DE1001026B - Adding machine - Google Patents

Description

Calculating machine The subject of the main patent 933 665 is a. Calculating machine, in particular a four-species computing machine, in which by actuating a control or Operative member, in particular a function key, a main operation; original resolved or is carried out and in which the machine is designed such that the Main operation an auxiliary operation that precedes and / or follows automatically assigned.

As an embodiment, a motor-driven one is in the main patent Staggered roller calculating machine has been described in which to achieve one of the Movement of the main rake shaft upstream and downstream auxiliary movement represents the coupling the main arithmetic shaft on the engine provided single-speed clutch a secondary clutch is assigned in such a way that when the control linkage is actuated for the coupling of the arithmetic unit to the drive motor first the secondary clutch for implementation an auxiliary movement is switched on shortly before the end of this auxiliary movement the main clutch is switched on, while the secondary clutch is switched off again is, and after one or more revolutions of the Hauptreclienwelle the main clutch switched off again and the secondary clutch after the main rake shaft has finished moving is switched on for the purpose of returning the auxiliary movement.

In because the main patent is proposed., By means of the secondary clutch to use generated auxiliary movement for pivoting an auxiliary control shaft and by means of the movement of this auxiliary control shaft set numerical values in a keypad by scanning slide on the setting wheels. to transfer the relay rollers. on this way it is possible to use the keys to key in digit values into the calculator from relieving additional adjustment work.

In calculating machines of the type mentioned, the arithmetic unit is always in motion in the same direction of rotation. The switching of the mostly shiftable in a decade Counters provided for slide in the additive or subtractive sense takes place here in such a way that slidably mounted double bevel gears on square shafts one side or the other with corresponding drive bevel gears of the counters be coupled. This coupling and uncoupling must be carried out in order to avoid calculation errors or after the actual arithmetic operation of the arithmetic unit. To this end it is known, the coupling of the arithmetic unit with the counters when pressing down the function keys for plus or minus calculations. This creates however, the disadvantage is that the function keys for calculating become difficult to use. Another known proposal is to use e.g. B. on the main arithmetic shaft to provide with a locking disc that is normally at rest Lying in the detent., attached to a pivot lever role cooperates. When the one-turn clutch is triggered to switch on the arithmetic unit, it is then possible to use the role and the associated lever the coupling between the calculator and the Counters are manufactured. By means of a corresponding reversing device, this coupling takes place both in the additive and subtractive sense. Such a one Training the double bevel gear adjustment on Thomas machines avoids that Disadvantage of the sluggishness of the corresponding function keys: but brings that Another disadvantage with it that part of the angular path of the main arithmetic shaft zurr Carrying out this on, and uncoupling movement is required for the actual Computing process is thus lost. This angular path must therefore be kept very short, so that the switching on and off of the double bevel gears from the counters in a very short period of time, what is noisy and stressful the machine takes place Results in blows.

To avoid the disadvantages outlined above, the after. Main patent proposed device for performing one of the arithmetic operations upstream or downstream auxiliary operation also for coupling and uncoupling of an or several counters of the calculating machine can be used on the calculating unit. After Invention is therefore proposed, the auxiliary movement already generated in the calculating machine an auxiliary control shaft for. Switching the double bevel gears on and off, d. H. to the Adjustment of the adjustment rail provided for this purpose. This can be, for example done in such a way that the one that enforces the calculating machine Auxiliary control shaft is provided with an eccentric or a lever that has a Shift linkage to the known per se, for double bevel gear adjustment and for Locking the slide movement serving shift linkage engages.

The measure proposed according to the invention achieves that switching on and off: the counters of the arithmetic unit still so, slowly and takes place steadily that no hard impacts occur in the machine. Also stays with Continuous calculating the device switched on until the end without additional Measures are required for this.

This is done in the calculating machine described in the main patent Activation of the rake movement and the transport movement via two control shafts in the machine which are interlocked so that only one of these control shafts can be switched on at a time. The ratios are made in such a way that immediately following a rake movement a transport movement of the carriage can take place. By now to the: arithmetic movement subsequent, return movement, by which the locking of the slide is released and the double bevel gear adjustment takes place in the neutral position now the risk that the machine has already been switched to transport before this auxiliary movement is carried out to the end. To this one. Avoid disadvantage it is proposed to use the control linkage to turn on the transport operation a further interlock derived from the auxiliary operation or auxiliary movement to be provided, which allows the switching on of the transport clutch only when the Auxiliary movement ended at least almost completely and thus the carriage for the transport movement is released.

Further features of the invention emerge from the following. Description of an embodiment and the claims.

An example of the constructive solution to the invented idea is shown in Figs. Fig. 1 shows the schematic structure of the main and Auxiliary coupling and their cooperation; Fig. 2 shows part of the auxiliary clutch, For the sake of clarity, FIG. 1 is not shown in full in the drawing became; Fig. 3 shows the right hand gesture wall of the calculating machine from the outside with the Bevel gear adjustment device according to the invention.

The device according to the invention is shown in the example on a staggered roller machine. The gear designated 1 is the pinion of a drive motor, which drives the gear 4, which is rotatably mounted on the Weillie 5, via a countershaft 2, 3. A Klanenrad 6 is fixedly connected to the gear 4, furthermore the gear 4 drives via the intermediate gear 7 a gearwheel. 4 the same gear wheel 8, which is also connected with a claw wheel 9. 8 and 9 can be rotated about the axis 10. When the motor is switched on via the contact arrangement 11, the wheels are rotated in the direction of the arrow shown. The clutch upstream of the gearwheel 4 is furthermore referred to as the main clutch, while the clutch upstream of the gearwheel 8 is referred to as the auxiliary or secondary clutch. The internal structure of the two clutches is shown in FIG. 1. The main clutch is locked by engaging over a hook 13 of the lever 15 rotatable about the shaft 12 with the hook. 13, a component 14 of the main clutch that also ends in a hook shape is held in place. The lever 15 carries at the upper end: a roller 16 which rests on the disc 17 designed as a curve. The latter is rigidly connected to the driven part of the main coupling and the shaft 5. When the disk 17 rotates, the roller 16 rolls on it. At the pivot point of the roller 16, a further component 18 is articulated in the drawing example, which extends over the auxiliary coupling and engages with two stud-like attachments 20 and 21 in the circumferential area of the component 19 extending with a hook over the disk 22. At its end, the control member 18 is mounted on the bolt 23 with an elongated hole. In addition, the control member 18 is provided with a nose or notch 24 with which it is held in its path at the beginning of the auxiliary movement so that although the auxiliary clutch is engaged, the hook-shaped end of the component 14 of the main clutch is still through the hook . 13 is held, ie that the main clutch is still disengaged. The pawl 25, which is pressed by spring force against the control member 18, serves as a stop for the nose 24. A second disk 26 (FIG. 2), which carries an eccentrically attached bolt 27, is firmly connected to the disk 22. The bolt. As the disk 26 rotates, the lever 29 is actuated via the push rod 28 and is seated on a shaft 30 performing an auxiliary movement. At its upper end, the lever 29 has a cam-like extension 31, with which it lifts the pawl 25 (Fig. 1), which can be pivoted about the axis 32, via intermediate members which can be seen from the drawing, whereby the control member 18 can move further to the right and : thereby the hook-shaped end of the component 14 is released. This engages the main clutch. Around the axis 32 is also still. a designated in Fig. 2 with 33 and held by the spring 34 against the disc 26 lever rotatable, which is in the as a cam or locking disc. Disc 26 carrying balzen 27 falls into the notches marked 35 at the two holding points of the auxiliary clutch and secures the auxiliary clutch against turning back.

As already mentioned, according to the invention, the adjusting device for the double bevel gears of the arithmetic unit is actuated with the auxiliary movement originating from the auxiliary clutch, which takes place before the main clutch is switched on. In the example given, the pivoting movement of the shaft 30 serves for this purpose, which receives its drive from the eccentric disk 26, which is seated on the auxiliary coupling, via the push rod 28 and the lever 29. The shaft 30 extends from the left frame wall under the setting mechanism through to. beyond the right hand gesture wall (FIG. 3) and, there carries an eccentric disk 36. The push rod 37 is pivotably mounted on the bolt 36 'and engages a pin 39 fastened on the plate 38. The plate 38 is pivotably mounted at 40 on the Genstellwand 41. 43 is a ratchet tooth, which has the task of engaging in a toothing of the one not shown here. Sledge to secure this in its position. Two hammer-shaped thrust rams 44 and 45 are also mounted on the pin 39. In the drawing, the bevel gears 46 for coupling with the result counter and the bevel gears 47 for coupling with the revolution counter are also visible. The double bevel gears connected to one another by a sleeve 48 or 49 are adjusted on the driving shaft by means of rails 50 and 51, which are held in their central position by means not shown in FIG Result and revolution counter can be adjusted. The adjustment rails 50 and 51 are displaced by means of bolts 52 and 53 which are fastened in the seams of the ends of shafts 54 and 55 passing through the calculating machine. The two-armed levers 56 and 57 attached to one end of the shafts 54 and 55 serve to pivot the shafts 54 and 55, and each of these two-armed levers is provided with a bolt (not shown). The drawing shows that, depending on the position of the thrust rams 44 and 45, the levers 56 and 57 are pivoted either clockwise or counterclockwise and thus the double bevel gears 46 and 47 are shifted in one direction or the other. The thrust rams 44 and 45 are controlled via U-shaped bent levers 58 and 59, which are each mounted on the Gestel.lwand 41 so as to be rotatable about bolts 60 and 61. With the bolts 62 and 63 attached to one end, they engage in elongated holes of the thrust rams 44 and 45 and place them either on the upper or lower bolts of the levers 56 and 57. The position of the pusher piston is determined by the plus or minus command given in each case, which is expressed by the position of the two-armed lever 65 pivoted by 64. A link 66 is attached to this lever, which at the other end carries a bolt 67 which engages in a cutout 68 of the U-shaped lever 58. On the same link 66, the switchable lever 70 is articulated on a tab 69, which has a switching piece 71 at its end, which is slotted on both sides, whereby it actuates a reversing member 72 with one of the two slots in each case. In the position shown, this reversing member 72 is ineffective. If a pushing movement is exerted from the lever 65 on the handlebar 66 and thus simultaneously on the lever 70, the bolt 73 of the link 72, which is also encompassed by the upper 'slot on the' switching piece of the lever 70 ', engages in the cutout 74 of the U-shaped lever 59, that is, both thrust rams 44 and 45 are turned in the same direction clockwise or counter to this. However, by pressing the button 75 via the bolt attached to its shaft 76. 77 the lever 70 is folded over the intermediate links 78, 79, it engages with the lower slot on its contact piece via the bolt 80 of the reversing link 72. If a pushing or pulling movement is now exerted on the link 66, the two U-shaped levers 58 and 59 each controlled in opposite directions; this has the consequence that in each case one of the thrust rams 44 and 45 swings upwards and the other swings downwards. As a result, the levers 56 and 57 are also adjusted in opposite directions, which is necessary for division, for example. The key 75 is therefore also used together with the key 81 to initiate an automatic division, which, however, will not be discussed in greater detail here since it is not essential to the invention.

As can be seen from the drawing, the push rod 37 also has a lateral extension 82, the end 82 'of which extends into the area of the locking and safety devices in the calculating machine. These safety devices have already been described in detail in their mode of operation in the main patent. Their task is to secure the activation of an arithmetic operation and a transport movement against each other. On the control shaft 12 for computing sits, well connected to this, the lever 88 which, via a rail 89 hinged to it, pivots the lever 85 in the same working direction, counterclockwise, when. a calculation process is initiated. The lever 85, which is mounted on the pin 86 on the frame wall 41, has a lug 87 with which it is bent on the lever 83 when pivoted in the counterclockwise direction. Latch tab 83 'overlaps. The lever 83, for its part, is non-rotatably seated on the control shaft 84 for transport and prevents it from pivoting and thus triggering a transport step. Conversely, if a transport button is first confirmed, the lever 90, which is also rigidly attached to the shaft 84, swivels counterclockwise and, in turn, engages with the nose 91 over the latch tab 92 'on the lever 92, which sits non-rotatably on the control shaft 12 for calculating, with the result that the premature Avoid triggering a calculation step. will. This device prevents the machine from seizing up even if commands are issued incorrectly or in rapid succession, since the adjustment of the double bevel gears 46 and 47, as already mentioned at the beginning, is carried out by. the main arithmetic wave, ie. the main movement has been operated. Now, however, this adjustment takes place according to the invention by an auxiliary movement upstream and downstream of the main movement. The consequence of this is that, for example, a transport command given briefly in response to the arithmetic command would already be released for execution as long as the bevel gears 46, 47 are still displaced and the locking tooth 43 is in engagement with the slide. The lateral extension 82 on the push rod 37 is therefore designed so that it only enables the triggering of a transport command via the shaft 84 firmly connected to the lever 83 when the push rod 37 and thus the double cone wheels 46, 47 and the ratchet tooth 43 are back in their Have returned to the original position or have almost returned.

Claims (5)

PATENT CLAIMS: 1. Calculating machine, especially motor-driven Four species calculating machine, in which to generate an auxiliary movement, the one Main movement upstream and / or downstream is to be one of the main clutch associated auxiliary coupling is provided according to patent 933 665, characterized in that that the before and after an arithmetic operation to be carried out in additive or subtractive Meaning, required coupling and uncoupling of one or more counters of the calculating machine to the arithmetic unit by means of the arithmetic operation upstream and downstream Auxiliary movement is carried out. 2. Calculating machine according to claim. 1, at least a result and a revolution counter in a slide that can be adjusted by decade are provided in the before and after the arithmetic operation by means of after. two directions sliding double bevel gears the arithmetic unit in the additive or subtractive sense is coupled to the counters and with a main coupling for coupling of the motor to the main arithmetic shaft and an auxiliary coupling to generate one of the Movement of the main arithmetic shaft upstream and downstream auxiliary movement provided is, wherein the auxiliary movement generated with the auxiliary clutch is preferably in Form edner pivoting movement of an auxiliary control shaft penetrating the calculating machine is generated, characterized in that the switching on and off of the double bevel gears (46, 47) or the adjustment rails (50, 51) provided for their adjustment those of. the auxiliary clutch (8, 9) derived auxiliary movement, in particular by the pivoting movement of the auxiliary control shaft (30) takes place. 3. Calculating machine according to claim 1 and 2, characterized in that the auxiliary control shaft penetrating the calculating machine (30) is provided with an eccentric (36, 36 '), which via a shift linkage (37) to what is known per se, for adjusting the double bevel gears (46, 47) and for locking the slide movement serving shift linkage engages. 4. Calculating machine according to claim 1 to. 3, in which the switching on and off of the arithmetic operation and the transport operation takes place via push pulls, in particular via control shafts, with facilities are provided for mutual locking, characterized in that the Control linkage (84) for switching on the transport operation with an additional, derived from the auxiliary operation upstream and downstream of the arithmetic operation Lock (82 ', 83') is provided. 5. Calculating machine according to claim 4, characterized characterized in that the control shaft (12 or 84) for computing and sled transport are located at the same side of the calculating machine as that for connecting the auxiliary steering shaft (30) with the control linkage (37) provided for the bevel gear adjustment is located and a control nose (82) is attached to this Schailt linkage in such a way that that the movement of the main arithmetic shaft upstream and downstream auxiliary movement the switch-on linkage (83) for the carriage transport only releases when the Movement of the Hauptrechznwelle downstream auxiliary movement at least almost ended is.