SU1525363A1 - Rubbre/cord envelope of pneumatic spring - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in the construction of pneumatic elastic elements for damping vibrations of various kinds of objects. The aim of the invention is to increase the durability by reducing the deformations in the side zones. The boundary A-A of the change in direction of the angle of the cords of the rubber of the cord-cord shell 8 is chosen so that approximately 40-60% of the working deflection under compression of the piston 9 works part 6 with an angle β ₁ of the cords, and only then the part 7 comes into operation with an angle β ₂ threads. 1 hp f-ly, 3 ill.

Description

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The invention relates to mechanical engineering and can be used in the construction of pneumatic elastic elements for damping vibrations of various kinds of objects.

The purpose of the invention is to increase durability by reducing the deformation in the side zones.

FIG. 1 shows a profile cut of the rubber-cord shell; in fig. 2 - profile section of a rubber-cord shell, the frame of which consists of two parts interconnected by an overlap; in fig. 3 - pneumatic springs, general view; lengthwise cut.

The rubber cord shell (Fig. 1) contains a power cord frame I, the threads of which extend from one end to the other and are fixed on the bead rings 2 and 3, the inner (sealing) rubber layer 4 and the protective (coating) rubber layer 5.

The cord threads in the part of the frame 1 along the height of the shell, for example, from the side of the side ring 3, are located to the longitudinal axis of the shell at an angle PL less than in the rest of PI about the point (from the side of the side ring 2 so that - ry (Fig. 3) the angle p. was 0-45 °, and the angle (-li 54 -67 °.

The rubber cord shell (Fig. 2) contains a power cord frame 1, which in height of the shell consists of two parts: Tcii: 6 on the side of the side ring 2 and 7 on the side of the side

rings 3. The threads of the cord of part 6 are fixed on the side ring 2, and the threads of the cord of part 7 are fixed on the side ring 3. The corners that the threads of the cord in parts 6 and 7 of the frame 1 form with the longitudinal axis of the sheath are similar to the angles indicated for the shell ( Fig. 1). Parts 6 and 7 of the cord frame 1 are overlapped with each other. The length of the frame sections is determined from the condition of providing the required axial stroke of the pneumatic elastic element.

In the air spring (Fig. 3), the sheath 8 is on one side attached to the piston 9 by the flange 10, and on the other hand to the base plate 11 by the flange 12. The line .Л .А indicates the limit of the angle of the cord threads to the forming shell 8, and the angle pi cord threads on one part 6 of the shell (in a pneumatic compressor under load it lies within the limits of 54 - 67)

more than the angle of 2 strands of the cord of the other part 7 (this angle in the air spring under load lies within О-45 °).

The position of the border A-A of the change in the direction of the angle of the cord threads to the generator is selected on the basis of the need to provide vertical (axial) working movements (strokes) of the pneumatic spring and a predetermined load characteristic. Q Rezinokordna shell pneumospring works as follows.

When compressed gas is supplied to the pneumatic spring, the outer diameter of the shell 8 increases until the angle of the cord threads to the shell profile forming the central (cylindrical) part reaches an equilibrium (about 55 °) state.

When the pneumatic springs are loaded and deflected to full compression, the angle of the cord threads in the central part may increase (usually not more than 67 °) depending on the type of cord, its plane, the initial angle of cord threads on the drum for assembling the shell and the mold for vulcanizing the shell , diameters of the assembly drum and the mold, properties 5 rubber.

The border A-A of changing the direction of the angle of the cord threads to the forming shell 8 is chosen so that about 40-60% of the working deflection when it is compressed at the piston 9 works 0 part 6 with the angle of the cord threads Pi and only then the part 7 comes into operation the angle of the cord 2 Formula of the invention

5 1. Rubber-cord shell of the pneumatic springs, containing a power cord frame made in the form of crossing layers of rubberized cord, the angle of the threads of which in the layers with 100 RNAs of one end is different from the angle of the threads of the cord from the other end, and side rings located along the ends of the shell the ends of the cords are fastened on them, characterized in that, in order to increase the length of the cord, the angle of the cords to the longitudinal axis of one of the ends of the casing is selected within 54-67 °, and at the other end - within the limits of O-45 °.

2. The sheath of claim 1, wherein the power cord frame is made of two parts connected in the diametral plane.

FIG. /

Claims (2)

Claim 1. The rubber cord casing of the air spring containing a power cord frame made in the form of intersecting layers of rubberized cord, the angle of the filaments of which in the layers on the side of one end is different from the angle of the cord on the other end, and side rings located on the ends of the shell, on which the ends of the cord are fixed, characterized in that, in order to increase durability, the angle of the cord to the longitudinal axis at one of the ends of the sheath is selected within 54–67 °, and at the other end - in p Yedelev 0-45 °. 2. The shell in π. 1, characterized in that the power cord frame is made of two parts connected in the diametrical plane. FIG. 1 Fig 2 Compiled by A. Mashkin Editor A. Dolinin Order 720 (628 Tehred I. Veres Corrector And Musk. 1 Circulation 721 Subscription VNIIIPI of the State Committee for Inventions and Discoveries under I KN I USSR 113035. Moscow. F —35, Raushskaya nab., D 4 ·. ·> Patent Production and Publishing Plant, t. Uzhhorod. US g laiapinia. lol