponds to an angle of 90 in the lower order.



  The peripheral extent of the chambers 37, 42 and 48 is established in such a way that they can receive a predetermined number: of coins of the respective values; in the case under consideration, said chambers may contain respectively four one-unit rooms, three two-unit rooms and two five-unit rooms; in the order of tens, the chamber 55 can receive two pieces of ten units.



  In the rest position (shown in fig. 3 and fig. 4), the distance between the inlet mouth of the chambers 37, 42, 48 and 55 and the outlet end of the respective ducts 38, 43 , 49 and 57 for supplying the parts, is such that the parts introduced into said conduits, when the chambers are completely filled, fall into the collector 32 and pass through the conduit 214 into the bowl 91 for immediate return to the user, without giving rise to any operation in the device.



  The arc on which the chambers 37, 42, 48 are set in oscillation in the manner described below during the operation of the totalizer is such that at the end of said oscillation their mouths are in a position such that the parts may fall into the collector 32 (position marked by lines and dots in FIG. 3).



  With regard to the room 55 of the rooms with ten units, it is necessary, so that the parts which it contains can leave it, that the room 55 and the sector 54 which it. door accomplish, from the position of introduction, an oscillation having an amplitude remarkably greater than the angle (18) which corresponds to the numerical value of the two coins in their order (tens). For this purpose is provided the engagement with play between the sector 54 and the toothed -dis that 69, engagement which is established by the corresponding frontal teeth <B> 71 </B> and <B> 70 </B> between which, in the rest position of the sector 54 and the disc 69 (FIG. 4), there is a certain angular distance.

   Because of this distance, the mouth of the chamber 55 can pass, during the totalizing operation, from its insertion position (position marked in solid lines) to the op side posed with respect to the vertical (position in line and dot), with the aim of unloading the pieces of ten units, while the driving of the tooth 70 of the toothed disc 69 by the tooth 71 of the sector 54 takes place only in the. last part of the oscillation of this sector.



  The drive of the arms 62 and 60 which give rise to the operation of the totalizer device and are respectively integral with the shaft 92 and the sleeve 61 is carried out, in the necessary phase, by the main shaft using the cam 93 and the follower 93 '(fi * 17 and 18);

   these cams 93 and 93 'ï a, run on the lever 94, idle on the shaft 80, through the rollers 95 and 96. The lever 94 is connected to the two toothed sectors 97 and 98 acting respectively on the toothed sector 99 integral with the sleeve 61 and the arm 60, and on the pinion 100 integral with the shaft 92 and consequently with the arm 62.



  The toothed sectors 97 and 99 meshing with each other are toothed on an arc such that the oscillation of the lever 94 gives rise to the necessary oscillation of the arm 60 (from the position in solid lines to that in lines and dots at the fig. 4); thereafter, the smooth portions -97 'and 99' of the sectors 97 and 99 engage each other and, consequently, the sleeve 61 and the arm <B> 60 </B> remain motionless.



  The sector 98 which drives the wheel 100 and consequently the shaft 92 and the arm 62, has an extent such that it causes said arm to accomplish the angle corresponding to its passage from the position in solid lines to that in lines and points in fig. 3. Consequently, the movement of the arm 62 begins at the same time as that of the arm 60, mass it continues after this last one has been stopped by the engagement of the non-toothed arcs 97 'and 99'. In this last period takes place, as described below, the transfer operation from the group of units to that of tens.



  The invariable angle of which the arm 60 is moved each time the apparatus is operated by the mechanism 94, 97, 99, 61 (fig. 17 and 18) is determined in such a way that, by supposing the chamber 55 completely empty , the arm 60 carries its finger 59, moving in the slot 58, against the bottom 56 of the chamber 55 and that said arm drives, using the finger 59, the sector 54 until the tooth 71 of this sector is in contact with the tooth 70 of the disc 69, however without causing this disc.

   Consequently, when in an operation of the apparatus no coins have been introduced into the chamber 55, the disk 69 does not perform any angular displacement, that is to say the group of the totalizing device. corresponding to:

      tens, remains in the zero position, while when coins have been introduced into the chamber 55, the finger 59 acts on the bottom 56 of the chamber 55 through the coin or the interposed coins and the toothed disc 69 is moved from an angle proportional to the number of pieces introduced and more precisely 9 for each piece, at,

  because of the position and radius given to the chamber 55 as described above. This -displacement is therefore 18 in the case shown in da fig. 4, because in this case the room 55 contains two rooms.



  Similarly, the fixed angle at which the arm 62 is moved with each operation of the apparatus, is established so that, by supposing all the empty chambers 37, 42, 48, the finger 63 of the arm 62, while traversing the slot 40 acts on the bottom 39 of the chamber 37 and then drives the sector 34 juelqu'à <B> this </B> than finger 46:

  of this sector has passed through the slot 45 of the chamber 42 and in turn has driven the sector 41, so that the finger 52 of this latter sector, after having traversed the entire slot 51 of the chamber 48, comes to a stop vis-à-vis the bottom 50 of this chamber 48, however without driving the disc 47. In this way, when all the chambers 37, 42, 48 are empty, the oscillation of the arm 62 does not produce any displacement of the disc. that toothed 47 and this group of the totalizer device remains at zero.

   On the other hand, when parts have been introduced into the chambers 37, 42, 48, the fingers 63, 46, 52 move the corresponding sectors 34, 41 and the disc 47 through the parts which are located between said fingers and them. funds of the corresponding rooms. Consequently, the disc 47 will be moved by the effect of the oscillation of the arm 62 (this oscillation always having the same magnitude),

       an angle whose magnitude depends on the number of parts that have been introduced into the device at each particular maneuver; this angle corresponds to the total of an angle proportional to the pieces inserted between 63 and 39 plus an angle proportional to the pieces inserted between 46 and 44, plus an angle proportional to the pieces inserted between 52 and 50.

    As has been said, in the construction described the coefficient of proportionality is 9 for each one-unit room placed in room 37, 18 for each two-unit room placed in room 42, and 45 for each five unit room housed in room 48.

   In the case shown in FIG. 3, where the maximum number of pieces allowed by the construction of the apparatus has been introduced, in the different chambers, the disc 47 will accomplish an angular displacement @ 180;

      (4 X 9 -f- 3 X <B> 180 </B> + 2 X 45 ") In the return movement of arms 60 and 62 under the action of sectors 97, 98 and cams 93, 93 '(fig. 17) while organs 34, 41, 47, 54, 69 are kept immobile by the brakes 76 (fig 6), the arms 60 and 62 move back by themselves by a certain angle, because the angular distances between the finger 59 and the tooth 73 and between the finger 63 and the tooth 64 respectively are greater than the angular lengths of the chambers 55 or 37 respectively interposed,

   and also because of the end-of-travel position that the fingers 46, 52 occupy with respect to the teeth 65, 66. Consequently, the teeth 73, 64, 65, 66 come to engage with the ends 56, 39, 44 and 50 of the corresponding chambers 55, 37, 42 and 48 after each finger 59, 63, 46, 52 has moved away from the mouth of the respective chamber, in order to allow the exit of the parts which then fall. by gravity in the drive neck 32.



  The arm 60, by acting through its teeth 73 and 74 on the bottom 56 of the chamber 55 and on the tooth 70 of the disc 69, then recalls the sector 54 and the disc 60 in their rest position shown in solid lines at the bottom. fig. 4; similarly, the arm 62 acts successively by its teeth 64, 65, 66 on the bases 39, 44, 50 of the chambers 37, 42, 48 and recalls the assembly 34, 41, 47 in the position marked in solid lines in fig. 3.



  As a result of the described operation of the totalizing device, angular displacements of the disks 47 and 69 are obtained in proportion to the value of the coins which have been introduced into the respective groups of the totalizing device, the operation being independent of the order in which parts were introduced; these movements are then transmitted to the shaft 102 and to the sleeve 104 respectively.



  The disc 47 and the shaft 102 can accomplish an angular displacement which corresponds to more than nine units of the order of the units to which said members correspond; for this purpose, the apparatus comprises a transfer mechanism which transmits to the sleeve 104 <B> ap- </B> starting with the tens group, displacements which correspond to the units of tens represented by the displacements of the disc 47 and of the shaft 102 beyond the position which corresponds to nine units in the order of units.



  This tens carryover mechanism is shown in FIGS. 4, 5, 20, 21 and 22.



  The teeth 53 of the disc 47 which constitutes the totalizing member of the totalizing mechanism of the order of units, mesh with an idle pinion 101 on a shaft 102 which is parallel to the shaft 92 of said disc (FIG. 5). Similarly, the teeth 75 of the totalizer disc 69 of the order of tens mesh with the pinion 103 idle on the sleeve 104 which, in turn, is idle on the shaft 102. The shaft 102 and the sleeve 104 are used to transmit to the corresponding elements of the differential mechanism the movements which correspond to the amounts introduced into the device in the form of parts belonging to the two orders.



  On the shaft 102 is wedged a hub 105 carrying the two pinions 106, <B> 107 </B> whose pinion 106 is placed directly next to pinion 101, while pinion 107 is provided with spaced teeth to actuate a Maltese cross pinion 123, as described below. On the sleeve 104 is wedged the pi -non 108 which is housed between the pinions 103 and 107. A pinion 109 is still secured to the hub 105 and a pinion 110 is secured to the sleeve 104; these two pinions are used for the return to zero and for the exact alignment of the angular positions of the shaft 102 and of the sleeve 104 as described below.



  The transmission and transmission mechanism comprises (fig. 4, 20, 21 and 22) a idler gear 111, able to couple the two pinions 101 and 106, in order to establish the transmission of the pinion 101 and, by Consequently, from the disc 47 to the shaft 102 and to the pinion 107, as well as an idle pinion 112 intended to couple the pinions 108 and 103 for the transmission of the movements of the disc 69 to the sleeve 104.



  The two pinions 111, 112 are mounted idly on support arms 113, 114 able to oscillate on the shaft 115 and returned by springs 116, 117 having one of their ends connected to stationary points of the frame of the apparatus. Each of the arms <B> 113 </B> and 114 is controlled by a double cam <B> 118, </B> 118 'and 119, 119'; these cams are integral with the main shaft 3 and have the shape and the angular position described below.



  On a pivot 120 secured to one end of the arm 114 is mounted an oscillating support constituted by the sleeve 121 and by two arms 122; in .the free ends of these arms. is mounted crazy a reference comprising a pinion 12.3 Maltese cross and a pinion 124 integral with each other; the arm 122 adjacent to the arm 113 has a slot 125 in which a finger 126 integral with the arm 113 is engaged.



  The pinion 124 can mesh with the pinion 108, while the Maltese cross pinion 123 is intended to engage with the two teeth 107 'of the pinion 107 (fig. 20 and 21), so that one obtains two drives of the pinion 123 at each turn of the pinion 107;

    for this purpose, the-pinions 101, 106, 107, 108, 103 have a diameter such that ten units of the order of units correspond to a half turn of said pinions and that, in the example described, the totalizer of the units being suscep- tiblo of receiving 20 units, it must be able to carry out two carryovers of tens, that is to say one carryover each time 180 moves.



  The operation of this device takes place as described below, under the action of the cams 118, 11.8 '- and 119, 119' which control the arms <B> 113 </B> and 114 and under the combined action of the arms 113, 114 on the support 121, 122 carrying the group 123, 124, of the transfer reference.

        During the described operation of the totalizer device and its control (fig. 17 and 18) and the angular displacement of the toothed discs 47 and 69, first the pinions 101, 103 move together under the action of the respective elements of the device. totalizer, and then the pinion 103 stops with the disc 69, while the disc 47 and the components driven by it continue their <B> de- </B> placement.



  In the first period, the cams 118, 118 'and 119, 119', thanks to the shape of their profile and the cooperation of the springs 116 and 117 maintain the two arms 113 and 11.4 in a position in which they maintain their pinions 111 and 112 respectively engaged with; the. two pinions 101, <B> 106 </B> and with the two pinions 103, 108, so as to transmit to the shaft 102 and to the sleeve 104 the movements of the totalizing elements 47 and 69 of the totalizing mechanism.



  During this period (fig. 20), the two arms 113, 114 being lowered, the frame 121, 122 carrying the re port group 123, 194 (said frame being connected at 120 with the arm 114 and at 125, 126 with the arm 113) keeps the pinions 123, 124 out of engagement with the pinions 107, 108, so that the shaft 102 and the sleeve 104 can advance independently of each other to an extent which corresponds to the period of operation of the respective groups of the totalizer device.

   During this period, the disc 69 performs the displacement depending on the coins housed in the chamber 54 and the disc 47 performs a displacement which does not exceed, # the new value.



  When the disc 69 stops, having made two steps which correspond to two units in the order: tens, this disc 69 is released from the sleeve 104 and the disc 47 is connected with this sleeve 104, through of the reference 123, 124 in order to transfer to this sleeve 104 the subsequent displacement of the dis that 47 which corresponds to one or more units in the order of tens.



  For this purpose (fig. 21), at the moment considered, the cam 119, 119 'allows the oscillation in the negative direction of the arm 114 under the action of its res out 117, while the cam 118, 118' hand holds the arm 118 in its previous position. n thus maintains the transmission of the movement of the pinion 101 to the pinion 106 by means of the pinion 111 while the pinion 112 leaves the pinions 103, 108 and consequently releases the sleeve 104 from the disc 69 which remains stationary.



  By effect of this relative movement of the arms 113, 114, the end of the frame 121, 122 pivoted on the pivot 120 secured to the arm 114 is raised, while the intermediate part of said frame is connected by the finger 1 <B> 2 </B> 6 engaged in its slot 125, with the arm 113 which is stationary.

   Therefore, the frame 121, 122 oscillates around the pivot 120, so that the idler group 123, 124 lowers and engages with the corresponding sprockets 107, 108 after which the sprocket <B> 108 </B> and the sleeve 104 are driven by one step each time a tooth 1.07 'of the pinion 107 drives the pinion 1 <B> 2 </B> 3 at Maltese Cross. The pinion <B> 107 </B> has, as described above, two teeth 107 'separated by an interval corresponding to ten steps of the disc 47, so as to produce a carry over each time the disc 47 has been moved ten units.



  At the end of the displacement of the disc 47 and the pinion <B> 107, </B> the cam 118, 118 'allows oscillation of the arm <B> 113 </B> in the negative direction under the action of the spring 116. Consequently, the pinion 111 is disengaged from the pinions 101, 106 in order to disengage the shaft 102 from: disc 47, tan say that its finger 126 said arm 113 lifts the frame 121, 122 and consequently carries the group 123, 124 out of engagement with respect to the gears 107, 108.



  The operation described for the more complicated case of the total filling of all the chambers of the totalizer takes place in a similar way. In the simpler case of the introduction of a smaller number of coins.

   In the latter case, the above-mentioned couplings are established as described, only the angular displacement of the pinions 103, 108, 107 will not take place when coins have not been introduced into the section. of the totalizer mechanism which corresponds to the order of tens, and when the number of coins introduced into the section of the totalizer corresponding to the units is not such as to give rise to a transfer to the order of tens.



  In the rest positions, the pinions 111, 123, 124 and 112 are released from the pinions 101, 106, 107, 108 and 103, 108, while during operation it is first of all the coupling between the pinions 101 and 106 and between the pinions 103 and 108 which is established, then takes place the release of the pinion 108 relative to the pinion 103 - and at the same time is established the coupling between the pinions 107 and 108. Finally takes place the release of the pinion 101 relative to the pinion 106 and of the pinion 1 (ï7 relative to the pinion 108, so that all the coupling members are returned to their rest position, all the pinions 111, 123, 124 and 112 then being taken out.



  Using the mechanism described, the shaft 102 and the sleeve 104 are obtained to accomplish angular movements, each of which is proportional to the value shown in. the corresponding order of the amount of parts introduced into the device.



  The return to their zero position of the sleeve 104 and! Of the shaft 102 as well as the organs of the differential mechanism and the remainder of the distributor described below is carried out at the end of the cycle of the shaft 3 at the end of the cycle. using a toothed sector 131 (fig. 7 and 8) pivoted on the shaft 80 and controlled by the cams 135, 136 of the main shaft 3 through the. pebbles <B> 1.33, </B> 134.



  The sector 131 controls the pinion 137 driving the shaft 115, while each pinion 109, 110 meshes with a return pinion 139 loose on the shaft 115. Each of the pins 139 is connected with the shaft in one direction. rotation only by means of a pawl 140 pivoted at 141 on the pinion 139 and loaded by a spring 142 which bears against the pin 143 fixed on the respective pinion 139, this spring keeping said pawl in engagement with one of the notches 138 of the shaft 115.



  The purpose of coupling the pinions 139 with the shaft 115 with the pawls 140 is to allow the movements that the pinions 109 and 110 connected to the shaft 102 and to the sleeve 104, must perform during the operation of the totalizer mechanism.



   A cam 130 integral with the shaft 3 controls an arm 128 wedged on the shaft 218 having two nozzles 127 which can engage with the teeth of the pinions 109 and 110, respectively, under the action of the spring 129 connected to the arm. 128 and at a stationary point of the frame of the apparatus; as shown in the drawing, the cam 130 has a shape such that it allows the nozzles 127 .de to engage with the pinions 109, 110 as soon as the return has been carried out, in order to mobilize said pinions on the shaft 102 and the sleeve 104, in their zero position, so that when the shaft 3 begins its rotation, the jaws 127 are released from the pinions 109, 110.



  The mechanism for subtraction or calculation and distribution of remainder corresponds to that described in patent no. 189263; in the present description it is recalled with regard to its cooperation with the other mechanisms in the apparatus which is the subject of the present invention.



  Said mechanism comprises (fig. 1, 5 and 31), for each numerical order (that is to say tens, units, tenths and hundredths of a unit), a cam whose crown has a profile such as q7-7 .e, described below and in said patent, capable of actuating, for each angular position that said cam can take, the levers 23, 23 'and the leftover parts distributors necessary to give the corresponding remainder the difference between the amount entered in the machine and the amount corresponding to the collection to be made,

   the latter amount being formed in the device by the keys 1 and by the mechanism described in patent 169512.



  In the case considered, the cam 19 corresponds to hundredths; because in practice the values used in this order are limited to five hundredths and zero hundredths, the cam 19 can take: two positions only, in one of which it actuates a coin dispenser 0.05, while in the other position. it does not train this distributor.

   This cam 19 is mounted loose on the shaft 102 and is connected directly to the pinion 145 by means of which said cam is carried in the desired position by means of the slide 2 and of the combiner and selector mechanism controlled by the keys for inserting the upright into the machine.



  The cam 18 corresponding to the tenths of units can take ten positions in order to be able to present all the values between 0 and 9 tenths. This cam 18 is mounted loose on the shaft 102 -and is connected to its control pinion 146 driven by one of the slides 22 <B>;

   </B> the cam 18 is connected to the pinion 146 with the possibility of angular displacement, the connection being established by means of a pin 147 (fig. 23, 24, 25) fixed to the pinion 146 and the notch in sector 148 of the cam as well as of the intermediate spring 149. in order to allow the angular displacement of the cam 18:

  by a step relative to the pinion 146 necessary to take account of the position: of the cam 19 belonging to the lower order (figure zero or 5 in the case of the cam 19 envisaged).



  The cam 18 has such a shape (as described in patent no 189263) that in the ten different positions in which it can be brought it drives the corresponding remainder distributors, so as to give the difference between the unit higher (i.e. ten units of the order to which it belongs) and the digit of the amount formed in the device in its order.

   When in the lower order a remainder must be given, the cam 18 advances by one step (independently of its mechanism for the introduction of the upright into the machine) under the action of a transfer mechanism, of which the operation is controlled by the cam 19 belonging to the lower order; the purpose of this advance is to deduce from the remainder figure corresponding to the order of the cam 18, a unit which is distributed between the collection and the remainder in the lower order.



  The cam 17: corresponding to the units is mounted: on the hub 150 fixed using the key 219 on the shaft 102 which receives from the totalizer mechanism describes an angular displacement depending on the number of units formed by the parts introduced into the device; the cam 17 is connected to the hub 150 using a device 147, 148 and 149 of the type described. This hub 150 is provided with a pinion 151 housed next to an identical pinion 152 idle on the shaft 102 and driven by one of the slides 2 of the mechanism for forming the upright in the machine.

   The pinions 151 and 152 are coupled, during the operation of the differential mechanism, by means of a pinion 153 and a device (fig. 26) comprising the arm 154 mounted idle on the shaft 115; the coupling pinion 153 is mounted idle on the arm 154. The arm 154 can bring the pinion 153 into engagement with the two adjacent pinions 151 and 152 or disengage it from them, under the action of the arm 156 integral with the arm 154 and the double cam 157 integral with the shaft 3.



  Between the tenths cam 18 and the units cam 17 is inserted a re port mechanism similar to that existing between the cams 19 and 18; : this mechanism moves the cam 17 of the units by one step, in the direction of reducing the remainder, when the cam 18 of the lower order is not in its zero position.



  The cam 16 of tens of units. Is my crazy tee on the hub 158 and y and connected using a device 147, 148, 149 of the type described. The hub 158 and integral with the sleeve 104, with the aid of the key 159, which sleeve, as described, receives, on the one hand, its command directly from the section of the tota lizer device which corresponds to the parts belonging to the tens order and, on the other hand, the transfer of the unit tree 102 of the totalizing mechanism through the tens transfer mechanism 111-126: already described (fig. 4, 90, 91, 22).



  Next to a pinion 160 integral with the hub 158 is housed an identical pinion 161 loose on the shaft 10'2 and driven by one: slides 2 of the mechanism for forming the upright in the machine; with these two pinions cooperates a coupling pinion mounted and controlled in the manner described in relation to pinion 153 and to. fig. 26.



  The two cams 17 and 16 are actuated respectively by the shaft 102 and by the sleeve 104, so as to take: positions in which they give a remainder equal to the amount of the coins introduced into the device, when the amount formed for collection is zero, that is to say when the machine is operated without having operated any of the keys 1 and after entering a certain amount. On the other hand, under regular operating conditions, as described below, the cams are moved away from the aforesaid position by an extent which corresponds to the collection to be effected by the apparatus.



  Cam 17 units can. have twenty positions (from 0 to 19), while the tens cam 136 can have five positions (from 0 to 4). In the cam 17, the profiles corresponding to the positions from 1 to 10 are equal to those of the positions between 11 and 0, and this because the pinions 145, 146, 151, 152, 160, 161 have a diameter such that 'to ten units of their order corresponds a half-turn of said pinions. The cam 17 drives a transfer mechanism which, when said cam de passes its zero position in the direction of increased collections, produces the displacement of the cam 16 of the higher order for one step in the direction of the increase in collections for the described purpose.



  The transfer mechanism inserted between the different cams is: described below with reference to fig. 5, 23, 24 and 25 as regards the mechanism housed between the cams 17 and 16, the mechanisms placed between the cams 19 and 18, and 18 and 17 being constructed and functioning in a similar manner. This mechanism comprises a pawl 162 pivoted at 163 on the arm 164 which is idle on the shaft 89 and is actuated using the connecting rod 166 by the lever 167 idle on the shaft 115 and controlled by the cam. 169 with three crowns 169 ', 169 ", 169"'.

   The pawl 162 is intended to act on the ratchet wheel 170 integral with the cam 16 and it cooperates with a lever 171 pivoted at 172 on the arm 164 and which can cooperate, on the one hand, with the double tooth 173, 173 ' of the pawl 162 and, on the other hand, with the bump 174 'of the disc 174 which is integral with the lower order cam (17). -A res comes out 175 pressing the lever 171 acts on the pawl 162 in the direction of deglazing its beak towards the axis of the ratchet wheel 170 and to cause the lever 171 to oscillate on its pivot 172 in the positive direction by reaction.



  At the start of the operating cycle, the transfer mechanism is in the position of FIG. 23, that is to say the two jaws 167 'of the lever 167 are engaged with portions of the: middle crown 169 "of its cam 169. The pawl 162 is hooked by its teeth 173 and 173' with the lever 171 which maintains said pawl in its inactivity -position against the action of the spring 175, while the lever 171 is in turn maintained in position such that it is out of engagement with respect to the bump 174 ': of the disc 174 , of the cam (17): of the lower order.



  In the first part of the cycle corresponding to the operation of the to talisator device and to the angular movement of the cams 16: and 17 which results therefrom, the cam 169 maintains the arm 164 in the position of FIG. 23, so that the hand lever 171 holds the pawl 162 hooked and that said lever is out of engagement with respect to the bump 174 'of the disc 174.

   After the cams 16, 17, 18 have taken the position resulting from the operation of the totalizer device and before: the differential mechanism comes into operation, the calm 169, through its crowns 169 'and 169 "', carries the arm 164 and the lever 171 in the position of figure 24, so that the lever 171 can be moved by the boss 174 'of the said 174.

   When: the cam 17 performs an angular movement which makes it necessary to operate the transfer mechanism, the bump 174 'moves the lever 171 which, consequently, is released from the pawl 162 and allows the latter to take the position of FIG. 25, i.e. this pawl comes in a position such that it can engage with the ratchet wheel 170 of the cam 16.



  In the next portion of the cycle and immediately before the operation of the balance dispenser, the cam 169 causes the oscillation of the arm 164 in the negative direction and then the pawl 162 acts on the ratchet wheel 170 and gives rise to the desired advancement of the .came 16 integral with the latter, the spring 149 being compressed and the ratchet <B> 170 </B> and the cam 16 being maintained -in a position advanced by one step throughout the time during which the arm 164 is kept moved by the cam 169.

   During this movement, the pawl 162, following the tooth of the ratchet wheel 170 with which it is engaged, bones so as to raise the double tooth 173, 173 'after which from the upper end of the lever 171, under the action of the spring 175 again takes its position of FIG: 23 by hooking the pawl 162 which is thus able to operate in the following cycle.



  The mechanisms placed between the cams 19, 18 and 18, 17 are similar to that described above, except for the fact that the position of the cams 19 and 18 does not depend on the totalizer and differential mechanisms, but only on the mechanism for the formation of the amount commanded by keys 1.



  The transfer operation takes place successively between the order of hundredths and that of tenths, between the order of tenths and that of units and between the order of units and that of tens, by effect of the respective angular position cams 169, since each element must be brought to its final position by the lower order transfer mechanism before the higher order transfer begins, so that before the levers 23, 23 operate 'cams 16, 17 and 18 are in their correct position. for the issuance of the exact remainder.



  In the last part of the operating cycle, -each lever 167 is again driven by the middle crown 169 'of the cam 169 and the pawl 162 again assumes its position shown at fib. 23, so that each ratchet wheel 170 and its cam such as 16, etc. return to their initial position under the action of spring 149.



  When lever 171 is not moved by hump 174 'of lower order cam disc 174, it holds pawl 16'. in a position such that it cannot engage with the ratchet wheel 170 and that, consequently, this cam cannot advance.



  The fi-. 31 schematically shows the remainder distribution cams and the pinions for the formation of the upright in the apparatus which, taken together, form the differential mechanism for the calculation of the remainder. In this figure, we assume the cams <B> de- </B> wrapped in a plan; in these cams, the hatched areas indicate their protruding portions which give rise to the operation of the remaining parts distributors by taking place opposite the levers 23, 23 'which drive said distributors.



  The unit cam 17 is intended to drag a five-unit leftover coin dispenser, a two-unit coin dispenser and two one-unit coin dispensers therefrom. As indicated schematically, the pinion 151, to which the cam 17 is connected by means of the device 147, 148, 149, is actuated by the unit shaft of the totalizing mechanism which carries it in the position corresponding to the number that the amount entered in the device comprises in the order of the units.



       Since the totalizer is constructed so that in the order of the units it can contain coins up to the amount of "twenty", the profile of the cam is repeated twice around its perimeter. The first profile corresponds to the introduction of coins for an amount from 0 to 9, while the .se cond profile corresponds to the introduction of coins for an amount from 10 to 19 (position 20 coinciding with position 0) . Therefore, in the totalizing device can take place one or two transfers on the order of tens (through the mechanism 107, 123, 124, 108), while on the cam 17 of the order (the units repeat the go from 0 to 0.

   The pinion 152 housed next to the. pinion 151 of cam 17 is capable of performing movements corresponding to the digits 0-9 in the order of units; it is actuated according to the amount formed in the apparatus in this order using the members for the formation of the upright in the apparatus indicated schematically at 176.



  The bump 174 'of the disc 174 of the cam 17 of the units which drives the transfer device 162-175 acting on the cam 16, is arranged so that, when in the operation of the differential mechanism the portion 0 of the cam 17 exceeds the 0-0 line in the direction of the increase:

  collections, that is to say when the figure that the amount to be collected includes in the order of units exceeds the figure that the amount of coins introduced includes in the same order, the device l-62-175 produces the advancement of cam 16 by tens of one step in the direction of cashing, so as to deduct one unit from the remainder, in tens order, this unit covering cashing and the rest in order or in lower orders.



  The cam 16 (the tens actuates a distributor capable of dispensing two coins to ten units at each of its operations :, as well as two distributors each capable of separately giving a coin to ten units. Said cam is controlled by the sleeve 104 which is driven by the disc 69 and, through the transfer mechanism 123, 124, by the member of the units 102 of the totalizer device, in the event that the disc 47 has driven said shaft in an angular displacement corresponding to more than nine units.



  The pinion 161, housed next to the pinion 160 connected to the cam 16 using the device 147, 1-1-8, 149 is driven by the members for the introduction of the upright into the machine corresponding to the order of tens; these or- @@ a-nes are shown schematically in <B> 177. </B> In the case of: considered a device organized for a maximum stake value equal to. 40 units, these organs are only foreseen for the values 1, 2, 3, 4.

      The movement of the cams 19 and 18 depends only on the formation of the upright in the apparatus and the pinions 145 and 146 respectively integral with said cams are entered by the members for the formation of the upright in the apparatus, indicated schematically by 178, 179 and carry said cams in the remainder positions corresponding to the posts formed in the apparatus.



  For example, when in the order of tenths of units one must carry out a casing of 10, 20 ... 90 hundredths, and that one has carried out the formation of the upright in the apparatus, the portion of the cam 18, which is marked 0.1 ... 0.9 in fi-. 13, is brought, during operation of the device, facing the line 0-0, that is to say facing the nozzles 23 'of the levers 23 intended to actuate the remainder distributors.

   Said portions of the: cam each have the shape necessary to cause, by cooperating with the jaws 23 'of the levers 23, the emission of the appropriate remainder, that is to say respectively 90 ... 10 hundredths.



  As shown schematically, the cam 18 can selectively actuate a 0.50 coin dispenser, a 0.50 coin dispenser. 0.20 and two coin distributors at 0.10, so as to form all possible combinations between 0.1 and 0.9.



  The bump 174 'of: disc 174 integral with the cam 18 is arranged so that when the cam 18 moves away from its zero position, the: device 162-175 enters! in function to advance the cam 17 in the order of units of one. not: in the direction of collection, so as to deduct from the remainder in the order of the units the value: of one unit which covers the collection and the remainder in lower orders.



  The: cam 19 of the order of hundredths, which is controlled only by the members 178 for the formation of the upright in the device (this command being transmitted to it by the pinion 145), can take: two positions only: position of zero (collection zero and remains zero in the order of hundredths), at this position corresponding to the inactivity of device 162-175 housed between cam 19 and cam 18, and position 0.05 (collection 0.05) in which the cam is in a condition to actuate a coin dispenser at 0.05 for the delivery of a remainder 0.05,

   while in its displacement the bump 174 'of said cam 174. of said cam drives the transfer device 162-175 in order to move the cam 18 by one step and to deduce from the rest one unit in the order of tenths.



  As mentioned above, the different transfer devices are actuated one after the other from that of the lowest order; this is obtained as a result of the relative angular position of the various cams 169 corresponding to the cams 19, 18, 17.



  The operation of the differential mechanism takes place after the operation of the parts totalizer device and after, by the operation of keys 1 and by effect of mechanisms 176, 177, 178, <B> 179, </B> for the formation of the amount in the device, the amount to be collected was formed.



  After the formation of the amount to be collected and the introduction of the coins. when the user activates the crank 213. the totalizer brings the: cams 16, 17 into their position in which they would give rise to the distribution of a remainder corresponding to the zero cashing.

   In operation of the apparatus, the pinions 152, 161 are coupled with those 151, 160 of the respective cams 17 and 16, and after that they rotate by an angle corresponding to the post which has been formed in the apparatus and move the cams 17, 16 back by bringing them into their position corresponding to the distribution of a remainder equal to the difference between the amount introduced and the amount to be collected.



  For example, assuming that in the apparatus coins in the amount of 38 units have been introduced, the cam 16 of the tens will have its portion marked 30 (three tens) in fig. 31 opposite line 0-0 of FIG. 31 (that is to say on the line where the levers 23, 23 'of the remainder distributors which cooperate with the cams 19-16 are arranged); on the other hand, the cam 17 of the units will have its portion 8 (units) facing said line 0-0.

      If the device is put into operation without an amount for a collection having been formed in the device, the release of an amount equal to that entered will be obtained.



  Let us suppose that by the operation of the keys 1 and the organs 177, 176, 179, 178, an amount has been formed in the device for the collection of the amount 16.75 (this amount being chosen by way of example in order to describe in a complete way the functioning of the machine, although in current use the user will introduce into the device an amount corresponding to or slightly greater than the input). During the operation of the machine, the pinions 160 and 151 of the cams 16 and 17, after said cams have been brought into their position corresponding to the introduction of the parts, are coupled by the respective pinions 153 (fig. 26).

   with the pins 161 and 152 and are moved with the latter at an angle corresponding to the amount to be collected; consequently, said cams move back by the magnitude necessary to deduce from the value which they are able to emit as a remainder, the value of the entry which must be carried out by the apparatus.

      Cam 16 will then have its portion 20 on line 0-0 instead of portion 30, and analogously cam 17 will have its portion 2 on line 0-0 instead of portion 8; in this movement, the bump 174 '. of the disc 174 of the .came 17 does not pass opposite the lever 171 of the transfer device (fig. 23-25) and therefore said transfer is not put into working order. .



  The cam 18, which at the start of the operation of the remainder distributor is always in the position shown, that is to say with its portion 0 on the line 0-0, is brought by the effect of the formation of the upright. in the device in its position where its portion 0.7 is on the 0-0 line (collection 0.7; remainder 0.3). Consequently this cam carries in operating condition the positive transfer device 162-175 actuated by its disc 174 and the subsequent operation of this transfer device brings the cam 17 into its position 1 for the reasons and for the purpose mentioned.



  Similarly, the cam 19 passes into its position in which its portion 0.05 is opposite the line 0-0; it is thus born in conditions of giving the remainder 0.05 and by its device 162-175 takes the operating position, in order to produce the advance ment of the cam 18 for one step and to bring this cam into its position of remainder 0.2.



  The transfer takes place in the order of succession previously indicated, that is to say from each order to the highest order during operation of the apparatus; therefore, rivant the operation of the levers 23, from tines to. drive the remainder distributors, the portions of the cams 19-l6 which are in position to cooperate with the jaws 23 'of said levers 23, are those which cause the emission of coins forming the values 2, 1, 2 , 5 in the respective orders, that is to say the emission of the remainder 21, 25 which is the difference between 38 and 16.75.



  Assuming an encashment 16.00, the cams 18 and 19 will not be moved away from the zero position and therefore the transfer mechanisms 162-175 from cam 19 to cam 18 and from cam 18 to cam 17 will not be in working order; the cam 17 keeps its position 2 and we will have the exact remainder 22 (38-16).



  If the amount to be collected is 16.05, the cam 19 produces the advancement of the cam 18 for one step and this cam advances the cam 17, so as to deliver the remainder 21.95.



  If, still assuming that coins in the amount of 38 units have been introduced into the apparatus, the encashment to be made is 19.75, during the operation of the differential mechanism the bump 174 ' of the disc 174 integral with the cam 17 puts the device 162-175 in working order for the transfer on the cam 16 et alois the remainder will be 18.25, that is to say the operation of the cams would be equal to that already described (apart from the fact that the cam 17 takes a different position depending on the number for which this cam is moved in the case considered),

   but the cam 16 will have advanced one step in the direction of the collections, in order to deduce from the remainder in the order of tens the unit which is absorbed by the collection and the rest in the lower orders .



  The described operation of cams 19-16 is used to actuate a mechanism described below (fig. 27, 28) which prevents coin collection, ticket issuance and operation of the remainder dispensers when the amount that the user has formed in the device for collection is greater than the amount formed by the coins introduced into the device.



  For this purpose, the tens cam 16 is integral with a locking cam 180 capable of allowing or preventing the operation of the remainder distributor as well as a mechanism which temporarily brings the collector 32 into its position of. collection, that is to say with its outlet 32 'facing the conduit 90 (said collector 32 opening normally in the conduit 214 for .le return of the amount introduced);

   the said mechanism also maintains the guide 33 for issuing the ticket in its delivery position (facing the duct 216), while it carries this guide facing the duct 215 ending in the internal tank of the machine when the operation of the machine is irregular and the ticket distribution must not take place.



  The position of the cam 180 depends on the final position of the cam 16 and, consequently, on the position in which the cams 19, 18, 17 and 16 have been brought due to the operation of the totalizing mechanism, of the device for the formation of mon both in the apparatus and in the reporting devices 16 <B> 2 </B> -175 interposed between the different cams.



  In the rest position of the cams 19, 18, 17, 16 (shown in fig. 31), the cam 180 maintains the aforementioned mechanism in its operating conditions described below and these operating conditions remain for all the positions that the cam 180 takes for the introduction of parts forming amounts between 0 and 40.

   On the other hand, when the cam 16 is moved by the differential device or by the transfer devices 1.62-175, so that its portion corresponding to the remainder zero exceeds the line 0-0 (fig. 31) on the side of the higher collections , the cam 180 takes a position in which the coin collection mechanism does not come into action and the ticket is not issued.



  Assuming, for example, that in the apparatus we have introduced a one-unit piece and that the upright 1.10, the cam 18, is formed in the apparatus by its transfer mechanism 162-175, moves the cam 17 back by one step (this cam having taken the rest position 1. by effect of the operation of the totalizing device and having moved back by one step under the action of the differential mechanism);

   consequently, the cam 17, by its transfer device 162-175, moves the cam 16 which is in the zero position as well as the cam 180 integral with the cam 16, so as to put the control of the remainder distributor and of the ticket receipt and issuing device inoperative.



  The same operation takes place either directly by the effect of the differential device, or through the successive transfer devices 162-175, each time that one forms in the apparatus for the collection a money which is both greater than the amount of coins introduced into the device or when no coin has been introduced.



  The mechanism controlled by the locking cam <B> 180, </B> shown in fig. 27 and 28, includes the guide 33 for issuing the ticket; this guide is pivoted in 189 in the stationary wall 190 and is controlled by the lever 191 which, in turn, is controlled using the lever 192, 192 'pivoted in 193, by the connecting rod 194, the levers 195 and 195 'attached to the tree <B> 196 </B> and the connecting rod 197 and by a lancing bay 198 pivoted in 199 and whose claws 198 'embrace the cam 180; consequently, the positions of the rocker 198 and of the guide 33 depend on the angular position of the cam 180.



  With the balance 198 is still articulated the connecting rod 200 driving the arm 201 pivoted in 201 "on the arm 22 integral with the shaft 89;, on the latter is fixed an arm 203 which actuates the collector 32 of the parts, to the using the connecting rod 204 and the arm 205 integral with said manifold 32.



  The shaft 89 also drives the frame 21, 22 which operates the levers 23, 23 'cooperating with the cams 16, 17, 18, 19 for actuating the remainder distributors.



  The drive for driving the drive neck 32 and the frame 21, 22 is produced by the shaft 3 of the cams, the cam 27 and the follower 27 'of which cause the arm 88 to oscillate idle on the shaft 89; the arm 201 carries a finger 22 02 which, depending on the position imparted by the balance 198 to the arm 201, occupies the tangential portion of a slot 206 of the arm 88 (while the hook 201 'of the arm 201 engages itself on a 207 finger frozen to the frame of the device)

   or else a radial portion of said slot 206.



  Depending on the position of the cam 180 and, consequently, depending on the position of the rocker 198 and of the finger 202, the oscillation of the arm 88 produced by the cams 27, 27 ', is transmitted or not to the frame 22, 21 and to the connecting rod 204 as well as to the manifold 32, parts.



  The position of the guide 33 also depends on the position of the cam 180 and of the balance 198.



  The arms 22 carry, as described, - the axis 21 of the levers 23 driving the remainder distributors and, consequently, when the cam 180 renders the device inoperative, the operation of the levers 23 is also suppressed.



  In the rest position of the device, the collector 32 has its lower orifice 32 'facing the duct 214 which opens into the bowl 91 accessible to the user, while the opening of the guide 33 of the ticket is in re guard of duct 216 opening into the same bowl.

   When the apparatus is operated in a correct manner and the cam 180 occupies its normal operating position, the guide 33 is held opposite the conduit 216 and the mechanism 22, 89 203, 204, 205 at the instant when the cams 27, 27 'drive the arm 88, temporarily brings the collector 32 into the discharge position, that is to say opposite the conduit 90 as soon as the totalization operation is completed and when the coins fall from the chambers 55, 37, 42, 48: said mechanism then returns the collector 32 to its position in which its orifice 32 'opens in the duct 214 and in the bowl 91.



  On the other hand, if the maneuver has not been correct (formation of an amount to be collected greater than the amount introduced in coins into the device), the cam 180 carries the guide 33 in its position in which it sends the ticket. in the conduit 215 and in the receiver see collection, while it cuts the connection between the arm 88 and the mechanism 22, 89, 203, 204, 205 which drives the collector 32, so that the latter remains immo bile with its orifice 32 'facing the duct 214 opening into the bowl 91. Consequently, the return of the parts introduced into the device will be obtained.



  The use and operation of the apparatus as a whole are explained in. description above and they are summarized below.



  The user introduces into the to talisateur mechanism, through the slots 220 (fig. 30) and the conduits 38, 43, 49, 57 an appropriate number of parts; these parts must have values for which the device is intended; they can be introduced in any desired succession. If a number of parts exceeding the capacity of the device is introduced, the excess parts are discharged directly into the bowl 91 and are thus returned to the user without exerting any action in the device.

   The selection of the introduced parts, with the aim of eliminating false or deformed parts, is carried out with the aid of known devices indicated diagrammatically at 221 which send the scrap parts into the funnel 222 opening into the funnel 223 which in turn opens into bowl 91.



  After that, the user operates the key corresponding to the desired ticket and operates the crank 213; in the event that the device is operated by an electric motor, the circuit of which is closed by the key at the end of its travel to form the upright in the device, the device comes into operation after the key is operated desired without requiring further operations on the part of the user.



  In a first part of the operation the totalizer mechanism comes into operation which brings the cams 16 and 17 into their position corresponding to the upright introduced into the device. After that takes place the operation of the differential mechanism by effect of which .les cams 16-19 take their position corresponding to the remainder between the amount introduced into the device and the amount which has been formed by the key. Then, the mechanisms for collecting, distributing the remainder and issuing the ticket operate as described.



  If the user has operated the device correctly, he obtains the desired ticket and the rest; if not, the device returns the entered amount, while the canceled receipt is sent to the collection store.



  In fig. 32-35 is shown another embodiment of the totalizer mechanism of the type described above. This new form is provided for the case where it is necessary or useful that one of the chambers of a determined order is mounted independently of other chambers. Of the same order. These conditions exist, for example, in the case where the apparatus must be provided for a sufficiently high maximum amount in a monetary system which does not include metal parts above five units.



  Under these conditions, the totalizing mechanism is divided into several sections, for example two sections, of which the tatalising members all drive: a same shaft 335 actuating the cam of the units (such as 17) of the differential mechanism, while by the 'through a di zaine transfer mechanism said shaft actuates the tensile cam (such as 16) of the differential mechanism.



  In the case shown, the first section of the totalizing mechanism (fig. 32) comprises the sector 34 with the arched chamber 37 being able to receive four pieces at one unit of the duct 38 and the sector 41 with the chamber 42 being able to receive. three rooms to two units.

   The control is carried out using the arm 62 integral with the shaft 92 and provided with the finger 63 corresponding to the slot 40 of the chamber 37, as well as with the aid of the finger 46 of the sector 41 which cooperates with the slot 45 of the chamber 42; the sector 41 drives the toothed disc 347 with the aid of its tooth 336 which engages, after a certain dead travel, with the tooth 337 of the disc 347 by reasons similar to those exposed for the similar elements of the section of the totalizer mechanism shown in fig. 4.

   The return is effected by the teeth 64, 65, 66 of the arm 62. 76 indicates a braking device of the type described with respect to FIG. 6, while 79 is the aligner beak mounted on the shaft 80 and cooperating with the notches 347 'of the disc 347, this beak being controlled by a mechanism similar to the mechanism <B> 81, 86, 87, </B> 84, 85, 84 ', 3 already described.



  The second section of the totalizer mechanism (fig. 33) is arranged so as to receive from the duct 57 four pieces of five units in its arched chamber 55 provided with the slot 58 with which the finger 59 of the arm 60 cooperates. 54 carrying the chamber 55 drives by its tooth 338 and with a certain dead travel the disc 369 provided with the corresponding tooth 339, while the teeth 73 and 74 of the arm 60 serve for the return. The braking devices 76 and aligner 79 are similar to those already described.



       The actuation of the arm 62 integral with the shaft 92 and the pinion 100, as well as the arm 60 integral with the sleeve 61 (loose on the shaft 92) and the sector 99, is effected by the toothed sec- tors 98 and 97 meshing respectively with the pinion 100 and the sector <B> 99-, </B> The sectors 98 and 97 first cause the pinion 100 and the sector 99 in rotation, and then the sector 99, being free from the teeth of the sector 97, stops, while the pinion 100 continues to rotate.



  Parallel to the shaft 92 -is housed the shaft 335 on which is wedged a pinion 340 housed between two pinions 341 and 342 identical to the first and idle respectively on the hub of the pinion 340 and on the shaft 335. The pinion 341 meshes with the teeth of disc 347, while pinion 342 is. integral with the pinion 343 which meshes with the teeth 375 of the disc 369.



  To the two pinions 340, 341 corresponds a coupling pinion 344 carried by an arm 345 mounted and driven in the manner described in relation to FIG. 26 for arm 154; to the two pinions 340 and 342 corresponds a pin coupling 348 mounted on the arm 346.

   The: cams (not shown) which drag the arms 345, 346 of the pinions 344, 348 are profiled and oriented so that at the start of the operation of the arms 62 and 60, during the dead travel existing between the teeth 336 and 337 sector 41 and disk 347 and between the fingers 63 and 46 and the coins with which these fingers coo pate, the pinion 344 is kept clear of the pinions 340, 341, while the pinion 348 couples the pinions 340, 342 .

   When the arc of the sector 97 has completed the drive of the sector 99 of the sleeve 61 of the arm 60, the pinion 348 leaves the pinions 340, 342, while the pinion 344 engages the pinions 340, 341.



  In this way, during the operation of the totalizer device, the shaft 335 first receives a displacement proportional to the value and the number of coins introduced into the chamber 55 of the sector 54, and then a displacement proportional to the value and the quantity. number of parts introduced into the chambers 37 and 42 of the sectors 34, 41. These two displacements are added one to the other so that the anb alar displacement of the shaft 335 is proportional to the total amount introduced into the device.

    



  The presence of the pinion 343 which receives the command from the disc 369 and transmits it to the plgnoll 343 makes it possible to establish between the disc 369 and the shaft 335 a desired transmission ratio.



  In this way, we can give the chamber 55 of the sector 54 an average radius such that said chamber can contain the desired number of parts and despite this, we can obtain that the angular displacements of the shaft 335 are proportional to the values of different coins.



  The totalizer shaft 335 which receives a displacement proportional to the amount introduced drives a cam similar to the cam 17 in FIG. 5, and which corresponds to the order of the units, while it defers its movements, exceeding the value of nine units, on the sleeve 349 driving a cam which corresponds to the order of tens and is analogous to the cam 16 of fig. 5.



  For this purpose, a pinion 350 is wedged on the shaft 335 which drives every ten steps (l 80 in the case shown) the pinion adja hundred 351 integral with the sleeve 349; this driving is effected by means of the return formed by the Maltese cross pinion 352 and by the pinion 353 connected together. Referral 35 <B> 2 </B>, 353 is mounted on an arm 354 pivoted on the shaft 11.5 and controlled by the cam 119; this cam engages the return 352, 353 with the pinions 350, 351 at the start of the operation of the totalizer and moves said return from these pinions at the end of the said operation, in order to allow the differential mechanism to perform its operation.



  The pinions 109 integral with the pinions 350, 351 mesh with the return wheels 139 in the manner described in relation to FIGS. 7 and 8.



  The embodiment shown in FIGS. 36-41 is similar to that described with reference to Figs. 1-30, but it is suitable for the direct distribution of objects against the introduction of the exact amount of their price; consequently, it does not include any remainder distributors; on the other hand, it is arranged so as not to effect the distribution of the object and to return the amount entered when this amount is different (greater or less) compared to the price of the object.



  This embodiment includes a mechanism for the formation of the upright in the device operated by keys, this mechanism allowing the user to put the device in the operating conditions necessary for the distribution of the device. desired object, but not comprising elements for the formation of an amount of an order lower than that of the minimum value coin for which the device is arranged, as well as a totalizing mechanism as described in relation in fig. 3., 4, 5 and 10-18, and a differential mechanism which compares the amount introduced into the device with the price of the object corresponding to the key which was entered.

   On the other hand, the cams 16, 17, 18, 19 for the calculation and the distribution of the remainder do not exist.



  In fig. -36-41, the members which correspond to those described for the previous embodiment and which function in the same way are indicated by the reference signs adopted in the description of the first embodiment.



  For each type of object to be delivered, the apparatus comprises a magazine 300 and an ejector indicated schematically by 301; this ejector is driven by a lever 302 idle on a shaft 303 which is integral with an arm 304 connected by the connecting rod 305 with the arm 332 integral with the shaft 89 previously described and the operation of which is recalled below.



  The shaft 3 (13 is intended for the control of the ejectors 301 of a row of magazines 300 housed next to each other (fig. 37) and it transmits to a shaft 303 'through the intermediary of the arm. 306 as well as of the connecting rod 307 and of the arm 308, the displacement which it receives from the arm 304 and from the connecting rod 305; the shaft 303 'is arranged in a manner similar to the shaft 303 and it controls the ejectors a second row of stores.



  On the shaft 303 is wedged an arm 309 provided with a slot comprising a radial portion 310 and a portion 310 ′ housed on an axis around the shaft 303; in this slot is engaged a finger 311 of a lever 312, the opposite arm of which is provided with a hook 312 'which can engage on a finger 314 fixed to a stationary part of the apparatus. The lever 312, 312 'is pivoted at 313 on the lever 302 and is controlled using the connecting rod 315, the lever 316, the tubular shaft 376 and the lever 377 subjected to the forces of the return spring 317 , by the rod l 'of a key 1 for forming the upright in the device.



  A device as described is provided for each distributor store 300, as shown in FIGS. 36 and 37, while the shafts 303, 303 ', which actuate the various rows of distributors, are interconnected in the manner described by the arms 306 and 308 and by the connecting rod 307, so that the connecting rod 305 always drives trees <B> 303, </B> 303 'and all arms 309; on the other hand, the drive for the actuation of the corresponding ejector 301 takes place only when the finger 311 has been carried in the radial portion 310 of the slot 310, 310 'of the arm 309 by the operation of the button 1.



  The totalizing mechanism is identical to that which has already been described; therefore, in Figs. 36 and 39, only the visible parts of this mechanism are shown.



  The shaft 102 and the sleeve 104 (fig. 39) which constitute the totalizer components (the totalizer mechanism being provided with a transfer mechanism which transfers the tens of units formed by coins to the sleeve 104. of the order of the units introduced in the corresponding section of the totalizer mechanism) are respectively integral with the cams 318 and <B> 319; </B> these cams have the profiles visible in fig. 38, that is to say, one of them has a cylindrical crown with two diametrically opposed notches 320;

   this is necessary for the cam 318, because each half-turn of this cam corresponds to ten units of the order of units and, therefore, its operating conditions with the cooperating members must be identical for diametrically opposed positions of drug.



  The cam 318 of the order of the units is linked to a coupling pinion 321 next to which is housed the pinion 322 for the formation of the upright in the apparatus; this pin 322 is coupled, immediately after the operation of the totalizer device and before the movement of the pinion 322 by the slides 2 belonging to the mechanism for the formation of the upright, with the pinion 321 by an idle pinion and by a positive device of the type shown at 153, 154, 156, 157 in FIG. 26.



  In the same way, the cam 319 of the order of tens is integral with a coupling pinion 323 beside which the pin gnon 324 is housed for forming the upright; with these two gears cooperates an ac coupling device 158, 15.1, 156, 157 of the type described. Parallel to the shaft 102 is housed a shaft 325 on which are wedged two arms 326 provided with rollers 327 which press on the crowns of the respective cams 318, 319 under the action of the spring 328 acting on the arm 329 integral with the shaft. 325 and attached to finger 330 attached to the frames of the apparatus.

    The arm 329 controls, using the connecting rod 331, the lever 201, the hook 201 'of which can be engaged with the fixed finger 207, while the finger 202 of the lever 201 penetrates the angled slot 206 of the arm. 88 whose rollers 224, 225 are controlled by the cam 27 and the follower 27 'integral with the main shaft 13.



  The lever 201 is pivoted at 201 "on the arm 22 integral with the shaft 89 to which are connected, on the one hand, the arm 203 which, by means of the connecting rod 204, drives the arm 205 integral with the - collector 32 of coins and, on the other hand, the arm 332 driving the connecting rod <B> 305 </B> and, consequently, the shafts 303, 303 'which control the ejectors of the object distributors.



  At rest, the device is under the conditions shown in fig. 36-41 in which all the ejectors being released from the levers 312; the rotation of the shaft 3 which can. be obtained using a control crank similar to the crank <B> 213 </B> in fig. 1, cannot give rise to the distribution of objects.



  When the user, after having introduced the coins into the device and formed the amount in the device, this amount. corresponding to the price of the object. desired, actuate the crank, one obtains. first of all the described operation of the totalizing mechanism and consequently the cams 318, 319 take positions which correspond to the figures that said amount comprises in the respective orders. Consequently, the rollers 327 move away from the notches 320 to pass over the cylindrical portions of the cams 318, 319; consequently, the shaft 325 and the arm 329 oscillate and carry the lever 201 in its position where its finger, 202 is placed in the tangential portion of the slot 206, which releases the arm 2? and the shaft 89 of the arm 88.



       Since the two arms 326 carrying the rollers 327 are both solid from the shaft 325, the movement of one of the cams 318, 319 is sufficient to give rise to the operation described.



  At the same time, the displacement of the button 1 for the formation of the upright in the apparatus produces, by means of the lever 312, the engagement of the lever 302 of the ejector device corresponding to the desired object with the arm 309 and with shaft 303 or 303 '.



  * Then, the pinions 321 and 322 and the pins 323 and 324 are coupled by the respective pinions 153, so that, during the angular displacement of the pinions 322, 324 corresponding to the amount formed in the apparatus. the cams 318, 319 move with the pinions 322, 324 and by the same angle, in the direction opposite to that in which they were moved under the action of the totalizer.

      Therefore, if the introduction of parts is exact, that is to say if it corresponds to the formed upright, at the end of the movement of the pinions 322, 324 produced by the formation of the upright in the machine, the cams 318, 319 again have their notches 320 with regard to .galets 327; these rollers 327 then enter said notches under the action of the spring 328, which, using the arms 326, the shaft 325, the arms 329, the connecting rod 331, the lever 201 and the finger 202, gives rise to the engagement of the arm 22 with the arm 88 driven by the cams 27, 27 '.



  In the last part of the operation of the apparatus, when the arm 88 is dragged in oscillation by the cams 27, 27 ', there is then the operation of the ejector 301 and the delivery of the object, while the reader neck 32. of the coins is carried in its cashing position.



  If, on the other hand, the amount of the pieces introduced does not correspond to the amount formed in the device, that is to say if the amount of the pieces is greater or less than the amount formed, at least one of the cams 318, 319 does not bear its notch 320 opposite the corresponding roller 327. Then, the shaft 325 on which the two arms 326 carrying the rollers 327 are wedged cannot swing to the left and consequently the engagement of the arm 22 with the arm 88 and the release of the object have not take place; likewise, the collector 32 does not take its collection position and the parts unloaded from the totalizing mechanism in said collector are returned to the user.



  In the event that the delivery of the object has not taken place, the return of the cams 318, 319 to their rest position is effected by a device of the type described with reference to FIGS. 7, 8, 9.



  The devices for the selection and return of the coins introduced into the apparatus, the collector 32 and the bowl 91 in which the rejected or uncollected coins and the delivered objects are unloaded., Are shown in figs. 40 and 41 in which the various components are indicated in a manner analogous to FIGS. 29 and 30.



  The embodiment described with reference to FIGS. 36-41 can be used for issuing tickets which, in this case; can be printed beforehand.

 

Claims (1)

CLAIM: Automatic device for the introduction of coins for the distribution of objects, in particular tickets, characterized in that it comprises, on the one hand, a device neck reader and totalizer of coins, of which the organs totalisers during the totalising move by a magnitude corresponding to the total value of the coins introduced into the apparatus, on the other hand, means which serve to form in the apparatus the amount to be paid and of which organs driven during the formation of the upright perform a displacement of a magnitude corresponding to the price of the object, a device which is intended to couple these latter driven organs with the totalizing organs of the totalizing device to compare the respective amounts and finally a control device, the operation of which depends on the position that said coupled organs occupy after the operator of the comparison and which acts on the distribution members of the apparatus according to the result of said -comparison. SUB-CLAIMS: 1 Apparatus according to claim, charac terized in that the totalizing members of the collector and totalizing device are distributed so as to correspond to the different numerical orders, each of these members being driven during the operation .de the totalization of a pro magnitude proportional to the amount of coins introduced into the respective member, and in that the members of the mechanism for forming the amount in the apparatus are themselves also distributed so as to correspond to the different numerical orders, each of them also being engaged during the formation of the amount that the amount to be collected presents in the respective organ, and in that the comparison device couples the organs for the formation of the upright in the apparatus and .the organs of the totalizing device belonging to the same numerical order. 2 Apparatus according to claim and, sub-claim 1, characterized in that the coin collector and totalizer device carries its members in positions which correspond to the digits that the amount introduced into the apparatus present in the various numerical orders risks and in that the mechanism for the formation of the upright in the apparatus does not entrain its organs of a magnitude proportional to the figure that the amount to be collected present in the various numerical orders only after the coupling of the organs of the totalizing device with the organs for the formation of the upright in the machine. 3 Apparatus according to claim, provided with a balance distributor mechanism, charac terized in that the members of at least one of the two devices - totalizing device and device for forming the post - drive members capable of actuating the remainder distributor according to the difference between the amount introduced in coins into the device and the amount formed in the device. 4 Apparatus according to claim and sub-claims 1 and 3, characterized in that between two of the members for the actuation of the remainder distributor which belong to the successive digital orders is inserted a transfer mechanism and in that 'a control device member is integral with that of said actuators of the remainder distributor which belongs to the highest numerical order. 5 Apparatus according to claim and sub-claims 1, 3 and 4, characterized in that the mechanism for the formation of the upright in the device comprises of a magnitude proportional to the number of ducted organs belonging to numerical orders for which, members are not provided in the collector and totalizer mechanism, and said driven members (18, 19) include means for actuating the remainder distributor (23, 23 '), transfer devices (162-175 ) actuated by the members (18, 19) acting on the member (17) of the remainder distributor which belongs to a higher numerical order. 6 Apparatus according to claim, characterized in that the totalizing device comprises for each type of coin a movable member (54) provided with a chamber (55) capable of receiving a number of coins and a body drive (60, 59) capable of entering the chamber of said movable member and which is actuated each time the device is operated to drive the movable member (54) by acting on it through the parts possibly housed in its chamber and of a magnitude depending on the number of these pieces. 7 Apparatus according to claim and sub-claim 6, characterized in that the drive body cooperating with a movable member which carries a chamber of tinée to receive the parts of a defined type, is housed on a movable member bearing a room for coins of another type, but belonging to the same numerical order, the movable member indicated in the first place being tiné to drive a totalizing member. 8 Apparatus according to claim and sub-claims 6 and 7, characterized in that the different movable members for seen chambers for coins of different types belonging to the same digital order are arranged in series, with the first of them cooperating with a drive organ (62) which, each time the apparatus is operated, is moved by a determined stroke, while with each of the successive movable members co-operates a drive body carried by the immediately preceding movable member and the last movable member (47) of said series driving one of the totalisers of the totalising device, all the drives taking place through the coins possibly housed in the different chambers, so that the magnitude of the displacement of the totalizing organ depends on the total number of coins introduced into the different chambers. 9 Apparatus according to claim and sub-claims 6 to 8, characterized in that each of said movable members is constituted by an idle sector on an axis and provided with an arched chamber intended to receive the coins, each of the chambers having an arched slit in its wall, while the drive member is constituted by a member capable of rotating coaxially with respect to said sectors and provided with a finger capable of penetrating into the chamber of one of said sectors and traversing its arc slot. 10 Apparatus according to claim and sub-claims 6 to 9. characterized in that the different sections of the totalizing device which correspond to the different numerical orders act on totalizing members between which is inserted a transfer mechanism of tens, and in that the driving members of the different sections are driven in a certain order of succession for the transfer from each numerical order to the higher order. 11 Apparatus according to claim and sub-claims 6 to 9, characterized in that the radii of the different chambers for coins of different types but of the same numerical order have values such as the displacement accomplished by the totalizing unit due to the presence of coins is proportional to the value of said coins. 1.2 Apparatus according to claim and sub-claims 6 to 10, characterized in that the different sections of the totalizing device drive the respective totalizing members in such ratios that the movements of said members are proportional to the numerical values of the coins of their gold according to the same coefficient of proportionality. 13 Apparatus according to claim and sub-claims 6 to 9, characterized in that the chambers for the parts belonging to the same numerical order are housed on movable members separated from each other, members which are successively driven by the organs of drive (62, 60) and act on a totalizing organ belonging to the same order, this organ being able to drive, through a ten-fold transfer mechanism, a totalizing organ belonging to the higher order. 14 Apparatus according to claim and sub-claims 6 to 13, characterized in that the drive of the totalizing member of the. part of a movable member provided with a chamber for coins is effected by a movement having a dead travel. 15 Apparatus according to. Claim and sub-claims 6 to 14, characterized in that the drive bodies operate with dead travel, in order to leave the space necessary for the introduction of the parts into said chambers. 16 Apparatus according to claim and sub-claims 6 to 15, characterized in that the drive member with each operation of the apparatus makes a stroke having an invariable magnitude which is equal to the total of the magnitudes corresponding to the maximum of coins that the different chambers can contain, said total being increased of the total of said planned dead races. 17 Apparatus according to claim and sub-claims 6 to 15, characterized in that the drive member displaced at each operation of a stroke having an invariable extent, is provided with engagement means to be able to return all said movable members as well as transmission members in their initial position during the return movement of the aforesaid drive member. 18 Apparatus according to claim and sub-claims 6 to 17, characterized in that the totalizing members are actuated by the respective sections of the totalizing device via releasable couplings, and in that an alignment device is provided which can lock the totalizing members in the position in which they were brought. 19 Apparatus: according to claim and sub-claims 6 to 18, characterized in that the ten transfer reference and the coupling pinions are carried by arms capable of oscillating either relative to each other , or both together, in order to give rise, in the necessary order of succession, to the coupling and disengagement of the pinions as well as to the wise pitch of the transfer return of ten in operating and non-operating conditions . 20 Apparatus according to. claim and sub-claims 1, 2 and 6 to 19, characterized in that the drive members carry at the end of their stroke the movable members in a position such that they cause the coins to come out of their rooms. 1. Apparatus according to claim and sub-claims 1, 2 and 6 to 20, characterized in that the different chambers of the totalizing device open into a movable collector which normally occupies a position in which it is seated. 'or vre in a bowl accessible to. the user, said collector being subject to a control with a coupling member. which depends on the control member, control which temporarily brings said collector into its collection position when the dispenser delivers an object to the user of the device. 2 Apparatus according to claim and sub-claims 1, 2 and 6 to 21, charac terized in that the conduits bringing the parts into the respective chambers of the totalizing device terminate at a certain distance from said chambers in order to allow the parts of coins which may be introduced in excess into the apparatus to pass into the collector. 3 Apparatus according to claim and sub-claims 1, 2 and 6 to 22, charac terized in that the movable members of the totalizing device are subjected to forces from braking members which hold them by friction in the position in which they were born by the operation of the apparatus. 24 Apparatus according to claim and sub-claims 1 to 3 and 6 to 23, characterized in that an object dispenser is capable of occupying a position in which it delivers the object to the user and a position in which it sends the object into a receptacle inside the appliance, said dispenser being subject to a control whose operation depends on the control member and which carries said dispenser in the latter position when the amount of coins introduced does not cover the amount which has been formed in the apparatus. 25 Apparatus according to claim and sub-claim 3, characterized in that the remainder distributor mechanism is linked to its control by a releasable coupling device placed under the action of the control member, this device coupling being engaged when the amount of coins introduced into the apparatus covers the amount which has been formed in the apparatus. 26 Apparatus according to claim and sub-claims 1 to 3 and 6 to 25, characterized in that the control of the object distributor and the device for coupling the control of the coin collector and of the mechanism remainder dispenser are actuated by the same organ actuated in turn by the control organ. 27 Apparatus according to claim and sub-claims 1, 2 and 6 to 23, characterized in that the control member controls a coupling device which renders the object dispenser inoperative when the amount of the coins introduced into the device is different from the amount that has been formed in the device. 28 Apparatus according to claim and sub-claims 1, 2, 6 to $ 2 and 27, for the distribution of objects contained in several magazines, each provided with an ejector, apparatus characterized in that it is each ejector ( 301) and a general unit <B> (</B> 89) for controlling ejectors actuated by means of a connection device subjected to the action of the control unit (318, 319), is inserted a positive connection device controlled by an organ (1), which controls the organs for the formation of the upright in the apparatus.