RU47463U1 - SPHERICAL HINGE - Google Patents

Abstract

The utility model relates to mechanical engineering and can be used in various mechanisms containing interconnected shafts with intersecting axes, in particular, in the mechanisms of disconnectors and earthing switches. The essence of the utility model is that in a rod containing a threaded rod, a housing with a hole, a spherical hinge installed in the hole of the housing with a gap and reinforced in the specified gap with plastic mass forming the outer ring of the spherical hinge, the outer surface of the spherical hinge in contact with the specified outer ring, before reinforcing, is coated with a material with low adhesion with a material of a spherical hinge, for example, enamel. The proposed draft with a spherical joint is easy to manufacture and has good functional properties, because the hinge in it rotates easily, without mashing. Currently made rods; tested and obtained positive results of rod operation in various disconnectors.

Description

The utility model relates to mechanical engineering and can be used in various mechanisms containing interconnected shafts with intersecting axes, in particular, in the mechanisms of disconnectors and earthing switches.

Known rods containing a threaded rod, a housing with a hole, a spherical hinge installed in the housing hole with a gap between the hinge and the hole and reinforced in the specified gap by a plastic mass (plastic), which forms, after hardening, an outer ring in which the hinge rotates (see Manual operating instructions “Disconnectors of the RG series for voltage of 220 kV” IVEZH.674215.021 RE, Fig. A.4, ZAO ZETO, 2002).

Hinges are used in rods connecting shafts whose axes are generally not parallel to each other. Moreover, such a hinge in a plane perpendicular to the longitudinal axis of the hinge can rotate (rotate) without limiting the rotation angle with a rotation relative to this plane by a certain angle (by the angle of rotation of the hinge, usually up to 15 °).

The hinge is usually made of stainless steel or bronze (brass). Such hinged rods are simple in design and technology.

The drawback of such rods is that when pouring (reinforcing) the plastic mass into the gap between the walls of the housing and the spherical hinge, the plastic mass is heated to the melting temperature (up to about 230 ° C), while it increases in volume. When cooling, it, decreasing in volume, covers a spherical hinge by an amount determined by the coefficient of linear expansion of its material. For example, for a composition of polyamides of the brand PA-610 with improved physical and mechanical properties, wear resistance and heat resistance, this coefficient is 3.5 ^-105 -1 / ° C. When cooling, this composition seeks to reduce its size (diameter). For example, after reinforcing a hinge with a diameter of 20 mm from stainless steel, for which the linear expansion coefficient p = 1.0 · 10 ^-5 1 / ° С, the size by which the linear size (diameter) of the composition will decrease when it cools down to 20 ° С, will be:

D = 204 (3.5 x 10 ⁵ -1,0 · 10 ⁵⁾ + (230-20) = 0.105 mm

In addition, a negative effect is also introduced by a certain non-sphericity of the hinge during its manufacture.

This leads to mashing of the hinge and the need to scroll so that the hinge is run in. However, this operation is laborious, because it is necessary that a certain layer of plastic is developed.

The objective of this utility model is to create traction with a spherical hinge, free from these drawbacks, i.e. so that the hinge in the draft does not jam, does not overwrite, and its laboriousness is less.

The solution to this problem is achieved by the fact that in a rod containing a threaded rod, a housing with a hole, a spherical hinge installed in the hole of the housing with a gap and reinforced in the specified gap with a plastic mass forming the outer ring of the spherical hinge,

the outer surface of the spherical joint in contact with the specified outer ring, before reinforcing, is coated with a material with low adhesion to the material of the spherical joint, for example, enamel.

Figure 1 shows the proposed thrust, with a spherical hinge, General view; figure 2 is the same as in figure 1, a top view; figure 3 - part of the hinge on an enlarged scale.

The rod contains a threaded rod 1, a housing 2 with a hole 3 and a spherical hinge 4. The hinge 4 is installed in the hole 3 of the housing 2, while the outer surface 5 of the hinge 4 in contact with the outer ring 6 of the plastic mass 7 is coated with material 8 with low adhesion to the joint material 4, i.e. low adhesion to hinge material. Such a coating, in particular, can be enamel applied in the usual way.

The hinge 4 is reinforced in the hole 3 with a plastic mass 7, for example, polyamide, and the plastic mass 7 fills the resulting gap between the housing 2 and the hinge 4 under pressure in molten form. After cooling, the plastic mass thus forms an outer ring 6 of a spherical hinge with a coating layer 8, for example, of enamel.

The coating 8 is easily removed after several turns of the hinge 4 in the ring 6: if necessary, the coating can be moistened with a special solvent to improve removal. In this case, the diameter of the spherical hinge decreases by the value of the coating thickness and, thus, it rotates freely and rotates in all directions, since no jamming forces. By changing the number of coating layers or the thickness of the layer, it is possible to achieve the necessary ease of rotation with different plastic masses and different diameters and materials of the spherical hinge.

The proposed draft with a spherical joint is easy to manufacture and has good functional properties, because the hinge in it rotates easily, without mashing.

Currently made rods; tested and obtained positive results of rod operation in various disconnectors.

Claims (1)

A rod with a spherical hinge, comprising a threaded rod, a housing with a hole, a spherical hinge installed in the bore of the housing with a gap and reinforced in the specified gap with a plastic mass forming the outer ring of the spherical hinge, characterized in that the outer surface of the spherical hinge in contact with the specified outer the ring, before reinforcing, is coated with a material with low adhesion to the material of the spherical hinge, for example, enamel.