DE334570C - Adding machine - Google Patents

Description

Adding machine. The subject of the invention is a calculating machine, which represents a perfected embodiment of the well-known Russian calculating machine and in this form not only for adding and subtracting, but also for carrying out of multiplications and divisions and for taking square roots.

According to the invention is along the frame of an ordinary Russian Adding machine a rail slidable at intervals which are equal to the intervals of the wires of the adding machine are marking devices for the numbers o through 9 wearing. In addition, a marking device that can be displaced along the rail can also be used be provided. Such a calculating machine enables multiplications to be carried out and divisions similar to the process performed on paper, but without Load on memory because all multiplication and division operations of the different value levels carried out separately and made up of additions and subtractions existing intermediate operations by simply placing the counting discs on the Wires can be formed mechanically.

The drawing illustrates an exemplary embodiment of the subject matter of the invention, namely Fig. i shows a side view of the calculating machine, while Fig. 2 shows part of the same in plan. Fig. 3 shows a section according to the line A-B in Fig. i, while Fig. 4 shows such according to the line C-D in Fig. 3 illustrates.

The calculating machine consists of a frame i on whose wires : z each ten disks 3 are arranged displaceably in a known manner. Along one The guide 4 located on the frame i is slidable on a rail 5 (FIG. 3) which a number of decagonal disks 6 is rotatably mounted. The rail is with a Handle 7 equipped. The axes 8 of the decagonal disks have the same distance from each other, like the wires 2 of the calculating machine and can be contrasted with these as can be seen from FIG. The axles have corrugated disks 9 so that they can be rotated easily. The guide 4 is at the points where are the wires of the calculator, equipped with notches io, in the one Snapper ii can intervene. This is located at the end of a spring 12, which is on attached to the housing 13 enclosing the decagonal disks 6 of the marking devices is (Fig. 3). Of course, the notches can. also provided on the rail 5 while the snapper can be fixed to the frame i. At the A slide guide i4 for a slide 15 is arranged on the outside of the housing 13, which is held in its respective position by a friction spring 16 without however, to prevent an intended postponement. One attached to the carriage 15 Pointer 17 is Designed bow-shaped and forms the slide 15 Bearing for another decagonal disk 18. Two cutouts ig, 2o allow the Observation of the decagonal disk 18 and the visible through cutouts 21 of the housing 13 Decagonal disks 6. The housing 13 provided with cutouts can be made of celluloid exist and also serve to take notes. Instead of the cutouts, a continuous slot can be provided. Instead of the decagonal disks you can also use any other annotation device can be used, e.g. B. Plug, interchangeable Small plates or simple writing surfaces.

To illustrate the use of the calculator are below one example each of a multiplication and a division is given. ' As is well known the disks that can be moved on the wires represent the units i to io, where the lowest wire corresponds to the lowest value, while the successive wires the successive places of the decadal Number system. You can thus by placing the discs on one Side of the adding machine make any number clear and add it or removing slices of the same and different place values additions and Carry out subtractions in a clear manner.

If, for example, the number 935 is to be multiplied by the number 276, proceed as follows. The number 935 is designated by means of the toothed worm disks 6 by turning the disks in such a way that the numbers 5, 3 and g appear. Then you bring both the rail 5 and the carriage 15 with the decagonal disk 18 in the extreme right end position, in which the first decagonal disk 6 set to the number 5 and the decagonal disk 18 are in line with the wire corresponding to the value i . Once this has been done, the number of the multiplier 276 corresponding to the lowest place value is set on the decagonal disk 18, i.e. the number 6. Now this number is multiplied by the number 5 marked on the decagonal disk 6 located in the same line and forms through Mental math the product 6 x 5 = 30, which number is determined by placing three discs on the second wire. Then the decagonal disk 18 is pushed in front of the second decagonal disk 6, the partial product 6 X 3 = 18 is formed in the same way and eight disks are placed on the second wire and one disk on the third wire. After moving the decagonal disk 18 in front of the third decagonal disk 6 set to the number g and forming the product 6 nc = 5.4, four disks are placed on the third wire and five disks on the fourth wire. This completes the multiplication of the multiplicand by the number 6 of the units of the multiplier. Then you move the rail 5 carrying the marking devices one place higher, set the disk 18 to the second digit of the multiplier, that is the number 7, and now you proceed as the first time and thus form the partial product with the tens of the. Multiplier. After another shift by one place higher and obtaining the partial product with the hundreds of the multiplier, in the present case with the number 2, the multiplication is completely finished and the discarded discs already result in the product.

The reverse process is followed when dividing. If, for example, the number 8350628 is to be divided by 2473, the dividend 8350628 is placed on the wires of the frame, the divisor 2473 is visible on the decagonal disks 6 and the rail 5 is now moved from its lower end position upwards until the divisor shown on it is contained at most nine times in the number represented by the discs opposite it. . Then, as in the usual division, the first number of the quotient is estimated, which is the number 3 in the present case, this number is noted on the celluloid plate of the housing 13 and at the same time makes it visible through the decagonal disk 18. Then the partial product 3 x 2473 is formed in the manner described earlier and the slices corresponding to the value of the product are removed from the discarded slices, ie the partial product is subtracted from the dividends. Then you move the rail down one place and proceed exactly as the first time, whereby the second number of the quotient is obtained, and so on, until a number is left that is no longer divisible and represents the remainder. If the division is to be continued down to certain decimal places, the remainder is stored in a place of a correspondingly higher value and the calculation continues up to the desired accuracy limit.

Claims (4)

PATENT CLAIMS: i. Calculating machine, characterized in that longitudinal of the frame of a Russian calculating machine a rail (5) is displaceable, which marking devices at intervals which correspond to the intervals between the wires of the calculating machine to represent numbers so that it is possible to use for education of partial products o. The like. Necessary numbers through the disks or to compare balls of the calculating machine with the numbers to be displayed or displayed. 2. Calculating machine according to claim r, characterized in that the rail together with a number of marking devices fixedly arranged on it also one lengthways you have sliding marking device, each of the fixed arranged marking devices can be compared. 3. Adding machine according to claims i and z, characterized in that the marking devices consist of decagonal disks (6, 18) rotatable about their axis, which on the circumference are the Numbers o to 9 have, by setting the disc after a accepted rule or marked opposite a section (, i) or pointer can. 4. Calculating machine according to claims i to 3, characterized in that the rail (5) carrying the marking devices by means of a notch (ro) engaging Snapper (ii) can be determined in the correct position in relation to the wires (2) of the calculating machine is.