DE753903C - Typewriter with an automatic multiplier - Google Patents

Description

Typewriter. with automatic multiplier die The invention relates to a typewriter with an automatic multiplier device, both factors using the same keyboard (ten key pad) and by from this adjustable setting and transmission elements in from the tabulating process of the paper carriage selectable gear trains to be brought into engagement with the transmission organs the multiplier.

That of pressing an arithmetic key to form a factor value certain path of the transmission organs is known from these, depending on it is a multiplier or a multiplicand value, either in a multiplier setting unit or transferred to a multiplicand setting unit. The selection of one or the other gear train is done in a known manner and Way depending on the tabulation movement of the typewriter paperboard preset in such a way that one time and the other time the other factor setting mechanism is inserted into the transmission organs. This optionally inserting the one or of the other plant in the transmission organs -is in such multipliers possible, where the multiplier work, the multiplicand work and the product work are each arranged separately on axes lying parallel to one another. However, if, as in the present case, the greatest value is placed on the simplest structure and the least Dimensions of the multiplier by a) the transmission organs as a multiplicand setting mechanism used, b) both the multiplier and the product works together a single axis and c) the insertion of the last two works in the Controls transmission organs from one point, so it is necessary when touching of the multiplier the insertion of the two gear trains (product plant and multiplier plant) to enable the transmission organs, on the other hand, the insertion of the two gear trains in the transmission organs when keying in the multiplicand because a part of the 'transmission organs already serve as multiplicand adjusting members target.

The invention solves this problem by a function of the Tabulation movement of the paper trolley optionally on and off switchable locking device, when the multiplicand is keyed in, it is transferred to the product plant premature limitation of the movement of the product plant into the value transfer organs prevented., In the drawings. is, for example, an embodiment of the subject matter of the invention shown, namely Fig. i shows a diagrammatic representation seen from the front left a typewriter in which the invention is installed, Fig. 2 a left Side view of the typewriter, with the casing housing and the left section of the multiplier as well as various individual parts that are not important here the same have been omitted, Fig. 3 is a plan view of the machine, wherein, but mainly. only the multiplier and individual parts of the paper cart and the drive linkage for the one jumping from decimal place to decimal place Factor transmission organ is shown, Fig.q. one seen from the left front Diagram of the locking device according to the invention and those parts the movement of which is prevented by the locking device, Fig.5 is a schematic Top view of part of the driver linkage and the multiplying process steering gear and rod gears of the multiplier in the normal position. Fig. 6 is a left side view of a section from Fig.2, but with the locking device of the invention is shown in the effective action.

The device of the invention is built into a typewriter, those with a multiplying device for automatically multiplying two factor values is equipped. The multiplier i (Fig. 3) is to the left of the actual frame 2 of the typewriter arranged and is essentially as follows: Description of the multiplying device A frame 3 (Fig. 2 and 3) is by means of connecting bars q. firmly to the typewriter frame 2 connected. A carrier 5 is screwed onto it, on which two prism rails 6 and 7 (Fig. 2) a slide 8 slides horizontally. At this one is a U-shaped member 9 is attached, a U-shaped bracket ii pivotable on its axis io is arranged. On a connecting rod 12 of the bracket ii are right and left each a lever 13 pivotally mounted, the. by means of pin slot guides 15, 14 at Pivoting the bracket i i can be moved in the vertical direction. Both levers 13 are connected to one another by an axle 16. On this axis are from the left to the right initially seven gears 17 (Fig. 5) rotatably arranged, which the Record multiplier value and then fourteen gears 18 also rotatable arranged, in which the product is formed by the multiplication process.

The bracket 'ii is in drive connection with rollers i9 (Fig. 3 and ¢) of two lever arms 2o. The latter are fixedly arranged on a shaft 2i, which is itself rotatably mounted in two bearing parts 22 and 23 screwed to the frame 3 and is controlled by a pivot member 26 via a claw coupling 2q., 25. The pivot member 26 is two-armed, with a tension spring 27 acting on the upper arm, which permanently influences the pivot member 26 in the reverse clockwise direction of rotation, whereby the lower arm of the pivot member 26 carrying a roller 28 with its roller 28 is permanently in contact with the circumference of a Cam 29 is held. The cam 29 is rotatably mounted on the left, protruding from the machine frame e end of a drive shaft 3o driven clockwise by the motor of the machine, and is made by means of a claw coupling 31, 32 (Fig.q.) With the usual, normally the automatic sum pull The drive coupling 33 controlling the counters of the machine is connected. After suitable preparation of the machine for multiplication work, the latter is coupled to the drive shaft 30 with every keystroke of the usual arithmetic keys 34 (Fig: i) for the purpose of introducing the factor values into the multiplier device according to patent 7227 648, whereby both the drive coupling 33t and the cam 29 participate in the rotation of the drive shaft 3o in the clockwise direction of rotation. After a short rotation, the cam 29 with its raised cam section 29a leaves the roller 28 of the pivoting member 26, whereby the latter is swung out by its spring 27 in the reverse clockwise direction, the roller 28- rolling on the lower cam section 29b of the cam 29-. The pivoting member 26 takes along the shaft 21 during its pivoting movement via the coupling 24, 25, so that this and its lever arms 2o also experience a pivoting movement in the reverse clockwise direction of rotation. Through the roller groove connection i9, ii pivot the lever arms zo the bracket ii clockwise about its bearing axis io (Fig. 2), whereby the lever 13 with its connecting axis 16 and the bearing on this. ten gear trains. 17 and i8 -move vertically downwards. The multiplier wheels 17 and some of the product work wheels 18 come into engagement with the toothed racks of a toothed rack system 3.5 (FIGS. 2 and 5) which lie opposite them and are arranged displaceably in the frame 3. The racks of each decimal place of this system 35 are controlled by a gearwheel of a transmission gear train 36. This gear train 36 is mounted on an axle 37 fastened in the frame 3. The drive of the wheels 36 takes place one after the other in decimal places from a feed wheel 3, 8, which is displaceable. but non-rotatably seated on a shaft 39 rotatably mounted in the frame 3 and depending on the tabulating and stepping movement of the paper carriage 40 (Fig. 2 and 3) of the typewriter by tabs 41 or 41a via a driver linkage 42 to 44 and a transmission gear 45 to 47 and a carriage 48, 49 moved by it is displaced on the shaft 39 in such a way that the wheel 38 comes into engagement with the wheel of the gear train 36 corresponding to the decimal place determined by decimal tabulation. If, according to the patent 727 648, the drive shaft 39 receives a clockwise drive path corresponding to the digit size of the actuated arithmetic key when a calculation key 34 is hit for the purpose of introducing a factor value into the multiplier gears 36, 35 and 17, the feed wheel that rotates with the shaft 39 transmits 38 its rotary motion on the meshing wheel of the gear train 3-6. The wheel of the gear train 36, which is thereby rotated in the opposite clockwise direction, in turn moves the rack of the rack and pinion system 35 controlled by it in the direction of the arrow 50 forwards. This rack in turn rotates the wheel of the product work wheels 18 or the multiplier work wheels 17 brought into engagement with it in the reverse clockwise direction so that the keyed in value is entered in the multiplier work 17 or, unless special precautions are taken, in the product work 1.8.

For selecting the appropriate rack from the rack system 35 take care of the tabs 41, 5111 of the paper cart 40, which over the parts 42 to 49 when tabulating the paper carriage 4o, the feed wheel 38 on the shaft 39 in this way shift that when keying in the multiplicand value within the range marked with 51 (Fig. 5) marked area of the rack system 35 one of the tabulated decimal places selects the corresponding rack and when keying in the multiplier value within of the area marked with 52, the rack system 35 one of the tabulated Selects the corresponding rack Describe the multiplicand value in the product work wheels 18 and the multiplier value are screwed into the multiplier wheels 17.

The multiplication of the two factor values takes place here in the manner described below. The multiplicand value is added several times during the multiplication process in the product unit 18, the number of addition being derived from the numerical size of the multiplier unit. The additions of the multiplicand value itself are controlled by the racks of the rack system 35 located within the area 51 (FIG. 5). According to what has been said above, however, as a result of the gear trains 17, - 18 being inserted into the rack system 35, the multiplicand value would already be transferred once to the product train 18 when it was keyed in. Understandably, this would result in a defective product in product formation. To counter this, the following device has been provided according to the invention. Arrangement of the device of the invention On the support 5 of the frame 3 (Figs. 2 and 3) a bearing piece 54 is fixed by means of screws 53. A locking lever 56 (FIGS. 2 and 4) is pivotably arranged on this on a bearing screw 55. The locking lever 56 is equipped with a locking lug 57 on its arm protruding downward. After pivoting the locking lever 56 in the clockwise direction, this can interact with a lug 58 arranged on the bracket ii. A pull rod 6o is articulated by means of a screw 59 on the upper cranked arm of the locking lever 56. The pull rod 6o consists in and of itself of two individual rods, which, however, are connected to one another in an adjustable manner by means of a screw-slot connection. The rearwardly protruding end of the pull rod 6o is articulated to an angle bracket 162 by means of a screw 61. The latter is rotatably mounted on a bearing screw 63, which is itself screwed into a bearing bracket 64, which in turn is fastened to the rear wall of the frame 3 by means of screws 6-5 (Fig. 2). The forward-projecting arm of the angle lever 62 (Figs. 2 to 4) is bent at its end 66 and rotatably carries a roller 68 on a rivet 67 7o from. The cam piece 7o is arranged on the slide 48, 49 in such a way that it acts on the parts 68, 62 when the insertion wheel 38 (FIG. 5) moves within the area 52 of the rack system 35. The readiness of the roller 68 of the angle lever 62 to sense the cam piece 70 is ensured by a tension spring 71 (Fig. 2) acting on the angle lever 62, which gives the angle lever 62 a permanent pivoting movement in the clockwise direction, whereby in the normal position of the carriage 48, 49 (Fig. 3) the roller 68 rolls on the curve piece 7o and thereby the parts 62, 6o, 56 assume the rest position according to FIG. In this rest position, the locking lever 56 with its locking lug 57 lies outside the path of movement of the lug 58 of the bracket ii.

Mode of Operation of the Invention For the purpose of keying in the multiplicand value, the operator of the machine tabulates the paper trolley 40 (FIG. I) with the vertical counter 72 storing the multiplicand value in the working position. When this takes place to the left, the paper trolley 40 grips the driver hook 421 of the driver linkage 43 with the rider 41 (FIG. 3) and takes it with it to the left. The driver linkage moves the carriage 49 to the right via the gear mechanism 44 to 48, whereby the feed wheel 38 is brought into engagement with the wheel 36 corresponding to the decimal tabulated arithmetic point within the area 51 (Fig. 5) of the rack system 35. When the carriage 48, 49 (Fig. 4) moves to the right, the cam piece 70 also moves from the. Roll 68 of the angle lever 62 away, so that now the angle lever 62 can pivot under the action of its tension spring 71 in a clockwise direction about its bearing screw 63, after which its roller 6'8 rolls on the toothed rail 48.

During the pivoting movement of the angle lever 62, it moves the rod 6o forward, which in turn swings the locking lever 56 clockwise around the bearing screw 55 from the rest position according to Fig. 2 into the active position according to Fig. 6. In this position, the locking lever 56 engages with its locking lug 57 under the lug 58 of the bracket ii.

If the operator now depresses one of the arithmetic keys 34 (Fig. I) and the cam disks 33, 29 (Fig. 4) are then coupled to the main drive shaft 30 , the parts i9 to 28, although the cam disk 29 rotating in a clockwise direction with its raised curve section 29a rolls off the roller 28 of the roller lever 26, do not follow the influence of the tension spring 27, ie do not swivel out in the reverse clockwise direction, since the rollers i9 of the lever arms 2o cannot move the bracket ii secured by the lock 57, 58 downwards. As a result, the gear trains 17 and 18 are not inserted into the rack system 35, so that in this way the multiplicand value is only introduced into the rack system 35 when keying in, but not into the product system 18.

After all decimal places of the multiplicand value have been keyed in, the driver hook 42 (Fig. 3) of the driver linkage 43 to 47 slips off the rider 41 again, whereby the parts 43 to 47 return to the rest position according to Fig. 3 under the tension of the spring 43a . The slide 48, 49 is also moved to the left again, the curve piece 70 with its left rising curve part 7oa again acting on the roller 68 of the angled lever 62 and counteracting the action of its spring 71 in the reverse clockwise direction from the effective position according to Fig. 6 pivots into the normal position according to Figs. The angle lever 62 pulls the rod 6o backwards again, which in turn pivots the locking lever 56 in the reverse clockwise direction so that it comes to rest with its locking lug 57 again from the area of the lug 58 of the bracket ii.

The keying in of the multiplier is initiated by a further tabulation process of the paper carriage 4o (Fig. 3), with the rider 41a moving the carriage 48, 49 and its insertion wheel within the area 52 (Fig. 5) of the rack system 35 via the driver linkage 42 to 47 . Within this width range, however, the roller 68 (FIG. 4) of the angle lever 62 rolls continuously on the cam piece 70, as a result of which the parts 62, 6o and 56 remain in their normal position. Accordingly, the lock 57, 58 also remains open, so that, depending on the rotation of the cam plate 2.9, the parts 9 to 28 after the release of the roller 28 by the raised cam part 29a follow the influence of the tension spring 27, the bracket ii and the parts i-2 to 18 (Fig. 2) are moved downwards, so that the gear trains 17 and 18 are brought into engagement with the toothed rack system and consequently the multiplier value is simultaneously introduced into the 35 and into the Muhiplikatorwerk 17 when keying in.

Claims (4)

PATENT CLAIMS: i. Typewriter with automatic multiplying device, both factors being transmitted via the same keyboard (Zehntastentastatut7) and by means of setting and transferring elements that can be regulated by the latter into gear trains to be brought into engagement with the transferring elements of the multiplying device, characterized by a locking device (56, 57, '58) which can be switched on and off depending on the tabulation movement of the paper carriage (4o), which when the multiplicands are entered into the product plant (i8) by preventing the product plant (i8) from interacting with the Value transfer organs (35) prevented. 2nd machine according to claim i, characterized in that a function of the paper carriage movement controlled swivel piece (56) of the locking device optionally in the path of movement that determines the movement of the product (i8) into the transfer organs (35) Handlebar (i i) can occur. 3. Machine according to claims i and 2, characterized in that that at the participant in the paper cart movement and the decimal place of the transmission organs (35) selecting carriage (48, 49) a control cam (70) is arranged, which. sensed by a sensing link chain (62, 6o) connected to the pivot piece (56) will. 4. Machine according to claims i to 3, characterized in that the control cam (7o) of the carriage (48, 49) is designed such that it is within the width range (52) that can be selected for transferring the multiplier to the multiplier unit (i7) Decimal places of the transmission organs (35) the pivot piece (56) out of the blocking position to the handlebar (ii) controls and they (7o) within the width range (5i) of the for the inclusion of the multiplicand serving selectable decimal places of the transfer organs (35) controls the swivel piece (56) in the locked position to the handlebar (i i).