US483009A - paine - Google Patents

paine Download PDF

Info

Publication number
US483009A
US483009A US483009DA US483009A US 483009 A US483009 A US 483009A US 483009D A US483009D A US 483009DA US 483009 A US483009 A US 483009A
Authority
US
United States
Prior art keywords
wheel
shaft
wheels
revolution
setting
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
Publication date
Application granted granted Critical
Publication of US483009A publication Critical patent/US483009A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06CDIGITAL COMPUTERS IN WHICH ALL THE COMPUTATION IS EFFECTED MECHANICALLY
    • G06C7/00Input mechanisms
    • G06C7/10Transfer mechanisms, e.g. transfer of a figure from a ten-key keyboard into the pin carriage

Definitions

  • VPAINE VPAINE. l CASH RBGISTERING AND ADDING MACHINE.
  • This invention relates to new and useful improvementsin cash registerand indicating machines; and it consists in the peculiar construction of the registering mechanism and in the means employed for totalizing the amount registered.
  • the invention further consists in the peculiar construction of the indicating mechanism, and, further, in the peculiar construction, an rangement, and combination of the various parts, all as more fully hereinafter described..
  • Figure l is a front elevation of the registering and indicating mechanism, partly in section and with the actuating rack-bars removed, also show ing the case and cash-drawer.
  • Fig. 2 is a vertical section through my improved machine and its case on line 9c of Fig. l.
  • Fig. 3 is a cross- Section on line y @j in Fig. l.
  • Fig. 4 is a detached elevation of the registering mechanism, as shown in Fig. 1,with the parts in different position.
  • Fig. 5 is a front elevation of my machine.
  • Fig. G is a detached perspective View of one group of the registering mechanismand its actuating rack-bar.
  • Fig. 7 is an elevation of one of the totalizingwheels.
  • Fig. 8 is an enlarged rear view of a portion of the upper and lower shafts with their several attachments.
  • the machine shown in the accompanying drawings is constructed to add numbers having four figures or less.
  • the mechanism for adding units which is substantially duplicated in the tens, hundreds, and thousands series, consists of the rack A, the setting-wheel I, with its geared hub B, revolving loosely on the actuating-shaft x, the lug c, the pawl or bolt d, carried by a suitable arm D, which is rigidly attached to the actuating-shaft 5c, the, adding-wheel E, which rotates freely on the actuating-shaft oc, and the disengaging-post a, fixed in the frame of the machine.
  • the actuating-shaft .fr is journaled at each end of the frame of the machine, and each operation of adding requires its complete revolution by the crank C or other suitable means.
  • the rack A slides in suitable bearings in constant engagement with the hub B.
  • the arm b is provided with the pointer y, which travels over the index-plate n.
  • This index-plate is divided into ten equal spaces for the numerals from O to 9, inclusive.
  • the lug c which is rigidly attached to the setting-wheel I, is brought by the movement of the pointer into any one of ten equidistant positions around the shaft x, corresponding to the numerals to which the pointer is moved.
  • the oliice of the lug c is to drive the pawl or bolt d into engagement with the spokes P of the adding-wheel E, as hereinafter shown.
  • the setting-wheel is fitted with spur-gear to engage the indicating-wheels, as hereinafter described.
  • the arm D is rigidly attached to and ro tates with the shaft-a; and carries the pawl or bolt d.
  • This bolt is designed to be moved by the lug c into engagement with the addingwheel E, it projecting between the spokes of the wheel, and as the arm D revolves with the revolution of the shaft @c the adding-wheel is also carried around the required number of tenths of a revolution.
  • the bolt is then disengaged from the adding-Wheel by the fixed post a, which throws it back to a position ready to be again driven by the lug c in the next operation.
  • the fixed part a is secured on a stationary part of the frame and extends out toward the adding-wheel lin the path of the projecting bolt. Its upper face is beveled or inclined downwardly toward the wheel E, as plainly shown in Fig. 6.
  • the contact-surfaces of the lugo and the bolt d are beveled, as shown.
  • the end of the bolt toward the adding-wheel E is provided with a pin or teat and a shoulder 7o. strikes the beveled face of the post a, which is shown in Figs. 2 and G, thus throwing the ICO
  • the adding-wheel E rotates freely on the shaft a: and has ten teeth or spokes, on the ends of which the ten numerals are consecutively placed, as shown in Figs. l and 2. It is by the engagement of the bolt d with the appropriate one of these teeth or spokes that the adding-Wheel is carried the required number of tenths of a revolution in the process of adding.
  • the space between the spokes is such that in an operation Where nothing is to be added on the wheel the bolt can be driven in between the spokes thereof by the lug and immediately removed by the post Without moving the adding-wheel.
  • the roller-spring r Fig. 6,vvhich Works into the spaces between the spokes, is employed.
  • the office of the arm D ofthe units series is simplytocarrythepawlorboltd.
  • ThearmsD, D2, and D3, respectively, of the tens, hundreds, and thousands series have the further office of actuating parts of the mechanism for earrying ten,7 as hereinafter described.
  • they are provided with the segmental gears t, which are placed on extensions D4, the arms in advance ot or in such relation to the bolts CZ that they will engage the parts to be actuated thereby after the disengagement of the bolts from the adding-Wheel, so that the part With Which the segment engages may be actuated thereby without moving the adding-Wheel.
  • the teeth t are so placed on the tens-arm D as to begin their work a little in advance of those on the hundreds-arm D2, and those on the hundreds-arm begin their Work a little in advance of those on the thousands-arm D3.
  • This arrangement is for the purpose ot securing successive action by the different series of the carrying mechanism, as will be more fully explained hereinafter.
  • the iinger 7L is rigidly attached tothe unitsadding Wheel E and is so placed that when the adding-Wheel has made nine-tenths of a revolution from its normal or starting position, at zero, the point of the finger is just ready to engage with one of the spurs m on the carrying-sleeve G, located on the shatt Z. Its ofiice isto turn the sleeve G part of a revolution upon the continued movement of the wheel E, and it performs this Work at the beginning ot the last tenth of a revolution of the units-adding Wheel.
  • the pawl hon the tens-adding Wheel E is pivoted to that Wheel.
  • This paWl consists of a bar h4, pivoted to one ot the spokes at h5, its free end being held in place and allowed an inwardly-swinging movement by a spring m2, secured to one of the spokes, as shown in Fig. 4.
  • Its office is to turn the carryingsleeve through part of a revolution at the beginning of the last tenth ot a revolution of the tens-adding Wheel, and it is so placed on the Wheel that its free end is just ready to engage one ot the spurs m ot the carryingsleeve G when the adding-wheel has completed nine-tenths of a revolution.
  • the pawl h2 on the hundreds-adding Wheel F2 is identical in construction with the pawl 7L on the tens-adding wheel, and its action on its spur m is similar to that of the tens-adding Wheel.
  • the finger or pin 7b3 on the thousands-adding wheel E3 is designed to engage the teeth on the auxiliary carrying-Wheel, as hereinafter more fully shown.
  • the units-adding WheelE begins the last one-tenth of a complete revolution
  • the iinger 7L engages one of the spurs m
  • the sleeve G is thereby turned suiiiciently to bring the teeth of one of the segments n into-a position ready to be engaged by the teethtot the arm D4.
  • the position of the arms 0 o on the sleeve is such that When one of the segments n is ready to be engaged by the teeth t one of the arms o, While tree from the adding-Wheel E of higher denomination, is ready to engage a spoke.
  • an arm o By the action of the teeth t on one of the segments n an arm o is brought into engagement with the spokes of Wheel E', and during the time that the teeth t are in engagement with the segment n the arm o drives the the tens-adding wheel one-tenth of a revolution and clears itself from the wheel. Until the sleeve has been moved by the tinger 7L of the units-adding Wheel the position of the sleeve will not permit the engagement of its segments 'an by the teeth t.
  • the auxiliary adding-wheels H and the auxiliary carrying-Wheels tu are employed.
  • the auxiliary adding-wheels rotate on the shaft x and are held in their proper position when at rest by the roller-springs fr fr.
  • These wheels H as shown in the drawings, have twenty equidistant teeth or spokes, on the ends ot which the ten numerals in successive order from O to 9, inclusive, are placed and repeated. Aconstruotion having ten spokes or any multiple ot tenis feasible, as is also onein which the setting-wheels and adding-wheels are arranged for multiples of ten.
  • the auxiliary carrying-wheels w as more plainly shown in Fig. 4, rotate freely on the arbor e. They extend laterally beyond the Wheels H and are in constant engagement with the teeth or spokes of the auxiliary adding wheels H.
  • the pin h3 engages theinnercarrying-Wheel w, and the engagement is ot such duration that itforces the wheel fw to drive the adding-Wheel H onetwentieth of a revolution, su leientl y to bring into view the number next above the one previously shown.
  • auxiliary carrying-wheels are similar in construction.
  • the auxiliary adding- Wheels H have the pins f, the purpose of which is to engage the auxiliary carrying ⁇ wheel tu. These pins are so placed that one of them comes into such engagement at the end of each half of a complete revolution of the wheel carrying it--that is, when the movements of that wheel have broughtit around from O to 9.
  • a pinf is in engagement with one of the carrying-wheels w and causes the latter to drive the adjoining adding-wheel one-twentieth of a revolution, thus causing it to register a number one higher than that previously shown.
  • Thelast ot' the series of adding-wheels in the machine illustrated has no pins.
  • the auxiliary adding andcarrying mechanism maybe increased7 as desired7 to register higher totals.
  • a locking device is employed.
  • the locking-rod W slides in suitable bearings under and at right angles to the racks A and is provided with the bolts 13, Figs. 2 and 3, to engage holes 14c in the racks, the number ot bolts on rod W corresponding to the number of racks A.
  • To the end of the locking-rod nearest the crank is attaehed forms a stop for the crank C.
  • each number added the indicating-wheels 26, Fig. l, are employed. These wheels are the size of the setting-wheels I, and are provided with teeth for the purpose of engaging them.
  • a band attached to one side of each indicating-wheel gives space for the numerals from O7 to 9, inclusive, which are placed at equaldistanees from each other and in such relation to the setting-wheels that a movement of the racks A, which sets the setting-wheels for the addition of any number, brings the same number on the indicating-wheels into view through an opening provided for the purpose.
  • the reverse indicatingwheels 27 are used. These wheels are operated, respectively, by the units, tens, hundreds, and thousands indicating wheelsin the following manner:
  • the reverse units-indicating wheel is rigidly attached to a shaft 28 at or near its end. This shaft rotates in bearings in the frame of the machine and has also rigidly attached to ICI IIO
  • the units-indicating wheel It will be seen that any movement of the units-indicating wheel will cause a corresponding movement of the reverse units-indicating wheel, thereby bringing into view at the point desired the appropriate one of the numerals from O to 9 arranged on the periphery of the reverse unitsindicating wheel.
  • the tens-indicating wheel and the reverse tens-indicating wheel are mounted on a sleeve 29, which revolves on the shaft 28.
  • the hundredsindicating and reverse indicating wheels are mounted on a sleeve 30, which revolves on the tens-sleeve 27, and the thousands-indicating and reverse indicating wheels are mounted on a sleeve 3l, which revolves on the hundreds-sleeve.
  • the mechanism for locking and unlocking the cashdrawer is shown in Fig. l.
  • the spurwheel R is rigidly fixed on the shaft X near the end.
  • Journaled on a stud in the frame of the machine and in engagement with the Wheel R is the spur-wheel S, of like diameter.
  • Projecting from the side of the wheel S is the pin 7, which operates to unlock the drawer, and the pin 8, which prevents the revolution of the shaft while the drawer is unlocked, as will be more fully explained.
  • the latch T Pivoted to the frame of the machine at at is the latch T, having the catch l, the stop-arm 2, and the lifting-arm 3.
  • the catch l rests in the socketlO of the cash-drawer F, thus locking the drawer, and the lifting-arm 3 is in position to be engaged by the pin 7 when the wheel S shall have nearly completed a revolution.
  • the catch l has projecting from its side the spring-dog 6, designed to be pressed back into a ⁇ recess in the catch by contact with the stop 5 on the drawer when the catch is lifted out of its socket and to spring back after the catch has passed the stop, thus preventing the catch from again descending into the socket.
  • Thestop has its underside beveled to facilitate the passage of the spring-dog 6 and is attached to the drawer F, and when the latter is opened the removal of the stop allows the catch l to fall upon the prop 9.
  • This prop is pivoted to the frame of the machine and is held against the back of the drawer by a spring ll. As the drawer is opened the prop is forced forward by the spring until its upper end is in position to support the catch l as the latter falls off the stop 5. The prop is held in this position by a suitable stop-pin 12 on the end of the prop, which engages the bottom of the casing, and when the draweris again closed is forced back into its original position, thus permitting the catch to fall into the socket l0 and lock the drawer. The catch 6 escapes the stop 5 by being below the same on the prop.
  • the indicating and adding wheels show 0 at the openings provided for the purpose, and the pointers of the racks are at zero on the index-plates.
  • the pawls or bolts (Z) are in such a position that a complete revolution of the shaft X will carry them by the disengaging-posts during the last tenth of the revolution.
  • the lugs c are in such position that a complete revolution of the shaft X will bring the bolts CZ against them at the beginning of the last tenth of the revolution, and just before the pawls reach the disengaging-posts the carrying sleeves G G G2 are in such position that the teeth will pass the gears n without engaging them, while the spurs m are in position to be acted upon, respectively, by the finger h and the pawls h2 and 7L of the adding-wheels.
  • the operation of the machine is as follows: Suppose the firstnumberto be added is 3,069.
  • the units-pointer is moved to 9 on its indexplate, the tens-pointer to (5, the thousandspointer to 3, while the hundreds-pointer is left at 0.
  • These movements of the racks revolve the indicating-wheels so as to show the corresponding figures through the openings in the case of the machine.
  • the movement of the units-rack from0to9 has carried the units-lug c a corresponding distance from its original position at 0-viz., nine-tenths of a revolution around the shaft X-and has left it so near the units-bolt cl that at the beginning of a revolution of the shaft X the bolt d will strike against it and be forced into engagement with the units-adding wheel E.
  • the movement of the tens-rack to 6 has carried the tens-lug c six-tenths of a revolution, or to such a position that the tens-bolt d will strike it during the fourth tenth of a revolution of the shaft X, and thus be forced into engagement with the adding-wheel E.
  • the hundreds-lug c remains in its original position, and the thousands-lug c has been moved threetenths of a revolution, so that the thousandsbolt d will strike it and be thrown into engagement with the thousands-adding wheel E3 during the seventh tenth of a revolution of the shaft X.
  • the lugs being in the positions above described, the operation of adding is completed by a revolution of the shaft X. During the first tenth of such revolution the units-bolt d impinges on the units-lug c and is driven into engagement with the units- IOO IIO
  • the continued movement of the shaft X causes the bolts to carry the adding-Wheels until during the last tenthof the revolution the shoulders of the bolts strike against the beveled faces of the disengaging-posts and are released from their adding-wheel.
  • the unitsadding Wheel has been carried nine-tenths of a revolution, the tens-adding Wheel six-tenths, the hundreds-adding Wheel no tenths, and the thousands-adding Wheel three-tenths.
  • the number now shown on the adding-wheels is 3,069.
  • the first step in this process is to setthe racks by bringing their respective pointers to the desired figures on the index-plates. This causes the indicating-Wheels to show (5,931. and moves the lug c to corresponding positions. Motion is then given to the shaft. As the hundreds-lug c is set at 9, its bolt dstrikes it and is driven into engagement with the hundreds-adding Wheel during the first onetenth of arevolution of the shaft.
  • the adding-Wheels After the adding-Wheels are thus engaged by their respective bolts they are each carried a number of tenths of arevolution corresponding to the numeral to be added.
  • the units-adding wheel has been carried one-tenth, the tens-adding Wheel three-tenths, the hundredsadding Wheel nine-tenths, and the thousands-adding wheel six-tenths of a complete revolution by the time their respective bolts have reached the disengaging-posts and have been disengaged from the Wheels.
  • the adding-Wheels at this point register 9,990.
  • the addition is then completed by the action of the carrying mechanism.
  • the pin 7L engages one of the spurs m and carries the sleeve G around until one of the segmental gears n is in a position to be engaged by the teeth t on the arm D', and as the bolts d begin to disengage from the adding-Wheels the teeth t engage the teeth of the segment n. lVhen thedisengagement of the bolts from the adding-Wheels is completed, the teeth t have turned the sleeve G to a point Where one of the arms o is in engagement with the tens-adding Wheel E.
  • the tens-adding wheel is carried by the arm o one-tenth of a revolution and brought to exhibit a cipher and the arm 0 clears it. Meanwhile the irst motion of the tens-adding Wheel produced by the arm o has brought the spring-paW-l h into engagement with one of the spurs m, thereby revolving the tens-sleeve G sufficiently to bring the teeth of one of the segments n into engagement with the teeth t, which are at the same instant broughtby the revolution of the shaft X into such engagement.
  • I claiml In a register,tl1e combination of an actuating-shaft, adding-wheel and setting-wheel, both loosely sleeved upon said shaft, a setting device for rotatorily adjusting said setting-wheel, a movable connection between said shaft and adding-wheel, actuated by said setting-wheel, a stationary stop for dissolving the connection, and a carrying mechanism actuated after said dissolution, substantially as described.
  • a setting device consisting of wheels mounted on the shaft, having inclined bearings thereon rotatorily adjustable beside said adding-wheels, rack-bars for independently adjusting said I setting-wheels, pawls carried by said shaft and actuated by said bearings, and stationary stops for moving the pawls back into the path of the bearings, substantially as described.
  • a setting device consisting of wheels having inclined bearings thereon and rotatorily adjusted on the shaft beside said adding-wheels, rack-bars for adjusting said setting-wheels, mechanism carried by said shaft actuated by said bearings to engage said adding-wheels, handles on said racks, indexes having corresponding numbers to the number on the adding-wheel, iiXed stops for disengaging the said mechanism, and carrying mechanism independently supported. relative to and actuated by the shaft, substantially as described.
  • a cash-register the combination, with an actuating-shaft, of a series of registerwheels loosely mounted thereon, a series of setting-wheels loosely mounted on the shaft, pinions on the setting-wheels, engaging means carried by the shaft and actuated by the setting-wheels, means for actuating the settingwheels by engagement with the pinions, a lock for said actuating means, and a connection between the loci; and actuating-shaft, substantially as described.
  • the combination with a rotary actuating-shaft, of a series of addingwheels loosely mounted thereon, means rigid on the shaft for moving said wheels as the shaft is turned, a stationary stop arranged to disengage said means prior to the complete revolution of the shaft, and a carrying mechanism actuated by the moving means during the continued movement of the shaft subsequent tothe movement of the wheels, substantially as described.
  • the combination in a cash-register, the combination, with an actuating-sliaft and registering mechanism, of a carrying mechanism independentof the shaft, means actuated by the shaft to set the carrying mechanism, and means on the shaft for actuating the carrying mechanism subsequent to the setting thereof, substantially as described.

Landscapes

  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Computer Hardware Design (AREA)
  • Computing Systems (AREA)
  • General Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • Cash Registers Or Receiving Machines (AREA)

Description

(No'ModeL) 4 sheets-sheen 1.
VPAINE. l CASH RBGISTERING AND ADDING MACHINE. A
Patented Sept. 20, 1892.
a u T z [Hafen/lor: 'Khan/12u15 ful/w Wzncsses:
(No Model.) 4 SheetsSheet 2.
C. PAINE. CASH REGISTERING AND ADDING MACHINE. N0. 483,009.
Patented Sept. 20, 1892.
[www/far.-
Wzl eases:
'lll ff @s (No Model.)A 4 sheets-smet 4.
C. PAINE. CASH RBGISTERING AND ADDING MACHINE.
Patented Sept..l 20, 1892.
@-8 B\ m 1 A. W mmm w E .IH Hll N1 H1 IN. ...m\\` N WH QN. N MN I Nl O.
N A Q AN --N- u N u www iwmml@ m --.i0 m W- @n MN A D l c www .N l A N mn ll 1l A. m m. nf-Bm.
fm1/enfer: Uh anlzmj Pauze UNITED STATES PATENT GEEICE.
CHANNING PAINE, OF NE\V YORK, N. Y.
CASH REGISTERING AND ADDING MACHINE.
SPECIFICATION forming part of Letters Patent No. 483,009, dated September 20, 1892.
Application led February 20, 1890. Serial No. 341,105i (No model.)
To a/ZZ whom, t may concernf Be it known that I, CHANNING PAINE, a citizen of the United States, and a resident of the city, county, and State of New York, have invented new and useful Improvements in Cash Registering and Adding Machines, of which the following is a specification.
This invention relates to new and useful improvementsin cash registerand indicating machines; and it consists in the peculiar construction of the registering mechanism and in the means employed for totalizing the amount registered.
The invention further consists in the peculiar construction of the indicating mechanism, and, further, in the peculiar construction, an rangement, and combination of the various parts, all as more fully hereinafter described..
In the accompanying drawings, Figure l is a front elevation of the registering and indicating mechanism, partly in section and with the actuating rack-bars removed, also show ing the case and cash-drawer. Fig. 2 is a vertical section through my improved machine and its case on line 9c of Fig. l. Fig. 3 is a cross- Section on line y @j in Fig. l. Fig. 4 is a detached elevation of the registering mechanism, as shown in Fig. 1,with the parts in different position. Fig. 5 is a front elevation of my machine. Fig. G is a detached perspective View of one group of the registering mechanismand its actuating rack-bar. Fig. 7 is an elevation of one of the totalizingwheels. Fig. 8 is an enlarged rear view of a portion of the upper and lower shafts with their several attachments.
The machine shown in the accompanying drawings is constructed to add numbers having four figures or less. The mechanism for adding units, which is substantially duplicated in the tens, hundreds, and thousands series, consists of the rack A, the setting-wheel I, with its geared hub B, revolving loosely on the actuating-shaft x, the lug c, the pawl or bolt d, carried by a suitable arm D, which is rigidly attached to the actuating-shaft 5c, the, adding-wheel E, which rotates freely on the actuating-shaft oc, and the disengaging-post a, fixed in the frame of the machine. The actuating-shaft .fr is journaled at each end of the frame of the machine, and each operation of adding requires its complete revolution by the crank C or other suitable means. The rack A slides in suitable bearings in constant engagement with the hub B.
Extending upward through the slot .e' is the arm or handle b, by which the operator slides the rack backward or forward. This slot is of such length that the extreme movement of the arm h causes the rack to rotate the settingwheel I nine-tenths of a complete revolution. A construction by which an endless chain is substituted for a rack would be equally feasible.
The arm b is provided with the pointer y, which travels over the index-plate n. This index-plate is divided into ten equal spaces for the numerals from O to 9, inclusive. The lug c, which is rigidly attached to the setting-wheel I, is brought by the movement of the pointer into any one of ten equidistant positions around the shaft x, corresponding to the numerals to which the pointer is moved. The oliice of the lug c is to drive the pawl or bolt d into engagement with the spokes P of the adding-wheel E, as hereinafter shown.
The setting-wheel is fitted with spur-gear to engage the indicating-wheels, as hereinafter described.
The arm D is rigidly attached to and ro tates with the shaft-a; and carries the pawl or bolt d. This bolt is designed to be moved by the lug c into engagement with the addingwheel E, it projecting between the spokes of the wheel, and as the arm D revolves with the revolution of the shaft @c the adding-wheel is also carried around the required number of tenths of a revolution. The bolt is then disengaged from the adding-Wheel by the fixed post a, which throws it back to a position ready to be again driven by the lug c in the next operation. The fixed part a is secured on a stationary part of the frame and extends out toward the adding-wheel lin the path of the projecting bolt. Its upper face is beveled or inclined downwardly toward the wheel E, as plainly shown in Fig. 6.
To cause the bolt to perform its functions, the contact-surfaces of the lugo and the bolt d are beveled, as shown. The end of the bolt toward the adding-wheel E is provided with a pin or teat and a shoulder 7o. strikes the beveled face of the post a, which is shown in Figs. 2 and G, thus throwing the ICO This shoulder teat back outot engagement with the addingwheel. This disengagement takes place during the last one-tenth of a revolution of the arm D.
The adding-wheel E, Figs. 2 and 4, rotates freely on the shaft a: and has ten teeth or spokes, on the ends of which the ten numerals are consecutively placed, as shown in Figs. l and 2. It is by the engagement of the bolt d with the appropriate one of these teeth or spokes that the adding-Wheel is carried the required number of tenths of a revolution in the process of adding. The space between the spokes is such that in an operation Where nothing is to be added on the wheel the bolt can be driven in between the spokes thereof by the lug and immediately removed by the post Without moving the adding-wheel. To hold the adding-Wheel in its proper position While at rest, the roller-spring r, Fig. 6,vvhich Works into the spaces between the spokes, is employed.
The office of the arm D ofthe units series is simplytocarrythepawlorboltd. ThearmsD, D2, and D3, respectively, of the tens, hundreds, and thousands series have the further office of actuating parts of the mechanism for earrying ten,7 as hereinafter described. For this purpose they are provided with the segmental gears t, which are placed on extensions D4, the arms in advance ot or in such relation to the bolts CZ that they will engage the parts to be actuated thereby after the disengagement of the bolts from the adding-Wheel, so that the part With Which the segment engages may be actuated thereby without moving the adding-Wheel. The teeth t are so placed on the tens-arm D as to begin their work a little in advance of those on the hundreds-arm D2, and those on the hundreds-arm begin their Work a little in advance of those on the thousands-arm D3. This arrangement is for the purpose ot securing successive action by the different series of the carrying mechanism, as will be more fully explained hereinafter.
The iinger 7L is rigidly attached tothe unitsadding Wheel E and is so placed that when the adding-Wheel has made nine-tenths of a revolution from its normal or starting position, at zero, the point of the finger is just ready to engage with one of the spurs m on the carrying-sleeve G, located on the shatt Z. Its ofiice isto turn the sleeve G part of a revolution upon the continued movement of the wheel E, and it performs this Work at the beginning ot the last tenth of a revolution of the units-adding Wheel.
The pawl hon the tens-adding Wheel E is pivoted to that Wheel. This paWl consists of a bar h4, pivoted to one ot the spokes at h5, its free end being held in place and allowed an inwardly-swinging movement by a spring m2, secured to one of the spokes, as shown in Fig. 4. Its office is to turn the carryingsleeve through part of a revolution at the beginning of the last tenth ot a revolution of the tens-adding Wheel, and it is so placed on the Wheel that its free end is just ready to engage one ot the spurs m ot the carryingsleeve G when the adding-wheel has completed nine-tenths of a revolution.
Under certain conditions it becomes necessary when the adding-Wheel is at rest for a spur m to pass from above or behind the pawl 7L to a position just in front of and ready to be operated by it at the next movement of the adding-Wheel. To permit this action, the free end of the pawl rests on a spring m2, Figs. 1 and 4, and when the spur m comes against the pawl the latter is forced back against the spring sufficiently to permit the spur to pass. As soon as the spur gets by the pawl the spring throws the pawl to its former position against the stop-pin 7L, ready at the next movement orn the adding-wheel to act on the spur m, which has thus come iu front of it.
The pawl h2 on the hundreds-adding Wheel F2 is identical in construction with the pawl 7L on the tens-adding wheel, and its action on its spur m is similar to that of the tens-adding Wheel.
The finger or pin 7b3 on the thousands-adding wheel E3 is designed to engage the teeth on the auxiliary carrying-Wheel, as hereinafter more fully shown.
The mechanism for carrying ten consists, in addition to the teeth on the paWl-arms, the fingers 7L and h3, and the pawls h', of the arbor e', parallel With the shaita, and the devices carried thereon. The sleeve G comes into action in carrying tcn from the units to the tens adding wheel. It revolves on the arbor e and consists ot' the spurs m, the mutilated pinion n, and the arms o 0. The sleeve also has the notches o, in which the spring o works to hold the sleeve in its proper positions. When the units-adding WheelE begins the last one-tenth of a complete revolution, the iinger 7L engages one of the spurs m, and the sleeve G is thereby turned suiiiciently to bring the teeth of one of the segments n into-a position ready to be engaged by the teethtot the arm D4. The position of the arms 0 o on the sleeve is such that When one of the segments n is ready to be engaged by the teeth t one of the arms o, While tree from the adding-Wheel E of higher denomination, is ready to engage a spoke. By the action of the teeth t on one of the segments n an arm o is brought into engagement with the spokes of Wheel E', and during the time that the teeth t are in engagement with the segment n the arm o drives the the tens-adding wheel one-tenth of a revolution and clears itself from the wheel. Until the sleeve has been moved by the tinger 7L of the units-adding Wheel the position of the sleeve will not permit the engagement of its segments 'an by the teeth t. The sleeve G makes but a half-revolution at one operation, and the spurs m m come into action alternately, as do the segmental gears n n of the mutilated pinion IZO andthe arms o o. The action of the teeth t on either of the segmental gears a a brings a spur m into a position to be engaged by the finger h ot' the units-adding wheel.
The sleeve G, which is operated in carrying ten from the tens to the hundreds adding Wheel, and the sleeve G2, which carries from the hundreds to the thousands adding wheel, are identical in construction with the units-sleeve G and all revolve on the arbor e.
To register thetotals of additions where such totals consist of more than tour iigures, the auxiliary adding-wheels H and the auxiliary carrying-Wheels tu are employed. The auxiliary adding-wheels rotate on the shaft x and are held in their proper position when at rest by the roller-springs fr fr. These wheels H, as shown in the drawings, have twenty equidistant teeth or spokes, on the ends ot which the ten numerals in successive order from O to 9, inclusive, are placed and repeated. Aconstruotion having ten spokes or any multiple ot tenis feasible, as is also onein which the setting-wheels and adding-wheels are arranged for multiples of ten. The auxiliary carrying-wheels w, as more plainly shown in Fig. 4, rotate freely on the arbor e. They extend laterally beyond the Wheels H and are in constant engagement with the teeth or spokes of the auxiliary adding wheels H. During the last one-tenth of a revolution of the thousands-adding wheel E3, the pin h3 engages theinnercarrying-Wheel w, and the engagement is ot such duration that itforces the wheel fw to drive the adding-Wheel H onetwentieth of a revolution, su leientl y to bring into view the number next above the one previously shown.
All the auxiliary carrying-wheels are similar in construction. The auxiliary adding- Wheels H have the pins f, the purpose of which is to engage the auxiliary carrying` wheel tu. These pins are so placed that one of them comes into such engagement at the end of each half of a complete revolution of the wheel carrying it--that is, when the movements of that wheel have broughtit around from O to 9. During the movement of this wheel from 9 to O a pinf is in engagement with one of the carrying-wheels w and causes the latter to drive the adjoining adding-wheel one-twentieth of a revolution, thus causing it to register a number one higher than that previously shown. Thelast ot' the series of adding-wheels in the machine illustrated has no pins. The auxiliary adding andcarrying mechanism maybe increased7 as desired7 to register higher totals.
To prevent movement of the racks during the revolution ot' the shaft X, a locking device is employed. The locking-rod W slides in suitable bearings under and at right angles to the racks A and is provided with the bolts 13, Figs. 2 and 3, to engage holes 14c in the racks, the number ot bolts on rod W corresponding to the number of racks A. To the end of the locking-rod nearest the crank is attaehed forms a stop for the crank C.
chine, the connection between the levers be- A ing made by a pivot-bolt e, which also unites the same with the rod WV. Opposite the free end of this lever V and sliding at right angles thereto in proper bearings through the frame of the machine is the push-pin W', the inner end of which comes in contact with the lever vV', and the outer end projects through the frame of the machine at such a point that it lVhen the shaft X is to be revolved, this stop is pushed inward out of the path of the crank to prevent a complete revolution of the same. The inward movement of the stop lV actuates the lever V', which in turn causes the end of the lever V to move, carrying with it the locking-rod lV, each bolt 13 of which is thus caused to entera hole 14 in its appropriate rack, thereby preventing any movement ot the rack. This movement of the lever also throws the free end of the lever V toward the wheel R and almost into contact with it. Vhen the shaft X, carrying this wheel, is finishing arevolution, the inclined lug 25 on the wheel R comes against the shoulder 23 of the lever V, Fig. 1, thereby forcing that end of the lever out. This movement kof the lever V slides the locking-rod W back sufficiently to disengage the lockingbolts 13 from the racks A, and also moves the lever V, the free end V2 of which forces the pin W out in time to stop the movement of the crank at the end of its revolution. A projection or head on the inner end of the pin prevents it from coming entirely through the case.
Forthe purpose of displaying each number added the indicating-wheels 26, Fig. l, are employed. These wheels are the size of the setting-wheels I, and are provided with teeth for the purpose of engaging them. A band attached to one side of each indicating-wheel gives space for the numerals from O7 to 9, inclusive, which are placed at equaldistanees from each other and in such relation to the setting-wheels that a movement of the racks A, which sets the setting-wheels for the addition of any number, brings the same number on the indicating-wheels into view through an opening provided for the purpose.
In order that any number may be indicated on the side ot the machine opposite the operator, the reverse indicatingwheels 27 are used. These wheels are operated, respectively, by the units, tens, hundreds, and thousands indicating wheelsin the following manner:
The reverse units-indicating wheel is rigidly attached to a shaft 28 at or near its end. This shaft rotates in bearings in the frame of the machine and has also rigidly attached to ICI IIO
it the units-indicating wheel. It will be seen that any movement of the units-indicating wheel will cause a corresponding movement of the reverse units-indicating wheel, thereby bringing into view at the point desired the appropriate one of the numerals from O to 9 arranged on the periphery of the reverse unitsindicating wheel. ln a similar manner the tens-indicating wheel and the reverse tens-indicating wheel are mounted on a sleeve 29, which revolves on the shaft 28. The hundredsindicating and reverse indicating wheels are mounted on a sleeve 30, which revolves on the tens-sleeve 27, and the thousands-indicating and reverse indicating wheels are mounted on a sleeve 3l, which revolves on the hundreds-sleeve.
The mechanism for locking and unlocking the cashdrawer is shown in Fig. l. The spurwheel R is rigidly fixed on the shaft X near the end. Journaled on a stud in the frame of the machine and in engagement with the Wheel R is the spur-wheel S, of like diameter. Projecting from the side of the wheel S is the pin 7, which operates to unlock the drawer, and the pin 8, which prevents the revolution of the shaft while the drawer is unlocked, as will be more fully explained.
Pivoted to the frame of the machine at at is the latch T, having the catch l, the stop-arm 2, and the lifting-arm 3. When the shaft X is in its normal position of rest, the catch l rests in the socketlO of the cash-drawer F, thus locking the drawer, and the lifting-arm 3 is in position to be engaged by the pin 7 when the wheel S shall have nearly completed a revolution. The catch l has projecting from its side the spring-dog 6, designed to be pressed back into a `recess in the catch by contact with the stop 5 on the drawer when the catch is lifted out of its socket and to spring back after the catch has passed the stop, thus preventing the catch from again descending into the socket. Thestophas its underside beveled to facilitate the passage of the spring-dog 6 and is attached to the drawer F, and when the latter is opened the removal of the stop allows the catch l to fall upon the prop 9. This prop is pivoted to the frame of the machine and is held against the back of the drawer by a spring ll. As the drawer is opened the prop is forced forward by the spring until its upper end is in position to support the catch l as the latter falls off the stop 5. The prop is held in this position by a suitable stop-pin 12 on the end of the prop, which engages the bottom of the casing, and when the draweris again closed is forced back into its original position, thus permitting the catch to fall into the socket l0 and lock the drawer. The catch 6 escapes the stop 5 by being below the same on the prop. When the shaft X is revolved nine-tenths of a revolution, it brings the pin 7 on the wheel R against the lifting-arm 3, and as the revolution is completed the pin lifts the latch T by contact with the trip out of the socket 10, thus liberating the cashdrawer, which is thrown openv by the spring 1l. One end of this spring is fixed to the frame of the machine and the other end presses against the back of the prop, which rests against the drawer when the latter is closed. When the revolution of the shaft X is completed, the pin 7 has cleared the liftingarm 3, and this allows the catch l to rest either upon the stop 5 or the prop 9. Then the latch is in this position,the stop-arm 2 is immediately in front of the pin 8 on the wheel S, thus preventing any motion of that wheel, and consequently of the shaft X.
When the machine is ready for its first operation the indicating and adding wheels show 0 at the openings provided for the purpose, and the pointers of the racks are at zero on the index-plates. The pawls or bolts (Z are in such a position that a complete revolution of the shaft X will carry them by the disengaging-posts during the last tenth of the revolution. The lugs c are in such position that a complete revolution of the shaft X will bring the bolts CZ against them at the beginning of the last tenth of the revolution, and just before the pawls reach the disengaging-posts the carrying sleeves G G G2 are in such position that the teeth will pass the gears n without engaging them, while the spurs m are in position to be acted upon, respectively, by the finger h and the pawls h2 and 7L of the adding-wheels.
The operation of the machine is as follows: Suppose the firstnumberto be added is 3,069. The units-pointer is moved to 9 on its indexplate, the tens-pointer to (5, the thousandspointer to 3, while the hundreds-pointer is left at 0. These movements of the racks revolve the indicating-wheels so as to show the corresponding figures through the openings in the case of the machine. The movement of the units-rack from0to9 has carried the units-lug c a corresponding distance from its original position at 0-viz., nine-tenths of a revolution around the shaft X-and has left it so near the units-bolt cl that at the beginning of a revolution of the shaft X the bolt d will strike against it and be forced into engagement with the units-adding wheel E. The movement of the tens-rack to 6 has carried the tens-lug c six-tenths of a revolution, or to such a position that the tens-bolt d will strike it during the fourth tenth of a revolution of the shaft X, and thus be forced into engagement with the adding-wheel E. The hundreds-lug c remains in its original position, and the thousands-lug c has been moved threetenths of a revolution, so that the thousandsbolt d will strike it and be thrown into engagement with the thousands-adding wheel E3 during the seventh tenth of a revolution of the shaft X. The lugs being in the positions above described, the operation of adding is completed by a revolution of the shaft X. During the first tenth of such revolution the units-bolt d impinges on the units-lug c and is driven into engagement with the units- IOO IIO
adding wheel. During the fourth tenth of the revolution of the shaft the tens-bolt d comes in contact With the tens-lug c and is driven into engagement With the tens-adding wheel E. During the seventh tenth of the revolution of the shaft the thousands-bolt d is driven into engagement With the thousands-adding wheel E3. As the hundreds figure is 0 it is not required that movement be given the adding-Wheel by means of the hundreds-bolt, and therefore that bolt does not strike the hundreds-lug c until the last tenth of the revolution, and it is immediately forced out of engagement with the wheel by the disengagingpost ce withoutmoving the Wheel. After each bolt has been thrown into engagement with the adding-Wheel, as just described, the continued movement of the shaft X causes the bolts to carry the adding-Wheels until during the last tenthof the revolution the shoulders of the bolts strike against the beveled faces of the disengaging-posts and are released from their adding-wheel. In this case the unitsadding Wheel has been carried nine-tenths of a revolution, the tens-adding Wheel six-tenths, the hundreds-adding Wheel no tenths, and the thousands-adding Wheel three-tenths. The number now shown on the adding-wheels is 3,069. If now we add 6,931 to the foregoing, the operation of the carrying mechanism and of the first auxiliary adding-wheel and its carrying-wheel will be shown. The first step in this process is to setthe racks by bringing their respective pointers to the desired figures on the index-plates. This causes the indicating-Wheels to show (5,931. and moves the lug c to corresponding positions. Motion is then given to the shaft. As the hundreds-lug c is set at 9, its bolt dstrikes it and is driven into engagement with the hundreds-adding Wheel during the first onetenth of arevolution of the shaft. The next bolt tobe thrown into engagement with its adding-wheel is d of the thousands series, which impinges against the lug c during the fourth tenth of a revolution, the thousands-lugs be ing set at 6. Next follows the action of the mechanism of the tens series, the lu g of'which is set at 3, and therefore causes the engagement of the tens-bolt with the tens-adding wheel during the seventh tenth of the revolution of the shaft. Finally, the units-bolt strikes the units-lug, which is set at 1, and is caused to engage the adding-wheel during the ninth tenth of the revolution of the shaft. After the adding-Wheels are thus engaged by their respective bolts they are each carried a number of tenths of arevolution corresponding to the numeral to be added. By the action just described the units-adding wheel has been carried one-tenth, the tens-adding Wheel three-tenths, the hundredsadding Wheel nine-tenths, and the thousands-adding wheel six-tenths of a complete revolution by the time their respective bolts have reached the disengaging-posts and have been disengaged from the Wheels. The adding-Wheels at this point register 9,990. The addition is then completed by the action of the carrying mechanism. As the units-adding Wheel E enters upon the last tenth of its revolution the pin 7L engages one of the spurs m and carries the sleeve G around until one of the segmental gears n is in a position to be engaged by the teeth t on the arm D', and as the bolts d begin to disengage from the adding-Wheels the teeth t engage the teeth of the segment n. lVhen thedisengagement of the bolts from the adding-Wheels is completed, the teeth t have turned the sleeve G to a point Where one of the arms o is in engagement with the tens-adding Wheel E. As the shaft X completes the last tenth of its revolution the tens-adding wheel is carried by the arm o one-tenth of a revolution and brought to exhibit a cipher and the arm 0 clears it. Meanwhile the irst motion of the tens-adding Wheel produced by the arm o has brought the spring-paW-l h into engagement with one of the spurs m, thereby revolving the tens-sleeve G sufficiently to bring the teeth of one of the segments n into engagement with the teeth t, which are at the same instant broughtby the revolution of the shaft X into such engagement. During this engagement one of the arms o is brought into engagement with the hundreds-adding Wheel E2 and causes it to make one-tenth of a revolution, thus bringing it to exhibit a Zero. rlhe first motion of the hundreds-adding wheel has brought the spring-pawl h2 into engagement with one of the spurs m of the hundreds-sleeve G2, and action similar to that which took place in the case of the tens-sleeve has caused the arm o to move the thousands-adding wheel one-tenth of a revolution and bring it to 0.7 The movement of the thousands-adding wheel E3, caused by the arm o, has carried the pin h3 into engagement with the first auxiliary carrying-wheel w and driven the latter a sufficient distance to cause it to move the rst auxiliary adding-Wheel Il one-twentieth of a revolution. This has caused the wheel H to register 1, and thus the sum of the addition, which is 10,000, is registered. In cases Where 9 is registered on the tens-adding Wheel and l077 is to be added to the wheel by the combined action of the tens-bolt d and the carrying mechanism-as, for example, when 95 is registered on the adding-wheels and 95 is to be added thereto-the springpawl 7L comes into position ready to engage one of the spurs m before the spur has come around into the position for such engagement. In such cases the spur must get by and in front of its spring-pawl. 'lo effect this, it bears upon and depresses its pawl sufficiently to get by it, and as soon as it has passed the spring brings the pawl into its proper position to engage with its spur. The pawl is prevented by a stop-pin from being forced too far by the spring. The action in case of the hundreds-wheel is the same under similar circumstances.
IOO
ITO
I do not desire to limit my invention to a cash-register in which a complete revolution of an adding-Wheel makes an addition of ten, as practically the same mechanism can be applied to a machine where a complete revolution of an adding-wheel makes an addition of twenty or of any multiple of ten.
I claiml. In a register,tl1e combination of an actuating-shaft, adding-wheel and setting-wheel, both loosely sleeved upon said shaft, a setting device for rotatorily adjusting said setting-wheel, a movable connection between said shaft and adding-wheel, actuated by said setting-wheel, a stationary stop for dissolving the connection, and a carrying mechanism actuated after said dissolution, substantially as described.
2. In a register, the combination of an actuating-shaft, a series of totalizing addingwheels and setting-wheels, all of which are loosely sleeved upon said shaft, setting devices for rotatorilyr adjusting said setting- Wheels in relation to the amount to be registered on the adding-wheels of lowest denominations, a connection between said shaft and adding-wheels actuated by said settingwheels, a fixed stop for dissolving the connection, and carrying mechanism actuated after said dissolution, substantially as described.
3. In a cash-register, the combinationavith an actuating shaft and means by which the shaft is actuated, of adding-wheels loosely mounted on the shaft, setting-wheels loosely mounted on the shaft adjacent to the addingwheels, means actuated by the setting-wheels for forming connections between the shaft and adding-wheel, movable rack-bars for rotating the setting-wheels, means for dissolving the connection, and carrying mechanism actuated subsequent to the dissolution, substantially as described.
4. In a cash-register, the combination, with the actuating-shaft and adding-wheels loosely mounted thereon, of a setting device consisting of wheels mounted on the shaft, having inclined bearings thereon rotatorily adjustable beside said adding-wheels, rack-bars for independently adjusting said I setting-wheels, pawls carried by said shaft and actuated by said bearings, and stationary stops for moving the pawls back into the path of the bearings, substantially as described.
5. In a cash-register, the combination, with the casing, the actuating-shaft, and addingwheels carried by the shaft, of a setting device consisting of wheels having inclined bearings thereon and rotatorily adjusted on the shaft beside said adding-wheels, rack-bars for adjusting said setting-wheels, mechanism carried by said shaft actuated by said bearings to engage said adding-wheels, handles on said racks, indexes having corresponding numbers to the number on the adding-wheel, iiXed stops for disengaging the said mechanism, and carrying mechanism independently supported. relative to and actuated by the shaft, substantially as described.
6. In a register, the combination of an actuating-shaft, a series of adding-wheels on the same, and setting means loosely sleeved upon said shaft, a setting device for rotatorily adjusting said setting means in relation to the adding-wheels of lowest denomination, a movable connection between said shaft and adding-wheels, carried by the shaft and actuated by said setting-wheels, and carrying mechanism for the adding-wheels, loca-ted to one side and operated subsequent to the operation of the adding-wheels, substantially as described.
7. In a register, the combination of an actuating-shaft, a series of adding-wheels and a setting-wheel, all of which are loosely sleeved upon said shaft, a setting device for rotatorily adjusting said setting-wheel in relation to the adding-wheel of lowest denomination,a movable connection carried by the sha ft between said shaft and adding-wheel, actuated by said setting-wheel, a stop for dissolving said connection, and carrying actuating mechanism on said shaft in the rear of said connection for acting after the dissolution of said connection, substantially as described.
8. In a register, the combination of a rotary shaft, a series of adding-wheels upon said shaft, engaging mechanism carried by the shaft and intermediate between said shaft and each of said wheels, setting mechanism adapted to throw said engaging means into engagement differentially, and a lock for such setting mechanism during the rotation of the actuating-shaft, substantially as described.
9. In a cash-register, the combination, with an actuating-shaft, of a series of registerwheels loosely mounted thereon, a series of setting-wheels loosely mounted on the shaft, pinions on the setting-wheels, engaging means carried by the shaft and actuated by the setting-wheels, means for actuating the settingwheels by engagement with the pinions, a lock for said actuating means, and a connection between the loci; and actuating-shaft, substantially as described.
10. In a register, a rotary actuating-shaft, an adding-wheel and a setting-wheel journaled upon said shaft, a pinion secured to said setting-wheel, setting mechanism and a lock applied to the setting mechanism during the movement of the actuatingshaft, and means for disengaging said lock at the completion of such movement, substantially as described.
1l. In a register, the combination, with the actuating-shaft, adding-wheels loosely mounted thereon, and setting mechanism, of a pawl carried by said shaft arranged to engage one of said wheels, a movable lug carried by the setting mechanism, engaging the pawl for throwing the pawl into engagement with the adding wheel, and a stationary stop with IOC TOS
IIO
IIS
which the pawl engages for throwing the pawl out of engagement with the adding-wheel, substantially as described.
l2. In a register, the combination, with the actuating-shaft, addin g-wheels loosely inou nted thereon, and setting mechanism, of a pawl carried by said shaft adapted to engage with one of said wheels, a movable lug carried by said shaft and controlled by the setting mechanism for throwing the pawlinto engagement with the Wheel, and a stationary stop for throwing the saine out of engagement with the said Wheel, substantially as described.
13. In a cash-register, the combination, with a rotary actuating-shaft, of a series of addingwheels loosely mounted thereon, means rigid on the shaft for moving said wheels as the shaft is turned, a stationary stop arranged to disengage said means prior to the complete revolution of the shaft, and a carrying mechanism actuated by the moving means during the continued movement of the shaft subsequent tothe movement of the wheels, substantially as described.
14C. In a cash-register, the combination, with a rotary shaft carrying a series of addingwheels, means for causing an independent and limited rotation of the wheels, aud a carrying mechanism, of an intermediate connection rigid on the shaft for actuating said carrying mechanism, substantially as described.
15. In a cash-registei', the combination, with an actuating-shaft, of adding-wheels loosely mounted thereon, a pawl mounted on a suitable arin rigid on the shaft, a rotary setting mechanism on the shaft, an inclined. bearing on the setting mechanism, engaging the pawl, and stationary means for forcing the pawl back, substantially as described.
16. In a cash-register, the combination of a sleeve G, having the spurs m m, the mutilated pinions n, n, and the arms o o, in combination With an adding-wheel having linger h and an arm having teeth t engaging said pinion, substantially as described.
17. In a cash-register, the combination, with a shaft carrying a series of two or more adding-wheels rotating freely thereon and a movable series of segmental spur gear-wheels rigidly Xed on the shaft alternately with the adding-wheels, of an arbor parallel to the shaft and carrying the mechanism by which each higher adding-wheel is caused to make onetenth of a revolution whenever the addingwheel next below it has made a complete revolution,substantially as described.
1S. In acash-register, the combination, with a register-actuating shaft carrying a crank, of means for setting the register, a lock for said means, a sliding pin arranged in the path of the crank, and means for locking the pin in the path of the crank and simultaneously unlocking the setting means, substantiallyas described.
19. In a cash-register, the combination, with the actuating means, of a cash-drawer, a lock for the drawer7 means actuated by the actuating means for unlocking the drawer, and a stop on the drawer-lock, engaging the unlocking means for preventing the movement of the actuating means, substantially as described.
20. In acash-register, the combination, with the registeractuating means, of a cashdrawer, a lock therefor, means actuated by said aetuatingmeans for unlocking the drawer, and means carried by the drawer-lock for preventing the movement of the actuating mechanism when the drawer is unlocked, substantially as described.
2l. In a cash-register, the combination, with the register-actuating means and m eans for setting the register, of a lock for the setting means, a lock for the actuating means, and mechanism for alternately actuating the locks, substantially as described,
22. In acash-register, the combination, with an actuating-shaft, of adding and setting wheels mounted loosely thereon, movable means carried by the shaft, actuated by the setting-wheels to engage the adding-wheels, a carrying mechanism, and means on the carrying mechanism alternately actuated directly by the adding-wh eels and shaft, substantially as described.
23. In a cash-register, the combination, with the adding-wheels and a shaft for actuating the same, of a carrying mechanism independent of the shaft, means on the carrying mechanisin engaged by the adding-wheels, and a fixed projection on the shaft, engaging the carrying mechanism subsequent to the engagement of the same and adding-wheels, substantially as described.
24. In a cash-register, the combination, with an actuating-sliaft and registering mechanism, of a carrying mechanism independentof the shaft, means actuated by the shaft to set the carrying mechanism, and means on the shaft for actuating the carrying mechanism subsequent to the setting thereof, substantially as described.
25. Ina cash-register, the combination, with the registering means, of a totalizing-registeractuating means, a setting device for the totaliziiig-register-actuating means, and means operated by the operation of the register to actuate the totalizing register n actuating means, substantially as described.
In testimony that I claim the foregoing as my invention I have signed my name, in presence of two witnesses, this 17th day of February, 1890.
CIIANNING PAINE.
lVitnesses:
W. D. THURMOND, E. G. BUCHANAN.
IIO
US483009D paine Expired - Lifetime US483009A (en)

Publications (1)

Publication Number Publication Date
US483009A true US483009A (en) 1892-09-20

Family

ID=2551860

Family Applications (1)

Application Number Title Priority Date Filing Date
US483009D Expired - Lifetime US483009A (en) paine

Country Status (1)

Country Link
US (1) US483009A (en)

Similar Documents

Publication Publication Date Title
US483009A (en) paine
US616866A (en) Cash register
US640966A (en) Cash-register.
US368528A (en) Calculating-machine
US585565A (en) Cash-register
US773158A (en) Cash-register.
US480613A (en) Cash register and indicator
US401725A (en) Cash indicator and register
US700748A (en) Combined mechanical cashier and register.
US385265A (en) Cash indicator
US1146983A (en) Cash-register.
US567066A (en) Cash register and indicator
US347296A (en) hopkins
US1269876A (en) Calculating-machine.
US583889A (en) oleal
US638097A (en) Calculating-machine.
US369193A (en) Cash register and indicator
US469003A (en) weiss
US1051922A (en) Counting mechanism.
US1190416A (en) Cash-register.
US579604A (en) pfeifer
US482760A (en) sharpe
US555038A (en) dudley
US408036A (en) Cash indicator and register
US486980A (en) Cash-register