DE391464C - Time stamp for time registration in the decimal system - Google Patents

Description

Time stamp for time registration in the decimal system. It is known, in the case of work control clocks, instead of hours and minutes, corresponding time values are set .to use the decimal system, because .this simplifies the settlement of wages. One disadvantage was that ordinary clocks were used to drive such Timestamps were not suitable. Rather, one had to resort to electrical transmission. Because the periods divided according to the decimal system also include the minute as Time unit must be taken as a basis, it is not easily possible to create a such a division of the digits - # N-erkes to make that after the lapse of 24 hours an automatic setting of the pressure washers for the periods to 0 takes place. If, for example, a three-minute ride is assumed, that is the day divided into 4.8o periods; for printing. so three type washers are required. If these were switched in the known type of counters, a continuous The tens disc is switched on beyond the 24th hour only after a further hour (2o periods of three minutes) a reset to be possible, so that the clock .then would have to be put back an hour each time.

According to the invention, the circuit now takes place from the ten disk, their scope is divided into groups of numbers from four times 0 to 9 and one time from 0 to 7 is, on the hundred disc mediating one with tooth-like projections trained cam, the classification of the arrangement of the groups of numbers Ten disk corresponds, so that the hundred disk is indexed four times only after covering the number range from 0 to 9, but already the fifth time after. Covering the number range from 0 to 7 takes place, whereby after reaching of the number 48o, which occurs after the 24th hour, an automatic and without further Interventions repetitive setting of the pressure washers to 0 takes place. As a result of the described training of the gear train, it is possible to drive the same to use the minute shaft of an ordinary clockwork.

An exemplary embodiment of the invention is shown in the drawing.

Fig. I shows a front view of the time stamp, Fig. 2 a, side view, Fig. 3 is a longitudinal section through the stamp mechanism.

Fig..I to 7 show the sleeper and barricades in section.

On the minute shaft i9 of a clockwork 1 7 sits a disk 1 8, which is elastically connected to a disk 2o, which on the shaft 2i .des number wheel 1q. the lowest unit division and consequently rotates at the same time as the minute hand. In the case of switching periods of, for example, three minutes, the numbers on the wheel 14 do not follow one another in their order, but the individual numbers are written three times in a row, so that the same number is printed for three minutes. Any other period can be obtained in this way.

A cam disk 2 is connected to the wheel 14 of the smallest division, which, for example, enables a weight-loaded lever i to drop every half hour, which is raised by the forces of the clockwork 17 within half an hour and then taken to the trash. The lever i sits on a shaft 23 on which Another lever 24 sits, which after falling from the cam 2 by the Action of a spring 25 the number wheel 26 of the second highest unit division by one Tooth continues to rotate. While the wheel rotates once an hour and sixty divisions has, namely two groups from 0 to 9 three times in a row, has (read Rad 26, which goes around once every 24 hours, has forty-eight recesses four groups of numbers from 0 to 9 and one group of 7th numbers from 0 to 7.

A cam disk 12 (Fig. 7) is also connected to your wheel 26, through which the lever 5 is gradually raised. The cam 12 has five sectors, four of which correspond to ten units, while one sector corresponds to eight units. After ten further shifts of the wheel 26, the lever 5 slides off the curves 28, 29, 30 and 31, while the slide off the curve 32 takes place after eight further shifts of the wheel 26.

With each individual slide, the lever 5 continues to turn the next number wheel 33 by one tooth in the same way as before. The wheel 33 has a division of 50 units, namely ten groups of the numbers 0 to d., and turns around once every 10 days.

In this way it repeats after twenty-four turns the minute hand the initial zero position, the three type wheels that are on one Days count 480 units of three minutes each.

When the lever 5 slides, the curve 3: 4 of the lever 4 touches the is rigidly connected to the lever 5, a pawl 3 on the angle lever 9 in a Direction is attached pivotable, whereby the tooth 35 of the angle lever 9 the Star wheel 6 releases, to the extent that the tooth i i of the angle lever 9 allows. The angle lever 9 forms with the teeth i i and 35 .a kind of armature mechanism, .that prevents the wheel 6 from being thrown over.

When the lever 5 falls further, the pawl 36 touches one Tooth of the wheel 7 and thus causes a further rotation of the wheels 7, 6 and 33 by one Tooth. After completion of the rotation by one tooth, the lever 9 drops by action of the weight 37 finite the tooth 35 in one of the rectangular spaces of the star wheel 6 and ascertains this immovably due to the shape of the gaps. Will the lever d. lifted again through curve 12, its tip brushes from below (lie nose 3 of the pawl 9, so that this from «-eicht. After lifting the lever d. yells the pawl 3 back to its original position.

If you move back on the pressure beam 39, a cutting edge moves 16 into the gaps between the teeth of the wheel 14 with the lowest unit pitch Star wheel 13, (read hereby brought into an exact position to the Druckhanrmer.4o. This adjustment of the star wheel 13 can result in (let the levers i and 5 slide off their curves if they slide shortly before sliding while the lever is pressed stood. The adjustment ensures that the correct position of the types is already in place when the print hammer drops .4o. The drive of the print hammer and the cards are inserted in a known manner.

Claims (2)

PATENT CLAIMS: i. Time stamp for time registration ini decimal system, characterized in that the v directly driven on an ordinary clockwork Numeral wheel (1.1) of the lowest position three times in a row with the same division values [000, 111, 222, etc. to 999] and that advanced by this wheel (1d.) Wheel (26) of the next higher position with four identical and one different from these Number group [four times 0 to 9, one time 0 to 71 is provided, while the from this wheel (26) incremented number wheel (33) of the highest point equal to each other Number groups [1, 2, 3, 41 are available. 2. Time stamp according to claim i, characterized in that a cam (12) is connected to your number wheel (26) of the second digit with several unequal sectors which correspond to the individual pitch groups of the wheel (26).