DE530002C - Automatic multiplying device for calculating machines to carry out several multiplications with a constant factor - Google Patents

Description

Automatic multiplying device for calculating machines for implementation of multiple multiplications with a constant factor calculating machines with automatic multiplier are often used to calculate several Uses multiplications in which a factor remains constant. So far one poses when performing such multiplications, enter the constant factor in the setting means field (Keypad) of the counter drives, the variable factor in the multiplier.

They are suitable for performing such multiplications quickly Machines have become known for setting the multiplier special buttons are available. These machines with two setting device fields, a first for the multiplicand and a second for the multiplier however, they are heavy, large, complicated and expensive.

Another type of auto-multiplying machine where the automatic multiplier is set by whorls, is for Performing multiplications with a constant factor is less suitable, because the variable factor does not get into the multiplier as quickly by means of the whorls can be set than by buttons. However, these machines are much simpler, smaller and lighter in construction and cheaper to manufacture.

The invention is an improvement on a machine according to the second System which consists in having a reset device for each multiplier controller assigned to the one set according to the multiplier during the multiplication process The controller that has been brought to the zero position returns to the one that was originally set Position returns as soon as the counter slide moves one before the Disengagement of the locking element preventing the regulator from returning.

The machine according to the invention performs multiplications with a constant Factor just as quickly and safely as the previously hinted at Machine of the first kind, but it is just as simple, cheap, light and small as the machines of the second kind. They combine the advantages of both machine types in itself.

The multiplier adjusted with the help of whorls works in familiar Wise by the hired and instantly effective Whorl, which with each revolution of the calculator shaft by the numerical value »One« corresponding angular amount is turned back towards the zero position, at Reaching the zero position triggers the counter transport.

The invention is also applicable to machines in which the automatic Multiplier set by slider or the like instead of whorls will. In order to express this more clearly, in the following the organs the index shift and the number of additions between the index shifts regulate, also referred to as a multiplier regulator. For each decimal of the multiplier such a controller is available.

The device that allows the multiplier controller to be set once maintains, consists essentially of one movable, under spring action standing reset element for each controller of the automatic multiplier. These restoring organs are generally not in contact with the associated controller Connection and are fixed against fixed stops by the springs acting on them Plant held. Only after the multiplier according to the constant Factor is set, these return devices are coupled to the controllers.

If the multiplying controller that is effective in each case when performing the multiplication for every revolution of the, drive shaft of the machine by the number "one" the corresponding amount is reset towards the zero position, this is done with the controller coupled reset member in this reset by the same amount lifted from its stop, by which the regulator was turned back, as well as with each revolution of the machine shaft by the number corresponding to the number "one" Amount. A pawl temporarily holds the return element in the position it has reached Fixed position. The spring, which is generally the return element on the associated - holds a fixed stop in contact, this turns back to the zero position looking forward to it.

As soon as the multiplier controller is in the zero position, how already said, triggered the carriage transport in a known manner. Shift in the process the regulator, the resetting elements and the pawls that temporarily hold them together with the counter slide. The pawl hits against with one approach a fixed curve guide in the machine frame, whereby the pawl is lifted and the return element is released. The spring acting on the return element pulls this back until it is again in contact with the fixed stop. In order to is the numerical value to which the controller was set before multiplication. set again after the multiplication. If all multiplications with the set constant factor are carried out, the return organs uncoupled again -and the multiplier according to the next several times factor used.

An embodiment of the device according to the invention is shown in the accompanying drawings. It means: Fig. I a plan view of a calculating machine with the device according to the invention, Fig. A a detail in side view, Fig. 3 a detail in plan view, Fig. 4 the reset device in side view, Fig. 5 the same in rear view, Fig 6 the same in rear view, FIG. 7 the same enlarged in rear view, FIG. 8 enlarged in side view, FIG. 9 enlarged in plan view. The whorls (multiplier controller) i with the setting buttons 2 are connected to the numbered rollers 3 by known bevel gears (Fig. ¢ and 8), which are visible under the peepholes -4 and where the setting of the whorls can be checked. The whorls i carry gears 5 with which the return members can be brought into engagement. The Rüclkstellorgane are designed as gear wheels 6 and are rotatably attached to the angle rail 7, which is swingable about the two engaging in the housing of the multiplier sponges e. The gears 6 are under the influence of the coil springs 9-, which hold the lateral pins io (see Fig.3) of the gears 6 against stops ii of the rail 7 in contact. The pawls 1a (Fig.9) mesh with the teeth of the gears 6 under the influence of the springs 13. The springs 13 of the pawls: 1z .are: strong enough; to prevent the gear wheels 6 from rotating, even when the springs 9 are tensioned. The force of the pawl 16 (Fig. 4) moved by the drive of the calculating machine, however, is so great that it is able to rotate the gears 5 and 6 in spite of the pawls 12. The angle rail 7 can be pivoted by means of the handle 14 (Figs. I, a, 5) protruding laterally from the housing of the multiplier device so that the gears 6 disengage from the gears 5 of the whorls i. The rail is fixed by means of the manually disengageable fixing pawl 15 either in the position shown in which the reset gears 6 are in engagement with the whorls r, or in a second position in which the gears 6 are out of engagement.

The handling and operation of the device is as follows: After by means of the handle 14, the angle rail 7 is pivoted so that the gears 6 are out of engagement with the whorls i, the factor is set by means of the whorls one that should remain the same for multiple multiplications. Then you swivel it Win1celschiene so that the gears 6 come into engagement with the whorls. Now you set the second factor in the keyboard and set it by pressing down the clutch button C starts the machine. By means of the pawl 16 (Fig. Q.), The is driven by the eccentric 17 so that with each revolution of the drive shaft the machine executes an oscillation, becomes the respective effective whorl of the multiplier with each revolution of the drive shaft by the number corresponding to the number "one" The angular amount is turned back after the zero position, and the gears are also turned 6 rotated by the same amount. The side pin io (see Fig.3) is therefore raised from its stop i i, by the same amount as the whorl to the zero position was turned back. The spring 9 is tensioned. As soon as the whorl is in the Reaches zero position, the counter transport is triggered in a known manner.

Since the housing in which the whorls and control dials 4 and the rail 7 with the gears 6 and the pawls 12 are mounted on the counter slide is stored, the pawls 12 move with the counter slide. The pawl i z of the one that has been effective so far and has just turned into the zero position Wirtels comes into contact with a projection on the side that is fixed in the machine frame Curve piece 18 (Fig. 4, 5). This lifts the pawl 12 and the gear 6 released. The previously tensioned spring 9 therefore rotates the gear 6 back until the lateral projection io rests against the stop ii again.

The gears 6 and the whorls i are thus turned around by the springs 9 the same amount, but rotated in the opposite sense, as it was before Multiplication process have been rotated by the pawl 16. So the whorl i has again the same attitude that it had before the multiplication.

The same game is repeated on those that come into effect later Whorls. The set digit value therefore remains in the multiplier obtain.

After performing the first multiplication, you only need in using the keyboard to set the next variable factor, etc. until all multiplications, which have to be carried out with the constant factor. The last one Multiplication, which has to be done with the set constant factor, moves forward one expediently the restoring organs, so that in this last multiplication the multiplier is set to 1 \ 7u11.

Claims (5)

PATENT CLAIMS: i. Automatic multiplying device for calculating machines, characterized in that a reset device (5, 6, 9, io, i i) is assigned, which corresponds to the multiplier set, During the multiplication process, the controller (i) which is brought to the zero position again to the originally set position returns as soon as the counter slide when moving further, a locking element that previously prevented the controller from returning (Latch 12) disengages. 2. Apparatus according to claim i, characterized in that Springs (9), the starting position of which is determined by stops (io, i i), while of the return transport of the multiplier controller (i) is inevitably coupled to it be that they are tensioned by moving the controller, and that during the return transport of the regulator these springs can be obtained in a tensioned position Pawls (12) that are disengaged as soon as the regulators are in the zero position and trigger the counter transport, so that then the springs and those with them coupled multiplier in the starting position determined by the attacks be moved back. 3. Calculating machine according to claim i, characterized in that that the springs (9) through the mediation of intermediate organs (6) with the multiplier regulators (i) are coupled, which at the same time each carry one of the two stops (io, ii), which determine the starting position of the springs. 4. Calculating machine according to claim 2, characterized characterized in that all springs (9) and all intermediate members (6) on one common carrier (7) are stored, which can be brought into a position in which the intermediate organs (6) with the multiplier regulators (i) except Intervention and the springs (9) do not affect the multiplier controller. 5. Adding machine according to claim i, characterized in that the release of the pawls (i2), which tensioned the springs (9) during the return transport of the 'multiplier controller (i) received during the carriage transport by running onto a fixed curved piece (i8) are triggered.