DE468275C - Ten circuit for the revolution counter in calculating machines - Google Patents

Description

Ten circuit for the revolution counter in calculating machines Es Revolution counters for calculating machines are known which have a ten circuit and its drive is controlled so that with positive rotation of the switching mechanism the revolution counter is positive or negative and, if the rotation is negative, also positive or counts negatively, for the purpose of always forming positive and negative products read off the correct multiplier and the correct quotient when dividing to be able to.

As a result of the inevitable play between the individual switching elements The tens increment can fail if several tens transmissions are carried out at the same time should take place.

The invention relates to a safety circuit that includes the aforementioned Failure prevents and, due to their structural simplicity, no special space so that the frame of an ordinary machine, i.e. H. one without a ten circuit, need not be exceeded.

The mentioned safety device is designed in such a way that that the well-known pawls not only secure the position of the dials as usual, but at the same time are used for the ten circuit that under extensions the same pawls successively driven members step to a ten circuit to support the collapse of the pawls and to fling the immediate counter elements driven by one-tooth or indirectly by numeric switching elements to prevent.

The invention is shown on the drawing in Fig. I to 8, wherein it is assumed that the index is switched on in the manner explained above takes place by a reversible tooth.

The eccentric is on the rear derailleur axis i (Fig. I) : 2 attached, which is also encompassed by your one tooth 3 in a known manner. The single tooth 3, however, has, in addition to the usual slot. a second 5, in which the pins 6 or 7, which are mounted in the slide 8, adjust as desired leave (Fig. i and 7). This circuit is made by the control lever 9, the lower end of the slide on the side wall of the machine .Acts and engages in the two switching positions due to the spring io. According to the invention is now the tip of the single tooth 3, depending on whether the pin 6 or 7 in one of the Slots 4 or 5 is, work forwards or backwards when the eccentric z is turns. About the unhindered swinging of the left end of the single tooth when switched on To allow the pin 6 into the slot 5, the slot 4. ends with an extension.

The revolution counter is, as usual, on the left side in the counter housing 15 (Fig. 7) and consists of essential of several Numeral drums each with ten digits belonging to the various decades. Each numerical routine has a gear 16 on one side and a gear wheel 16 on the other the thumb 17. In each gear 16 falls a pawl 18 (Fig. i) and engages a gear wheel i9, with which latter - with the exception of the one decade each, a gear wheel 2o is in rigid connection. After every complete turn, no matter in which direction, the thumb 17 switches the number drum in a known manner next higher decade by one digit.

According to the invention, the pawls 18 are arranged. If a number drum a small amount over half of a tooth pitch, in the present case something is rotated more than 1f ", the pawl 18 completes the rotation by is pressed into the toothing. The thumb 17 always only has the adjacent one Numeral drum a little more than 1i., For the purpose of turning tens transmission. the A thumb 21, the lies in the plane of the pawl i8. All thumb 2i are on a common Axis arranged, which is an extension of that axis for the main switchgear carries the tens preparation lever. Next to the axis i is an oscillating lever 22 suspended, which carries a roller 23 at its lower end. This lever is through then brought the cam 24 of the axis i to swing out when the single tooth 3 is its Circuit has ended. The roller 23 pivots the thumb 21, which in turn the rounded end of the pawl 18 meets and thereby the pawl into the Toothing of the associated wheel 16 presses. The latter completes the switching path, which was only cursory started by the single tooth 3.

The thumbs 21 are dependent on one another in such a way that when a right-hand one is pivoted, all left-lying participate in this pivoting while the ones further to the right keep their position by a spring and stop rod is given (Ab. i). The thumbs 21 also form a so-called living bridge, d. H. a thumb on the left is only taken if the one on the right has traveled a certain angle. When the rightmost thumb is all the way is swung out, the tips of all thumbs are therefore in a spiral, as shown in Fig. 5 shows. Fig. 3 shows the swiveling out of the fourth thumb and the one to the left of it lying six thumbs, with the three right-lying thumbs remaining in their normal position. After a single tooth 3 has finished its work, the adjacent number drum is on the left adjusted by more than 1 / _o; it takes approximately the position according to Fig. 4 (after turning to the right) a. When turning to the right or to the left, the corresponding thumb zi is pivoted, the pawl 18, the number drum to a full tenth place. The thumb 17 of this drum for its part becomes, if necessary if it is a question of tens transfer - the next drum to the left adjust by a little more than 1 / 2a, where the play of the thumb 21 is repeated. Since the thumbs 21 start and execute their movement one by one, each is a number drum able to switch the next one before it is influenced by the thumb 21. In Fig. I all thumbs are in the rest position, while Fig. 3 shows the beginning of a Ten circuit in the second, Fig. 5 the completion of the ten circuit in the eighth decade shows.

The aforementioned mutual dependence of the thumbs 21 is brought about by that the hub of each thumb 21 has a pin 25 or a milled nose, which engages in a recess 26 of the next adjacent thumb 21 (Fig. 6). Against the pin 25 lies a spring (Fig. I), which the thumbs after the work is done straightened up again.

The cam 24 must, since the crank is operated in both directions of rotation will lag behind by an amount when reversing the direction of rotation. To this end is the cam 24 is loosely arranged on the shaft i and is driven by the drive plate 27, which sits firmly on the shaft i, taken along (Fig. 2 and 4). . Q

Claims (3)

PATENT CLAIMS: i. Ten circuit for the revolution counter ' Calculating machines, characterized in that the pawls known from counters (18) not only, as usual, secure the position of the number wheels (16), but at the same time can thus be used for the ten circuit. that under extensions of the same Pawls successively driven members (21) step to a ten circuit to support the collapse of the pawls and to prevent the flipping of the immediate counter elements driven by one-tooth (3) or indirectly by ten switching elements (i7) to prevent. 2. Ten circuit according to claim i, characterized in that the the elements (21) completing the ten circuit are mounted on the counter housing (15), in every decade are made to vibrate and their movement the limbs (2r) in higher = transmit order. 3. ten circuit according to claim z, characterized in that that the B_ movement of the ten switching elements (2r) mediating lever (a2) through a thumb (24) is made to vibrate in relation to the rear derailleur axis (r) lags when changing the direction of rotation.