RU2479759C2 - Device for fixation on cylindrical surface - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: device for fixation on a cylindrical surface includes an installation ring. In the installation ring there made are two coaxial bores and two radial slots corresponding to them; at that, diameter of one bore and width of a radial slot corresponding to it are equal to diameter of cylindrical surface, and diameter of the other bore and width of the radial slot corresponding to it are equal to diameter of a groove made on cylindrical surface; at that, an axial size of the slot for the groove is equal to the width of the groove, and installation ring is equipped with a locking element.

EFFECT: improving fixation reliability of parts on shafts, axes and other cylindrical parts.

3 cl, 4 dwg

Description

The invention relates to mechanical engineering and relates to the improvement of thrust devices that prevent axial movement when mounting parts on shafts, axles and other parts with a cylindrical surface.

There are a large number of persistent (locking) devices designed for axial fixing of parts, such as rolling bearings, on the shaft. In the reference book "Rolling bearings" Beiselman R.D. et al. M.: Mechanical Engineering, 1975 in table 10 on page 301 lists 20 types of such devices. They differ in either structural or technological complexity to prevent loss from vibration, or cannot absorb significant axial forces.

For example, the widely used spring rings (GOST 13940-86, GOST 13942-86) are technologically complex (require special materials and heat treatment) and are not able to absorb large axial forces.

The closest prototype of the proposed device is a locking device in the form of a mounting ring, with a pin (GOST 3130-77) or screw fastening (GOST 2832-77) of the ring to a cylindrical shaft surface perpendicular to the axis of the mounting ring. Installation rings do not require special materials and heat treatment. Their disadvantages: the inability to absorb large axial loads and the possibility of a pin or screw falling out from vibration or shock, which reduces reliability.

The same disadvantages accompany many designs with thrust rings when fixing parts on the cylindrical surfaces of shafts and axles.

These disadvantages are eliminated in the proposed design captive locking device (locking device).

The technical result of the proposed device is to increase the reliability of fixing parts on shafts, axles and other cylindrical parts.

The technical result is achieved due to the fact that in the locking device on a cylindrical surface containing a mounting ring placed on a cylindrical surface, in contrast to the prototype, a groove for mounting the mounting ring is made on the cylindrical surface, in which two coaxial bores and two corresponding grooves are made perpendicular to the longitudinal axis them a radial groove, the diameter of one bore and the width of the corresponding radial groove equal to the diameter of the cylindrical surface, and the diameter of the other the bore and the width of the corresponding radial slot s is equal to the diameter of the groove formed on the cylindrical surface, the axial size of the slot is a groove width of the groove, and the adjusting ring is provided with a retaining element which is disposed between the mounting ring and the shoulder of the groove instead of a hole or a pin.

In the device for fixing on a cylindrical surface, the locking element is proposed to be made in the form of a spring installed in the spacer between the thrust ring and the protrusion made on the cylindrical surface.

In the device for fixing on a cylindrical surface, the locking element is proposed to be made in the form of a part installed in a spacer between the thrust ring and the protrusion made on the cylindrical surface.

It is possible to make a locking element in the form of a wire, while on the end surface of the thrust ring it is proposed to make two blind holes for the ends of the wire to lock the ends of the soft metal wire after passing it along the groove surfaces. In this case, locking with a wire does not provide for any twisting and binding of the wire with a knot with pulling into any hole, but is carried out only by its installation.

In the device for fixing on a cylindrical surface, the locking element is proposed to be made in the form of a wire or fishing line, and on the end surface of the thrust ring to make two longitudinal slots equal in width to the diameter of the locking element to enhance the locking of the fixing device.

The diameter of one bore and the width of the corresponding radial groove are equal to the diameter of the cylindrical surface, and the diameter of the other bore and the width of the corresponding radial groove are equal to the diameter of the groove made on the cylindrical surface, which will allow for the first installation of the ring in the groove and on the cylindrical surface, and then, with the displacement of the ring relative to the groove in the axial direction, to ensure a tight structural fit of the surfaces.

The invention is illustrated by drawings. Figure 1 shows a longitudinal section of a locking device. Figure 2 shows a view along arrow A. Figure 3 shows a section of the mounting ring. Figure 4 is a view of the mounting ring 1 in isometric projection.

The installation ring 1, which can be fitted on a cylindrical surface in the form of a shaft 2 (axles, studs) so that the end face of the bore under the shaft in the installation ring 1 abuts against the end of the groove 4 made on the shaft 2. Between the second end of the groove 4 of the shaft 2 and the adjusting ring 1 is installed a locking element 3, which is made, for example, in the form of a soft metal wire or fishing line, the ends of which are bent into the grooves of the installation ring.

The structural element 5 (part), placed on the shaft, is limited by the mounting ring 1, which when moving along the axis of the shaft 2 along the groove 4 is fixed by pressing the mounting ring against the shaft 2 by axial force. The diameter of the wire should be equal to the size e of Figure 3, and the size e should be equal to the size b of Figure 1, i.e. structurally selected minimum clearance between element 5 and the end face of the installation ring. The size of the groove d is equal to the width of the groove in and the diameter g is equal to the diameter of the cylindrical surface g for tight fixation on the shaft.

The assembly of the device is as follows.

Assemble the installation ring 1 with the shaft 2, moving it radially, perpendicular to the axis of the shaft 2 from the grooves, and the groove whose width d is equal to the width of the groove 4 in occupies the entire width of the groove 4. After reaching the stop in the shaft, slide the installation ring 1 along the axis of the shaft 2 towards the bore under the shaft. After that, insert a piece of soft locking element in the form of a wire 3 into the groove, wrap it around the groove 4 of the shaft 2 and bend the ends into the grooves. If necessary, cut the ends of the wire 3.

Reliability from the point of view of the absence of the possibility of spontaneous loss with relative structural and technological simplicity and the ability to absorb significant axial and vibrational forces, as well as the need for quick, non-damaging design, disassembly with subsequent assembly of the structure, without replacing parts and locking element. In this case, it is not necessary to untwist or untie the locking element.

Bibliography:

1. Reference "Rolling bearings" Beiselman RD and other Engineering, 1975

2. GOST 13940-86.

3. GOST 13942-86.

4. GOST 3130-77.

5. GOST 2832-77.

Claims (3)

1. A device for fixing on a cylindrical surface, containing the installation ring, characterized in that the installation ring is made of two coaxial bores and two corresponding radial grooves, the diameter of one bore and the width of the corresponding radial groove equal to the diameter of the cylindrical surface and the diameter of the other bore and the width of the corresponding radial groove is equal to the diameter of the groove made on a cylindrical surface, and the axial size of the groove for the groove is equal to the width of the groove, and the installation tso is provided with a retaining element. 2. The locking device on a cylindrical surface according to claim 1, characterized in that the locking element is made in the form of a spring installed in the spacer between the mounting ring and the protrusion made on the cylindrical surface. 3. The fixation device on a cylindrical surface according to claim 1, characterized in that the locking element is made in the form of a part installed in the spacer between the mounting ring and the protrusion made on the cylindrical surface.

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