RU2241870C1 - Self-locked nut - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: self-locked nut has central threaded opening, insert made of a washer for locking the nut on the bolt or stud, and cylindrical seat for receiving the insert. The nut is also provided with the conical hollow above the seat for receiving the insert. The insert is made of the radially-flexible turn of the flat spiral whose ends are not aligned. The periphery of the washer corresponds to the hollow made in the nut.

EFFECT: enhanced reliability of locking.

3 dwg

Description

The invention relates to the field of mechanical engineering, more specifically to threaded detachable joints used in machines and mechanisms, more specifically to methods of locking fasteners from self-unscrewing, designs of various locking devices and structural elements of fasteners that counteract self-unscrewing.

To prevent accidents and breakdowns of machine parts and assemblies, their threaded fasteners must be securely locked against self-unscrewing. This task is especially relevant for nodes operating in conditions of vibration and alternating shock loads.

Currently, there are a large number of fasteners that provide locking, the principle of operation of which is based on methods of rigid, elastic, frictional and other locking.

For example, threaded connections are known when a spring split washer (Grover washer) [1] is placed under the nut, in which the ends are axially split and provided with sharp edges. When tightening, the washer is deformed in the axial direction, the edges cut into the supporting surfaces of the nut and the fastened part, ensuring the nut locks “onto the body”. The disadvantage of this locking is that the incision is noticeably expressed only when the supporting surfaces have not too high hardness. Otherwise, only a purely elastic locking acts, which makes the reliability of the lock-up less.

Known nuts with an elastic threaded rim [1], which, after threading in the nut, slightly upset. When screwing the nut, the threaded end of the bolt or stud lifts the whisk, thereby creating an axial interference in the thread. The design has drawbacks consisting in the technological complexity of manufacturing and the possibility of breaking off the whisk when wrapping the nut.

Closest to the technical nature of the claimed invention is a nut with a plastic insert installed in a cylindrical recess of the nut [1]. When screwing the nut, the threaded rod of a bolt or stud cuts the thread in the insert. Moreover, the elasticity of the insert provides additional frictional locking. The disadvantages of nuts with inserts are the possibility of cutting the turns of the insert, low radial interference in the mating parts and not enough high coefficient of friction in a pair of metal-plastic.

The present invention is aimed at improving the reliability of locking the threaded connection by locking the nut on the bolt or stud by increasing the radial tension and friction in the mating surfaces while biting the thread of the shaft and the nut body.

The problem is solved in that the nut is self-locking, having a central threaded hole, an insert in the form of a washer for locking the nut on a bolt or stud and a cylindrical seat for accommodating the insert, made with a tapered recess located above the cylindrical seat for accommodating the insert, said insert is made in the form of a radially elastic incomplete turn of a flat spiral, the ends of which are deaxial, and the insert contour is made on a conical surface corresponding to the taper of the nut recess.

The design of the proposed nut is shown in figure 1, the washer in figure 2, the principle of locking the nut in figure 3 (in longitudinal and transverse sections).

The proposed nut structurally does not differ from the usual one and for its manufacture no special thread-cutting tool or other devices are required. Along the axis of the nut, a central hole 2 is made in which a thread is cut. In the hole on the side of the supporting surface, a seat 3 of a cylindrical shape is made to accommodate the insert. Above the cylindrical seat, a recess 4 of a conical shape is made. The taper of the recess is taken so as to prevent jamming of the washer when tightening the nut, and should be in the range from 0.8 to 1.0. An insert 5 is installed in the cylindrical seat 3 of the nut. It is a steel split ring made in the form of an incomplete coil of a flat spiral. The ends of the washer are cut deaxially at an angle of 15-20 degrees so that sharp angular edges are formed at the ends of the washer, which would ensure their reliable insertion into the body of the nut and bolt (stud) when unscrewing. The contour of the washer is made on a conical surface with a taper corresponding to the taper of the recess 4 of the aforementioned nut. The smallest inner radius of the washer r is equal to half the outer diameter of the threaded rod, the largest outer radius of the washer R is equal to half the diameter D of the above-described cylindrical location 3 in the nut.

The proposed design works as follows. A nut with a nested insert is screwed onto a bolt (hairpin) 6 (Fig. 3). In the process of tightening the nut, when the lower supporting surface of the insert approaches the surface of the part, the insert begins to enter the conical groove of the nut. At the same time, it radially deforms, the ends of the insert converge and are pressed against the surfaces of the conical groove of the nut and thread of the bolt, which creates increased friction and radial interference. When tightening the nut, the position of the edges of the ends of the insert is such that they slide along the surfaces of the recess and thread, without violating its integrity. The friction force and radial interference in the mating parts will be the higher, the greater the radial deformation of the insert, which, in turn, is determined by the axial movement of the nut. Thus, the greater the axial movement of the nut, the locking capabilities of it will be higher. In addition, when a torque M _open occurs (Fig. 3), under the action of the elastic radial forces of the insert, its ends begin to diverge, and the edges cut into the surface of the conical groove and thread of the bolt, creating additional anti-twisting force, thereby increasing reliability locking nut to bolt.

In general, the present invention provides high reliability of locking the threaded connection.

Sources of information

1. Orlov P.I. Design Basics: Reference and methodological manual. In 2 books. Prince 2. - M .: Mechanical Engineering, 1988, 544 p.

Claims (1)

A self-locking nut having a central threaded hole, an insert in the form of a washer for locking the nut on a bolt or stud and a cylindrical seat for accommodating the insert, characterized in that the nut is made with a tapered recess located above the cylindrical seat for accommodating the insert, said insert is made in in the form of a radially elastic incomplete coil of a flat spiral, the ends of which are deaxial, and the insert contour is made on a conical surface corresponding to the taper of the recess g Menus.

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