KR101678818B1 - Apparatus and method for testing durability of leaf spring - Google Patents

Abstract

The present invention relates to a plate spring endurance test apparatus and an endurance test method, and an object thereof is to provide a plate spring endurance test apparatus and a durability test apparatus capable of increasing the number of deformations per second of a leaf spring without increasing the capacity of the actuator, To provide a test method. To this end, the present invention provides a fixing device comprising: fixing means for supporting two leaf springs in combination with two leaf springs for which durability evaluation is required; And the other end is disposed so as to repeatedly press the other leaf spring, and the other end is disposed so as to repeatedly press the leaf spring of the other leaf spring, A pressing lever which repetitively presses and deforms the two leaf springs supported by the fixing means while performing a seesaw motion repeatedly rotating in forward and reverse directions with respect to the center; An actuator including a hydraulic cylinder that implements a seesaw motion of the pressure lever while pushing or pulling one end of the pressure lever; And a weight disposed at the other end of the pressure lever.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a plate spring durability test apparatus and a durability test method,

The present invention relates to a plate spring endurance test apparatus and an endurance test method, and more particularly, to an endurance test for two leaf springs simultaneously by repeatedly pressing and deforming two leaf springs using a press lever And the restoring force generated by the rest of the leaf springs is added to the pressing force when the leaf spring is pressurized and deformed so that the endurance test speed of the leaf spring can be increased without increasing the capacity of the actuator. And an endurance test method.

Generally, a suspending device of a vehicle absorbs vibrations and shocks generated during traveling while supporting the weight of the vehicle body, thereby relieving vibrations and impacts transmitted to the vehicle body and the driver, thereby ensuring ride comfort and running stability. Respectively.

Various types of suspensions are used depending on the structure. In general passenger cars, McPherson strut type and double wishbone type suspension devices are mainly used. In the case of a large vehicle such as a vans or a middle / large bus, a leaf spring type suspension device It is mainly used.

The leaf spring type suspension device is formed by stacking a plurality of spring plate members. The plurality of stacked spring plate members are joined together by a center bolt, and a child part is formed at both ends of left and right ends of a spring plate member And is coupled to the vehicle body.

Such a leaf spring has a bow-shaped structure and is spread in the form of a straight line by the load transmitted from the vehicle body or the wheel side, thereby alleviating the vibration or impact. When the load is lost, And the deformed plate spring is repeatedly performed by the vibration or shock generated in the running process of the vehicle.

When the leaf spring is applied to a new automobile or a new design is made to improve the performance, a test is performed to evaluate the durability of the leaf spring made of the prototype according to the design value.

Fig. 1 shows a configuration of a conventional plate spring endurance test apparatus.

Conventionally, in the plate spring endurance testing apparatus, the eye 12 formed at both ends of the leaf spring is fixed to the durability testing apparatus in a state in which the convex portion 11 of the leaf spring 10 is turned upside, Is repeatedly pressed by the hydraulic cylinder 20 to induce deformation of the leaf spring, and the number of times the leaf spring is deformed is detected until the leaf spring is cut or damaged and its function is lost.

On the other hand, until the function of the leaf spring is lost, usually tens of hundreds of times of deformation must be applied. However, in the conventional endurance testing apparatus, the deformation is applied at a rate of 0.4 to 0.6 times per second. Day or more.

For reference, when the hydraulic cylinder having a capacity of 0.4 to 0.6 times per second is used, the capacity of the hydraulic cylinder must be increased in order to increase the number of deformations per second of the leaf spring.

However, since the capacity and cost of the hydraulic cylinder increase exponentially in proportion to the increase of the number of deformation per second of the leaf spring, simply increasing the capacity of the hydraulic cylinder limits the increase of the number of deformation per second of the leaf spring.

Public Utility Model Publication No. 1996-18436 (published on June 19, 1996)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a plate spring endurance test apparatus and an endurance test apparatus capable of increasing the number of deformations per second of a leaf spring without increasing the capacity of an actuator for inducing deformation of the leaf spring. Method.

According to an aspect of the present invention, there is provided a fixing device comprising: fixing means for supporting two leaf springs coupled to two leaf springs for which a durability evaluation is required; And the other end is disposed so as to repeatedly press the other leaf spring, and the other end is disposed so as to repeatedly press the leaf spring of the other leaf spring, A pressing lever which repetitively presses and deforms the two leaf springs supported by the fixing means while performing a seesaw motion repeatedly rotating in forward and reverse directions with respect to the center; An actuator including a hydraulic cylinder that implements a seesaw motion of the pressure lever while pushing or pulling one end of the pressure lever; And a weight disposed at the other end of the pressure lever.

Meanwhile, in the plate spring endurance testing apparatus, the pressing lever is always in contact with the two leaf springs so that the restoring force generated in the process of restoring one leaf spring among the two leaf springs can be used for pressing the other leaf spring Lt; / RTI > state.

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In addition, the present invention provides a method of manufacturing a slide fastener, comprising the steps of: (S10) arranging two leaf springs so that the convex portion of the leaf spring is located at the lower right end of the press lever configured to perform seesaw motion by the operation of the actuator; And actuating the actuator such that the pressure lever repeatedly presses and deforms the two leaf springs to induce a seesaw motion of the pressure lever (S20), wherein the actuator pushes down one end of the pressure lever Wherein a weight for adding a load to the opposite end of the pressure lever is further provided on the other side of the pressure lever, and in the step S20, the seesaw movement of the pressure lever by the operation of the hydraulic cylinder And the amplitude of the pressure lever is increased in proportion to the time until the amplitude reaches a required level.

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According to the present invention having the above-described features, since the durability evaluation test for two leaf springs can be performed at the same time, the time required for evaluating the durability of various leaf springs can be shortened compared with the conventional one .

Further, since the restoring force generated in the process of restoring a certain leaf spring can be used to press the remaining leaf spring, it is possible to increase the number of repetitions per second of the leaf spring without increasing the capacity of the actuator, It is possible to further shorten the time required for the operation.

1 is a configuration diagram of a conventional plate spring endurance test apparatus,
2 is a perspective view of a plate spring endurance testing device according to a preferred embodiment of the present invention,
3 is a view schematically showing a main structure for explaining the operation principle of the plate spring endurance testing device according to the preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a perspective view of a plate spring endurance testing device according to a preferred embodiment of the present invention, FIG. 3 is a view schematically showing a main configuration for explaining the operation principle of the plate spring endurance testing device according to a preferred embodiment of the present invention Respectively.

The plate spring durability test apparatus according to the present invention is capable of simultaneously performing the durability evaluation test on the two leaf springs while suppressing the pressurizing deformation and restoration of the leaf spring without excessively increasing the capacity of the actuator for inducing the press- And the durability evaluation test period of the leaf spring can be shortened.

The plate spring durability test apparatus according to the present invention comprises a fixing means 110, a pressing lever 120, and an actuator 130.

The fixing means 110 supports the leaf spring and may be configured in various ways as long as it supports the leaf spring so that the leaf spring can be smoothly deformed under pressure.

2, the rail 111 having a structure extending in a direction orthogonal to the press lever 120 is disposed to be positioned below both ends of the press lever 120, The structure of the fixing means 110 configured to support the pair of support blocks 112 provided on the base plate 111 with the eye 12 formed on the plate spring 10 to support the press- .

The pressing lever 120 alternately pressurizes and deforms the two leaf springs while repeatedly performing a seesaw motion by the actuator 130. The hinge block 150 is coupled to the rotary shaft 151 via the hinge block 150, 151 in a clockwise direction and a counterclockwise direction.

Meanwhile, when the one end of the pressing lever 120 descends and the restoring force of the remaining leaf spring restored to the original state is increased during the pressing and deforming of the leaf spring, the pressing force is transmitted to the other side of the pressing lever 120 As the restoring force is added to the pressing force, the speed at which the leaf spring is press-deformed can be increased without increasing the capacity of the actuator 130.

To this end, the pressing lever 120 according to the present invention has a structure in which the pressing lever 120 always maintains a state of being in contact with the two leaf springs regardless of the pressing deformation or the restoring operation of the leaf spring.

The actuator 130 actuates the pressing lever 120 to press and deform the leaf spring while the pressing lever 120 rotates around the rotating shaft 151. The actuator 130 is connected to the rotating shaft 151, And a hydraulic cylinder for operating the pressure lever 120 in such a manner that one end of the pressure lever 120 is pushed or pulled.

Meanwhile, in the method using a motor such as the former, since the push lever 120 can be smoothly operated only when a large power is transmitted to the rotating shaft 151 located at the center of the push lever 120, the size of the motor and related equipment increases In addition, there is a disadvantage in that the load of the motor is increased due to repeatedly driving the motor in forward and reverse directions for a long time. On the other hand, the method using the hydraulic cylinder has a simple structure, and seesaw motion of the pressing lever 120 can be effectively implemented. The actuator 130 is preferably composed of a hydraulic cylinder.

More specifically, the actuator 130 includes a hydraulic cylinder installed to be positioned above one end of the pressure lever 120 and pushing down one end of the pressure lever 120.

When the actuator 130 including the hydraulic cylinder is formed on one end of the pressure lever 120 as described above, the weight 140 is provided at the opposite end of the pressure lever 120, And a column 141 for mounting and fixing the weight 140 may be formed on the upper surface of the opposite end.

The weights 140 may be obtained by adding a weight due to its own weight to the opposite end of the pressure lever 120 in the process of starting the seesaw motion of the pressure lever 120 by the hydraulic cylinder, And when the amplitude of the pressure lever 120 reaches a level necessary for pressing and deforming the leaf spring 120, the pressure lever 120 is caused to perform a seesaw motion with a constant amplitude.

When the weight 140 is installed in the pressing lever 120, a weight 140 having an appropriate weight is installed on the column 141 provided in the pressing lever 120 in consideration of the natural frequency of the leaf spring .

The plate spring endurance test method according to the present invention, which is implemented by the plate spring durability test apparatus configured as above, includes a plate spring (not shown) at both ends of a press lever 120 configured to perform a seesaw motion by the operation of the actuator 130 (S10) of arranging the two leaf springs so that the convex portions (11) of the leaf springs (10) are located; And actuating the actuator 130 to induce a seesaw motion of the pressing lever 120 so that the pressing lever 120 repeatedly presses and deforms the two leaf springs.

In the step S10, the two leaf springs 10 required for the durability evaluation test are fixed to the support block 112 provided in the durability testing device, and the convex portions 11 formed on the two leaf springs are fixed to both ends of the push lever 120 As shown in Fig.

In step S20, the actuator 130 is operated to cause the pressure lever 120 to perform a seesaw motion, thereby repeatedly pressing and deforming the two leaf springs.

That is, when the pushing lever 120 rotates counterclockwise around the rotating shaft 151 by the operation of the actuator 130, the left end of the pushing lever 120 is lowered while pressurizing and deforming the left leaf spring , The right end of the pressure lever 120 is raised to allow the right leaf spring to be restored to its original state (see FIG. 3).

On the other hand, when the press lever 120 rotates clockwise around the rotational axis 151, the right end of the press lever 120 is lowered while pressurizing and deforming the right leaf spring, The left leaf spring is allowed to be restored to its original state.

As a result of this repetitive pressure deformation of the leaf springs, the restoring force of the leaf spring is applied to the pressing levers 120 120).

Accordingly, the restoring force of the remaining leaf spring is added to the pressing force when the leaf spring is pressed by the operation of the actuator 130 and the pressing lever 120, so that the pressing speed of the leaf spring is increased without increasing the capacity of the actuator 130 .

The actuator 130 may be a hydraulic cylinder disposed at one end of the pressure lever 120 and may include a weight 140 at the opposite end of the pressure lever 120, It is preferable that the amplitude of the pressure lever 120 is gradually increased in proportion to the time in realizing the seesaw motion of the pressure lever 120 by operating the hydraulic cylinder.

This is because the restoring force of the leaf spring acts on the pressure lever 120 during the seesaw motion of the pressure lever 120. Therefore, when the pressure lever 120 starts the seesaw motion, the pressure lever 120 When the hydraulic cylinder is controlled so as to increase the amount of displacement in which the pressure lever 120 is lowered in proportion to the passage of time by decreasing the amount of displacement of the pressure lever 120 by decreasing one end of the pressure lever 120, The amplitude of the seesaw motion of the pressing lever 120 gradually increases as the restoring force of the leaf spring and the load due to the dead weight act on the pressing lever 120 in the course of the seesaw motion of the pressing lever 120.

Therefore, when it is assumed that a hydraulic cylinder of the same capacity as the conventional one is used, the cycle time in which the leaf spring is press-deformed and restored can be shortened, so that the time required for the durability evaluation test of the leaf spring is shortened .

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
110: fixing means 120: pressure lever
130: Actuator 140: weight
151:

Claims (6)

Fixing means (110) for supporting the two leaf springs in combination with two leaf springs for which a durability evaluation is required;
And is disposed between two leaf springs supported by the fixing means 110. One end of the leaf spring is configured to repeatedly press one leaf spring of the two leaf springs and the other end repeatedly presses the other leaf spring A pressing lever 120 for repeatedly pressing and deforming the two leaf springs supported by the fixing means 110 while performing a seesaw motion in which the rotary shaft 151 is repeatedly rotated in forward and reverse directions;
An actuator 130 composed of a hydraulic cylinder that implements a seesaw motion of the pressing lever 120 by pushing or pulling one end of the pressing lever 120; And
And a weight (140) provided at the other end of the pressure lever (120). The method according to claim 1,
The pressing lever 120 maintains a state of constant contact with the two leaf springs so that the restoring force generated in the process of restoring one leaf spring among the two leaf springs can be used for pressing the other leaf spring. Plate spring endurance test apparatus. delete delete (S10) arranging two leaf springs so that the convex portion 11 of the leaf spring 10 is located at the both vertical ends of the push lever 120 configured to perform a seesaw motion by the operation of the actuator 130; And
(S20) of operating the actuator (130) to induce a seesaw motion of the pressing lever (120) so that the pressing lever (120) repeatedly presses and deforms the two leaf springs,
The actuator 130 is constituted by a hydraulic cylinder arranged on one end of the pressure lever 120 so as to push down one end of the pressure lever 120. A pressure lever 120 is disposed on the other side of the pressure lever 120, And a weight 140 for applying a load to the opposite end of the weight member 140,
The step S20 increases the amplitude of the pressure lever 120 in proportion to the time until the seesaw motion amplitude of the pressure lever 120 by the operation of the hydraulic cylinder reaches a required level. Way. delete

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