RU2011134701A - HYDRAULIC VIBROPORA - Google Patents

Abstract

1. A hydraulic vibration mount, comprising a working and compensation chambers filled with a damping fluid, bounded by a common housing with a dividing wall fixed therein, made with a cavity and throttle channels communicating the cavity with these chambers, of which the working chamber is limited by a support plate with a displacer fixed to it, and an elastic shell, and the compensation - a membrane, and the cavity is made annular, throttle channels are made tangentially adjacent to the cavity and to the chambers, p and in this, in the middle part of the dividing wall, diffuser-type channels are made, communicating chambers and facing diffusers in the direction opposite to the compensation chamber, the peripheral part of which is made in a mountain shape and tangentially adjacent to these channels, characterized in that the displacer is made in the form of a body of revolution bounded by the upper and lower horizontal planes, and its lateral surface is formed by conjugate conical and toroidal surfaces, which allows for smooth running when the object is landing on the stops, and the partition has an axial channel, the inner surface of which is conical with the apex of the cone facing towards the base plate, and a helical groove is cut on the conical surface of the channel, which organizes an increased dissipative obstacle to the exit of fluid flows circulating in the mountainous part of the compensation chamber entering the chamber through the channels, while between the pallet and the elastic membrane an elastic element is placed, the rigidity of which is equal to the rigidity of the air spring,

Claims (3)

1. A hydraulic vibration mount, comprising a working and compensation chambers filled with a damping fluid, bounded by a common housing with a dividing wall fixed therein, made with a cavity and throttle channels communicating the cavity with these chambers, of which the working chamber is limited by a support plate with a displacer fixed to it, and an elastic shell, and the compensation - a membrane, and the cavity is made annular, throttle channels are made tangentially adjacent to the cavity and to the chambers, p and in this, in the middle part of the dividing wall, diffuser-type channels are made, communicating chambers and facing diffusers in the direction opposite to the compensation chamber, the peripheral part of which is made in a mountain shape and tangentially adjacent to these channels, characterized in that the displacer is made in the form of a body of revolution bounded by the upper and lower horizontal planes, and its lateral surface is formed by conjugate conical and toroidal surfaces, which allows for smooth running when the object is landing on the stops, and the partition has an axial channel, the inner surface of which is conical with the apex of the cone facing towards the base plate, and a helical groove is cut on the conical surface of the channel, which organizes an increased dissipative obstacle to the exit of fluid flows circulating in the mountainous part of the compensation chamber entering the chamber through the channels, while between the pallet and the elastic membrane an elastic element is placed, the rigidity of which is equal to the rigidity of the air spring, formed by an air cavity. 2. The hydraulic vibration support according to claim 1, characterized in that each of the vibration isolators is made in the form of at least two elastic, located axisymmetrically and in parallel planes of the ring, external and internal, rigidly interconnected by at least two symmetric elastic diametrically located elements with a through central groove symmetrically located inside the element, and elements connecting the outer and inner rings have bending lines and can be fixed to the rings by welding Ki, for example contact, or fixing threaded elements, or as an adhesive joint. 3. The hydraulic vibration support according to claim 3, characterized in that the cavities formed by the external and internal elastic rings arranged axisymmetrically and in parallel planes are filled with an elastic damping mesh element made of a mesh frame filled with an elastomer, for example polyurethane.