RU102076U1 - DRIVING NUT - Google Patents

Abstract

 Nut for the lead screw, characterized in that it consists of a deformable nut having an internal trapezoidal thread, a disk spring, the inner surface of which is installed in the groove of the deformable nut, and the outer surface abuts against the washer pressed on the deformable nut of the spacer sleeve mounted on the outer surface a deformable nut, as well as a pressure nut, made with the possibility of movement along the external metric thread of the deformable nut against the stop in the spacer sleeve.

Description

The proposed utility model relates to mechanical engineering and is intended for use in lightly loaded screw mechanisms to obtain precise movements.

A known design of a detachable running nut, in which, in order to reduce wear on the thread, an axially movable retainer with inlet bevels is used. [No. 702773, F16H 25/22, F16B 37/00]

The main disadvantage of this design is the complexity of its manufacture.

The closest design adopted for the prototype is a nut containing a housing consisting of two segments. At the ends of the casing, annular grooves are made in which elastic rings are mounted. The body segments are located in an elastic split ferrule with grips at its end. [No. 2058501, F16B 37/00].

The disadvantage of this design of the nut, adopted as a prototype, is its applicability only to fasteners.

The objective of the proposed utility model is to increase the wear resistance of the driving nuts of the kinematic screw mechanisms by reducing the running-in period by balancing the load between the turns of the running nut.

This is achieved in that the nut for the lead screw, characterized in that it consists of a deformable nut having an internal trapezoidal thread, a disk spring, an inner surface that is installed in the groove of the deformable nut, and the outer surface abuts against the hole of the washer pressed onto the deformable nut as well as a spacer sleeve mounted on the outer surface of the deformable nut, while the pressure nut moves along the external metric thread of the deformable nut all the way into the spacer sleeve .

With radial deformation of the deformable nut due to axial deformation of the disk spring, the thread profile of its first turns is shifted in the radial direction. In this case, the axial clearance between the first turns of the lead screw and nut increases by a certain amount. When a working axial load is applied due to the increased clearance between the first turns, a larger number of turns comes into contact. Thereby, a more uniform load distribution over the turns and a reduction in the running-in period are achieved.

Figure 1 shows a section of the proposed utility model.

The nut for the lead screw consists of a deformable nut 1 having a trapezoidal thread, washers 2, a disk spring 3, a spacer sleeve 4, a pressure nut 5.

The nut for the lead screw works as follows.

Knowing the required magnitude of the increase in axial clearance between the first turns at a given axial load, the necessary radial deformation of the nut is calculated, which is used to calculate the necessary axial deformation of the disk spring 3. On the deformable nut 1, a spacer sleeve 4 is installed on a sliding fit, the outer surface of which serves as the basis for the actuator mechanism, before contact with a Belleville spring. Using the pressure nut 5 moving along the threaded portion of the deformable nut 1, and having a small thread pitch, the required deformation of the disk spring 3 is set, which is controlled by the angle of rotation of the pressure nut 5. In this case, the axially deformed disk spring 3 abuts the hole of the washer 2, deforming it in the radial direction and with it the portion of the deformable nut 1 containing the first turns of its thread. The absence of weakening of the deformation during operation of the nut for the lead screw by unscrewing the compression nut 5 is achieved by using an interference thread in conjunction with the deformable nut 1 and the compression nut 5.

Using the proposed utility model allows to increase the durability of the running nuts of kinematic helical gears for sliding.

Claims (1)

Nut for the lead screw, characterized in that it consists of a deformable nut having an internal trapezoidal thread, a disk spring, the inner surface of which is installed in the groove of the deformable nut, and the outer surface abuts against the washer pressed on the deformable nut of the spacer sleeve mounted on the outer surface a deformable nut, as well as a pressure nut, made with the possibility of movement along the external metric thread of the deformable nut against the stop in the spacer sleeve.