DE1159681B - Calculating wheel with flexible prongs arranged on the circumference - Google Patents

Description

The invention relates to a calculating wheel which is provided on the circumference with flexible prongs that either rotatable directly or on spoke-like extensions through independent bearing elements are supported.

In known calculating wheels of this type, the bearings are fixedly arranged on the calculating wheel so that they cannot move with respect to the calculating wheel itself. The tines here have only a limited one Mobility and can therefore obstacles such. B. stones in the ground, in some cases not far enough evade.

According to the invention, the prongs should be stored in such a way that they both for themselves and with be able to avoid the camps as far as possible and then return to their original position.

According to the invention, in a calculating wheel of the type mentioned at the outset, each bearing element is separate movably arranged on the circumference of the calculating wheel, preferably on a rim ring.

With this arrangement, both the bearings with the tines arranged in them with respect to the Dodge rim as well as these prongs are rotated themselves within the bearing. It therefore becomes an in Well-resilient calculating wheel obtained, which can be used in particular on stony ground can without the tines being particularly worn or damaged.

The prongs or their extensions are expediently freely rotatable in the bearings, so that they can perform a torsional movement.

A particularly favorable mobility of the prongs is obtained when the bearings after a further Feature of the invention are rotatable on the rim about an axis that is almost perpendicular to the rim. The bearings can move in this case so that the prongs resiliently from the through Dodge the level laid on the rim and be able to return elastically to its original position.

According to another feature of the invention, it is also possible to arrange the bearings on the rim in such a way that that they are displaceable on it in the circumferential direction of the wheel.

A particularly favorable arrangement is obtained when the rim is designed as a wire so that it itself can be elastic.

In one embodiment of the invention there are spherically curved recesses in the bearings present in such a way that the recesses at one end have a larger diameter than in the center, so that the bearing can move around the rim about an axis perpendicular to the rim.

Calculating wheel with arranged on the circumference
yielding tines

Applicant:

Cornells van der LeIy,
Maasland (Netherlands)

Representative: Dipl.-Ing. A. Boshart

and Dipl.-Ing. W. Jackisch, patent attorneys,

Stuttgart N, Birkenwaldstr. 213 D

Claimed priority:
Netherlands of December 24, 1958 (No. 234 626)

Cornells van der LeIy, Maasland (Netherlands),
has been named as the inventor

The bearings can be provided with support members in the form of lugs, which are expediently forward and are directed towards the axis of rotation of the wheel.

The spoke-like extensions of the prongs can according to a further feature of the invention be fitted in the vicinity of their ends facing the hub in recesses of a plate.

The invention is based on two in the following advantageous embodiments explained in more detail. It shows

Fig. 1 is a front view of a first embodiment,

2 shows, on an enlarged scale, a section along the line II-II in FIGS. 1 and

Fig. 3 is a view of a bearing in the direction of arrow III in Fig. 1, also on an enlarged scale, 4 shows a front view of a calculating wheel of a second embodiment,

5 shows a section along line VV in FIG. 4, FIG. 6 shows, on an enlarged scale, an individual part of the calculating wheel according to FIG. 4, seen in the direction of arrow VI,

FIG. 7 shows a section along the line VII-VII in FIG. 6.

The embodiment shown in FIGS. 1 to 3 a calculating wheel according to the invention has a hub 1 which is provided with a plate 2, which for

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3 4

Axis of the hub 1 is perpendicular. The plate 2 contains curved edges 27 and 28 is provided. By doing two spaced apart parts 3 and 4. In edge 28 there are recesses 29 for prongs 30 and 31 the parts 3 and 4 are recesses 5 'or. 6 provided (Fig. 4). The tines 30 and 31 can be seen who are on the run. The plate 2 is made in a single piece, with the one connecting the prongs fang 7 bent, which is a concentric to the hub 1 5 part 32 around a pin 33, which on the plate 25 Forms ring which is attached at a distance from the periphery of the plate. The prongs 30 and 31 are self-contained, undin the recesses 8 are provided. Arranged in permanent bearings 34 and are in these the recesses 5 and 6, the ends 9 of the bent so that they with respect to the direction of rotation Tines 10 supported and supported by a plate 11, parts 35 and 36 of the wheel which are bent backwards which have bolts 12 and nuts 13 on the plate 2 io. The prongs are in the bearings 34 through is attached. The prongs 10 have parts 14, which are recesses 37 out in a to the longitudinal radial extend from the axis of the wheel. The direction of the tine vertical cut long-tine are stretched by the recesses 15 of themselves, while their width in one of the axis permanent bearings 16 out. The length of a plane containing the wheel is only approximately the same Recess 15, in which a tine is stored, is considerable 15 the strength of a tine. The bent part of the borrowed greater than the diameter of the tine in the tine between the parts 35 or 36 is in this Bearing and is approximately three times this recess 37 attached so that the prongs in Diameter. As a result of the great length of the bearing, the bearing 34 cannot be rotated. The warehouses are to be delivered a strong local wear of the tine is additionally provided with recesses 38 through which avoided. The bearings 16 are furthermore guided by a wire rim 39 with bores 20. In one through the 17 provided, which the Ausnehmunigen 15 are almost the center line of the rim 39 going plane cross vertically. Through these bores 17, a wall of these recesses 38 is spherically ge-wire rim 18 out, so that the calculating wheel bends elastically. In one to the axis of rotation of the calculating wheel is. The prongs 10 have parts 19, the immediately vertical plane are the walls of the outside the bearing 16 with respect to the Drehrichtiung 25 recesses 38 concave.

of the wheel are bent backwards. The bearings 16 The bearing 34 can be designed as a result of the exterior on the front of the wheel with lugs 20 recesses around the rim 39 about imaginary axes which pivot forward from the bearing, perpendicular to the direction of the rim 39 extend and are bent in the direction of the wheel axle. The recesses 38 are also so large that are. These approaches are also with respect to FIG. 30 that the bearings slide on the rim 39 Direction of rotation 21 of the wheel bent backwards, can.

similar to the parts 19 of the prongs 10. The bearings 16 similar to the first embodiment results

can be cast or injection-molded and are due to (in this design a calculating wheel in which the the size of the bore 17 on the rim 18, teeth on the circumference of the wheel thereby against each other slidable so that mounted in the bearings 35 can move that the bearings 34 with respect to the Prongs 10 on the circumference of the wheel are movable against one another in the rim 39. The tine parts 35 and 36 because of can. With this type of tine bearings can also in this embodiment from the should expediently pivot a particularly well-suited plane perpendicular to the calculating wheel axis Material to be used for the bearings. Even those in which they lie in the unencumbered state. Bed Parts 19 of the prongs 10 can rotate about the center line 40 these movements, the parts 35 and 36 rotate of the parts 14 of the prongs by torsion of these parts about the longitudinal axes of the radially arranged parts of the turn. The parts 14 rotate in the prongs 30 and 31, these parts having a torsion recess 15 of the bearings 16, the rim can move. The bearings 34 rotate here optionally in the direction of the bearing with respect to perpendicular to the longitudinal direction of the rim 39 through move the tines. In the case of the 45 designed in this way, the axles go through the bearings.

Calculating wheel can easily select each prong for itself. Also in this embodiment, the

soft so that the tines slide on stony ground on bearings 34 with support members corresponding to the supporting stones and can pass them. The links 20 of the first embodiment provided prongs are not loaded unfavorably. That be. The prongs 30 and 31 can lie in radial recesses 8 at a distance 22 from the 50 direction not to move towards the wheel axle, since the part 9 of the prong, the at least one eighth of the part 32 between the pins 33 and the bent distance the rim 18 of the part 9 is. The NEN edge 27 of the ring 26 jammed sied. Since the recesses 8 are only so wide that the prongs 10 also fit into the recesses 29 of the prongs just between them, so that there are no edges 28, they cannot rotate the prongs laterally around a through the center line of the 55 move between the ring 26 and the plate 25. Part 9 of the prongs formed axis can take place. As a result of this storage of the prongs, the prong parts between the plate 25 and the ring 26, when the bearing 16 is displaced on the rim 18, the part 14 is therefore subjected to bending stress and not jammed. The bent edges whereby the prongs are always in their correct position 28 and 27 of the ring 2ß can therefore be moved back a little higher. Since the lugs 20 are towards the 60 than the strength of a prong. Radial axis are bent, they form support members for the ring 26 and plate 25 are bolted

Crop that may be in front of the calculating wheel. 40 held together. The distance between the immediately in front of the wheel can therefore no crop plate 25 and the ring 26 will therefore lie on the ground, so that the parts 19 of the prongs 27 and 28 bent edges are determined. The rains are not burdened too heavily. 6 ₅ of 28 and 27 can be slightly lower than

The wheel according to FIGS. 4 to 7 has a hub 24, to the strength of a prong, so that the between the which a plate 25 is arranged. On the periphery of the plate 25 and the ring 26 lying parts between A ring 26 is attached to plate 25, which ring is clamped to it. The pins 33 can

instead of being fastened on the plate 25 also on the ring 26.

Claims (22)

PATENT CLAIMS: 1. Calculating wheel, which is provided on the circumference with flexible prongs which are rotatably supported either directly or on spoke-like extensions by independent bearing elements, characterized in that each bearing element (16) is arranged to be movable on the circumference of the calculating wheel, preferably on a rim ring is. 2. Calculating wheel according to claim 1, characterized in that the prongs or their extensions are freely rotatable in the bearing elements. 3. Calculating wheel according to claim 1, characterized in that the elements (34) on the The rim (39) can be rotated about an axis that is almost perpendicular to the rim. 4. Calculating wheel according to one of the preceding claims, characterized in that the Bearing elements (16 and 34) are arranged near the circumference of the calculating wheel. 5. Calculating wheel according to claim 1, characterized in that the rim (18) is wire-shaped. 6. Calculating wheel according to one of the preceding claims, characterized in that the Length of a bearing (16) is considerably greater than: the strength of the prong in question in the bearing. 7. Calculating wheel according to one of the preceding claims, characterized ■ that a Bearing element (16) is provided with two holes (15,17) in which the prongs (10) and the rim (18) are arranged, wherein the bore axes of the holes intersect at least almost perpendicularly. 8. Calculating wheel according to one of the preceding claims, characterized in that the Hole in an element is an elongated hole, with a longer side of the hole at least almost lies in a plane perpendicular to the wheel axis. 9. calculating wheel according to claim 8, characterized in that that a prong (10) is provided with a bent part, which is in the elongated Part of the hole. 10. Calculating wheel according to one of the preceding claims, characterized in that the Hole in an element for the rim is designed such that at least one of the center line of the bearing (34) containing plane, the walls of this bearing are spherical, the hole (38) is wider at one end than in the middle, so that the support member extends around the rim (39) by one this rim can move vertical axis. 11. Calculating wheel according to one of the preceding claims, characterized in that a Element is formed from a cast or injection-molded material. 12. Calculating wheel according to one of the preceding claims, characterized in that a Element (16) on the front of the wheel with a support member in the form of a projection (20) is provided. 13. Calculating wheel according to one of the preceding claims, characterized in that close the circumference of the wheel forward lugs (20) are attached, which also in Direction to the axis of rotation of the wheel are directed and form support members. 14. Calculating wheel according to claim 12 or 13, characterized in that the approaches in relation are directed backwards in the direction of rotation of the wheel. 15. Calculating wheel according to one of claims 12 to 14, characterized in that an approach attached to the wheel near the rim. 16. Calculating wheel according to one of the preceding claims, wherein the ends of at least one Number of tines placed between two plates are, characterized in that each of these prongs at a distance from its the Axis of rotation of the wheel closest to the end in a recess of one of the plates the prong with its diameter fits into it at least almost exactly. 17. Calculating wheel according to claim 16, characterized in that that the recess is provided in a ring concentric to the wheel axis, the is formed by the bent edge of one of the plates lying near the wheel axle. 18. Calculating wheel according to claim 16 or 17, characterized in that the recess in a greater distance from the axis of rotation of the wheel <than the parts of the tines that lie between the plates are attached. 19. Calculating wheel according to one of claims 16 to 18, characterized in that the distance of the end of the tine closest to the wheel axle from the recess at least one Eighth of the distance that end is from the rim. 20. Calculating wheel according to one of the preceding claims, characterized in that the Ends of the prongs near the hub are inserted into bores in the hub-shaped part, which extend at least almost parallel to the axis of rotation of the wheel. 21. Calculating wheel according to claim 20, characterized in that the tine end in the bore is held by a plate attached to the hub, which is located in front of this hole. 22. Calculating wheel according to claim 20 or 21, characterized characterized in that the bore through two at a certain distance from each other lying hub disks passes through. References considered: British Patent No. 802,364; USA.H Patent No. 2,811,008; interpreted documents of the Austrian patent 6o No. 201 335; laid out documents of Belgian patent No. 550 758. 1 sheet of drawings