SU1449721A1 - Sliding-contact regulated bearing - Google Patents

Abstract

The invention relates to the field of engineering, in particular to sliding bearings, which can be used in the chemical, petrochemical industry and other sectors of the national economy. The purpose of the invention is to increase reliability and improve maintainability. The bearing contains a split wedge bushing installed in the housing, the outer surface of which is designed as an Archimedes spiral. Inside the sleeve there is an insert made in the form of a cylindrical helicoid, connected at one end to the body and the other to the sleeve. Elastic elements are installed to prevent deformation of the split sleeve from its cuts. In the PBD, the adjustment of the radial clearance by one adjustment nut is provided. 1 hp f-ly, 2 ill. SL

Description

I The invention relates to mechanical engineering, in particular, to sliding bearings, which can be used in the chemical, petrochemical and industrial sectors and other branches of the national economy.

The aim of the invention is to improve the maintainability, technology of bearing repair.

Figure 1 presents the bearing, the overall appearance; figure 2 - section aa in figure 1.

The sliding bearing consists of body 1, the bore of which its internal diameter is made in the form of a segment of Archimedes 'spiral, sleeve 2 of variable thickness, which varies according to the law of Archimedes' spiral, and it is inserted into the internal bore of the rorspus, which allows the internal diameter to change when turning around bearing center. Sleeve 2 is made split with gaskets 3 of resilient material. In the sector having the largest size in the radial direction, a groove is made. Inside the sleeve, an insert 4 is installed, made in the shape of a cylindrical helicoid, hrychm its ends are fixed with the possibility of turning around the anchorage point with screws 5; one end to the bearing housing, and the other end to the adjusting nut 6, made with a protrusion (pin) 7, which fits into the groove of the last sector of the sleeve 2. The pitch of the screw-cutting of the adjusting nut is calculated so that when turning it axial displacement equal to the change in axial dimension of the insert. A adjusting nut 8 is provided with a device 8 for locking it against self-unscrewing. The thread on the nut is made left.

Adjustable bearing adjusts with as follows.

The locking screw of the locking device is released; 8. Depending on the need to increase or decrease the internal diameter, a retraction nut 6 is made in one direction or another. When this happens

twisting (or unwinding) and changing the inner and outer diameters of the liner 4, the fixed ends of the liner are rotated around the screws 5 at an angle (FIG. 3). At the same time, the pin 7 of the adjusting nut 6 pushes the sleeve 2 in the direction of the course of the Archimedean coil, which, turning, changes its internal size, thereby compacting the additional insert.

The application of the proposed technical solution for high-unit pumping units as sliding supports allows the use of thin-walled materials of the insert to complete wear of the antifriction layer, which were previously rejected due to the formation of an unacceptable radial clearance, and also reduces the repair time of the unit.

Claims (2)

1. Adjustable sliding bearing, comprising a housing with a bore, the surface profile of which is made in the form of an Archimedes spiral, and a split wedge bushing installed with the possibility of circumferential movement with the outer surface of an analogical profile, characterized in that maintainability, it is provided with a liner placed inside the split bushing in the form of a cylindrical helicoid fixed at one end on the body and placed with an adjusting nut coaxially with the bushing Applicants' to cooperate in the circumferential direction of the split wedge collar and connected to the second ring helicoid 2. The bearing according to claim 2, that is to say that, in order to prevent deformation of the split sleeve, it is provided with elastic elements installed in the sleeve sections.