DE1117931B - Star wheel for star turning device - Google Patents

Description

The invention relates to a star wheel for star turning machines with an association of cohesive prong structures that are attached to step-like bends Have helical spring-like turns, in each of which an adjacent prong structure engages. The object to be solved with the subject matter of the invention is in a more advantageous embodiment of the Redhenrades seen.

A calculating wheel for devices for moving crops lying on the ground laterally with wires or rods has already been proposed, which, starting from a central part of the calculating wheel, running to the wheel circumference, in the vicinity of the middle part as spokes and near the wheel circumference as prongs. Along the whole There are always two adjacent wires or rods between their attachment points on the wheel circumference Middle part of the calculating wheel and its ends forming the prongs without the interposition of a rim hooked together. At the foot of the angled prong an eyelet is provided in the wire to which this is followed by a bend running essentially in the tangential direction in the direction of rotation of the wheel. The bend in turn goes at an acute angle in the radial on the central part of the Calculator wheel connected spoke over. The individual spokes are connected to one another in such a way that that the spoke of the next wire is guided into the eyelet of a spoke, so that a self-contained Association is created. The eyelets are so tightly wound that the wires are level of the wheel cannot move. The self-contained prong association has the disadvantage that the The tines have the same rigidity on both sides when subjected to axial load, d. i.e., the prongs are just as stiff when swathing as when turning. As a result, the good lying on the ground becomes imperfectly turned.

The mentioned shortcomings are substantially eliminated according to the invention in that between the tine structures connected to form a self-supporting association are excluded from the association Prong structures are arranged, the prongs when the star wheel is loaded in an axial Direction can evade sideways. In this way, a calculating wheel has been created that can be used for Swaths have the necessary axial stability, since in this case they are excluded from the association Prong structures rest against the association. When using the calculating wheel for turning, this becomes Wheel acted on from the other side, so that the prongs are excluded from the association

Applicant:

JOHN DEERE-LANZ Aktiengesellschaft, Mannheim

Dipl.-Ing. Gerhard Römer, Wilhelmsfeld,
has been named as the inventor

Prong structures are lifted axially from the association and tensioned under the influence of the goods. At the Lifting off the grass hub, the tines snap back and thereby give the between the rake wheels The material flowing out is given a turning impulse, resulting in a better result when turning is achieved.

With regard to the arrangement and design of the tine structures excluded from the association, the invention proposes that the step-like angled portions of the tine structures of the self-supporting association have eyelets through which the tine carriers of the tine structures excluded from the association reach, the latter tine structures also being step-shaped and with their bend on one side of the self-supporting bandage. The angling of the tine structures excluded from the association is expediently designed to be undulating.
The tine structure can be attached to the hub disk of the calculating wheel in such a way that the tine carriers, which run in an arc against the circumferential direction of the wheel, are positioned in bores in a disk by means of hooks provided at their lower ends and directed transversely to the plane of rotation of the wheel a hub disk having a flange with openings for the tine structure can be screwed on on its outer circumference.

Details of the invention can be seen from the following description and the drawing, which illustrates an embodiment of the subject invention. It shows

109 740/35

Fig. 1 the new star wheel in a partial view in elevation,

2 shows the fastening of the tine structures on the wheel hub disc on a larger scale,

FIG. 3 shows an evasive tine structure of the calculating wheel according to FIG. 1 on a larger scale.

In the drawing, 1 denotes the tines of a tine structure 1 to 5, which is preferably made of steel wire is made. The prong 1 goes at its foot in a direction opposite to the direction of rotation of the calculating wheel directed bend 3 over and finally runs at an acute angle down into the Tine carrier 5 off. At the transition point of the prong 1 in the bend 3 is' a full one Helical spring-like coil 2 is provided, on which another full one in the same bend Spring coil 4 follows. The individual prong structures 1 to 5 are put together to form a prong association or connected to one another, the one formed from the bend 3 and the tine carrier 5 Corner of the tine structure 1 to 5 of the turn 2 of the tine structure lying behind it in the direction of rotation is recorded, so that the prongs 1 are each the continuation of the tine carrier 4 of each represent the prong structure lying in front of him.

The gap between two successive tine structures 1 to 5 is also created by a step-shaped tine structure 6 to 8 filled. This consists of a tine carrier 6, which is followed by a wave-shaped bend 7, which in turn terminates in a prong 8. The tine structure 6 to 8 is organically connected to the tine structure 1 to 5, in which the tine carrier 6 is inserted through the spring coil 4. The wave-shaped bend 7 is in length dimensioned so that they are immediately in front of the turn 4 of the adjacent prong formation 1 to 5 in the prongs 8 expires, so that this is the continuation of the tine carrier 6 following it in the direction of rotation forms.

The tine structures 1 to 5 and 6 to 8 are by means of their tine carriers 5 and 6 on a hub disk 9 attached to a wheel hub 10. For this purpose, each tine carrier 5 or 6 has a hook 11 or 12 which engages in a bore 13 of a disk 14. The disc 14 is with its prong side Surface can be screwed onto the hub disk 9 in such a way that the tine carriers 5 and 6 between the two Discs 9 and 14 are clamped. Furthermore, the tine carriers 5 and 6 are in recesses 15 a Flanging 16 of the hub disk 9 out. For simplicity is in Fig. 2 of the drawing only the fastening of a tine structure 1 to 5 is shown, since for the fastening of the tine structure 6 to 8, as already described, the same applies.

The interconnected tine structures 1 to 5 result in a tine association, the tangential Load on the prongs 1 yields elastically against the conveying direction, while he is with axial Load on the calculating wheel is considerably more resistant. So the prongs 1 give way when tangential Load to the rear, with both the resilient coils 2 and 3 and the bends 3 and the tine carrier 5 are tensioned. Furthermore, as a result of the mutual coupling Prong formation 1 to 5, the evasive movement initiated by a prong 1 when it hits an obstacle transferred to the neighboring tine structures 1 to 5, which are accordingly on the Can adjust obstacle. The interposed tine structures 6 to 8 make this favorable The effect when tangential forces are encountered is even more pronounced, as it is once with the tine bond the tine structures 1 to 5 are connected by means of the windings 3, on the other hand directly are fastened with their tine carrier 6 on the hub disk 9 of the wheel hub 10.

In the event of a tangential load on the calculating wheel, the tine structures 1 to 5 do not have such a large possibility of evasion, because their stepped formation and their mutual coupling prevent it. Against it the tines 8 of the tine structures 6 to 8 can move sideways when the calculating wheel is in front of their on Association adjacent side is loaded axially, while it is under axial load of the calculating wheel from the one on the other side to the bandage and thus have no alternative. In this way it is achieved that the rake wheels with the required stability when swathing work, since in this case the prongs 8 rest against the association, so that you can also do heavy things with it Can rake up the crop without having to fear that it will climb over the swath. In the Turning work, on the other hand, in which the rake wheels are acted upon by the goods in the other axial direction the prongs 8 can lift or tighten from the association under the influence of the material, so that they snap back laterally into their starting position when leaving the sward, whereby they give the crop an impulse that causes it to turn.

Claims (4)

PATENT CLAIMS: 1. Star wheel for Sternrechwender with an association of coherent tine structures which have helical spring-like windings at step-like bends in which an adjacent tine structure engages, characterized in that excluded from the association between the tine structures (1 to 5) connected to form a self-supporting association Prong structures (6 to 8) are arranged, the prongs (8) of which can give way laterally in an axial direction when the star wheel is loaded. 2. Star wheel according to claim 1, characterized in that that the step-like bends (3) of the tine structure (1 to 5) of the self-supporting Association eyelets (4) through which the tine carrier (6) excluded from the association Reach through tine structures (6 to 8), the latter also tine structures are stepped and with their bend (7) on one side of the self-supporting Association. 3. Star wheel according to claim 1 and 2, characterized in that the angled portion (7) of the The prong structure (6 to 8) excluded from the association is formed in a wave-like manner. 4. Star wheel according to one of the preceding claims, characterized in that the opposite the direction of rotation of the wheel curved tine carriers (5 or 6) by means of provided at their lower ends, hooks (11 or 12) directed transversely to the plane of rotation of the wheel in bores (13) of a Disc (14) store, which in turn with the tine-side surface on one on its outer circumference a flange (16) with perforations (15) for the tine structure (1 to 5) having hub disk (9) can be screwed on. Older patents considered: German Patent No. 1039 284. 1 sheet of drawings