KR200414788Y1 - Apparatus for testing tension, compression and durability - Google Patents

Abstract

The present invention relates to an apparatus for testing tensile, compressive strength and durability, and in particular, it has a simple structure and facilitates repeated tensile, compressive strength and durability for a specimen such as a shock absorber, a piston cylinder or an elastic body requiring compression force. A tensile, compressive strength and endurance testing device for testing. The present invention is a tensile, compressive strength and durability test device for testing the repeated tensile, compressive strength and durability of a shock absorber, a piston cylinder or a test piece such as a tension, an elastic body that requires a compressive force, the rotational force is supplied with power A generated servomotor, a shaft connected to the servomotor to transmit rotational force, a vertical movement unit connected to the shaft to convert the rotational motion by the servomotor into a linear reciprocating motion, and a clamp device to fix the test piece to be tested. Characterized in that comprises a.

Tensile, compressive strength and durability test apparatus according to the present invention, by selectively coupling the crankshaft to the plurality of eccentric holes formed in the rotary cam and provided with the length adjustment portion, shock absorbers and test pieces of various sizes to be tested It has the effect of enabling precise measurement of tensile and compressive force of a certain strength suitable for the application. In addition, by arranging the position of the servomotor to the rear, it has the effect of saving the space occupied by the device as a whole.

Tension, Compression, Crankshaft, Shock Absorber, Clamp

Description

Apparatus for testing tension, compression and durability

1 is a side view schematically showing the structure of the tensile, compressive strength and durability test apparatus according to the present invention.

Figure 2 is an enlarged state use state diagram of the tensile, compressive strength and durability test apparatus according to the present invention.

Figure 3 is a front view schematically showing the structure of the tensile, compressive strength and durability test apparatus according to the present invention.

4 is a view showing the interlocking relationship between the rotary cam and the crankshaft according to the present invention.

<Description of Signs of Major Parts of Drawings>

1: shock absorber or specimen 10: base

20: main body 100: servo motor

110: timing belt 200: shaft

300: vertical movement unit 310: rotary cam

312: eccentric hole 320: crankshaft

400: clamp device 410: upper clamp

412: Load Cell 420: Lower Clamp

The present invention relates to an apparatus for testing tensile, compressive strength and durability, and in particular, it has a simple structure and facilitates repeated tensile, compressive strength and durability for a specimen such as a shock absorber, a piston cylinder or an elastic body requiring compression force. A tensile, compressive strength and endurance testing device for testing.

Shock absorbers, cylinders, rubbers, etc. make damping performance by tension and compression an important test factor. For example, the shock absorber is repeatedly installed and tensioned to absorb the natural vibrations caused by the impact of the spring when the car is running, so as to quickly damp the vibrations. The damping force intrinsic performance is very important.

The damping performance of these shock absorbers is not always constant but is a function of speed. In other words, if the shock absorber has a high speed shock and a slow speed shock, it shows a greater repulsion force at the high speed shock. In addition, when a constant velocity shock is applied to two high and low damping shock absorbers, a high damping performance shock absorber exhibits a greater repulsive force. The high repulsive force in the shock absorber means that the shock absorber is absorbed much, and the shock absorber with high damping performance absorbs more shock.

Elastic members such as shock absorbers have various levels of damping performance, and suitable damping performance is determined according to the intended use. Therefore, a suitable shock absorber is determined according to the proper use of the elastic member, and the allowable range is closely related to the reliability of the elastic member. The more precise the device, the more reliable and accurate level of damping performance is required. In order to measure the damping performance or the reliability of tensile and compressive strength, precise tensile and compressive force tests are required from the time of manufacture. In general, the measurement of the reliability of tensile and compressive strength is determined by applying a constant force to the specimen and measuring the reaction of the specimen.

In the manufacture of such an elastic member test piece, a test and a measuring device are necessary to determine whether they have adequate reliability of damping, tensioning, and compression performance. The present invention provides a new method, a shape test, and a measuring device.

The present invention is to solve the above problems, it is possible to precisely measure the tension and compression force of a certain strength suitable for the size and application of the shock absorber or test piece, the structure is simple, the installation space of the device can be reduced, safety And to provide a tensile, compressive strength and durability testing apparatus that can facilitate the convenience in testing.

In order to achieve the above object, the present invention, in the tensile, compressive strength and durability test apparatus for testing the repetitive tension, compressive strength and durability of the test piece made of the shock absorber, the piston cylinder and the tensile force, the elastic body requiring compression force Is connected to the servo motor and the servo motor to generate a rotational force is supplied with the power is coupled to the shaft and the rotational force is coupled to the shaft and the vertical movement unit to convert the rotational movement by the servomotor to linear reciprocating motion and the test target A tensile, compressive strength and durability test device is provided that includes a shock absorber and a clamp device to hold a specimen.

In order to solve the technical problem as described above, the present invention is a tensile, compressive strength and durability test to test the repeated tensile, compressive strength and durability of the specimen, such as shock absorber, piston cylinder or tension, an elastic body that requires a compressive force An apparatus, comprising: a servo motor supplied with power to generate a rotational force, a shaft connected to the servomotor to transmit a rotational force, a vertical movement unit connected to the shaft to convert a rotational motion by the servomotor into a linear reciprocating motion, and It characterized in that it comprises a clamp device for fixing the test piece to be tested.

In addition, the servomotor is located at the rear of the main body, characterized in that provided with a timing belt between the servomotor and the shaft, it is possible to transfer the power of the servomotor to the vertical movement portion.

The clamp device is coupled to the upper portion of the main body and the upper clamp for fixing the upper end of the test piece and the lower portion of the lower clamp of the vertical movement to secure the lower end of the test piece and corresponding to the linear reciprocating motion of the vertical movement portion Characterized in that made to include.

It is characterized in that it further comprises a load cell is installed in the upper clamp to detect the tensile, compressive strength of the test piece.

The vertical movement portion, the rotating cam is connected to the shaft and a plurality of eccentric holes formed on the upper surface and one side is connected to the eccentric hole of the rotary cam comprises a crank shaft for converting the rotational movement of the rotary cam into a linear reciprocating motion It is characterized by the thing.

It is attached to the lower end of the lower clamp, characterized in that it further comprises a length adjusting part for adjusting the height of the lower clamp according to the length of the test piece and a fixing lever for fixing the height of the lower clamp adjusted by the length adjusting part. It is done.

Hereinafter, the present invention will be described with reference to the accompanying drawings, and in the following description of the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, The description may be omitted.

1 is a side view schematically showing the structure of the tensile, compressive strength and durability test apparatus according to the present invention, Figure 2 is an enlarged state of the main portion of the tensile, compressive strength and durability test apparatus according to the present invention. 1 and 2, the tensile, compressive strength and durability test apparatus of the present invention is largely the base 10, the main body 20, the servo motor 100, the shaft 200, the vertical movement portion 300 ) And the clamp device 400.

The base 10 is mounted on the bottom surface and is formed in a plate shape having legs on the bottom surface. The main body 20 is installed on the upper portion of the base 10 so as to stand upright. The main body 20 is vertically vertically elongated in the shape of the power is transmitted from the rear of the main body 20 serves to measure the test object from the front.

The servo motor 100 is supplied with power to generate rotational force. The shaft 200 transmits the rotational force generated by the servomotor 100 to the rotary cam 310 which will be described later. The servo motor 100 is formed side by side so that the rotating shaft is directed forward and backward.

Both ends of the timing belt 110 are connected to the servo motor 100 and the shaft 200 to transmit rotational force. By connecting the timing belt 110, the position of the servomotor 100 can be more freely installed. In the present invention, it is possible to significantly reduce the installation space of the tensile, compressive strength and durability test apparatus so that the position of the servomotor 100 is located in the rear lower portion of the main body 20.

Vertical movement unit 300 is connected to the shaft 200 is a means for converting the rotational movement by the servo motor 100 to a linear reciprocating motion. The vertical movement unit 300 is configured to include a rotating cam 310 and the crank shaft 320 in detail.

The rotary cam 310 is coupled to the shaft 200 to be rotated in the same direction as the shaft 200 rotates. A plurality of eccentric holes 312 are formed in the front portion of the rotary cam 310.

One end of the crankshaft 320 is selectively coupled to one of the plurality of eccentric holes 312, and the other end is linearly reciprocated vertically according to the rotation of the rotary cam 310.

The clamp device 400 serves to fix the upper and lower ends of the shock absorber and the test piece 1 to be tested in the present invention. The clamp device 400 includes an upper clamp 410 and a lower clamp 420.

The upper clamp 410 is fixedly coupled to the upper portion of the main body 20, the lower end is to fix the upper end of the shock absorber and the test piece (1). The connection portion of the upper clamp 410 and the main body 20 is preferably provided with a conventional load cell 412 for detecting the pressure applied to the lower portion. When the load cell 412 applies a predetermined load to the shock absorber and the test piece 1 to be tested in the lower clamp 420, the load cell 412 calculates the load transmitted to the upper clamp 410 to determine whether a normal range of measured values is obtained. It is a configuration for detecting.

The lower clamp 420 is fixedly coupled to the other end of the crank shaft 320, the crank shaft 320 while converting the rotational movement of the shaft 200 and the rotary cam 310 into a linear motion, The vertical and vertical reciprocating motion correspondingly. The upper end of the lower clamp 420 is fixed to the lower end of the shock absorber and the test piece (1).

Located at the bottom of the lower clamp 420, the length adjusting unit 422 is provided to adjust the height of the upper end of the lower clamp 420 according to the length of the shock absorber and the test piece (1), A predetermined lever 424 for fixing the height of the lower clamp 420 adjusted by the length adjusting unit 422 is provided at a predetermined position where the lower clamp 420 and the length adjusting unit 422 are connected. Do.

For example, the cylinder of the shock absorber is fixed to the lower clamp 420, the internal piston shaft is fixed to the upper clamp 410, and the length adjusting portion 422 is moved up and down to the fixed lever 424 according to the size of the shock absorber. Fix it. When the lower clamp 420 pulls the cylinder downward or compresses the cylinder upward, the force is attenuated and applied to the piston shaft, which is sensed and measured by the load cell 412.

Figure 3 is a front view schematically showing the structure of the tensile, compressive strength and durability test apparatus according to the present invention, Figure 4 is a view showing the interlocking relationship between the rotary cam and the crankshaft according to the present invention. 3 and 4, the operation and effects of the present invention will be described.

The rotary cam 310 is coupled to the shaft 200 to be rotated in the same direction as the shaft 200 rotates. A plurality of eccentric holes 312 are formed in the front portion of the rotary cam 310. The eccentric hole 312 is preferably formed in a line on the virtual center line of the front portion of the rotary cam 310.

One end of the crankshaft 320 is selectively coupled to one of the plurality of eccentric holes 312, and the other end is linearly reciprocated vertically according to the rotation of the rotary cam 310. At this time, the top dead center (A) when the other end of the crank shaft 320 is at the highest position, the bottom dead center (B) is at a certain distance from the center of rotation of the crank shaft (320) It is determined whether it is coupled to the located eccentric hole (312).

The lower clamp 420 is fixedly coupled to the other end of the crank shaft 320, the crank shaft 320 is linearly reciprocated in accordance with the linear reciprocating movement correspondingly, the lower clamp ( The upper end of the 420 is fixed to the lower end of the shock absorber and the test piece (1), the top dead center (A) and the bottom dead center (B) is the crank shaft 320 is any of the plurality of eccentric holes (312) As they are connected to one, the spacing between them fluctuates. The tensile and compressive strengths applied to the shock absorber and the test piece 1 vary according to the variation of the interval between the top dead center (A) and the bottom dead center (B), thereby suiting the use of the shock absorber and the test piece (1). It is possible to test the strength.

That is, when the crankshaft 320 is coupled to a position far from the center of the rotary cam 310, the distance between the top dead center (A) and the bottom dead center (B) increases, and the lower clamp (420) to a greater load When the crankshaft 320 is coupled to a position close to the center of the rotary cam 310, a smaller, faster repeating load is lowered as the distance between the top dead center A and the bottom dead center B becomes narrower. Is applied to the clamp 420.

Accordingly, the characteristics of the test piece are judged by measuring the tension and compression force applied to the lower clamp and the tension and compression force input to the load cell of the upper clamp under conditions of various strengths and repetitions according to the type and characteristic of the test piece. You can judge the completion and performance. The present invention has the effect of preventing the device from taking up a lot of space by making the device compact while enabling measurement under various loads and conditions.

As described above, the tensile, compressive strength and durability test apparatus according to the present invention, by selectively coupling the crankshaft to a plurality of eccentric holes formed in the rotary cam and by providing the length adjustment unit, various sizes to be tested It has the effect of enabling precise measurement of tensile and compressive force of a certain strength suitable for the purpose of shock absorber and specimen.

In addition, by arranging the position of the servomotor to the rear, it has the effect of saving the space occupied by the device as a whole.

Claims (6)

In a tensile, compressive strength and durability test apparatus for testing repetitive tensile, compressive strength and durability of specimens such as shock absorbers, piston cylinders or tension and elastomers requiring compression, Servo motor is supplied with power to generate rotational force; A shaft connected to the servomotor to transmit a rotational force; A vertical movement unit connected to the shaft to convert a rotational movement by the servomotor into a linear reciprocating movement; And Clamping device for fixing the test piece to be tested; tensile, compressive strength and durability test apparatus comprising a. The method of claim 1, The servo motor is located at the rear of the main body, A timing belt is provided between the servo motor and the shaft, so that the power of the servo motor can be transmitted to the vertical movement part. The method of claim 1, The clamp device includes an upper clamp coupled to an upper portion of the main body to fix an upper end portion of the test piece; And And a lower clamp connected to the vertical motion part to fix the lower end of the test piece and move up and down corresponding to the linear reciprocation of the vertical motion part. The method of claim 3, wherein Tensile, compressive strength and durability test apparatus further comprises a; load cell is installed on the upper clamp for sensing the tensile, compressive strength of the test piece. The method of claim 1, The vertical movement unit, the rotary cam is connected to the shaft and a plurality of eccentric holes are formed on the upper surface; And One side is connected to the eccentric hole of the rotary cam crank shaft for converting the rotary motion of the rotary cam into a linear reciprocating motion; tensile, compressive strength and durability testing apparatus comprising a. The method of claim 3, wherein A length adjusting part attached to a lower end of the lower clamp and adjusting a height of the lower clamp according to a length of a test piece; And Tensile, compressive strength and durability testing device characterized in that it further comprises; a fixed lever for fixing the height of the lower clamp adjusted by the length adjustment unit.

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