NO149016B - DEVICE FOR CUTTING OF ENSILATION - Google Patents

Description

Mechanism for selective setting of calculator registers.

The invention relates to calculators. More particularly, the invention relates to a keyboard mechanism for such machines by means of which different digits can be entered into the register.

Many calculators have been proposed including a ten-keyboard. In the usual constructions there are individual number keys 1-9 and a single long-stretched zero key. In recent times, calculators have been proposed which, in addition to the usual number keys 1-9, have three separate zero keys. Depressing the first of these zero keys will set zero in the machine register. By depressing the second of these zero keys, two zeros will be placed in the register at the same time. Depressing the third zero key results in the placement of three zeros simultaneously in the machine register.

In many machines of the titanium agent type

the digits are placed in the register by cooperation between adjustable stop pins which are mounted in a displacement pin box. Each time a number key is pressed, a corresponding pin in the box is set, and the pin box as such is moved one step. This process continues either until all digits have been set or until the register is filled. When arranging a single, double or triple zero setting mechanism, it is obvious that depending on which zero key is pressed down, either the one, two or three zero stop pins will have to be moved one, two or three steps. In previous machines of this type have different mechanisms

been arranged to achieve this result. In some of these mechanisms, particularly extra wide zero stage pins are used which cannot be replaced with other number pins. This means a disadvantage in production and that the parts cannot be replaced with each other. Also in earlier mechanisms, systems can be found for shifting the pin box using an additional row of special pins, which can be connected in different ways to the zero stop pins. The disadvantage of this system is due to the additional complexity obtained by this additional coupling mechanism.

The invention overcomes these previous disadvantages by proposing a mechanism for selectively setting single digits or a plurality of digits in a calculator register which is provided with a number of stop pins of identical shape arranged in a number of rows, which number corresponds to the decimal digits 0-9 , which mechanism is arranged in connection with a predetermined one of the rows and comprises several stop pin bars arranged in a plane and actuable by pressing a key in a group of keys, thereby enabling the simultaneous setting of one or more stop pins,

wherein the mechanism further comprises a

detent which, depending on whether one or more pins have been set, allows the register to move forward one or more steps, which mechanism is characterized by the detent containing a toothed bar which, when engaged with a tooth, prevents displacement of the register until the moment when it

selected stop pin has been set, and a hoop soms, after one or more stop pins have been set, can cooperate with a non-set stop pin in said predetermined sequence, to enable displacement of the register.

The advantages obtained by this construction include the elimination of multiple constructions for the stop pins, as well as the fact that less effort is required to press down the zero tangents by simplifying the mechanism. The entire pin box can also be made smaller due to the fact that these many parts are looped.

The drawing shows the most important features of the construction of this new mechanism. In order for the figures to be understood more easily, the usual number keys are not shown, and other simplifications have also been made to show the operative mutual position between the parts.

In the drawing, 1 is the pin box, which comprises a number of adjustable stop pins 2, as pressing down the stop pins 2 will effect the setting of a digit or digits in the machine register 1. The pin box is constantly pressed to the left by means of a spring, which is not shown in the drawing. During operation, after each setting of a stop pin 2, the pin box will be moved one step to the left.

Each of the three zero tangents, of which only the double zero tangent 3 is shown, is each connected by a rod, namely the single zero tangent with rod 4, the double zero tangent with rod 5 and the triple zero tangent with rod 6. Each of these rods 4 , 5, 6 are provided with a pin respectively 7, 8, 9, loosely connected to each respective weight arm, respectively 10, 11, 12. These weight arms 10, 11 and 12 are individually rotatable on the shaft 13. Each of them is again in cooperation with one of the zero pin rods 14, 15 and 16. As regards the single zero tangent (not shown) and the double zero tangent 3, the pin rods 14 and 15 respectively are movably connected to the respective weight arms 10, 11 by means of pins 20, respectively 21, mounted on the weight arms 10, 11 and engages in the slots 22, 23 respectively. The reason why these slots are arranged will be apparent from the following description. It will be seen that the triple zero rod 6 is connected by a single pin connection 24 to the arm 12.

The different stop pin rods 14, 15, 16 are provided with cams 25, 26 and 27, 28. These cams interact in such a way that if the zero stop pin rod 14 is affected, it moves itself. If, however, the pin rod 15 for the double zero tangent 3 is acted upon, the cam 25 will engage the cam 26 and the stop pin rod will move towards a stop pin 2. If the stop pin rod 16 for the triple zero tangent is moved, the stop pin rod 15 will also move due to the cam 27 engaging into the cam 28, and the stop pin rod 15 will also, as previously described, move the stop pin rod 14.

Each rod 4, 5 and 6 is provided with a projection 31, 32, 33 respectively, which

cooperates with the shaft 34 for the tilting piece 35. This is rotatable on the shaft 36 and

is pushed upwards by a spring 37 to keep the keys in the normal position. The tilting piece 35 is provided with a projecting tooth

38 for cooperation with a rack 41 with

teeth 39. The tilting piece is further connected to a rod 42 with a cam 43. The upper part of the rod 42 passes through a slotted part 44, attached to the hoop 45, which in turn is rotatable on the shaft 46, and is pressed by a spring 48 downwards, so that the projection 49 normally engages a stop pin 2. The mechanism comprising the rocker piece 35, the rack 41 and the hoop 45 constitutes the most important feature of the hem mechanism, whereby the pin box is displaced.

The effect of the mechanism must now be considered, as it is assumed that the individual zero tangent and its associated rod 4 are pressed down. The weight arm 10 will rotate on the shaft 13 and, by this rotation, will act on the stop pin rod 14 to abut against a stop pin 2, whereby this single stop pin is set. At the same time as this operation is carried out, the cam 31 in cooperation with the shaft 34 will cause the rocker piece 35 to revolve around the shaft 36. As this rotation progresses, the tooth 38 will come into engagement with the rack 41 and prevent any movement of the pin box for the time being. When the tooth 38 is raised, the rod 42, which is connected to the rocker piece 35, will also be raised. As soon as the cam 43 abuts against the cam 44, the arm 45 will turn clockwise around the pin 46, and the projection 49 is raised clear of the stop pin 2 against which it abuts.

When the single zero key is released, the rocker piece 35 will again be moved by the spring 37, so that the tooth 38 comes out of engagement with the rack 41. When this takes place, the rack 42 is moved downwards. The bracket 45 is therefore pushed upwards by the spring 48, so that the cam 49 can again come into engagement with a stop pin 2. As a stop pin 2 has already been set, it will be the next one to the right that has been set, and which will stand in the path of the projection 49. The pin box 1 will be displaced to the left by its spring, until it is again stopped against further movement by contact between the projection 49 and the stop pin 2.

The effect of the double zero key is in all respects analogous to the single zero key. In this case, however, it will be easily seen that when engaging between the cams 25 and 26, two stop pins will be set. It should be noted that pressing down the double zero pin will not cause the single zero pin to move down because the pin 20 is movable in the slot 22 for the stop pin rod 14. The same applies in the case of the triple zero pin being pressed down. In this case, the cam 27 will engage with the cam 28 and the cam 25 with the cam 26, so that the three zero pin rods 14, 15 and 16 are moved to set three zero stop pins 2. Because of the slots 22 and 23, there will still not be some tendency for the single or double zero keys to move down when the triple zero key is pressed down.

When the double zero key is pressed down, the effect of the detent is again the same as for the single zero key. When, however, the key is released, in this case two zero stop pins 2 will have been pressed down, and the protrusion 49 will only rest against the next pin, which has remained unadjusted, when instead of moving one step to the left, the pin box will be moved get two steps to the left. The same effect takes place when the triple zero key is pressed down, except that in this case, as three zero pins are pressed down, the projection 49 will only be stopped when the pin box is moved three steps to the left.

From the preceding description, it will be readily seen that a new and simplified mechanism is provided for setting multiple keys in the register for a calculator. Although the preceding description has concerned the case where one, two or three zeros have been simultaneously entered into the register of a calculator, it is obvious that the teachings of the invention can also be extended to any desired number for any of the digits 0-9.

Claims (2)

1. Mechanism for selectively setting single digits or a plurality of digits in a calculator's register which is provided with a number of stop pins of identical shape arranged in a number of rows, which number corresponds to the decimal digits 0-9, which mechanism is arranged in connection with a predetermined one of the rows and comprises several stop pin bars arranged in a plane and actuable by depressing a key in a group of keys, thereby enabling the simultaneous setting of one or more stop pins, in which the mechanism further comprises a detent mechanism which, depending on whether one or more pins are has been set, allows the register to move forward one or more steps, characterized in that the detent contains a toothed bar (41) which, by engagement with a tooth (38), prevents displacement of the register (1) until the time when the selected stop pin (2) has been adjusted, and a hoop (45) which, after one or more stop pins have been adjusted, can cooperate with a non-adjusted one is stopped tift (2) in said predetermined sequence, to enable displacement of the register. 2. Mechanism as stated in claim 1, characterized in that number keys of the lower order are mutually loosely connected by means of a pin (20, 21) and slot (22, 23) device with respective stop pin bars, so that depressing a number key of higher order does not result in simultaneous pressing of number keys of lower order.