A spacer design method for rod end ball joint

A design method and spacer technology, which is applied in the field of shock absorption of elastic rubber parts, can solve the problems of affecting anti-fatigue performance, high product cost, and very high precision requirements, and achieve the effects of good molding, long life, and simplified operation process

Active Publication Date: 2022-07-01
ZHUZHOU TIMES NEW MATERIALS TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] 1. The end face of the spacer is a conventional structure. Due to space constraints, the thickness of the spacer in the multi-layer rubber structure is usually very small, which makes the spacer easily deformed and difficult to position stably in the mold, which makes the distribution of the spacers in the finished product uneven. Average, affecting fatigue resistance, product life cannot be guaranteed
[0005] 2. With the existing design, when the radial load is large, due to the problem of the force angle, the product is still prone to poor fatigue resistance and product damage.
[0006] In view of the problem that the spacer is difficult to be positioned stably in the mold, in the prior art, the end of the spacer is usually set as figure 1 In the form of the rectangular end C on the right side of the dotted line D, the upper end face 7, the lower end face 10 and the side end face 8 of the rectangular end C are used for surface contact positioning with the mold between the end of the spacer and the mold. This method requires very high precision between the mold and the metal spacer, the tolerance of the spacer is poor, and the product cost is high

Method used

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  • A spacer design method for rod end ball joint
  • A spacer design method for rod end ball joint
  • A spacer design method for rod end ball joint

Examples

Experimental program
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Effect test

Embodiment 1

[0040] This example is attached Figure 2-6 As shown, a spacer design method for a rod end ball hinge, the above-mentioned rod end ball hinge includes an outer sleeve 3, a mandrel 4, a rubber layer 1 and a rod portion 5, and the rubber layer 1 is located between the outer sleeve 3 and the mandrel 4, and the outer sleeve There is a rod part 5 on the top, and the rod part 5 is a threaded handle. like image 3 As shown, a multi-layer spacer is arranged in the rubber layer 1, and the multi-layer spacer divides the rubber layer 1 into a multi-layer structure; such as figure 2 and Figure 5 As shown, the upper side 2.6 of the spacer, the lower side 2.7 of the spacer and the end face 2.5 of the spacer are arranged on the spacer, and one end of the end face 2.5 of the spacer is connected to the upper side 2.6 of the spacer, and the end face 2.5 of the spacer is opposite to the spacer The other end of the side 2.6 is connected with the lower side 2.7 of the spacer, the upper side 2.6...

Embodiment 2

[0052] This example is attached Figure 7-9 As shown, the difference between the second embodiment and the first embodiment is that the spacer is 9 layers, that is, the rubber layer 1 is divided into 10 layers; In the inclined setting, a tip B1 is formed at the intersection of the upper side 2.6 of the spacer and the end face 2.5 of the spacer, and the tip B1 is used to make point contact with the mold to position the spacer axially during the vulcanization process; the inclined spacer end face 2.5 and The intersection point B1 of the upper side surface 2.6 of the spacer is positioned in point contact with the mold 9 .

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Abstract

The invention relates to the field of damping of elastic rubber parts, in particular to a spacer design method for a rod end ball hinge. The rod end ball hinge comprises a jacket, a mandrel and a rubber layer, a spacer is arranged in the rubber layer, and the spacer is on the spacer. Set the upper side of the spacer, the lower side of the spacer and the end face of the spacer, connect one end of the end face of the spacer to the upper side of the spacer, and connect the other end of the end face of the spacer with the lower side of the spacer relative to the upper side of the spacer. A tip B1 is formed between the end face and the upper side of the spacer, and the tip B1 between the upper side of the spacer and the end face of the spacer forms point contact with the mold, and the tip B1 is used to make point contact with the mold. Axial positioning reduces spacer tolerance requirements.

Description

technical field [0001] The invention relates to a spacer design method for a rod end ball hinge, belonging to the technical field of elastic rubber parts for shock absorption. Background technique [0002] Rod end ball joint is an important shock-absorbing connecting element, which is mostly used in trains, high-speed railways, automobiles, ships or airplanes. When the body is subjected to complex load conditions such as radial, torsion and deflection, it can withstand the deformation of the rod end ball joint. Offset torsion angle and radial load to prevent the body from rolling over during operation. The current rod end ball joint generally adopts the single-layer rubber joint form of metal outer sleeve-single-layer rubber layer-metal inner sleeve or pure metal joint form; the radial stiffness of the single-layer rubber joint is small, and it can only bear a small radial load. The anti-torsion load capacity is poor. Because the rubber layer is an integrated structure, the...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F16F1/40F16C11/08G06F30/17
CPCF16F1/403F16C11/083G06F30/17F16F2230/14F16F2230/40G06F2119/18G06F2119/04
Inventor 黄江彪谢长伟罗增冯万盛谭方
Owner ZHUZHOU TIMES NEW MATERIALS TECH
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