Method for designing few-leaf oblique line type variable-section main springs in gaps between oblique line segments and auxiliary spring

A design method, a slash-type technology, applied in the field of vehicle suspension leaf springs, can solve problems such as inability to provide analytical design formulas, failure to meet design requirements, and not given

Active Publication Date: 2016-05-04
JIANGSU HAIHONG MACHINERY MFG
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  • Abstract
  • Description
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  • Application Information

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Problems solved by technology

Although some people have previously given the design method of a few inclined-line variable-section leaf springs, for example, Peng Mo and Gao Jun once proposed variable-section steel plate springs in "Automotive Engineering", 1992 (Volume 14) No. 3 The design calculation method of the spring, this method is mainly designed for the small oblique type variable cross-section leaf spring with the same structure at the end, and its shortcoming is that it cannot meet the small oblique type variable cross-section leaf spring with the non-equal structure at the end The design requirements of the design requirements, not to mention the design of the gap between the main and auxiliary springs at the contact point between the inclined line section and the auxiliary spring of the oblique line variable cross-section main spring
For the design of the gap between the oblique line section and the auxiliary spring of the non-isomorphic fe

Method used

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  • Method for designing few-leaf oblique line type variable-section main springs in gaps between oblique line segments and auxiliary spring
  • Method for designing few-leaf oblique line type variable-section main springs in gaps between oblique line segments and auxiliary spring
  • Method for designing few-leaf oblique line type variable-section main springs in gaps between oblique line segments and auxiliary spring

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Embodiment 1

[0033] Embodiment 1: The number of sheets of a certain oblique line type variable cross-section main spring is N=2, wherein, half of the length of each main spring is L=575mm, width b=60mm, modulus of elasticity E=200GPa, root thickness h 2 =11mm, half of the installation distance l 3 =55mm, the distance l from the root of the oblique line to the end of the main spring 2 =L-l 3 =520mm; Thickness h of the straight section at the end of the first main spring 11 =7mm, that is, the thickness ratio β of the oblique line section of the first main spring 1 = h 11 / h 2 =0.64; the thickness h of the straight section at the end of the second main spring 12 =6mm, that is, the thickness ratio β of the oblique line section of the second main spring 2 = h 12 / h 2 =0.55; half length L of secondary spring A =355mm, the horizontal distance from the secondary spring contact point to the main spring end point l 0 =L-L A =220mm, the auxiliary spring contact is in contact with a certain...

Embodiment 2

[0053] Embodiment 2: The number of sheets of a certain oblique line type variable cross-section main spring is N=2, wherein, half of the length of each main spring is L=600mm, width b=60mm, modulus of elasticity E=200GPa, straight section at the root Thickness h 2 =14mm, half of the installation distance l 3 =60mm, the distance l from the root of the oblique line to the end of the main spring 2 =L-l 3 =540mm; Thickness h of the straight section at the end of the first main spring 11 =9mm, that is, the thickness ratio β of the oblique line section of the first main spring 1 = h 11 / h 2 =0.64; the thickness h of the straight section at the end of the second main spring 12 =8mm, that is, the thickness ratio β of the oblique line section of the second main spring 2 = h 12 / h 2 =0.57; half length L of secondary spring A =340mm, the horizontal distance l between the auxiliary spring contact and the main spring end point 0 =L-L A =260mm, the auxiliary spring contact is in...

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Abstract

The invention relates to a method for designing few-leaf oblique line type variable-section main springs in the gaps between oblique line segments and an auxiliary spring, and belongs to the technical field of suspension steel plate springs. According to the structural sizes and the elasticity moduli of the oblique line type variable-section main springs, the endpoint deformation coefficient Gx-Di of each main spring and the deformation coefficient Gx-BC of the Nth main spring at the contact point of the corresponding oblique line segment and the auxiliary spring are determined first; then, according to the required auxiliary spring acting load design value and the endpoint deformation coefficient Gx-Di of each main spring, endpoint force FN of the Nth main spring is obtained; then, according to the thickness h of the root straight section of the Nth main spring, the Gx-BC and the FN, main spring and auxiliary spring gaps between the oblique line segment of the main springs and the contact point of the auxiliary spring are designed. Through simulation verification, it can be known that the main and auxiliary spring gap design value meeting the auxiliary spring acting load requirement can be obtained by means of the method, and the product design level, product performance and vehicle smoothness are improved. Meanwhile, design and testing cost is reduced, and product development speed is increased.

Description

technical field [0001] The invention relates to a vehicle suspension leaf spring, in particular to a method for designing the gap between a main spring with a small oblique line and a variable section in the oblique line section and an auxiliary spring. Background technique [0002] Compared with multi-piece superimposed leaf springs, the small-piece variable-section leaf spring has reasonable force, balanced stress load, and saves materials, realizes vehicle weight reduction, reduces wheel dynamic load, improves vehicle driving safety, and saves fuel at the same time , improve the efficiency of vehicle transportation, have good economic and social benefits, and have been widely promoted and applied abroad. For a few leaf springs with variable cross-section, in order to meet the requirements of variable stiffness, it is usually designed as a main spring and an auxiliary spring. Among them, there is a certain gap between the main spring and the auxiliary spring at the point o...

Claims

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Application Information

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IPC IPC(8): G06F17/50
CPCG06F30/17G06F30/23
Inventor 周长城王炳超于曰伟王凤娟邵明磊赵雷雷张云山
Owner JIANGSU HAIHONG MACHINERY MFG
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