DE939679C - Screw clamp - Google Patents

Description

Screw clamp The invention relates to screw clamps, in particular made of malleable cast iron It is based on new in-depth observations and investigations, which have shown that the screw clamps of the previous design are either suitable for the The demands placed on them were too weak or compared to the demands made on them unnecessarily much material, especially in and at the transition points to the so-called House on the clamp legs required. As the most stressed and therefore endangered have shown those places where the screw clamp leg into the so-called house, d. H. that part of the leg passes over which the screw clamp rail records. At these points, tears and tendons occur when overstressing Stretches on. The clamp leg was therefore strengthened as a whole. It has It turned out that this worsens the flow of the lines of force. One has already suggested at the rail pressure points of the screw clamp legs to accumulate protruding material in the free running rail cross-section, which then before normal use the clamp was compacted, reducing the risk a deformation of the clamp legs at these highly stressed areas avoided should be. By deviating from the previous design according to the invention it was made possible despite the strength of the clamp legs Weight reduction and material savings compared to the previously common designs to increase significantly.

In the main, the invention is based on the fact that the house of the pin leg, d. H. the part that receives the guide rail at such an angle to the axis of the guide rail is laid out that in the event of a load an undisturbed flow of force lines occurs. this is achieved by an inclined position that creates an accumulation of material on the pressure side of the house and on the pull side an even transition of the leg cross-section results in the house. Furthermore, the invention is based on the fact that the now favorable The transition point between the house and the cantilevered part is the cantilevered part of the Clamp leg as a carrier of the same strength with approximately parabolic delimitation is connected, whereby its I-cross section ... is designed so asymmetrically, that there is less material in the flanges on the pressure side than in the flanges of the pulling side, preferably in such a way that the distance between the outermost pulled Fiber of the profile from the neutral fiber to the distance of the outermost pressed fiber of the profile to the neutral fiber is related to i: 1.4 to i: i, 8., - An exemplary embodiment -is illustrated in the drawing.

Fig. I shows a screw clamp leg of a previously used one Shape; Fig. Z shows the legs of the screw clamp of the new design; 'Fig. 3 is a cross section through one of the legs, FIG. 4 is a longitudinal section along the line A-A in Fig. 2. 'While the common screw clamp legs according to Fig. i the house b of the leg c receiving the rail a, equiaxed and symmetrical to the axis of the receiving cavity or the guide rail a, is in the, new screw clamp according to FIG. 2, the house b placed at an angle that on the Pressure stressed point d there is an accumulation of material on the diagonal opposite point e on the tension side corresponds to the same amount of material accumulation, and that at point x on the tension side (transition between house and cantilever Part), where otherwise (in the execution according to Fig. I) tears occur, so little house material - not leg material - there is a uniform transition of the cross-sections and thus an undisturbed flow of lines of force is given.

The clamp leg c is shown in FIG. 'Z as a carrier of the same strength formed against bending, and the outer boundary extends from point d to the free end to approximately .parabetic shape, with the compression and tension flange from the Rejuvenate house after the free end.

Also the strength of the leg web located between the flanges edge to taper in the same way from the house to the end (see. Fig. 4) .

The transition points h between the house and the footbridge run as shown in Fig. 4 shown at an angle.

With the new design, the leg formed as a support goes steadily into the house part b of the leg.

Furthermore, according to the invention, the I-profile of the leg is designed asymmetrically, in such a way that the compression-loaded flange f is given a smaller profile cross-section than the tension-loaded flange g and consequently the distance ei of the outermost drawn fiber from the neutral one The fiber becomes much smaller than the distance e2 of the outermost pressed fiber from the neutral fiber, in the ratio of i: 44 to I : 1.8.

Testing has shown that the new design of the screw clamp, with a significantly lower weight of the intermediate legs, one of the stresses Sufficient section modulus against bending is achieved.

Claims (7)

PATENT CLAIMS: i. Screw clamp, especially with clamp legs made of malleable cast iron, characterized in that the house, d. H. the part of the thigh, which receives the guide rail, so obliquely to the axis of the guide rail is placed that at the pressure stressed connection point (d) between the house and self-supporting part - an accumulation of material and that stressed on the train Connection point (x) between the house and the self-supporting part a reduction in material is reached. 2. Screw clamp according to claim i, characterized in that the Clamp legs designed as a carrier of the same strength and almost parabolic is limited. 3. Screw clamp according to claims i and 2, characterized in that that the screw clamp leg is designed with an asymmetrical 1-cross section, in such a way that the cross-section * of the flanges subjected to compression is essential is smaller than the cross section of the tensile stressed flanges of the Profile. 4. Screw clamp according to claims i and - 3, characterized in that that the distance of the outermost drawn fiber from the neutral fiber of the profile to the distance of the outermost pressed fiber from the neutral fiber in relation 1: 1.4 to i: 1.8. 5. Screw clamp according to the claims i to 4, characterized in that the strength of the pressure and tension flanges (f or g) the leg decreases from the house to the free end. 6. Screw clamp after claims i to 5, characterized in that the leg web (c) from the house to rejuvenate after the end. 7. screw clamp according to claims i to 6, characterized in that the transition points (h) between the ferrule house and the leg web run obliquely. Cited publications: German Patent No. 554 111; French Patent No. 718,339; Swiss patent specification No. 134 i45.