DE902560C - Differential drive for registration devices - Google Patents

Description

Differential Drive for Registration Devices The invention relates to Differential drives adjustable to different values for counting wheels of registration devices. The invention can be used particularly in franking machines in which the values to be printed in each case summed up during an operation of the printing device and be registered.

The operation of indicia machines is normally present at dien commercially available machines a work cycle of the printing device in approximately one Quarter of a second performed while turning the counting wheel in the fourth Part of the time required for a print work game is going on. The operation the counting wheel is thus completed in about the sixteenth part of a second. According to the invention, the actuation of the counting wheels should extend over the entire 36o ° of a work cycle, thereby working: the registration device is improved.

It is therefore an object of the invention to provide improved differential drive devices to create, in which the actuation of the registrar counting wheels at the beginning of the printing process begins and continues throughout the entire printing cycle.

According to the invention, the differential drive device includes a stationary element, which has several switchable numbers of teeth, and a rotating element Element that has a certain number of teeth, with a movement of the rotating element by means of adjustable pinion or the like. Via a dem difference in the number of teeth of these two elements is effected.

Furthermore, the invention is intended to provide a differential drive device be created, in which a stationary element adjustable number of teeth and a rotating element has a certain number of teeth, and in which of these Elements removed drive movement a counting wheel depending on the difference between the number of teeth of the rotating element and the number of teeth switched on that drives the stationary element.

A preferred embodiment of the invention is shown in the drawings shown, it shows Fig. i a vertical section through the housing of a franking machine, from which the arrangement of the counting wheels, their drive device and the switching mechanism can be seen, Fig. - A vertical section along the line 2-2 of Fig. i, individual parts are drawn in elevation, Fig. 3 is a horizontal section by the drive device according to the line 3-3 of Fig. i, Fig. 4 one in the direction of the arrow 4. of FIG. 3, view of the switching mechanism: anisinus of a switching pinion.

5 shows a section along the line 5-5 in FIGS. 1 and 6 Section through the main shaft according to arrow 6 in FIG. I, which is a locking element the switching device and its position in a recess in its starting position shows the main shaft located.

In the drawings, the inside of the housing is a franking machine built-in differential drive device labeled A. In the case io is the Main drive shaft ii stored in bearings i2 and i3. Wave ii is like at 14 indicated, coupled to a drive. On the wave i i is the one labeled C Druckzvlin: the arranged.

Between one driven by the differential device and referred to below as a crown gear: gearwheel z2 and, each of the counting wheels 17 is an intermediate gear. i9 and a gear, 21 existing gear provided. The crown gear 22 and, @dias G: etrieblerad 21 consist of one piece and are rotatably mounted on a sleeve 23 which forms part of the AJ support body 24 (Fig. 2).

The support body 24 is connected to the shaft 25 of the differential drive device tied together. The shaft 25 is arranged transversely to the main shaft i i and by means of the in the side walls io, io.11 of the housing io arranged bearings 26, 26 mounted. The shaft 25 moves through a helical gear drive labeled 27 (FIG. 2) with every work, ss, the shaft i i plays one revolution. For the sake of simplicity the clutches and other parts not shown: the: ensure that every working cycle the printing device is limited to one revolution. The support body 24 has a boom 28 provided with an opening 29 (Fig. 3), in which the ends of a shaft 3 i provided with longitudinal grooves are supported in bearings 32, 32d.

A pinion 3.3 is fixedly arranged at one end of the shaft 31 and meshes with the crown gear. This pinion executes a planetary movement when the shaft 25 rotates and the supporting body 24 rotates. Another scratch 134 has a hub shoulder 34a provided with an internally toothed opening and is longitudinally displaceable on the shaft 31.

A gear 35, hereinafter referred to as toothed disk, works with the displaceable pinion together and preferably consists of one with in Honzentrischcn Circles arranged rows of rectangular openings 37 provided plate. -Normally only ten rows of orifices 37 are required for all values from o through 9, but In the drawing, eleven rows are shown, so one with two shift levers provided device can also be set DM i, oo - '## @ rerte, otherwise only values up to 99 pfennigs could be set. The ten lever would, then; one unit further than .the normal o- to 9-positions or up to the ho-position be switched. Similarly, with three shift levers, a D & 1 io, oo- and, if desired, a D11.7 ioo, oo value can be set for four shift levers.

The upright toothed disk 35 is rigid on a rod 40 supported plate 36 attached. Spacer sleeves 48 are between the individual Flats 36 are provided when multiple differential devices are present. the Plate 36 and the toothed disk 35 are connected to each other by pins 36a, by means of whose also a ring 5o is held. As best shown in FIG. 3, serves the ring 5o as a support for the bearing 32 of the support body 24 and holds the shaft 3i and the pinion 34 in their correct position on the toothed disk 35.

During the working cycle, the teeth of the pinion 34 mesh with the openings 37 of the toothed disk. Those lying between these openings. Bridges 3 are to be seen here as teeth that cause the planetary movement between the pinion on the ring of openings or teeth 37, 37a that is switched on. Of course, protruding teeth can also be provided instead of openings.

Two radial slots 39, 39 of the support body 24 are provided in the toothed disk 3.5 in the initial position (see Fig. Fig. 3 and 5), so that the two the innermost teeth of the pinion can be moved in the radial direction 34 when the pinion is to mesh with another row of teeth 37a. The distance between the slots 39, 39 is the same as between the openings 37, so that: the slot 1 is immediately set in rotation at the start of the working cycle. Rotation of the pinion 34 in its starting position is prevented by means of the slots 39, 39.

Adjustment of the pinion 34 is carried out by a shift lever 41, the is rotatably mounted on a shaft 42. One end of a link 43 is at 44 attached to .diesem lever 41. That: Link 43 is at its other end at 45 (Fi.g.4) designed fork-shaped, so that it the peg-shaped offset end 46 of the Body 24 can reach around for its guidance during the pinion adjustment. contact between link 43 and pinion 34 is effected by two pins 49, 49, which on both The sides of the pinion in the `` '' shape shown in Fig. 3. When panning the Lever 41 around its shaft 4 = is therefore moved the pinion 34 and with a selected series of openings and teeth 37 and 37a aligned. By means of a spring-loaded pawl 51, which is provided with a toothed segment 5, a of the stop lever 41 cooperates, this lever can be set in any selected position will.

The first of the innermost. Row of "teeth 37a has the same number of teeth as the crown gear 22, so that when the pinion 34 with this row of teeth is engaged, both pinions 34 and 33 on the teeth of the pulley 35 and des Face gear 22 run without causing a movement of the face gear. Here the shift lever 41 is in its o-position.

The second row of teeth contains four more teeth than the crown gear 22 and during a working cycle the crown gear becomes the difference in the number of teeth accordingly give a partial rotation, which is sufficient to turn the counting wheel i 5 one digit keep turning. In the same way, the number of teeth increases in every further tooth circle by four teeth, causing a correspondingly larger movement of the crown gear will.

The rotation of the crown gear 22 begins simultaneously with the movement of the pinion along the row of teeth 37a, because the distance covered by the pinion 34 in Compared to that covered by the pinion 33. Way is greater because the pinion 33 closer to shaft 25. By the fact that the crown gear 22 during the whole Continuously rotates the work cycle, the work of the counting wheel is made easier.

By the locking movement of the pawl 51, the shift lever is immediately locked at the beginning of an operation. This is achieved by having one arm 5 2 of the pawl 51 normally with a hook-shaped bent end of a Lever 53 is engaged, which is also connected to the shaft 55 by pins connected lever 54 can be pivoted four together. The upper end of the lever 54 can move freely in a slot 56, the main shaft i i when this shaft is is in its original position, but is blocked when this shaft moves.

Claims (7)

PATENT CLAIMS: i. Device for actuating one on a specific Value switched on counting machines during a machine work cycle, in particular a franking machine for mailing, characterized by one with several Tooth rows of different numbers of teeth provided gear (35), a pinion device (3i, 33, 34), consisting of a shaft (3i), one on this shaft for optional engagement with one of the rows of teeth of the gear (35) displaceable pinion (34) and a feist arranged on this shaft, rotatable with this and with one with the Counting wheel drivingly connected second gear (22) meshing pinion (33) consists, the drive being received by the pinion device which is arranged so that the two pinions (33, 34) have a planetary motion around the selected Execute tooth areas of the wheel (35) or around the wheel (22), whereby this wheel (22) depending on the difference between his own number of teeth and the the selected row of teeth of the wheel (35) is driven. 2. Device according to claim i, characterized by drive means (24, 25, 28) which the pinion device (31, 33, 34) give a full turn during each work cycle. 3. Device according to claim i, characterized in that the first gear (35) is stationary and that parts (24, 25, 28) which are driven in the working cycle of the machine are the planetary motion the pinion device (3 i, 33, 34) cause. 4 .. device according to claim 3, characterized in that the parts driven in the work cycle of the machine (24, 28) of the pinion device (3i, 33, 34), from its starting position at the beginning starting from the working cycle, give a full rotation and that the pinion (34) is displaceable in its starting position. 5. Device according to the claims: i to 4, characterized in that, ß the gear (3,5) is stationary and a number of rows of teeth with different numbers of teeth, which are concentric to a crown gear (22) lie within the innermost row of these rows of teeth is arranged, and that the pinion device (3i, 33, 34) around the center of the concentrically arranged tooth range executes a rotary movement., In such a way that the Pinion shaft (31i) is in a normal to the axis of this rotational movement Level moves. 6. Apparatus according to claim 5, characterized in that the teeth of the stationary wheel (35) from the between adjacent openings of each of the concentric Rows of openings (37) lying parts (37a) of this gear (35) exist. 7. Device according to claims 4 to 6, characterized in that the starting position of the sliding pinion is defined by two radial slots (39) which same Spaced from each other like neighboring openings (3i), and that two teeth of the Vera sliding pinion (34) engage in these slots, when this pinion gear is brought into alignment with the selected row of teeth will. B. Device according to claims 4 and 5, characterized by a switching element (4i) and an element (43) which serves to move the pinion and which is connected to the switching element is connected and one part of which is in its starting position Tickle (34) is engaged to move it, and that the tickle at the beginning of the work cycle is released from the above part. G. contraption according to claims 2 and 5, characterized in that the actuated counting wheels r with digits o to g and with transmission devices from a wheel of low order of magnitude are provided on a wheel of a higher order of magnitude and also with one that can be displaced Pinion cooperating switching device for a range between o. which one Worth the tickle. aligns with the innermost row of teeth, and, r o, at what value the tickle is aligned with the outermost row of teeth, causing when the switching device is in the io position, the assigned counting wheel during a work cycle carried out a full revolution and carried out a transfer to the next higher wheel. will have.