KR20120060023A - Rubber Spring in Vehicle - Google Patents

Abstract

PURPOSE: A rubber spring for a vehicle is provided to improve the durability of a rubber spring through preventing the tear of a rubber. CONSTITUTION: A rubber spring(10) for a vehicle comprises a mid-plate(20). The mid-plate is unsymmetrically formed based on a center bolt. The mid-plate is divided into a first mid-plate and second mid-plate(21, 22). The first mid-plate and second mid-plate are comprised in different portion of a rubber based on the center bolt and composed to have different numbers. One between the two mid-plates being composed of lower numbers is installed in the tensile deformation portion of a rubber.

Description

Rubber Spring in Vehicle

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rubber spring for a vehicle, and more particularly, to a rubber spring for a vehicle that can reduce stress caused by rotational movement of a leaf spring when driving on an irregular road.

In general, flexible rubber springs are applied to the suspension of large dump trucks.

The rubber spring is composed of an upper and lower plate fastened by a center bolt, a rubber of elastic material provided between the upper and lower plates, and about seven mid plates sandwiched between the rubbers.

The upper and lower plates have a mounting structure for mounting the rubber springs to the axle and leaf springs, and serve as adhesives and restraints of the rubber parts. The rubbers serve as an insulator function for absorbing road surface vibrations and a spring for supporting loads.

In addition, the center bolt is a structure for preventing breakage by minimizing the tensile strain of the rubber spring in the free fall occurrence section due to the weight of the rear axle while driving, limiting the tensile displacement of the rubber and supporting the free field weight of the axle Give

In addition, the midplate is inserted at equal intervals in the rubber part to limit the displacement of the rubber to increase the spring stiffness and increase the durability, the higher the number of the rubber spring in the compression direction while the number of rubber springs This reduces the amount of displacement.

If the dump truck passes through uneven dirt roads, puddles, speed bumps or other obstructions, the three- and four-axis rear axles will be releaved by the spring, depending on the position of the three- and four-axis tires (depending on the road shape). With the rotational movement around the center, the shape of the rubber spring is deformed into a trapezoidal shape that is crushed in a square.

For example, in a state where the four-axis tire is lowered compared to the three-axis, the tension state of the inner (front) and outer (rear) of the rubber spring is different, and the increase in the frequency and displacement acceleration of the phenomenon is Further stresses result in a reduction in the durability of the plate joint with repeated compression / tension.

The elapse of time in this state will inevitably lead to a problem of the durability field of the rubber spring, that is, the tearing and the separating shape of the adhesive portion.

Thus, the present invention in view of the above point by using the difference in the number and thickness of the mid-plate fitted to the rubber spring from the front and rear around the center bolt, three- and four-axis rear axle (RR) according to the road conditions The purpose of the present invention is to provide a rubber spring that can increase durability by preventing separation of rubber and mid plate joints and preventing rubber tearing by reducing stress on the reversing compression and tension of the rubber spring applied from the asymmetric rotational trajectory of AXLE).

The vehicle rubber spring of the present invention for achieving the above object is characterized in that it comprises a plurality of mid-plate asymmetric about the center bolt located in the center of the rubber having elasticity.

The mid plate is separated into a first mid plate provided at the half half of the rubber and a second mid plate provided at the other half around the center bolt.

 The first midplate and the second midplate are configured with different numbers.

A mid-plate having a smaller number of the first midplate and the second midplate is provided as a tensile strain portion of the rubber.

The first midplate and the second midplate may have the same thickness and shape.

The first midplate and the second midplate are formed integrally with a shaft hole penetrating the center bolt, and have different thicknesses.

A mid plate having a thinner thickness among the first midplate and the second midplate is provided as a tensile strain portion of the rubber.

The present invention has the effect of reducing the repetitive stress of the rubber spring applied from the asymmetric rotational trajectory of the three- and four-axis rear axle (RR AXLE) due to the difference in the number or thickness of the mid plate fitted to the rubber spring. .

In addition, the present invention is to reduce the stress of the rubber spring to prevent the separation of the rubber and the mid-plate junction, and also to prevent the tearing of the rubber to enhance the durability of the rubber spring.

1 is a configuration diagram of a suspension device of a dump vehicle with a rubber spring for a vehicle according to a first embodiment of the present invention, Figure 2 is an operating state of the suspension device of a dump vehicle with a rubber spring according to a first embodiment of the present invention 3 is a modification of the rubber spring according to the second embodiment of the present invention, and FIG. 4 is an operating state of the suspension device of the dump vehicle with the rubber spring according to the second embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Since the exemplary embodiments of the present invention may be embodied in various different forms, one of ordinary skill in the art to which the present invention pertains may be described herein. It is not limited to the Example to make.

1 shows a configuration diagram of a suspension device of a dump truck with a rubber spring for a vehicle according to the first embodiment.

As shown, the 3-4 axle (1,2) side suspension of the dump truck has both sides of the leaf spring 3 positioned at 3-4 axles (1,2) and both sides of the leaf spring 3. Rover springs 10 and 10 'are respectively provided.

The rubber springs 10 and 10 'have the same structure.

The rubber springs (10, 10 ') is a rubber 11 positioned between the upper and lower plates (12, 13) fastened by the center bolt 14, and in a position divided into two relative to the center bolt (14) The rubber 11 is composed of first and second mid plates 15 and 16 fitted at predetermined intervals.

The first and second mid plates 15 and 16 have the same structure.

The first and second mid plates 15 and 16 are formed of a plurality of elements having semi-circular shaft holes 15aa and 16aa formed to surround the outer circumferential surface of the center bolt 14.

In the present embodiment, the number of elements 15a,..., 15n-1 of the first mid plate 15 is at least as large as the number of elements 16a,..., 16n of the second mid plate 16. It consists of one or more sets.

The first mid plate 15 having a relatively small number of elements 15a,..., 15n-1 is positioned at the rubber 11 portion which receives more tensile force, and the elements 16a,..., 16n The large number of second mid plates 16 is positioned at the rubber 11 portion which receives more compressive force.

2 shows an operating state of a suspension device of a dump vehicle with a rubber spring according to a first embodiment of the present invention.

As shown, each of the rubber springs 10, 10 'of the 3-4 axis (1, 2) has an element (15a, ..., 15n-) relatively to the outside of the rubber (11) portion which is subjected to more tensile force. 1) The second mid plate 16 with a large number of elements 16a,..., And 16 n relatively positioned inside the rubber 11 portion where the number of the first mid plates 15 with a small number is located and the compressive force is increased. ) Is positioned.

As described above, since the arrangement structure of the first mid plate 15 and the second mid plate 16 is different, the four-axis (2) tire is lowered compared to the three-axis (1), and the rubber springs (10, 10 ') Even if a tension state is formed between the inner side (forward direction) and the outer side (rear direction), the durability of the rubber springs 10, 10 'can be greatly reduced.

That is, since the first mid plate 15 provided as a portion of the rubber 11 having a relatively large tensile force is formed of a relatively small number of elements 15a,... The portion of the rubber 11 is relatively more able to withstand tensile forces.

In addition, since the second mid plate 16 provided as a portion of the rubber 11 having a relatively large compressive force is formed of a relatively large number of elements 16a,..., 16n, a rubber having a high compressive force ( The site of 11) can withstand relatively more compressive force.

Therefore, even if the rubber springs 10 and 10 'are repeatedly stressed by compression and tension due to the repeated occurrence of the above phenomenon, the tension portion of the rubber 11 corresponds to the strong durability against the tensile force and the rubber 11 ) Can be coped with a strong durability against the compressive force.

Accordingly, in the rubber springs 10 and 10 ′ according to the first embodiment of the present invention, the first mid plate 15 and the second mid plate 16 delay the separation of the joint portion between the rubber 11 and thus have a long service life. Extension may be brought about, and in particular, the tearing phenomenon, which is a problem of the durability field of the rubber springs 10 and 10 'with time, is hardly generated.

3 shows a modification of the rubber spring according to the second embodiment of the present invention.

As shown, the rubber springs 10 and 10 'are the same as the rubber springs according to the first embodiment, and only the mid plate fitted to the rubber 11 is configured differently.

That is, the mid plate 20 according to the second embodiment is made of an element having a central hole through the shaft hole 20aa through which the center bolt 14 penetrates, and the element is a plurality of elements 20a fitted to the rubber 11. , ..., 20n).

The elements 20a,..., 20n form a first mid plate 21 on one side and a second mid plate 22 on the other side based on the shaft hole 20aa bored at a central position. The first mid plate 21 is formed to have a relatively thicker thickness than the second mid plate 22.

In the present exemplary embodiment, the first mid plate 21 having a relatively thick thickness is positioned at a portion where the compression force of the rubber 11 is large, and the second mid plate 22 having a relatively thin thickness has a tensile force of the rubber 11. It is located in a large area.

Figure 4 is an operating state of the suspension device of a dump vehicle with a rubber spring according to a second embodiment of the present invention.

As shown, each of the rubber springs 10 and 10 'of the 3 to 4 axes 1 and 2 has a relatively thin thickness of the second mid plate 22 on the outside which is a portion of the rubber 11 which receives more tensile force. Is positioned, and the first mid plate 21 having a relatively thick thickness is positioned inside the rubber 11 portion which receives more compressive force.

As described above, the mid plate 20 provided in the rubber 11 has different thicknesses at both sides with respect to the center bolt 14, so that the four-axis (2) tire is lowered compared to the three-axis (1). Even if a different tension state is formed between the inner side (front side) and the outer side (back side) of the rubber springs 10, 10 ', the phenomenon of deterioration of the durability of the rubber springs 10, 10' can be greatly delayed.

That is, since the first mid plate 22 provided as the portion of the rubber 11 having a relatively high tensile force has a relatively thin thickness, the portion of the rubber 11 which receives a lot of tensile force is more in tension with the tensile force. I can endure a lot.

In addition, since the second mid plate 21 provided as a portion of the rubber 11 having a relatively large compressive force has a relatively thick thickness, a portion of the rubber 11 which receives a lot of compressive force is more relatively compressive. I can endure a lot.

Therefore, even if the rubber springs 10 and 10 'are repeatedly stressed by compression and tension due to the repeated occurrence of the above phenomenon, the tension portion of the rubber 11 corresponds to the strong durability against the tensile force and the rubber 11 The compression portion of can be coped with a strong durability against the compression force.

Accordingly, in the rubber springs 10 and 10 'according to the second embodiment of the present invention, the mid plate 20 can delay the separation of the joint with the rubber 11, leading to the extension of the durability life. The tearing phenomenon, which is a problem of the durability field of the rubber springs 10 and 10 ', is hardly generated.

1,2: 3 ~ 4 axis 3: Leaf spring
10,10 ': Rubber spring
11: rubber 12,13: upper and lower plates
14: center bolt 15, 16, 21, 22: the first and second mid plate
15a, ..., 15n-1,16a, ..., 16n, 20a, ..., 20n: Element
15aa, 16aa, 20aa: Shaft hole
20: mid plate

Claims (7)

A vehicle rubber spring comprising a plurality of mid plates asymmetrically about a center bolt positioned at the center of a flexible rubber.
The vehicle rubber spring according to claim 1, wherein the mid plate is divided into a first mid plate provided at the half of the rubber and a second mid plate provided at the other half of the rubber.
The vehicle rubber spring according to claim 2, wherein the first midplate and the second midplate are configured with different numbers.
The vehicle rubber spring according to claim 3, wherein a mid plate having a smaller number of the first midplate and the second midplate is provided as a tensile strain portion of the rubber.
The vehicle rubber spring according to claim 4, wherein the first midplate and the second midplate have the same thickness and shape.
The vehicle rubber spring according to claim 2, wherein the first midplate and the second midplate are formed integrally with a shaft hole penetrating the center bolt, and have different thicknesses.
The vehicle rubber spring according to claim 6, wherein a mid plate having a thinner thickness among the first midplate and the second midplate is provided as a tensile strain portion of the rubber.

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