DE863268C - Arithmetic unit - Google Patents

Description

. Arithmetic unit Arithmetic units for addition and subtraction require tens transmission devices, which have the task of calculating the value of each individual decimal place around the Amount i must be changed if the previous decimal place shows the value at Adding 9 to o or when subtracting o to 9 ~ @ -, - chselt. In general, numeric switching devices are used in which the individual numeric switching after the end of the value entry can be made gradually, in order to, including the To ensure tens switchings that become due further tens transmissions. When calculating with multi-digit summands or subtrahends, the proportion of the work distance becomes for the tens transmissions on the GD total work path of the entire arithmetic process large, whereby the achievable speed of the arithmetic unit is reduced. The mentioned disadvantage is avoided by using differential gears; since these gears must be arranged between the value points, however get a sp; red design. A ten: switching device is known. the the Proportion of the work path for the decimal switches in the total work path of the arithmetic unit through the use of pre-sensing triggers for the preparation of the tens transmission substantially shortened, with the completion of the tens transfers by a common Cam is made for all value points at the same time. This ten switching device however, it has the disadvantage that all tooth preparation is only made non-positively the respective tens preparation organ frictionally the trigger organ for the next value point against. the effect of a storage power. must be released. As a result, the so-called continuous tens transmission is after termination of the value entry for the successive Avsklinkungen der : individual preparatory organs - all value points still need an intermediate time, before the ten circuits are made, which gives rise to another after-ax there are. . .

To avoid these disadvantages are described below Arithmetic unit, the ten preamble, emeitungsorgarne provided with pre-sensitive intermediate openings durcl 'the - * eZ-ehuervorbereitungsnocken assigned to the respective value places positively adjusted by means of transmission links for tens preparation, the pre-sensitive intermediate organs, if necessary, by means of the preparatory movement the associated tens preparation organs by means of transmission links the preparatory organs of the higher value places also adjust positively. By the planned interlinking of the preparatory organs and the use of @ controllable Switching slot 'is the ten switching movement caused by: the common ten switching cam positively transferred to the gears assigned to the respective value points.

The arithmetic unit also contains verse organs, which those of the tens preparation cam and the pre-sensing intermediate organs on the transmission links control transmitted movements in such a way. that the preparatory bodies for each required direction of rotation can be adjusted according to addition or subtraction, the intended reverse blocking organs and the direction of movement of the advertising entry, organie can also be redirected. I); the verse organs are also so developed that connecting organs for the transmission of the preparatory movement in the middle position between addition and subtraction s act on the handle of intermediate organs and that in the same central position there is a stop organ: through the main cover organ is adjusted in the path of movement of the preparatory organs, whereby the extinguishing movement the erasing wheels, which are individually driven by frictional force, when they are reached the value zero is blocked in every value point.

Picture i shows the view of an embodiment which is only for addition is provided with the housing wall removed; Image z represents; a section. according to the section line A-B in picture i; Figure 3 shows the floor plan Fig. I with the omission of the entry and number wheels; Figure 4 shows the 'view its embodiment for addition and subtraction with cancellation device., where the front wall is removed.

The axles 3, 4, 5, 6, 7 are attached to the housing i, on which the number wheels 9 are finite gear wheels io, which are firmly connected to them, the gear wheels ii with their respective cam disks 12, which are permanently connected: the intermediate lever 1 5 and the control lever 16 are rotatably mounted. The axis 17 is firmly connected to the control lever 16. on which the ten-shift pinion 18 is rotatably mounted, as well as the control pin 1.9, which interacts with the control cam 21 incorporated in the control disk 2o. The Sbeuerscheib: e 20 is firmly connected to the ten switch cams 22 via the shaft 23. which is rotatably mounted in the housing and rotates in the same rhythm with the 8. The value entry wheels 8 are firmly connected to the shaft 2, which is rotatably mounted in the housing. The value teeth 24 of the value entry wheels 8 are adjustable in a known manner in accordance with the advertisements to be entered by means of adjusting elements (not shown) so that up to nine teeth can come into engagement in each value point with each rotation. Associated with each value point is a spring-action latching element 25 which ensures the correct position of the gears for the engagement of the value teeth 24. The feeling levers are on the ones with the preparatory levers. i3 permanently connected axle = pins 27: rotatable; mounted and interact with the tens preparation cams 28 of the cam disks and the surfaces 29 of the intermediate levers 15, which are arranged concentrically to the axis 4 in the prepared position of the intermediate levers 15, in every position between the basic and preparatory positions. The sensor lever 126a, which is rotatably mounted on the axle pin 27a, which is fixedly connected to the housing, and interacts with the cam disk 12 - the single-value bell - differs in terms of the mounting. In contrast to the other preparatory levers, the preparatory lever for the tens preparation of the last value place, in Figure 2 lever i 3c, does not have a feeler lever 26. The preparatory levers 13 are provided with slots 3o which interact with pins 3 i attached to the intermediate levers 15. The preparation levers 13 are provided with teeth 32, which work together via the switching slots' 18 with the gears i 1 of the higher value place, z. B. the toothing of the lever i 3a via the crack 'i 8a with the gear 11b (Fig. 3). The bearing piece 33 is firmly attached to the housing. in which the spring-loaded locking levers 134 are rotatably mounted about the axis 35. D0.- Latch 36 of Rasthebe134 cooperates with recesses 37 and 38 of the intermediate lever 15 in such a way that during: the preparatory movement of the lever i 5, the latching lever 134 evade, the return movement of the lever i 5, however, through the shape of the latch 36 and the latching gap 38 blocked. The fixed bearing piece 33 'has a strip 39 designed corresponding to the tooth gap shape -the switching slot', interacting with all the pinions 18 and which the slot 18 after pivoting. the engagement with the levers 13 and gears ii secures positively against rotation. The number wheels are read through the window 40.

How it works: the arithmetic unit as shown in Figure i to. 3 is as follows: The shafts 2 and 23 are driven in the direction of the arrow at the same speed, with the slot 18 first being brought out of engagement with the levers i 3 and the gears ii by means of the control lever 16 and the control pin 19 through the control cam 21 and through the concentric part 21a of the curve 2 i are kept during the value entry. The bar 39 holds the pinion 18 in its position against rotation. The value teeth 24 of the value entry wheels 8 then mesh with the gears io, whereby the associated number gears g and the gears ii as well as the cam disks 12 connected to the latter are adjusted by the entered values in the direction of the arrow. In the example shown, the gears io and ii are translated in a ratio of 1: 3, so three cams 28 are provided on each cam disk 12 such that one cam is in front of the nose 41 of the feeler lever 26a or the feeler lever 126b in its basic position and 26- is located when the number g is visible in window 4o. If the cams 28 are moved past the nose 4i by the entry of the value, ie if a transition from 9 to o takes place in the window, the corresponding preparation levers 13 are activated by means of. the for pivoting genvungenen lever 26 via the lever 15, pins 31 and slots 3o rotated positively against the direction of the arrow, the height of the cams 28 is such that the path of the lever 13 corresponds to that of a unit of value. The prepared levers 13 are secured in their position by the locking levers 34 which are under the action of a spring. Since the feeler levers 26b, 26c are articulated on the levers 13a, 13b, they also move against the direction of the arrow. If the value point for which a tens transfer is being prepared has a 9 in the window, then a line tens transfer is also due for the next higher value place. In this case the feeler will do the preparatory work; Movement executing lever 13 positively moved past the cam 28 of the value place with the value 9 and pivoted by the cam, the following sensing lever 26 being moved towards the cam 28 associated with it via levers 15, 13 of the next higher value place. The pushing back of the gears ii is prevented by the pawls 1 4th. If the following number wheels are also on 9, then. the preparatory movements of the following levers 13 are carried out in a form-fitting manner simultaneously with the ten caused by the first cam 28. After simultaneous completion of the value entry and all due tens preparations, the pinions 18 are positively pivoted through the cam 21 by means of lever 16 from the locking strip 39 into the toothing 32 of the lever i3 and the wheels ii. At the same time, the locking levers 134 are disengaged from the locking gaps in the levers i 5 by the ten switch cam 22, while all levers i3 in the preparatory position are simultaneously moved into their basic position via the levers 15 in the direction of the arrow just before the arithmetic unit movement ends will. This movement is transmitted via the toothing 32 of the lever 13 and the pinion 18 through the concentric part 21 b of the cam 21 held in engagement to the gears ii, whereby the number transmission is completed.

The worst case of a continuous tens transmission, 8999 plus i, serves as an example: The tooth 24 of the Einerv erteintragrades 8 engaging at the end of the value entry moves the cam 28 of the cam disk i 2a past the nose 41 of the feeler lever 26a via gears 11a, 11a, causing the same is adjusted about its axis 27a. The interaction of the lever 26a with the surface 29 of the lever i 5a rotates the latter about the axis 6 clockwise and the movement is transmitted to the lever i 3a through the pin 31 and slot 3o. The lever 13a is pivoted about the axis 4 against the direction of the arrow by one unit of value. As a result, the nose 41 of the sensing lever 26b hinged to the lever 13a is moved past the cam 28 of the cam disk 12b, which, like the following cam disks, is in the position shown in Figure i, whereby the lever 26b is pivoted about its axis and via the intermediate lever 15b the lever 13b is also rotated positively against the direction of the arrow corresponding to a unit of value. Since the nose 41 of the sensing lever 26c hinged to the lever 1311 is again guided past the cam 28 of the cam disk 12c, there is also a positive rotation of the lever 13c corresponding to a unit of value against the direction of the arrow via an intermediate lever i 5c. This means that the ZehnervorbereitungsbeZVegungen of all value places are completed positively at the end of the value entry. Since only the number wheel 9a was adjusted by the value entry, the number 899o appears in window 4o. The levers 13a, 13b, 13c are prepared and are held by the respective latching levers 34. The simultaneous turning of the levers 13a, 13b, 13 #. in their starting position by the switch button 22 via the levers 15a, 15b, i 5c causes the adjustment via the coupled Ritze118a, 18b, 18c, gears 11b, 11e, 1 i d and gears i ob, io,!, i od the number wheels 9b, 9c, 9 = by one unit in the direction of the arrow, the number gooo = 8999 plus i appears in the window.

Theoretically, with the help of the device described, a Continuous tens preparation by the preparation cam of the input value point for any number of value points simultaneously and positively, the practical limitation: results from the effort required to overcome it the frictional resistances that add up to the number of digits, caused by the Spring force of the locking lever 34.

The embodiment for addition, subtraction and deletion according to Figure 4 contains additional devices compared to the embodiment according to Figure i to 3. The tens preparation cams 42 are provided with two working surfaces for both directions of rotation, as are the noses 43 of the sensing levers 44 that work together with them transfer. These are rotatably mounted on the axis 49 fastened in the housing. The links 47 and 48 are coupled by pins 5o attached to the rods 47, which are guided in slots 5i in the levers 48. In the drawn basic position of the levers 45 and 48, the slots 5 i are arranged concentrically to the pivot points 46 of the rods 47. The movement of the levers 48 is transmitted in a form-fitting manner to the preparatory fog 54 with the aid of the beads 52 and the slots 53. The adjustment of the rods 47 to reverse the direction of movement of the levers 54 and to block the movement of the levers 45 is done by the adjustment lever 5 5, which is held in the respective position by notches 56 and is rotatably mounted about the axis 57 fixed in the housing. Two pins 58 attached to the lever 55 hold the connecting rods 47 in the position caused by the same pins. A pin 59 is also attached to the lift e155. This interacts with the projections 6o of the levers 54 in such a way that it does not hinder the movement of the levers 54 when subtracting, since in this case they move away from the pin 59, also close when adding, since the pin is then outside the movement cock of the projections 6o is located, while it is in the path of the projections 6o of the lever 54 during deletion. Simultaneously with the adjustment of the lever 5 5 are with the help of the connecting rod 62, of the in the housing. attached axis 63 pivotable intermediate lever 64 and the attached to the same, in the slots 65 of the locking lever 61 engaging pin 66 pivotable about the axis 67 fixed in the housing. Reverse locking lever 161 adjusted, so that when subtracting, they only allow the movement of the gears ii in the dash-dotted arrow direction, when adding only in the solid arrow direction, around when deleting the gears ii completely release. The locking lugs 68 of the pawls 61 are pressed by spring-action pressure pieces 69 in .die tooth gaps of the gears ii, whereby the pin 66 in the slots 65 has so much air that the pivoting of the lever 61 is guaranteed when the teeth of the gears ii pass through. Simultaneously with the adjustment of the lever 55, the direction of rotation of the value entry shaft 2 is switched in a manner not shown, when subtracting to the dash-dotted arrow direction, when adding to the solid arrow direction. When the lever 5 5 is set to the middle position (delete), the lever 48 and thus the lever 54 are held in their basic position by the spring-action latching height 1.72 that interacts with the locking gaps 73 of the lever 48. Here, the drive of the shaft 2 is decoupled in a manner not shown. With the gears ii engaged there are gears 70, which rotate at the adding and subtracting on its im` housing mounted axle 71 empty run along .. Diurch the setting of the lever 5 5 Delete are individually the gears 70 in a manner not shown by friction transmission in Direction of arrow rotated. The shaft 23 rotates adding, subtracting and canceling in the same direction indicated by the arrow.

The operation of the arithmetic unit according to Figure 4 is as follows: By rotating the shaft 23, as previously described, the switching pinions 18 are first swiveled out. This is followed by the engagement of the value teeth 24 with the gears i o, whereby the number gears 9 and via the gears ii the cam disks 12 are adjusted by the entered values, when subtracting in the dot-dashed arrow direction, when adding in the solid arrow direction. When subtracting during the transition from o to i9 @d es the number wheel belonging to the respective cam disk, when adding during the transition from 9 to o of the associated number wheel, the cams are moved past the hTases 43 of the lever 44 in the basic position. The preparatory movement caused by the cams 42 is transmitted to the intermediate levers 45, which are held in their position by the latching levers 34. The movement given to the levers 45 is transmitted to the preparation levers 54 in the direction of the arrow drawn through the intermediate levers148 by guiding the rods 47 with the help of the pins 58 attached to the lever 55 in the position shown in Figure 4. When adding, the preparatory movement of the levers 45 is transmitted to the levers 54 in the arrow direction indicated by dash-dotted lines by switching over the lever 55 and the resulting articulation of the rods 47; h, opposite in both cases. the direction of rotation of the respective value entry. As a result, the sensing levers 44, which are articulated on the preparation levers 54, are moved towards the cams 42 assigned to them of the next higher value digit, whereby, as previously described, the following tens preparations are carried out tentatively and positively. The pushing back of the gears ii is prevented by the locking lever 61, the locking effect of which is changed by adjusting the lever 55 against the rod 62, lever 64 and pin 66. The. ten switching movement caused by the cam 22 is, after pivoting the pinion i 8 into the gears ii through the curve 21 and after releasing the Rasthebie134, via the intermediate levers 45 through the connecting rods 47 via the levers 48, preparatory levers 54, the gears provided thereon and the Pinion i 8 .to the gear wheels of the next higher value places in the direction of the respective value entry positively transferred. When the setting lever 55 is set to cancel, the reverse locking levers 61 have been brought to the central position by the members 62, 64 and 66 and have no effect. The connecting rods 47 are held in the central position shown in broken lines, whereby the movement of the lever 45 is blocked, since the rods 47 act on the pivot point 49 of the lever 48. The locking pin 59 prevents, in its central position shown by dash-dotted lines, the movement of the lever 54 in the direction of the dash-dotted arrow. By setting to delete the rotation of the 2 is stopped and the gears 7o are driven individually in the direction of the arrow. After swiveling out the pinion i 8, the gears ii are immediately rotated in the dashed-dotted arrow direction by d1: gears 7o and with these the number gears g and the cam disks 12. When the number o is reached in the window 40, the cams 42 have reached the position shown. By blocking the levers 54 by means of pin 59 and by blocking the levers 45 by means of the connecting rods 47 in the middle position b: efindli: chen 47, the sensing levers 44 cannot evade, whereby the movement of the cam disks and thus the number wheels b is stopped when the value o is reached, where the friction gear for the gears 7o slip. Finally, the pinions 18 are pivoted into the gears ii and the levers 54 again by the cam 21.

The illustrated drawings and the description indicate the use circulating value entry, o.rgane .an,, on the use of which, however, the invention is not restricted. For example, the value wheels 8 can be replaced by organs racks or tooth segments controlled by keystrokes driven and coupled with the gears io while the value is being entered, or the gears i o can directly from racks or tooth segments after coupling are driven during the value entry. The gears can do this further omit io and the number wheels 9 with the gears 1i and cam disks 12 are combined, whereby the value entries; gs @ organs act directly on the gears i i and the number of cams 28, 42 can be reduced from dre'_ to one. as well the invention is not limited to the embodiment shown, with .die Preparatory and switching organs 1.3, 54 around the axis of the revolving organs (cam disk 12, gears i i) swivel. The fulcrum of the preparatory organs 13, 54 can lie outside the circulating organs, or the preparatory organs 13, 54 can are guided in a straight line, with the movably mounted intermediate organs on them 26, 44 move only approximately in the path of the preparatory organs (cams 28, 42). The transmission of the Z-switching movement from the preparatory organs 13, 54 to the revolving organ can be replaced by gears and pinions by means of a ratchet circuit be made.

Claims (1)

PATENT CLAIMS: i. Arithmetic unit, whose tens transfer is carried out in separate processes, the tens preparation and the tens circuit, and its intermediate organs, which interact with the rotating tens preparation organs, on which the tens preparation organs are movably mounted and are adjusted with d;, sen, and its z , switching movement is carried out simultaneously for all value points, characterized in that the movement imparted to the intermediate organs (26) by the revolving tens preparation organs (cams 28), with the aid of transmission members (15, 31), the organs (13) executing the tens preparation movement in a form-fitting manner as tens preparation movement is forwarded. -2. Arithmetic unit according to claim i, characterized in that the intermediate organs (26) are mounted on the organs (13) executing the tens preparation movement and pivot with them during - the preparatory movement about the axis of the revolving organs and that the organs with the intermediate organs ( 26) cooperating surfaces i, 29) of the transmission members (15) run concentrically to the axis of the rotating organs in the prepared position. 3. Arithmetic unit according to claim i, characterized in that the preparatory movement issued to the intermediate elements (26) by the preparatory elements (28) and passed on to the transmission elements (15) as well as the tensile switching elements distributed to the transmission elements (15) by the tens switching element (cams 22) , ewegung through positive connection of the transmission links (pin 31, slot 30) with the preparatory organs (13) of the next higher value points: to .die preparatory organs (13) are forwarded. 4. Arithmetic logic unit according to claim i and 3, characterized in that the Ü transmission link (15) and the preparatory elements (13) connected to them in a form-fitting manner of the next higher value place are held positively in the preparation position by the locking elements (34) which cooperate with them, and that the The return movement of the transmission members (i5) into the basic position is only made possible after the locking elements (34) have been disengaged by the cam (22) causing the ten switching movement. 5. Arithmetic unit according to claim i and 3, characterized in that the switching movement given to the preparation and switching elements (13) is fed to the revolving elements (ii, 12, 9, io) of the respective next higher value point through positive transmission elements (32, 18) will. 6. arithmetic unit according to claim 1, 3 and 4, characterized in that adjustable intermediate members (47, 5o), which are brought into their respective position by adjusting members (55, 58) and held by these positively, with transmission members (45, 48) cooperate in such a way that the preparation and switching movement given to the latter is reversibly passed to the preparation and switching elements (54). 7. Arithmetic unit according to claim i and 6, there- i characterized by the fact that simultaneously with the Adjustment of the intermediate links (47, 50) Transmission organs (62, 64) the direction of action , the # reverse spiers (61) is reversed. B. arithmetic unit according to claim i and 6, there- characterized by that simultaneously with the Adjustment. the intermediate links (47, 5o) the Direction of rotation of the entry organs (2, 8, 24) It is reversed. : 9- arithmetic unit according to claim i and. 6, that characterized in that the adjusting memberA (55, 58) to extinguish in the middle position between between adding and subtracting in this position on the Dmehpunkt the transfer organs (48) are kenden adjusting members (47, 50) the movement or transferring members (45) and thus the Intermediate organs (44). To block. i o. arithmetic unit according to claim 1, 6 and 9, characterized in that the Versbellorgan (55) is provided with a locking element (59) which, in the extinguishing position, cooperates with projections (6o) of the preparation and switching elements (54) in such a way that the movement of these elements (54) in the extinguishing direction and thus the movement of the intermediate organs (44) is prevented. i i. Arithmetic unit according to claims 1, 6, 9 and io, characterized in that simultaneously with the adjustment of the adjusting members (5 5, 58) in the extinguishing position, the erasing wheels (7o) are friction-locked and individually coupled to the drive of the arithmetic unit. 12. Arithmetic unit according to claim 1, 6, 9, 1 o and ii, characterized in that the drive for the value entry members (2, 8, 24) is switched off at the same time as the adjustment of the adjusting elements (5 5, 5 8) in the delete position .