DE707777C - Screw nut - Google Patents

Description

Screw nut Recent studies to increase durability of screw connections have shown that the stress distribution on the individual load-bearing thread turns of a nut is not uniform. While on the edition reaching part of the mother due to the crowded flow of force a very high voltage peak arises in the first thread turns, the power flow takes in the threads further away from the support surface are disproportionately strong and reaches zero voltage before the end of the nut. So go for example with a normal mother about 60 ° f of all lines of force flow through the first Third of the screw turns, measured from the bearing surface of the nut, while the remaining q.o ° fo of the lines of tension apply to the remaining two thirds of the Distribute thread turns, punching after the end of the nut, decreasing. Fig. R illustrates the flow of force in a normal nut through curve f of the diagram.

Deform the threads near the bearing surface therefore the most. But the better it is when it comes to acting on the bolt Tensile load can adapt to the deformation of the bolt, so the more come. the threads further away from the support for engagement. The more complete therefore the entire height of the nut is used for carrying, the more evenly it takes place the distribution of stress on the individual load-bearing threads of the nut.

On already known measures to reduce the voltage peak on the threads near the bearing surface and to reduce it The fatigue break: danger, for which the stress peak is decisive, has recently become apparent Relief notches Brought into proposal, which stabbed into the surface of the mother that came to rest are and which have the task of freeing the flow of force so that the stress is reduced in this case even more moderate than with normal nuts on the entirety of the load-bearing threads distributed. A proposal has also been made that are located close to the support surface Twist threads slightly tapered so that the carrying depth of the threads gradually diminishes after the contact surface and thus its share in the power transmission is reduced. It is widely known, changes in thread diameter and to be made in the thread pitch of the nut as well as multi-disc nuts or to use a one-piece combined upper and lower nut. One already has to solve the same task, the nut is trained as a neck nut with a support ring. This, as well as all other measures that have been taken so far, to the Power flow partly from the threads adjacent to the bearing surfaces with hofier To deflect the voltage peak and the threads further away from the contact surface supply resulted in a spatial change in the mother structure that is common -additional work processes, which are usually time-consuming and costly was.

The invention proceeds to achieve better stress distribution on the individual threads of the nut a completely new and simple way, which also makes it possible for the mother to leave her spatial form so that she looks outwardly does not differ from the usual mother.

The invention consists in that the material in which the threads supporting core part of the nut from the bearing surface of the nut to the end of the nut an increasing strength and a correspondingly growing modulus of elasticity having.

The desired change in strength and modulus of elasticity can be achieved here for example in iron and steel by mechanical compression, hardening, suitable Heat, insert or nitriding treatment of the nut core or the threads or by a similar procedure. When using light metal, for example as a building material can be the necessary influencing of the modulus of elasticity of the mother core both by mechanical compression of part of the mother core and by partial curing of the same take place in a thermal manner. Chemical, Applying methods that change the material alloy at the required point Find.

A # bb. a illustrates the flow of force in it designed according to the invention After the end of the nut, the nut becomes increasingly solid.

It has been shown that the invention is particularly simple Way, a measure known per se can be combined in addition to the stress distribution at the same time to secure the nut against unintentional loosening. For this purpose, the support surface of the mother is not made flat, but they are left in a manner known per se in the vicinity of the threads, for example protrude conically, cylindrically or convexly, as shown in Fig. 3, q. and 5 is shown. Then one is at the increasing solidification towards the end of the nut the mother assumed or is from a sufficiently soft material starting from hard material, a reduction in strength and modulus of elasticity has been carried out sufficiently far from the end of the nut to the support surface, so when the nut is tightened, its contact surface will be more or less Press the dimensions flat and thereby reduce the thread play in the support surface the nut adjacent threads and thus a backup of the nut achieved against unintentional loosening. Since of course the elasticity of the The material is to be selected so that when it is deformed, the elastic limit is not reached is exceeded, the mother can easily be used several times.

The effectiveness of the mother's self-locking may vary depending on the uses the screw connection by choosing the height of the protruding from the bearing surface of the nut Part stronger or. be made weaker. It should be noted, for example, that already the emergence of an annular part surrounding the threads of the support surface with a height of 1 (10o of the bolt diameter a cancellation of the Thread play in the lower gears and thus practically sufficient self-locking the mother, which prevents loosening even with strong shock.

As Fig. 6 shows, the part of the mother core can also be reduced Strength and low modulus of elasticity, in which the reduction in thread play when tightening the mother takes place in a known manner in the main part of the Use mother, according to the invention -after the end of the mother hip an increasing strength and has an increasing modulus of elasticity. The connection in the Parts is achieved in the example according to Fig. 6 by a fine thread with which the part of the nut core a with low elasticity modulus in the main part of the nut b with increasing elasticity; module is screwed in.

According to the invention, several parts of the mother core of different Strength and different modulus of elasticity inserted into the main part of the nut be such that the strength and the modulus of elasticity .der the nut of the bearing surface increase in thin steps after the end of the nut. Such a design is shown in Fig. 7 shown, according to the parts ai, a2, a3 with growing in the same order Modulus of elasticity and increasing strength are used in the main part b -the nut are.

Instead of the connection shown in Figs Let parts with the main part of the nut by screwing with a fine thread other appropriate measures, such as welding, pressing, injection, z. B. apply to nuts that are wholly or partly made of light metal.

Depending on the intended use, it can be both metallic and non-metallic parts for the construction of the nut, in particular for the core part or parts Find use, which the self-locking of the mother by lifting the gait play cause as a result of their deformation.

Claims (1)

PATENT CLAIMS: i. Screw nut on which to achieve a greater durability of the screw connection measures to improve the Stress distribution on the individual thread turns are made, characterized in that that the material in the core part of the nut carrying the threads of the Support surface of the nut towards the end of the nut an increasing strength and has a correspondingly growing modulus of elasticity. z. Screw nut after Claim i, characterized in that the increasing increase in strength as well as the modulus of elasticity of the core part of the nut carrying the threads from the support surface to the end of the nut or the reduction in strength and the modulus of elasticity from the nut end to the bearing surface by suitable means mechanical, thermal or chemical material treatment takes place. 3. Screw nut according to claims i and a, characterized in that to protect against unintentional Do not loosen the contact surface of the nut flat, but close to the threads For example, it is conical, cylindrical or also convex protruding, so that when tightening the nut a reduction in the thread play in the .der Support surface of the nut adjacent threads takes place. q .. screw nut according to claim i to 3, characterized in that the part of the mother core with low strength and low modulus of elasticity, in which the reduction in the There is thread play when tightening the nut, inserted into the main part of the nut is, which towards the end of the nut an increasing strength and an increasing one Has modulus of elasticity. 5. Screw nut after. Claim i or Claim i to 3, characterized in that several parts of the mother core of different Strength and different modulus of elasticity inserted into the main part of the nut are such that the strength and the modulus of elasticity of the nut depend on the bearing surface increase gradually towards the end of your mother. "