DE546456C - Zero setting device for the setting elements of the totalizer drives of calculating machines with a multiplier - Google Patents

Description

Zero setting device for the setting elements of the counter drives of calculating machines with a multiplier The invention relates to an automatic Zero setting device for the setting elements of the counter drives in calculating machines according to patent 544545. Thereafter, both factors of the multiplication approach are first preset in an adjusting pin carriage and then out of the adjusting pin carriage by one of two selection devices (multiplicand key and multiplier key) Controlled gear either as a multiplicand on the setting elements of the counter drives or as a multiplier on the setting members of the automatic multiplier transfer. Before a new multiplicand in the setting elements of the counter drives is transferred, the multiplicand set from a previous arithmetic operation must to be deleted. This deletion process has so far been carried out by hand.

However, operating the extinguishing device by hand means a loss of time for the calculator and a source of calculation errors that are unintentional Have failed to delete the index drives.

After the improvement of the facility described below the main patent eliminates the above-mentioned loss of time and an accidental one Failure to delete the process made impossible.

It is essential to the invention that after the multiplicand key has been depressed the deletion of the setting means of the counter drives inevitably from the transmission gear is brought about that the values preset in the actuator carriage are under control by pressing the multiplicand or multiplier key on the index drives or transmits to the multiplier by moving this transmission gear inevitably a zeroing device is moved, which, in general, is in a inactive position by pressing the multiplicand key into a effective position is brought and then before the transmission of the new multiplicand the deletes the multiplicands previously set in the computing drives.

The subject matter of the invention is shown in an exemplary manner in the drawings Embodiment shown. It shows: Fig. I a side view of the extinguishing device and the essential parts of the transmission, Fig. 2 a Front view of the device according to Fig. I, the extinguishing device is in inoperative position, Fig. 3 is a side view of this device and Fig. 4 is the same like Fig. 2, the extinguishing device is in operation.

Pressing the multiplicand key down causes the slide i (Fig. 2) to move to the left. As a result, an electric motor is switched on and with the shaft 4a of the rotating cam disk q. coupled. The shaft 4 ″ moves together with the cam disk 4 a crank mechanism which sets the driver 8 (Figs. I and 2) in a horizontally oscillating motion swingable lever 3, connected slide 3 (Fig. 2) is moved downwards so that it comes into the range of motion of the cam disk 4.

The racks 8 (Fig. I) are pulled to the left by springs, so that during the first half revolution of the shaft 4 "and the crank mechanism moved by it, the racks 8 follow the driver 8" until they hit the adjusting pins set according to the multiplicand and so adjust according to the multiplicand. The lateral cam 4b of the cam disk 4 is arranged so that, during the second half revolution of the shaft 4a, during which the racks 8 are pushed back into the basic position by the crank mechanism and the driver 8 ", the lever 3a, which drives the non-rotatable axis 5 of the Gears 6 takes along and shifts in their longitudinal axis, pivoted in such a way that the gears 6, which are rotatably but immovably arranged on the axis 5, with the racks 8 and the toothings 7b on the circumference of the adjusting disks 7, the sprocket wheels 7 in engagement During the second half revolution of the crank mechanism, which causes the return of the racks 8 previously set according to the multiplicand to the basic position, the racks and the adjusting disks are coupled with one another, so that the adjusting disks are now adjusted according to the multiplicand, whereby the previously Multiplicand set in the steep pins on the setting elements of the counter factory drives is transferred.

Of the handlebar is 1 means 9 is driven, the toothed segment 18 of the carrier 8 which places his hand by means of the gear wheel 7 i a loosely on the shaft 16 of the sprocket wheels 7 mounted bracket 15 in swinging motion. The web of this bracket 15 runs close to the circumference of the sprocket wheels 7 along. The zero setting rail 12 is connected to the web of the bracket 15, the recesses 14 of which generally allow the tooth arches 71 and the setting disks 7 "to pass through, so that both the sprocket wheels together with the setting disks can be rotated by the shaft 16 without hindrance, as can the bracket 15 can be swung back and forth unhindered with the zero setting rail 12 without affecting the setting of the adjusting disks 7-.

The zero setting rail 12 is connected to the web of the bracket 15 in such a way that that they are opposite the bracket by half the distance between two adjacent sprocket wheels can be moved in its longitudinal axis, and is by an arm 12, with a on the shaft 16 of the sprout wheels loosely rotatable and longitudinally displaceable driver sleeve i connected i.

If the slide i and 3 are moved when the multiplicand key (not shown) is pressed down, the slide 3 acts with a pin 9 on an angle lever io, which in turn moves the driver sleeve ii and the zero setting rail 12 so that the projections 14b of the zero setting rail 12 now with the tooth arch 7b of the adjusting disks 7, the sprocket wheels; lie in the same line (Fig.4).

The bracket 15 and the zero setting rail 12 lead with each oscillating movement of the driver 8, also from an oscillating movement, namely during the first half revolution of the crank mechanism moving the driver 8 ", ie during the setting of the racks 8 after the studs, where the racks 8 with the tooth arch 7b of the adjusting disks 7a not yet coupled by the gears 6 are, the bracket 15 and the zero setting rail 12 in Fig. i and 3 swung downwards. If the rail 12 is now shifted by pressing the multiplicand key, that the projections iq.b are in line with the dental arch 7b, so the adjusting washers 7a of the sprocket wheels 7 set to zero, since the projections i4b against the top Hit the tooth of the dental arch 7b and thus take the adjusting washers 7 "with you.

When the driver 8a swings back, that is, when the new multiplicand is transferred to the setting disks 7, the sprocket wheels, the bracket 15 and the zero setting rail 12 swing back into the starting position. The adjusting disks 7a, following the zeroing rail 12, are then rotated by the toothed racks 8 and the now engaged toothed wheels # 6 by as many teeth as correspond to the numerical value of the corresponding multiplicand position.

After transferring the new multiplicand will the multiplicand key locked in the lower position in a known manner from the transmission gear released again myself. thereby underneath the key and the parts it moves Return spring action to the inoperative position. So it will be the gears too 6 disengaged again and the zero setting rail 12 shifted again so that the dental arch 7b can pass unhindered through the recesses i4b. The sprout wheels 7 can therefore, as is necessary for performing the arithmetic operation, from the Sprossenradwelle 16 can be rotated at will without their adjustment will be changed.

If you press the multiplier key, a numeric value is used as a multiplier transferred to the multiplier, the driver 8a, the Bracket 15 and the zero setting rail 12 also pivoted back and forth once, but there When the multiplier key is depressed, the angle lever io does not pivot and the zero setting rail 12 is not displaced, including the projections i4b the dental arch 7b are not in the same line, the zero position of the Adjusting washers 7a.

Claims (2)

PATENT CLAIMS: i. Calculating machine with automatic multiplying device according to patent 544 545, in which a special transmission gear, independent of the counter drives and controlled by two selectors, transmits the two factors of the product to be calculated either as a multiplicand to the setting elements of the counter drives or as a multiplier to the setting elements of the multiplying device characterized in that a zero setting device (12) for the setting means (7a) of the counter drives (7) with the multiplicand selector (i) and with the transmission gear (6, 8, 8a) is connected so that, if the transmission gear with the aid of the multiplicand selector is set in motion, the zero-setting device (12) is brought into its effective position by the multiplicand selector (i) and is moved by the transmission gear (6, 8, 8a) in such a way that the multiplicand still set in the counter drives before the transmission of the new multiplicand to be set turned off will. 2. Adding machine according to claim i, characterized in that the zero setting movement of the zero setting device is derived from one that prepares the transmission of the new multiplicand Movement of the transmission gear, eliminating the previously set Multiplicand takes place before the transmission of the new multiplicand to be set.