DE1244456B - Spring for pull link bands - Google Patents

Description

Spring for pull link belts The invention relates to a spring for Pull link bands that have a spring coil and non-crossing spring legs and which is supported in a single member by means of the legs.

Springs are known for the individual links of pull-link belts, which have one or more turns, mostly circular turns, and at where the ends of the turns are continuously tangential to the turns Pass over the legs so that these legs cross each other. Stress such springs a relatively large space in each individual link and above all When stretching the bracelets, do not squeeze them into the smallest of spaces, as a result of which the Extensibility of the links is restricted. Especially if they are at one Apply the necessary spring forces to be able to deform the corresponding ways of the limb parts, the known Feathers in the fully stretched state have a large expansion in the longitudinal direction of the Tape on and can not be on their clamping parts except for a longitudinal extension compress from about two material thicknesses of the spring material. Also requires their definition in the limb parts usually additional fasteners.

Another known spring for pull link bracelets has only a spring coil and non-crossing spring legs, but the spring legs are connected directly to the spring coil and are in one and the same with this Level, so that a considerable amount of space is required in the longitudinal direction of the belt even with this design consists.

The invention aims at a spring for the individual links of bracelets make available, especially in the area of their attachment or support compress at the turn in the stretched state of the tape to a very small space leaves, which still applies the necessary spring forces and which in the case of strong Stretching of the band allowed displacements of the individual link parts. It should also be easy to hold in the limb.

The invention therefore provides that the spring coil and the spring legs are arranged in superimposed levels and via a web or several Bridges are connected to each other.

The spring legs do not go in a straight line or continuously as tangents into the spring coil. In addition, the spring coil no longer needs in one To run helically, but can lie in any surface. Even the position of the legs in relation to this surface is freely selectable. Depending on the support the limb parts on the coil can displacements and particularly favorable spring allow an advantageous application of spring forces, since two in one spring there are spring parts coupled to one another, which on the one hand consist of the elastic Winding of the spring and on the other hand from the elastic training and attachment of the legs at this turn result. Depending on the limitation of the spring travel and after compression of the coil by the link parts, the spring characteristic, d. H. the ratio of the spring force exerted by the spring on the link parts to the spring travel covered in each case, be designed progressively. So it is possible to interpret the spring so that it is contracted or nearly contracted The condition of the bracelet when it rests on the arm is only a relatively low one Applies spring force, while this one when a certain elongation is exceeded assumes a discontinuously increasing value, so that a stripping of the bracelet increased resistance is opposed by the hand. Still, one is very great stretching and thus a perfect application of the bracelet is possible.

In a favorable embodiment of the invention, the webs are in the area the open point between the turn and one leg in each case. Of the However, the web can also be advantageous over the open point at the turn and be arranged on the two legs. To compress the spring in a particularly tight space to be able to, the invention provides that the turn has angled end parts, which when the spring is compressed on the opposite middle part of the Lay the turn flat.

In an embodiment of the invention that is easy to manufacture The webs can spring through Incisions and separation of the thighs be formed by the turn. On the other hand, however, depending on the load and manufacturing conditions are also advantageous that the spring from round, flat or profile steel by bending the winding, bending the webs perpendicularly out of the Level of the turn and further angling of the legs approximately perpendicular to the webs is formed. One embodiment of the invention provides that the legs are connected to the adjacent part of the turn in a U-shape. The Swirl elliptical shape. As a result, it can be compressed in a particularly small space.

The invention is based on the drawing of exemplary embodiments explained in more detail. It shows F i g. I a perspective view of a first embodiment a spring made of leaf spring steel, FIG. Figure 2 is a perspective view of a second Embodiment of a spring made of square section steel, F i g. 3 shows a third embodiment a spring made of leaf spring steel, the above and below the partition wall of a boundary part of a band link, F i g. 4 the arrangement of the in F i g. 1 illustrated spring in a delimitation part, F i g. 5 the arrangement of the in F i g. 1 illustrated spring in a limiting part in the opposite position as in FIG. 4 and FIG. 6 in perspective View of a band link consisting of three parts with a spring according to FIG.

The spring 1 (Fig. 1) is made of flat leaf spring steel and has a spring coil 2 in the form of an elongated oval, which is a vacancy 3 has. Short webs 4 are provided in the area of this opening which the spring legs 5 are arranged. The legs s are of the turn 2 formed by cutting open the leaf spring up to the webs 4. These cuts can have a smaller width or be formed only by a cut. At the ends of the legs can be provided with short bends 6 for hanging serve in limbs.

Such a spring can, for example, with the middle part? of their The winding is in contact with one of the parts of the belt link in which it is installed, and it can then the ends of the legs 5 in the direction of the open point 3 facing away from the middle part 7 of the turn are moved. You can see the legs bend in the process 5 compared to the webs 4. At the same time, however, the distance between the webs increases 4 from the central part 7 of the turn opposite the opening 3. This can be counteracted by the fact that in the area of the webs 4 from the outside on the turn is pressed so that it is compressed simultaneously with the bending of the tendons s; depending on whether these loads occur simultaneously or one after the other different spring characteristics, whereby when attacking one after the other in the course a stretching movement of the band causes a kink in the spring characteristic. This means that the resistance of the spring to the stretching movement suddenly increases.

The spring 1 can also be clamped between the ends of the legs 5 and the webs 4 in such a way that the legs 5 are bent away from the coil and the webs 4 move into the coil. The legs can then be practically rigid. The legs 5 can assume any angular position in the relaxed state with respect to the parts of the spring coil located above, which depends on the construction of the band link in which the spring is inserted.

The spring 1 (FIG. 2) can also be made of spring steel with a rectangular profile be bent. The spring legs s lie on the overlying parts of the coil 2 U-shaped, the webs 4 being formed into short U-bends.

The spring 8 (Fig. 3) has an open turn 9, the open Point 10 is arranged opposite the web 11, on which the two legs 12 connect. The legs 12 lie in a plane below the plane of the spring coil. The parts 13 of the turn 9 are slightly behind at a distance from the open point 10 angled on the outside so that it lies flat on the Place the opposite part of the turn 9 in the area of the web 11.

The spring 8 is in a limiting part 14 for a three-part bracelet link stored. The partition 15 is located between the legs 12 and the spring coil 9, so that the spring is guided through this partition 15. During the stretching movement of the bracelet comes the spring 8 in the area of the web 11 on the angled surface 16 of the limiting part 14 to rest, so that the turn is compressed.

Such springs can be in variously constructed band links to be ordered; however, they are particularly suitable for three-part pull links, as shown in the exemplary embodiments of FIG. 3 through 6 of the drawing are.

Claims (5)

Claims: 1. Spring for pull-link belts that have a spring coil and having non-crossing spring legs, and which by means of the legs in a single link is supported, d u r c h e k e n n -z e i c h n e t that the spring coil (2, 9) and the spring legs (5, 12) in planes one above the other arranged and connected to one another via a web (11) or several webs (4) stand. 2. Spring according to claim 1, characterized in that the webs (4) in the area the open point (3) between the winding (2) and each leg (5) are. 3. Spring according to claim 1, characterized in that the web (11) opposite the open point (10) on the winding (9) and the two legs (12) is. 4. Spring according to claims 1 and 3, characterized in that the turn (9) has angled end parts (13), which are when the spring is compressed Lay flat on the opposite middle part of the winding (9). 5. Spring according to claims 1 to 4, characterized in that it is made of round, flat or profile steel by bending the winding (2), angling of the webs (4) perpendicularly from the plane of the winding and further angling of the legs (15 ) is formed approximately perpendicular to the webs. 6. Spring according to claims 1 to 4, characterized in that the webs (41, 11) are formed by incisions and separation of the legs (5, 12) from the turn (2, 9). 7th Spring according to Claims 1 to 4, characterized in that the legs (5) are connected in a U-shape to the adjacent parts of the winding (2). B. Spring according to the other claims, characterized in that the turn (2, 9) has an elliptical shape. 1 considered publications: German Patent Nos. 1151690, 1056 405; German utility model No. 1868101; U.S. Patent No. 2,528,568;