DE459536C - Mechanical drive for calculating machines, in particular for sprocket calculating machines - Google Patents

Description

lttechanical drive for calculating machines, especially for sprocket wheel calculating machines The invention relates to a mechanical drive for calculating machines, in particular for sprocket calculating machines. There are such drives for all calculating machines Kind already known. The previously known designs have the disadvantage that they are intrinsically complicated in construction and operation, especially with them The condition is that each setting key of the multiplier is assigned a constant value is, while in the present invention the individual multiplier keys are neutral are, d. H. get a new value in every new position.

In the case of the known multiplier setting mechanisms, in most cases the coupling and decoupling of the drive through a single and forward-going rack causes which jumps back into its rest position after completion of its movement. In contrast to this end, in the case of the present arrangement, the coupling and uncoupling are moving Divide circularly in one direction and stand again at any point ready for the new operation, thereby simplifying the construction and a safe engagement and disengagement is effected.

For this reason, the drive according to the present invention is suitable for calculating machines of all kinds, but especially for sprocket wheel calculating machines, because without any significant change in the internal mechanism, the drive can be applied to almost everyone known systems of Sprossenradrechenmaschinen, can also be retrofitted can.

Accordingly, the invention consists in allowing the drive device to move is transferred to a movable key disc, in the axially movable neutral Keys are arranged, of which the key depressed each time the decoupling between the mechanical drive device and the drive axis of the machine causes.

The invention further consists in further features that are composed of become apparent from the claims.

The invention is shown in the drawing in ten figures.

Fig. I is a longitudinal section, Fig. 2 is a section along II-II of Fig. z. Fig.3 is a section according to III-III of Fig. I.

Fig.4 is a section according to IV-IV of Fig. 2.

Fig.5 is a section along V-V of Fig. I. Fig. 6 shows a part the key lock. Fig.7 is a section along VII-VII from Fig. I. 'Fig 8 is a Corresponding top view, Fig. 9 shows a section along IX-IX of Fig. io.

Fig.lo is a section along X-X of Fig. 9.

The mechanical drive is carried out by means of a chain on the sprocket i, which is firmly connected to a bevel gear 2 and turn on: _ an approach of the base body 3 is seated.

The bevel gear: 2 meshes with a bevel gear 4, which is loosely on the vertical axis 5 sits. The bevel gear [is] fixed to the clutch disk 6 connected, which is particularly shown in Fig. 4.

Seated on the clutch disc 6, rotatably mounted about a pin 8, a pawl 7 which is pressed by a spring 9 into a locking gap io, which is located in the drive plate i i. As soon as the pawl 7 snaps into the gap i o has, as a result, the movement from the drive device to the drive plate i i transferred. With the drive plate i i is the gear 12 and the worm wheel 13 firmly connected. This worm wheel 13 lies between two at right angles lying worm wheels 14 and 15 and can by pivoting around the pin 16 can be brought into engagement with either 14 or 15 by means of the handle 17, such that, depending on which of the two wheels i q. and 15 the wheel 13 is straight is engaged, the machine is running to the right or left. If the wheel is 12, in the middle is between the wheels 14 and 15, the machine is free for manual operation.

35 is the sprocket wheel which, by means of the intermediate wheel 36, drives the drive wheel 37 which carries the number disk 38. On the shafts 14 'and 15' of the aforementioned wheels i ..;. As shown in FIGS. 7 and 8, the wheels 39 and f0, which are coupled to one another by an intermediate wheel 34, are located. The shaft 1 5 directly carries the sprocket wheels 35.

With the gear 12, a gear 18 is in engagement, so that between the two wheels 12, 18 have a gear ratio i: io. This gear 18 is connected to the key disc 2o by means of a hub 1g which, arranged in a circle, ten keys 212 and give carries.

These keys protrude into the gear 18 and are more vertical Direction against the action of a spring 22 arranged movably. All buttons, with the exception of the Zia key on the far left, are in the upper one Position as the right button is in Fig. I. In this subscript the left button 21a, the pawl 7 is lifted from the tooth gap io so that the Machine is at a standstill.

There is a fixed dial on the base body 23, which bears the digits o to 9.

If a key 21 is now depressed, the opposite of one of the digits i stands to 9, it is effected by a locking device to be described below the going up of the key 21a opposite the zero. As a result, the The pawl 7 is released and lies in its tooth gap under the action of the spring g ok The machine is now coupled to the drive device and remains so until the key you just pressed has returned to the zero point.

For example, if the key opposite the number 9 is pressed, so the coupling between the pawl and the drive plate remains as long as until the large gear 18 nineteenth of its circumference, i.e. the small gear 12 has completed nine revolutions. At this moment, the one previously pressed at 9 takes effect Button 21 on the pawl 7 and lifts it out of its gap.

The above-mentioned key lock is known per se; you can recognize them from Fig. S and 6.

It consists of a locking disk 24 with ten arms 25. The key bars each have a rectangular cut 26 and below that a beveled cut 27. Depending on the position of the button, the locking disk 24 is activated by the Spring 28 pressed into one of the two incisions 26 or 27. By pressing down If you press an upright button, the locking disc 24 is shifted to the right (Fig.6) and this releases the Zia key, which is just below, so that it faces up can jump.

To secure the machine in its rest position, a disk 29 is pushed onto the hub ig and is always pushed upwards by a spring 30. This disc has a recess on the side opposite the number zero (Fig. 3). If a key Gib is depressed, it also depresses the disk 29 so far that it comes to lie lower than the lower end of the key Zia that has just been depressed. The disk 29 is secured against rotation by a locking pin 31. If, when the key disc 2o is rotated, the key that has just been depressed comes to rest over the recess in the disc 29, the disc 29 can now go back up into the position shown in FIG.

Now, as is well known, there is one on the Sprossenwheel calculating machines Adjustment lever lock, which is used to lock the adjustment lever or the cam groove washers secure against unintentional adjustment while turning the crank. This adjustment lever lock is in the mechanical drive according to the present invention by the depression a multiplier key - likewise operated by pressing this down with the mediation of the above-mentioned disk 29, a lever 32 depresses which then by any linkage 33 (Fig. 1, 9 and io) its movement on the Adjustment lever lock transmits. The latter can be of any type and is here not shown as not belonging to the invention.

Claims (7)

PATENT CLAIMS: i. Mechanical drive for calculating machines, in particular for Sprossenradaufenniaschinen, characterized in that the movement of the drive device is transferred to a movable key disc (2o), in the axially movable neutral Keys (21) are arranged, of which the respectively depressed key (eia) the Decoupling between the mechanical drive device and the drive axle of the machine. 2. Drive according to claim i, characterized by a resilient Lock washer (29). the one on its side opposite the = zero digit has a recess has, by means of which she is over the lower end of each depressed Button (21a) as soon as this button is activated by turning the key disc (20) has come to the position corresponding to the zero digit. 3. Drive device according to claim i for Sprossenrad arithmetic machines with a reversing gear for changing the direction of rotation of the sprocket wheels, characterized in that by switching of the reversing gear (13, 14, 15) one or the other of two in the calculating machine existing drive shafts (14 ', 15') is coupled to your motor drive, from which one causes the reverse direction of rotation when it is engaged other. . 4. Drive device according to Claim 3, characterized in that the the movement of the drive device on the drive shafts (14. ', 15') of the Sprossenradaufmaschine transmitting mechanism (13) is pivotably arranged and alternating with one on one or the other drive shaft (14 ', 15') seated coupling member (14, 15) can be engaged. 5. Drive device according to claim i for sprocket wheel calculators, characterized in that by pressing down a multiplier key by means of a lever transmission in the calculating machine The adjusting lever lock located is actuated. 6. Drive device according to claim 5, characterized in that by depressing a multiplier key at the same time a locking disc (29) is depressed, which in turn moves a lever (32 ) which actuates the setting lever lock through linkage (33). 7th Drive device according to claim i, characterized in that the multiplier keys (21) are arranged in a circle.