RU186496U1 - VIBRATION PROTECTION HINGE - Google Patents

Abstract

The utility model relates to vibration machines, namely, devices that impede the transmission of vibrations from a vibrating working body to non-oscillating machine elements. The objective of the utility model is to increase the life of the vibration-proof hinge. The vibration-proof hinge contains two levers, one of which is forked, an insert in the form of a rubber-metal hinge having internal and external metal bushings, between which there are two not cylindrical shaped rubber bushings that are not deformable during installation, are made with thickened ends forming the beads, while the bead installed inside the outer metal sleeve has a diameter equal to the inner diameter of the outer metal sleeve. The rubber sleeve is made with an outer diameter smaller than the inner diameter of the outer metal sleeve. The thickening at the second end, forming a side flange, has an outer diameter larger than the inner diameter of the outer metal sleeve, and the double length of the rubber sleeve exceeds the length of each of the metal bushings. The inner metal sleeve consists of two parts in contact with the ends, each of which contains an annular groove. An annular groove is located on the outer surface of each part, and in each groove there is a ring made of an elastic material having an elastic modulus of compression greater than the elastic modulus of compression and tension of the material of the rubber bushings, while the rings are in contact with the rubber with their outer cylindrical surfaces bushings.

Description

The utility model relates to vibration machines, namely, devices that impede the transmission of vibrations from a vibrating working body to non-oscillating machine elements.

Known vibration protection hinge (RF patent No. 180589), containing two levers with holes for mounting the hinge insert, one of which is forked, an insert in the form of a rubber-metal hinge having internal and external metal bushings, between which a rubber sleeve made in the form of a collapsible design containing two not continuous deformable during the installation of the rubber bushings mounted movably between the inner and outer metal bushings. Cylindrical rubber bushings are made with thickened ends that form flanges. The bead mounted inside the outer metal sleeve has a diameter equal to the inner diameter of the outer metal sleeve. The rubber bushings are made with an outer diameter smaller than the inner diameter of the outer metal sleeve, and the thickening at the second end of the rubber sleeve forming a side flange has an outer diameter larger than the inner diameter of the outer metal sleeve. The double length of the rubber sleeve exceeds the length of each of the metal bushings.

In the process of operation of the known hinge, the convex sections formed on each rubber sleeve as a result of the assembly of the hinge experience multidirectional loads, including in the axial (in the direction of the longitudinal axes of the metal bushings), transverse direction, as a result, the convex section on the rubber sleeve moves along the rubber sleeve. Due to these movements, the material of the sleeve experiences both compressive and tensile deformations, which causes increased wear of the rubber sleeve and a decrease in the life of the vibration-proof hinge.

The objective of the utility model is to increase the life of the vibration-proof hinge.

The problem is solved by creating a design that provides a significant reduction in tensile deformations in the rubber sleeve. Vibration protection hinge containing two levers with holes for mounting the hinge insert, one of which is forked, an insert in the form of a rubber-metal hinge having internal and external metal bushings, between which a rubber sleeve is installed, made in the form of a collapsible design containing two not continuous deformable the installation process, rubber bushings, cylindrical, made with thickened ends forming the flanges, installed between the inner and outer metal bushings; while the flange installed inside the outer metal sleeve has a diameter equal to the inner diameter of the outer metal sleeve, the rubber sleeve itself is made with an outer diameter smaller than the inner diameter of the outer metal sleeve, the thickening at the second end that forms the side flange has a larger outer diameter, than the inner diameter of the outer metal sleeve, and the double length of the rubber sleeve exceeds the length of each of the metal sleeves, is performed with an inner metal sleeve consisting of Vuh parts contacting the end faces, each of which comprises an annular groove. An annular groove is located on the outer surface of each part, and in each groove there is a ring made of an elastic material having an elastic modulus of compression greater than the elastic modulus of compression and tension of the material of the rubber bushings, while the rings are in contact with the rubber with their outer cylindrical surfaces bushings.

The technical result of the utility model increases the life of the vibration protection joint.

The utility model is illustrated by drawings. In fig. 1 shows a vibration-proof hinge with levers 1 and 2, of which the lever 1 is forked, the finger 3, two rubber bushings 4, installed between the metal sleeves, an inner sleeve 5 made of two parts, on the surface of which annular grooves are made, with rubber rings 10 and the outer sleeve 6. On the lever 2 there is a sleeve 7 made of antifriction material and side rings 8 made of antifriction material. Outside the hinge is protected by washers 9 with collars. The gap a, between the shoulders of the washer 9 and the shoulders of the lever 2 should exceed the maximum amplitude of the vibrations transmitted from the side of the lever 1.

In fig. 2 shows a rubber sleeve 4 containing a cylindrical part 13 and shoulders 11 and 12. The inner diameter of the sleeve 4 is equal to the outer diameter of the sleeve 5, the diameter of the bead 11 is equal to the inner diameter of the sleeve 6. The diameter of the bead 12 is larger than the inner diameter of the sleeve 6. The bead 12 with the mounting is clamped between the end surfaces of the sleeve 6 and the washer 9. The double length of the sleeve 4 exceeds the length of the sleeve 5. During installation, the double sleeve 4 is deformed and, bending, occupies the space between the bushings 5 and 6, creating an elastic bond between them.

The utility model works as follows. When the oscillatory movement (in the radial direction with respect to the hinge) is made by the lever 1, vibration through the finger 3, the sleeve 5 is transmitted to the sleeves 4, which, due to their deformation, dampen the vibrations. Therefore, the vibrational motion is not transmitted to the lever 2, or a substantially reduced amplitude is transmitted. The lateral side 12 of the sleeve 4, sandwiched between the sleeve 6 and the washers 9, perceives vibrations in the axial direction and prevents their transmission between the levers 1 and 2. The rings 10, made of elastic material located in the annular grooves, support the convex sections formed on the rubber bushings . The supports thus created limit the axial movement of the convex sections of the rubber bushings, reducing tensile strains in the rubber bushings directed along the hinge axis, and also reducing the rate of change of the tensile strains, which helps to increase the life of the rubber bushings and the hinge as a whole.

When the lever 2 is rotated with respect to the lever 1, sliding occurs on the surface between the bushings 6 and 7. The rings 8 hold the lever 2 from axial displacement

Claims (1)

Vibration protection hinge containing two levers with holes for mounting the hinge insert, one of which is forked, an insert in the form of a rubber-metal hinge having internal and external metal bushings, between which a rubber sleeve is installed, made in the form of a collapsible design containing two not continuous deformable the installation process, rubber bushings of a cylindrical shape, made with thickened ends forming the flanges, installed between the inner and outer metal bushings; while the flange installed inside the outer metal sleeve has a diameter equal to the inner diameter of the outer metal sleeve, the rubber sleeve itself is made with an outer diameter smaller than the inner diameter of the outer metal sleeve, the thickening at the second end that forms the side flange has a larger outer diameter, than the inner diameter of the outer metal sleeve, and the double length of the rubber sleeve exceeds the length of each of the metal sleeves, characterized in that the inner metal sleeve consists of two parts in contact with the ends, each of which contains an annular groove located on its outer surface, while in each groove there is a ring made of an elastic material having an elastic modulus of compression greater than the elastic modulus of compression and tension of the material of the rubber bushings , while the rings with their outer cylindrical surfaces are in contact with the rubber bushings.

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