SU721578A2 - Nut for restraining tightening force - Google Patents

Description

one

The invention relates to mechanical engineering and can be used, for example, to limit the tightening force when studying the penetrating ability of a working fluid through compaction depending on the force of its compression.

According to the main author. St. No. 488945 is a known nut for limiting tightening forces used for similar purposes. It has a multi-faceted body made of elastic material, for example, fluoroplastic, at the vertices of the faces of which are through-holes of semi-oval shape, forming elastic longitudinal bars, the thickness of which increases to the supporting end of the body, and the nut is provided with studs screwed into the longitudinal threaded holes of the body and ensuring fitting to the specified the depth of the socket wrench, as well as elastic inserts placed in the through holes.

However, as a result of the many years of operation of the known nut, its essential drawback was revealed, which consists in the fact that it does not provide the necessary accuracy of the torque of the nut tightening.

since when a predetermined tightening time is reached, a part of the jumper bends, not only is blocked by the key gap, but also the part of the jumper located below the key gap, since the jumper is a single unit, and with each tightening slush below the key gap housing, which does not make it possible to accurately tramp the tightening torque.

The purpose of the additional invention is to increase the accuracy of limiting the tightening force of the nut.

This is achieved by the fact that, in the proposed construction, in the elastic longitudinal bridges of the housing of the nut, through-grooves are made, for example, located at an equal distance from each other and perpendicular to the through-holes made at the edges of the faces.

Claims (1)

Such a constructive implementation of the nut eliminates the possibility of deflection of sections of the lintel that are not covered by the key gap, which provides increased accuracy in determining the nut's tightening torque. FIG. 1 shows the described nut with a partial cut; in fig. 2 - the same, top view. The nut consists of a body 1 made of an elastic material, for example a fluoroplastic resistant to aggressive environment. The housing has holes 2 located at the tops of the faces. In order to provide the necessary flexibility to the edges of the housing, the openings are semi-oval in shape and are turned with a radial part 3 facing the edges of the housing. In addition, making the holes in the form of a semi-finished allows to obtain elastic bridges 4 of uniform thickness at each face of the body. The thickness of the non-bolts is selected on the basis of a torsional moment ensuring the required tightening force of the nut. The plane of the wall 5 is the base of the semi-flange and runs parallel to the axis of the main threaded hole 6, and the wall of the bridge 4 is inclined and its thickness in the cross section gradually increases as the nut approaches the bearing end 7 and the torque applied to the nut also increases in dannoti section. The magnitude of the semi-coils, as well as the inclination of the jumpers (change in their thickness) is selected on the basis of ensuring the deflection of the jumpers inside the holes 2 and turning the key 8 when the specified tightening torque is reached. To eliminate the deflection of the part of the bridge that is not blocked by the key 8, grooves 9 are made in the elastic bars 4 arranged perpendicular to the plane of the wall 5, i.e., the axis of the main threaded hole 6. The slots 9 in the elastic bars 4 are located in several planes for example, in planes A-A, B-B, and so on. Moreover, the pin M of the planes, i.e. the arrangement of one plane, for example A-A, in which grooves are made, is relative to another adjacent plane, for example BB, be either the same or different and depends on the required values of the tightening efforts of the guy and. In the inner cavity of the openings 2, inserts 10 are installed, made, for example, of soft porous rubber, which ensure the return of the jumpers 4 (the edges of the housing) after the key has been exposed to the initial position. In the case of the nut, restrictive pins 11 are installed, which move along the threads in the case of the nut and ensure the installation of the wrench 8 to a predetermined depth. In order to ensure the specified accuracy of the key installation on the nut body, a scale of 12 torque values is applied on the outer surface of the faces. When conducting an experiment aimed, for example, at detecting the regularity of the degree of tightness of fluoroplastic gaskets of complex configuration from the size of their reduction, the nut is mounted on the bolts until its bearing surface 7 contacts the gasket 13. The restricting pins 11 are installed with a given outset 8 with a minimum torque. The correct installation of the key on the nut is carried out with the help of pins 12 and the end of the key 8, relative to which the depth of penetration of the key is measured on the nut. At the position of the torque moment of the key 8 and when it reaches the specified moment, the jumpers 4 bend inside the holes 2 and pass the key 8. In this case, the presence of the notches 9 excludes the possibility of unregulated deflection of the parts of the jumpers 4. After removing the key, the jumpers 4 liners 10 restore their shape. Screw-in restrictive studs 11, reduce their reach and increase the immersion of the throat of the key on the nut until the next predetermined torsion moment. Since the semi-oval side of the jumpers is made oblique, the magnitude of the applied torque, which is spent on deflection of the jumpers, and, consequently, on tightening the nut, also increases. After measuring the tightness, the operation is repeated until the gaskets are pressed against the maximum specified torque. If necessary, with the help of a nut, it is possible to obtain any torque incorporated in the design of the nut, having previously installed the overhang of the restrictive studs. The use of the proposed nut makes it possible to increase the accuracy of the tightening force of the nut by eliminating unregulated deflection of the parts of the jumpers. Claims of the invention Nut for limiting the pulling force according to aut. St. No. 488945, distinguished by that, in order to improve the accuracy of limiting the tightening force, grooves are made perpendicular to the axis of the threaded hole of the nut in its elastic longitudinal bridges. / 7 A i  / j / i I Iz r /