US2170288A - Coin feeding apparatus - Google Patents

Description

Aug. 22, 1939; J K ss 2,170,288

COIN FEEDING APPARATUS Filed May 18, 1936 6 Sheets-Sheet l Jiiwis fflsii COIN FEEDING APPARATUS Filed May 18, 1936 a Sheets-Sheet 2 B 1P lag quiz 17T1 5. E-

{ nk-I w-I 5 16 i Aug. 22, 1939. J. KISS com FEEDING APPARATUS Filed May 18, 1936 6 Sheets-Sheet 3 Aug. 22, 1939. J. KISS COIN FEEDING APPARATUS Filed May 18, 1936 6 Sheets-Sheet 4 JSWL-S A755,

GUM/M Aug. 22, 1939. KISS 2,170,288

COIN FEEDING APYARATUS Filed May 18, 1936 6 Sheets-Sheet 6 FEB U.

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Elma/rm JHME5 hfss Patented Aug. 22, 1939 UNITED STATES PATENT OFFICE COIN FEEDING APPARATUS James Kiss, Bethlehem, Pa.

Application May 18, 1936, Serial No. 80,433

6 Claims.

The present invention comprises a novel money paying and coin assorting machine.

One of the principal features of the invention resides in the provision of an assorting mechanism peculiarly combined with a money paying mechanism whereby the coin assorting means will supply to the coin magazines of the paying or ejecting mechanism, the different denominations of coins designed tobe ejected from said 10 magazine coin holders.

Another feature of the invention resides in the provision of novel coin assorting mechanism per se wherein the assorting mechanism as a unit device is operable by a motor, preferably of the electrical type, and the motor is initiated and maintained in operation as an incident to the maintenance of a supply of coins in the hopper of the assorting unit. The operation of the motor is adapted to be automatically cut off when the supply of coins in the supply hopper or holder has been exhausted. Under these conditions the motor which operates the coin assorting unit will not be operative save and except when there is work for the motor to doby way thereby afiording a saving of power or energy required to operate the assorting mechanism.

Still another feature of the assorting unit of the machine lies in the employment of electrical contact means cooperative with a movable assorting member or disc, said electrical contact means.

being conductively connected Withthe disc for completing a control circuit by which the motor is operated, by means of the coins in the coin hopper of the assorting unit. When said coins are exhausted from the hopper by being properly fed to the holders in which they are mechanically assorted, the current supply to the motor is automatically cut off. resulting in the special control of the motor operation previously referred to.

Other features of the invention reside in provisions for enabling overflow of coins in the coin holders'of the magazine to pass to a storage com.- partment for the coins when the quantity of coins in each coin holder of the magazine has reached the maximum capacity of the holder; the provision of coin holders for the coin magazine, which holders are of rectangular form to facilitate a proper dropping of the coins in flat 50 condition in each holder as the coins are fed thereto, thus preventing the coins from falling in edgewise vertical positions and resulting in clogging of the coin holders; and provisions for locking the ejectors of the coin holders from operation when any one or more of the coin holders of actuating the assorting instrumentalities,

becomes empty and the supply of coins is not available.

Additionally, the invention contemplates the special construction of a feed or distributing chute or device for conducting coins to thecoin 5 of whether a coin assorting unit is employed or I not. The object of this feature is to equally divide a supply of coins fed to two coin holders of the same denomination of money. In other words, where two coin holders are provided for pennies, or two for nickels, as the pennies are fed to such two coin holders they will be compelled by the controlling mechanism of the feeding device to be fed first one coin to one coin holder and a second coin to the second coin holder, the alternating feeding action being continued until the supply of coins fills the two holders.

Still another feature of the invention resides in the arrangement of the key mechanism of the machine, which is of the type directly actuating the ejectors, whereby the keys may be pushed in for the money selection and ejection by the thumb 'of the hand whilst the palm of the hand adjacent to the thumb receives the coins directly therein. By the above arrangement of my mechanism the entire sum of money or combination. of coins ejected at one operation of the machine is deposited in the hand and thus the operator is sure to give to the customer the true or correct amount of change.

Still another feature of invention resides in the construction of my ejector mechanism such that the ejectors do not sup-port the coins in the coin holders associated with the said mechanism; also in the provision of ejector devices so associated with the keys and connected therewith by gearing that the movement of the keys will effect a reverse or opposite movement of the 'ejectors to accomplish their ejecting function. The ejectors and keys as constructed for the above purpose occupy a very small amount of space affording a most compact arrangement of parts for the purpose in view.

In the accompanying drawings Figure 1 is a perspective view of the coin assorting and. paying machine embodying the invention, certain parts of the distributing mechanism being omitted.

Figure 2 is a top plan view thereof, certain parts of the distributing mechanism and the lock mechanism being omitted.

Figure 6 is a fragmentary vertical sectional view showing more clearly one of the ejector looking devices by which the ejecting mechanism is locked from action when any coin holder becomes empty.

Figure 7 is a vertical sectional view through the machine, the upper part of the coin magazine being broken away and the coin assorting unit not illustrated.

Figure 8 is a top plan View of the ejecting section of the machine with the cover plate of the mechanism partly broken away to show the arrangement of the actuating slides and selector bars cooperative therewith.

Figure 9 is a section on the line 99 of Figure 8, showing the side by side arrangementof the ejector actuating. slide and one of the selector bars.

Figure 10 is a diagrammatic view'of the electric circuit including the motor which operates the coin assorting unit. 7

Figure 11 is atop plan View of the lower one of the ejector devices, which may be employed alone or in cooperation with a superposed ejector device such as shown in Figure 13. I

Figure 12 is a sectional view of the ejector devices of Figure 11.

Figure 13 is a view similar to Figure 11, of one of the superposed ejector devices.

Figure 14 is a fragmentary bottom plan view of certain of the ejector devices assembled with relation to the coin holders. 7 a

'Fi gure' 15 is a perspective View of one of the actuator slides operated by the keys.

Figure 16 is a fragmentary view showing more clearly the keyboard mechanism.

Figure 17 is a section taken on line I'II'I of Figure 16.

Figures 18, 19, and 20 are individual views of certain of the key members.

Figure 21 is a fragmentary sectional view of the lower portion of a-coin holder of the coin magazine and the coin supporting plate associated therewith, certain parts being omitted.

Figure 22 is a fragmentary sectional view of a portion of one of the coin holders and coin distributing mechanism.

GENERAL CONSTRUCTION or MACHINE Reference is made to Figure 1 wherein my machine is shown as comprising a housing or casing A, and acoin magazine 13, comprising a series of coin holders I in which the coins are stacked for ejection from the bottom of the holders in a manner well known in thiszart. At the front of the casing Aare located chutes C and D, the one at the left to receive coins ejected by the keys at the left half of the keyboard and the one at the right, namely D, to receive coins ejected by the keys at the right half of the keyboard. Intermediate the chutes C and D is shown the lower end of an overflow hopper E, seen best in Figure 7. The chutes C and D are provided withopenings 2 at their lower portions so that coins discharged thereinto for delivery by means of the ejecting mechanism may be received directly in the hand or palm of the operator while his thumb is being used for the depression or actuation of keys conveniently located above the particular chute.

At the upper end of the coin magazine B is disposed a coin assorting and distributing unit generally designated at F and inclining downwardly toward one end. At the upper end of the distributing unit F is located the coin feeding unit G, and this unit comprises a coin receptacle in which coins may be placed by the handful so that these coins may be individually operated upon in a manner to be described, for causing the same to be assorted in their respective denominations and passed downward to the distributing unit F by which they are caused to be distributed to the various coin holders I. The distributing mechanism controls the proper passage of the coins of proper denominations to the holders I that are designed to receive such denominations. There is seen in Figure 1 a motor H for driving the mechanism of the coin feeding unit G, as will be later more fully'pointed out.

Keyboard and ejecting mechanism The keyboard availed of for the purposes of my invention comprises a series ofkeys 3, the fingerpieces of which are provided with indicia corresponding with the amounts of money that are to be delivered by. the machine in its ejecting operation. The key members of my keyboard mechanism are of substantially the same type as described in my application for patent Serial No. 577,810, filed November 28, 1931, for Money paying machine. Eachkey member 3 is formed with a selector arm orsection 4, the form of which depends upon the number of ejector slides 5 that a particular key member is intended to operate. Thus thekey member 3 shown in Figure 18 is designed to eject 40.from the machine, and it will therefore cooperate by itsselector arm 5 with the actuating slides 5 that cooperate to. eject one coin from each the 25 holder I, the 5 holder I, and the 10 holder I, the 40 falling into the proper discharge chute and passing therefrom into the palm of the operator.

Springs as seen in Figure 16, designated 6, normally hold thekey members 3 outpressed and restore these key members to their normal outward positions after actuation thereof, in a well known 'manner. In Figure 16 one of thekey members 3 is depressed, illustrating itsselector arm 4 projected beyond the corresponding arms of other keys adjacent thereto. The means for transmitting the movement of thekey members 3 to theejector, devices is seen best in Figures 8 and 9 and 11 to 15 inclusive, and will now be referred to.

Eachactuating slide 5 is formed with an engaging head I adapted to be engaged by theselector arm 4 of one or morekey members 3. Eachslide 5 is equipped with arack 8 meshing with apinion 9 mounted on the support IQ for the coin magazine and key unit of the machine. The support ill isprovided with grooves II in which operate the actuating slides 5, and other grooves i2 in which are disposed auxiliary actuating slides I3 which have racks I4 meshing with thepinions 9 at the sides thereof opposite theracks 8. The auxiliary actuating slides I3 have springs I5 cooperating therewith to normally push the same, rearwardly or hold members I3 in retracted tion of the ejecting device or devices. most coin of each holder I of single delivery type positions, these springs acting through thepinions 9 upon the slides to hold the latter in forward positions and thekey members 3 cooperating with theparts 5, outwardly pressed ready to be shifted for a money paying operation. Theslides 5 and the auxiliary slides I3 are used so that the movement of the keys may be communicated to the ejecting devices in a simple advantageous manner by parts closely assembled in compact condition whereby to reduce the size of the machine as much as possible.

The ejecting mechanism per se is best seen in Figures '7 and 11 to 15, which will now be referred to particularly, The ejector devices may be single or double, and one of said devices, as

shown in Figure 11, operates in a suitable seat of a base member at the lower end of the coin magazine B. The ejector device now described comprises an ejector frame I6, the outer end of which has a coin slot or opening I! therein. On the frame IE, as shown in Figure 12, is a pivoted ejector finger I8, the pivot of which is designated I9 and carried by a lug projecting upwardly from the metal of the frame I6. Normally alight wire spring 2| is interengaged with the upper portion of the ejector finger I8 and tends to lift said finger. There is: provided for each ejector frame I6 acoil spring 22 coacting therewith to normally hold the ejector device retracted. It will be seen from Figure 14 that the ejector devices I6 are directly supported or mounted under thebottom portion 23 of the coin magazine B, and a supporting plate: 24 sup-ports the ejector devices, such as I6, in properly sliding relation against the bottom 23 of said magazine, see Figure 14. The weight of the coins in each holder I in the magazine B is carried by theplate 24, and theplate 24 is provided withslots 25.

As seen in Figs. 21 and 14, the rear wall of each coin holder I has at its lower end a downwardly extending projection contacting theplate 24 and forming anabutment 26 to engage the rear or inner end of the slot I! of the ejector frame I6, as indicated at 21 in Figure 14. Thislittle lug 26 has one or twoslots 28 therein, through which the ejector finger I8, or ejector fingers I8, dependent upon whether one or two ejector devices are used at the bottom of the coin holder, may pass: during the ejecting opera- The lowerwill drop in front of thelug 26 and rest upon theplate 24 and be engageable by one of the fingers I3. If the. ejector system for the particular holder I is of the double type where superposed ejector devices similar to IE are used, then the two lowermost coins in the particular holder will drop in front of thelug 26 and be engageable by two fingers I8 of the dual ejector device when said devices are positioned outwardly for coin ejecting purposes. Under such conditions the weight of the coins in the stack is received. on theplate 24 and not upon any portion of the ejector device or devices.

As the coin is ejected, by the device shown in Figure 11, for instance, the inner edge of the lowermost coin. is engaged and the coin pushed out by said ejector finger I8. As the coin is: pushed out it falls into one of the chutes C or D and the remaining coins move downwardly in the holder I toward thebottom plate 24 and press upon the ejector finger I8, which is thus lowered into the slot against the upward tension of thespring 2| previously referred to. In this Way the Weight of the stack of coins in the holder is always carried by theplate 24 and does not create undue friction upon the ejector finger I8, which therefore may be readily retracted by the action of the springs forming a part of the ejector mechanism. In this way a very smooth and easy operation of the ejecting mechanism is obtained.

Referring to Figure 13, it will be noted that the ejector device illustrated comprises an ejector frame I Go, spring means 22a, ejector finger I8a and pivotal means. I9w, together with a lug 29a, all similar to the parts: described as to Figure 11. The ejector device of Figure 13 will be superposed upon the device of Figure 11 when a dual ejector system for a particular holder I is required, as for the ejection of pennies and nickels. Of course, when the device of Figure 13 is superposed upon the device of Figure 11, the ejector finger I3a operates in aslot 28 of the frame I6, said slot aifording the necessary clearance for such purpose. The finger I8a is actuated by aspring 2| a that normally holds the finger I8a at a slightly greater elevation than the finger I8, so that the finger IBa will operate in a plane to engage the second from the lowermost coin in the holder when the double ejection action of the devices I6 and I So is called for by the key 3 that happens tobe operated. The finger IBa will be pressed into aslot 25 in theplate 24, in a manner lug or lugs I3a of the auxiliary actuating slides I3, seen best in Figures 7 and 8. Figure 9 shows at I3a. the upwardly extending lug of one of the auxiliary slides I3, which lug works on the ejector device or devices by engaging the rear ends of the parts I6 or I6a to compel the forward ejecting movement of said devices for coin payout action of the machine. Thesprings 22 and 22a of the ejecting devices of Figures 11 and 13 engage at their front ends: with the back portions of the magazine B at 29, and the rear ends of said springs abut against the rear portions of the frame structures of the parts I6 or IBa. In this way the springs effect the retraction of the ejector devices in an obvious manner.

The operation of the ejecting mechanism simply involves the pressure upon the proper key member ormembers 3 to procure the desired amount of money denominated by the indicia on the key member or members. The rearward push on the key member operates the main and auxiliary actuated slides 5 and I3, respectively, and the slides I3 engage with one or more of the ejector devices: I6 and/ or I6a, thus effecting the paying out of the required coins by the action of the fingers I8 and/or I8a thereon. The coins drop into the chute C or chute D, and the parts C and D arearranged as previously suggested, so that the palm of the hand may be disposed beneath the same and the thumb of the hand readily used to depress the desired keys for effecting the ejecting operation.

Coin magazine ejector look In Figure 6 is shown a pivoted or swinginglock member 30 pivoted at 3|, one of which is provided at the lower end of each coin holder I, where there is a single delivery system for coins, while two of these devices are used side by side at the lower end of those coin holders I where dual coin delivery is desired. Each lock device sorting receptacle or compartment.

39 has alock 32 to coact with a projection 33 on the upper portion of each finger I8, or l8a, as the case may be. Themember 30 has a rearwardly extending arm carrying aweight 34 that normally tends to hold the lock member in the full line position of Figure 6 when theholder 1 becomes empty. When the said holder is empty and thelock member 30 is so positioned that thelock 32 is lowered into the path of the projection 33,'any attempt to depress the keys of the coin holder i when in empty condition is prevented because thelock member 30 cannot swing forwardly beyond the point of impingement of itsshoulder 35 with the rear end of the coin maga- ZlIIG'OI' holder I. Of course, when the coins are stacked in theholder 1| they press rearwardly against the front edge of thelock member 36 and swing the same to a rearwardly adjusted position Where thelock 32 is above the projection 33and the ejector finger i9 is operative to perform its ejecting function. The locking of any ejector system by the means just described will be indicated to the operator of the machine because of his inability to press the key or keys that remove coins from the particular coin holder I, which is empty, and he can readily then attend to resupplying coinsto such coin holder to render the machine available for proper use.

Coin assorting mechanism Reference is made particularly, in conjunction with this mechanism, to Figures 1, 2, '7, and 10. The purpose of the assorting mechanism is to pro vide a convenient means for quickly causing the segregation of the different denominations of coins for the'purpose of causing their distribution, by means of the distributing unit, to the various coin holders designed to receive and pay out or eject said coins. In the design of the assorting mechanism it is contemplated to have an automatic control for the driving of the feed mechanism from the motor, said automatic control being intended to automatically stop the motor when there are no coins disposed in the as In this way the power for the actuation of the assorting unit is not put into use except when there is work for the unit to do in effecting the coin assorting operation. a

In the drawings, G, previously referred to, de notes generally the feeding mechanism or unit, and said unit includes thecoin receptacle 36 which is provided at its bottom with arotating plate 31 equipped with aseries'of openings 38 which are preferably all of the size of the largest coin handled by thedisc 31, namely, the 50 piece. Beneath therotary disc 31 is astationary plate 39 of nearly complete circular form, of conductive metal, and theplate 31 is likewise made of conductive metal. The twoplates 31 and 39 are spaced apart as shown at49, so as to be out of electrical contact with one another. Theplate 31, which rotates, is mounted upondrive shaft 4| which is operated from the motor H previously mentioned, and, if desired, a gear reduction means, partially shown in the broken portion of Figure 2, may be availed of to reduce the speed of the driving of thedisc 31 as compared with the driving speed of the motor. The motor is included in an electrical circuit illustrated in Figure 10 as comprising theline wires 92 and 43, thewire 43 leading to the motor atone terminal and the other terminal of the motor is connected by awire 44 to acontact 45 spaced from thecontact 46. which is connected with thewire 42. A

solenoidoperated switch 41 is adapted to connect theterminals 46 and 45 in order to start the motor I-I into operation, and thesolenoid 48 for actuating theswitch 41 is included in a separate electric circuit comprising theWires 49 and 50. Thewire 49 is connected to therotary disc 31 at the point and thewire 50 is connected to the output side of atransformer 52, the said transformer being also connected to thebottom plate 39 of the assorting receptacle by means of awire 53, as shown at 54 in Figures 1 and 2 of the drawings. a

The primary side of thetransformer 52 is connected to a source of power by means of thewires 55. The purpose of the transformer is to step down the current to about 6 or volts for the operation of thesolenoid 48. This is to prevent liability of shock when a person touches thereceptacle 36 of the assorting unit, were the high voltage current delivered directly to thebottom plate 39 and therotative disc 31. The high voltage current is used to operate motor 1-1.

When coins are disposed in the receptacle orchamber 36 of the feeding unit, the coin or coins in said receptacle will drop into theopenings 38 of thedisc 31 which turns in the direction of the arrow, as per Figure 2 of the drawings. The metal of the coins is relied upon to establish contact between the bottom portion orplate 39 of thereceptacle 36 and therotary disc 31, under which conditions the circuit including thesolenoid 48 is closed, energizing the solenoid and thereby drawing theswitch plate 41 to a position connecting thecontacts 45 and 46. Thereupon, the motor circuit including the motor H is .closed and the motor remains in operation so long as there are any coins in the receptacle orcompartment 36 to drop into theopenings 38 and establish an electrical conductive connection between theparts 31 and 39. Thereceptacle 36 is tilted or at an inclination so that coins deposited therein will gravitate slightly toward the lowermost portion of thedisc 31, thus ensuring that any single coin received in thereceptacle 36 will ultimately drop into an opening of thedisc 31 for establishing the conductive connection between theparts 31 and 39 to maintain the motor H in action so long as any coin remains in the receptacle of the feeding unit G. Thedisc 31 will carry the coins to adischarge opening 56 in the bottom of a base plate 51 of the assorting receptacle. The base plate for the feeding unit G, as indicated at 51 in Figure l and Figure 2, is of insulation substance and carries thestationary plate 39 as well as therotary disc 31 and adjacent parts of the unit. Said base plate 51 is provided with adischarge opening 56 between the ends of thestationary plate 39 and near the uppermost portion of thereceptacle 36. The coins are carried in theopenings 38 of thedisc 31 until, during a certain point in the revolution of thedisc 31, each coin reaches thedischarge opening 55 and drops therethrough onto the inclined distributing chute 5B of the distributing unit F. As soon as the coins handled in thereceptacle 36 have been discharged through theopening 56, since there remains no coin in thereceptacle 36 to maintain contact between theparts 31 and 39, the circuit including thesolenoid 48 is broken and the solenoid is deenergized, causing theswitch plate 41 to gravitate away from the solenoid armature and thus open the motor circuit, stopping the motor H immediately. Each coin in thereceptacle 36 maintains contact between theparts 31 and 39 until such coin reaches thedischarge opening 56, when the contact is broken.

Coin distributing unit Referring now to Figures 3, 4, and 5 particularly, it will be seen that thechute 58 is inclined so that the coins discharged thereonto through theopening 56 will gravitate downwardly along thechute 58 under certain conditions, and some of the coins, notably the dimes, will pass down through an auxiliary distributingchute 59 as will now be set forth. The dimes, being the smallest coins, as they are discharged onto thechute 58 will drop through an opening 6D and immediately pass along theauxiliary chute 59 to the dime receptacle designated by theindicia 10 in Figure 3, and will be deposited in said receptacle, entering at the top and fed from the rear of the receptacle to its top portion. The pennies, which are the next size of coin, pass over theopening 60 to openings BI and 62. Assuming that the opening BI is reached by the first penny distributed, said opening being over the right-hand coin holder I for pennies, the penny will move in the manner shown in Figure 3, down thechute 58 with the edge of the penny supported by the inner ledge 58a of the chute and the other opposite edge of the penny carried by aledge 63. Therefore, the penny will move down to the second or left penny opening 62 in thechute 58 and dropping therethrough will enter the holder I beneath said opening. As the penny drops into the left-hand penny holder I it hits thetrip arm 64, mounted on ashaft 65 at the rear of the coin magazine andchute 58. Thetrip arm 65 extends through the back wall of the magazine B so as to be in the path of the penny which drops into the left-hand penny holder I and is thus depressed or moved downward by the gravitating penny entering the top of the left penny holder I. Theshaft 65 is thus rotated in the direction of the arrow in Figure 5 and causes anactuating arm 66 to engage and move forwardly the head of aplunger 67 mounted for transverse movement in the coin magazine structure B.

Theplunger 67 has ahead 68 directly engaged by thearm 66 at the rear side of the head, and the movement forward of the plunger 6'! shifts theledge 63 forward out of the way of the edge of the next penny gravitating down thechute 58. Therefore, the next gravitating penny, when it reaches theopening 6| above the first or righthand penny holder I, will drop into said coin holder. This penny, as it drops through theopening 6|, strikes atrip arm 69 on asmall shaft 10 like theshaft 65, saidshaft 18 carrying anactuating arm 1| which impinges the front side of thehead 68 and when thearm 69 is tilted downwardly by the dropping penny, theplunger 61 is forced rearwardiy and theledge 63 is brought back to its operative full line position of Figure 3, so that the next penny passing down thechute 58 will go past the opening GI and drop through theopening 62 into the left hand penny holder I, whereupon the operation previously described is repeated. In other words, the pennies which pass down thechute 58 drop alternately first through theopening 62 into the left-hand penny holder I, and the next penny drops through theopening 6| into the righthand penny holder I, this operation being carried on indefinitely as long as pennies pass down the chute.

The nickels that pass down thechute 58 are distributed alternately to theright hand 5 coin holder I and the left-hand 5 coin holder I, as shown in Figure 3, by the same kind of a mechanism as previously described for the pennies, except that the shaft parts are a little longer because the two nickel holders I are separated a sufiicient distance to permit the emplacement of a 10 holder I therebetween. The mechanism for alternately distributing the nickels to the two 5 holders I is indicated by the same numbers as used for the corresponding parts of the penny holders, except that each number includes a prime designation. A single holder I is used for the 10 coins, the coins and the 50 coins. It is contemplated that one or two pennies may be ejected from both of the penny holders I. It is alsoconteinplated that two nickels may be ejected from one of the nickel holders I and one nickel from the other nickel holder I, that the dimes shall be ejected singly only from the holder I therefor, and that either one or two quarters and 50 pieces shall be susceptible of being ejected from their respective holders I.

The distributingchute 58 is provided at its rear with aflange 12 so as to form a guide for the coins sliding down said chute. The chute, as will be seen from Figure 1, is rearwardly inclined and the coins will therefore, during their downward travel on said chute, remain in contact with therear flange 72 thereof. Adjacent therear flange 72 of the chute and in alignment with the upper surface of the latter is a round ledge member 58a, as clearly seen in Figure 22. It may be seen, therefore, that the rear edges of the coins slide on top of the ledge 580. until they reachtheir respective coin holders I. When a coin reaches its respective holder, the opening in thechute 58 will be sufficiently large to permit each coin'to tilt downward at its front portion, as clearly seen in Figure 22. The coin will be thereby permitted to assume a vertical position in View of the fact that its rear end is held back by the ledge member 58a as. it drops.

The coin holders I may be preferably made of square configuration in cross section, and in View of the fact that the coin holders are tilted backwarclly toward the rear of the machine, it will be seen from Figure 22 that the downwardly falling coin will strike against the rear wall of the coin holder I and will slide downwardly on said rear wall until it abuts against thelower plate 24, or the coins in the holder I above the said lower plate. Thereupon, the upper end of the coin will turn forwardly and the coin will adjust itself in a horizontal position in the coin holder I. The object in dropping the coins into the coin holders I while they are in a vertical position is to prevent the coins entering theslots 25 in theplate 24. These slots are positioned at an angle of 90 in respect to the vertical position of the falling coin and therefore it will be impossible for a coin to get locked in said slot, so that the same will align itself into a horizontal position. However, the coin. holders I could also be made of round configuration in cross section, should this be desirable, and they have been so illustrated. Figure 22 shows the modification of the invention where the cross section. of the coin holder I is made square, practically speaking.

The portions of the distributingchute 58 adjacent to some or all of the coin holders I may be provided with arecess 13 having a shoulder M, so that during turning of the coin from horizontal to vertical position while the same is dropped into the coin holders, it will engage the front surface of the coin and will prevent rotation of the coin in a direction toward the forward end of the machine above the limit of its vertical position. Therefore, theedge 14 serves as an additional means to adjust the coin to a vertical position during its dropping movement into thecoin holder 1.

It is notable, referring to Figure 7, that when the coin holders l are filled entirely, practically speaking, with coins, the feeding unit G may still supply coins to the various coin holders, and it is desirable to have an overflow means for each of theholders 1. This overflow means includes anoverflow opening 75 in the upper rear portion of each holder l communicating with an overflow conduit orpassage 16 that leads down to the overflow hopper E previously referred to. It will therefore be seen that the coins in the coin holder I may be supplied automatically by means of the distributingchute 58, or when a supply of coins has filled the hopper E the user of the machine may manually remove the coins from the hopper E and place them back in thereceptacle 36 of the assorting unit. A guard plate TI on top of thechute 58 may be provided, spaced above the chute to prevent the coins from jumping out of thechute 58 as they travel downward to the various coin holders l.

The present machine is especially advantageous for use in department stores where pneumatic change making systems are in use, because the operator at the change making station, using one of my machines, can dump the coins received in the pneumatic actuated boxes or holders, directly into the assortingreceptacle 36, after counting same, with such quickness that no delay will be caused in the change making operation. Such delay would be incurred if an operator was required to assert the coins as they arrive from the different'sales stations in the store, and this is something desired to be avoided.

Having thus described my invention, what I claim as new and desire to secure by Letters Patent of the United States, is:

1. In a money handling machine of the class described, in combination, a coin feeding unit comprising a receptacle, a movable plate in the bottom of said receptacle having openings to receive coins and made of conductive material, a stationary plate cooperative with said movable plate and spaced therefrom so as to be out of conductive contact therewith, said stationary plate being arranged so that a coin received in an opening of the movable plate will establish conductive connection between the movable and stationary plates, a motor, a circuit including said motor for supplying current to drive the same, a circuit including the movable and stationary plates, means in said last circuit operable on closing of the same by a coin or coins establishing conductive relation between the stationary and movable plates for closing the motor circuit to cause the circuit of the motor to become effective for operation of the said motor and actuation of the movable plate.

2. A machine as claimed inclaim 1, wherein the movable plate is a rotary disc.

3. A machine as claimed inclaim 1, combined with a base for the feeding unit having an opening through which coins operated upon by the movable plate may drop at a predetermined point in the movement of the movable plate, and a distributing chute for carrying said coins away from the feeding unit.

4. In a money handling machine, a coin feeding unit comprising a receptacle for coins, a coin feeding member within said receptacle, means for operating said member to move the coins for feeding action thereof, and instrumentalities within the receptacle and controlled by coins deposited therein to effect the operation of the last mentioned means.

5. In a money handling machine, a coin feeding unit comprising a receptacle for coins, a coin feeding member in said receptacle, comprising a movable plate having feeding openings to receive coins, an electric motor for moving the plate to cause it to perform its feeding function, an electric circuit including said motor for causing the operation of the latter, and instrumentalities associated with the receptacle and responsive to the reception ofa coin in an opening of the plate aforesaid for closing said electric circuit and effecting the operation of the motor.

6. In a money handling machine, a coin feeding unit comprising a receptacle for coins, a coin feeding member in said receptacle, an electric motor for operating said feeding member, an electric circuit including the feeding member and said motor, and contact devices coacting with the feeding member and arranged in spaced relation thereto so as to be conductively connected with the feeding member by coins deposited in the receptacle thereby to close the electric circuit and effect operation of the motor to actuate the feeding member.

JAMES KISS.

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