KR20200077696A - A testing apparatus for a repeated load - Google Patents

Abstract

The present invention provides a load repetition testing jig capable of performing a load test by providing different loads to a plurality of samples. The load repetition testing jig includes: a main body unit; a seating unit which is provided at the upper end of the main body unit and on which a plurality of test targets are seated; and a load applying unit installed in the main body unit and applying a load to each of the plurality of test targets seated on the seating unit.

Description

A testing apparatus for a repeated load}

The present invention relates to a load repeat test jig, and more particularly, to a load repeat test jig capable of performing load tests by providing different loads to a plurality of samples.

In general, a hydraulic testing machine (Universal Testing Machine) has been introduced that can apply a test load to a material in order to test the material properties, such as tensile, compression, shearing, bending, etc. in one tester.

The hydraulic material tester has been developed as a digit display type tester that displays a digit display unit using a load cell and a potentiometer as an electronic guide device for an analog guided material tester that indicates the measured value of a load applied to a material.

This material tester is equipped with a jig.

The test object, which is one test object, is seated on the jig.

In addition, the material tester applies a constant load to the test object using a hydraulic device that descends along the vertical direction.

However, conventionally, there is a problem in that measurement results cannot be obtained by applying different loads to a plurality of test objects in one jig.

In addition, conventionally, there is a problem in that it is difficult to obtain test results by independently providing load speeds applied to different materials.

The prior literature related to the present invention has Korean Patent Publication No. 10-2005-0000912 (published date: 2005.01.06).

The first object of the present invention is to provide a load repetition test jig capable of performing load tests by providing different loads to a plurality of samples.

In addition, a second object of the present invention is to provide a load repetition test jig capable of variably setting a load application speed applied along a vertical direction to a plurality of samples.

In order to achieve the above object, the present invention provides a load repeat test jig.

The load repeat test jig includes a body portion; It is provided on the upper portion of the main body portion, a seating portion to which a plurality of test objects are seated; And, it is installed on the main body portion, a load applying unit for applying a load to each of the plurality of test objects seated on the seating portion; includes.

The seating portion is formed on the upper portion of the main body, and includes seating grooves to which each of the plurality of test objects is seated, and inner cover members disposed on an inner circumferential edge of the seating grooves,

It is preferable that the inner cover member is disposed detachably from an upper end of the main body.

In addition, the load applying unit, the lifting plate is formed with a plurality of through-holes, the elevator for elevating the lifting plate, and disposed on the lifting plate, through the plurality of through-holes to apply a load to the plurality of test objects It is preferable to have a load applying member and a controller for driving the lift.

In addition, each of the load applying members, a seat plate of a disc shape is formed at a set position, a rod having a set length, and fitted to the rod, seated on the seat plate and one or more bottoms to provide a corresponding load Including the backbone,

The lower end of the rod passes through each of the plurality of through holes,

It is preferable that the seating plate is disposed above the lifting plate.

In addition, the lift, a plurality of ball screws are arranged standing on all four corners of the body portion, a plurality of servo motors for rotating the plurality of ball screws under the control of the controller, and is installed erected on the body portion, It includes a plurality of guide rods to guide the lifting of the lifting plate through the lifting plate,

It is preferable that the plurality of ball screws are screwed with the lifting plate.

In particular, an elastic spring is installed at the bottom of the seating plate,

The elastic spring is elastically supported on the upper end of the body portion,

It is preferable that a groove on which the seating plate is seated is formed at an upper end of the lifting plate.

In addition, an elastic layer is further formed on an upper circumference of the rod located on the seating plate,

The elastic layer is in elastic contact with the hollow of the one or more load weights fitted to the top of the rod,

When the plurality of load weights are stacked with each other, it is preferable that they are fitted to each other.

In addition, the seating plate of each of the rods,

A weight sensor is installed in the rod to sense the weight of the load weight seated on the seating plate,

A transmitter is installed to transmit the detected weight to the controller through a set frequency band in a wireless communication method,

Preferably, the controller is provided with a receiver for receiving the transmitted weight.

In addition, the rod, a first rod, a second rod, a hinge end connecting the first rod and the second rod to rotate, and a shaft connected to the hinge end and rotating motor rotating the first rod Including,

The seating plate is installed on the first rod,

It is preferable that the second rod positioned at the lower end of the hinge further includes a disk-shaped locking plate that extends around the upper peripheral area of each of the plurality of through holes.

By the above-described solution, the present invention has an effect that load tests can be performed by providing different loads to a plurality of samples.

In addition, the present invention has an effect that it is possible to variably set the load application speed applied along a vertical direction to a plurality of samples.

Figure 1a is a front view showing the configuration of the load repeat test jig of the present invention.
Figure 1b is a photograph showing the configuration of the load repeat test jig of the present invention.
2 is another front view showing a load repeat test jig according to the present invention.
3 is a plan view showing a load repeat test jig according to the present invention.
4 is a view showing a seating portion according to the present invention.
5 is a view showing the configuration of a load applying unit according to the present invention.
6 is a view showing a load applying member according to the present invention.
7 is a view showing that the elastic spring is installed on the bottom of the seating plate according to the present invention.
8 is a view showing an example in which an elastic layer is formed on the outer circumference of the rod according to the present invention.
9 is a view showing an example in which the weight sensor is installed on the seating plate according to the present invention.
10 is a view showing an example in which the top of the rod can be rotated according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art to which the present invention pertains can easily practice.

The present invention can be implemented in many different forms and is not limited to the embodiments described herein.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar elements throughout the specification.

In the following, any configuration provided or disposed in the "top (or bottom)" of the substrate or the "top (or bottom)" of the substrate means that any configuration is provided or disposed in contact with the top (or bottom) of the substrate. Means

Further, it is not limited to not including other configurations between the above-described substrate and any configuration provided or disposed on (or under) the substrate.

Hereinafter, a load repeat test jig of the present invention will be described with reference to the accompanying drawings.

Figure 1a is a front view showing the configuration of the load repeat test jig of the present invention. Figure 1b is a photograph showing the configuration of the load repeat test jig of the present invention. 2 is a front view showing a load repeat test jig according to the present invention. 3 is a plan view showing a load repeat test jig according to the present invention.

1A to 3, the load repeat test jig of the present invention is composed of a body portion 100, a seating portion 200, and a load applying portion 300.

The body portion 100 is formed in a rectangular box shape.

The seating portion 200 is formed at the upper end of the body portion 100.

4 is a view showing a seating portion according to the present invention.

Referring to FIG. 4, the seating part 200 includes seating grooves 210 and an inner cover member 220.

The seating grooves 210 are formed on the top of the main body 100, but are formed at a set position. The seating groove 210 may be formed in a square shape.

The inner cover member 220 is fitted to and installed on the inner circumferential edge of each of the seating grooves 210.

The rim of the seating groove 210 is formed with a vertical wall 211 extending upward.

And a fitting groove 221 is formed at the bottom of the inner cover member 220. By inserting the vertical wall 211 into the fitting groove 221, the inner cover member 220 is coupled to the vertical wall 211 of the seating groove 210.

Accordingly, the inner cover member 220 may be removed from the vertical wall 211 of the seating groove 210.

A seating plate to which a lower edge of the test object is seated may be formed at a lower end of the seating groove 210.

The inner cover member 220 may surround the outer circumference of the test object.

Here, the inner cover member 220 may have different sizes to install other inner cover members having various sizes in the seating groove.

However, regardless of the size of the inner cover member 220, the fitting grooves 221 are formed at the same position at the bottom of these.

Therefore, a test object having different sizes according to the size of the inner cover member 220 may be seated in the seating groove 211.

In addition, each of the seating grooves 211 may be equipped with a substrate to be tested. Of course, an electronic device other than the substrate may be seated.

5 is a view showing the configuration of a load applying unit according to the present invention.

5, the load applying unit 300 according to the present invention is installed on the main body 100, and serves to apply a load to each of the plurality of test objects seated on the seating portion.

The load applying unit 300 according to the present invention includes a rectangular plate-shaped lifting plate 310, an elevator 320, load applying members 330, and a controller 340.

Screw holes 311 are formed at all corners of the lifting plate 310. Four screw holes 311 are formed.

The elevator 320 according to the present invention serves to elevate the elevating plate 310.

The lift 320 includes a plurality of ball screws 321, a plurality of servo motors 322, and a plurality of guide rods 323.

The plurality of ball screws 321 are erected and arranged at four corners of the main body 100.

The plurality of ball screws 321 penetrates a plurality of screw holes 311 formed at four corners of the elevating plate 310, but are screwed to each other.

The plurality of servo motors 322 are installed on the main body 100, and are axially connected to the lower ends of the plurality of ball screws 321.

The plurality of servo motors 322 rotate each of the ball screws 321 under the control of the controller 340.

The lifting plate 310 may be raised or lowered according to the rotation direction of the ball screws 321.

In addition, the lifting speed of the lifting plate 310 may also be variably adjusted according to the axial rotation speed of the servo motors 322.

The lifting speed of the lifting plate 310 may be variably selected by the controller 340.

In addition, a plurality of guide rods 323 according to the present invention are erected and installed on the main body 100 and penetrate the elevation plate 310 to guide the elevation of the elevation plate 310.

The following describes the configuration of the load applying unit according to the present invention.

6 is a view showing a load applying member according to the present invention.

Referring to FIG. 6, each of the load applying members 330 according to the present invention is formed with a disc-shaped seating plate 332 at a set position, a rod 331 having a set length, and the rod 331 It is fitted to, and seated on the seating plate 332 and includes one or a plurality of load weights 333 to provide a corresponding load.

The lower end of the rod 331 passes through each of the plurality of through holes 311 formed in the lifting plate 310.

The seating plate 332 is disposed on the lifting plate 310.

Here, the load weights 333 are sandwiched by the rod 331 through the upper end of the rod 331 and stacked on the seating plate 332. The upper end of the rod 331 protrudes to the upper portion of the lifting plate 310.

The lower end of the rod 331 penetrates the through hole 110 and protrudes below the elevating plate 310. The lower end of the rod 331 may be disposed above the position where the center of the test object 10 seated on the seating portion 200 can be pressed.

Accordingly, in the present invention, the load weight 333 may be provided to a plurality of rods 331 in different numbers.

That is, different weights may be provided to each of the load applying members 330, and test conditions that can apply different load conditions to the corresponding test object may be provided.

7 is a view showing that the elastic spring is installed on the bottom of the seating plate according to the present invention.

Referring to FIG. 7, in particular, an elastic spring 334 is installed at a lower end of the seating plate 332.

The elastic spring 334 is elastically supported on the upper end of the lifting plate 310.

A groove 312 on which the seating plate 332 is seated is formed at an upper end of the lifting plate 310.

8 is a view showing an example in which an elastic layer is formed on the outer circumference of the rod according to the present invention. 9 is a view showing an example in which the weight sensor is installed on the seating plate according to the present invention.

Referring to FIG. 8, an elastic layer 331a is further formed on an upper circumference of the rod 331 positioned above the seating plate 332.

The elastic layer 331a is in elastic contact with the hollow of the one or more load weights 333 to be fitted on the upper end of the rod 331.

When the plurality of load weights 333 are stacked with each other, they are fitted to each other.

Referring to FIG. 9, in addition, the seat plate 332 of each of the rods 331 is fitted to the rod 331 to sense the weight of the load weight 333 seated on the seat plate 332. , A weight sensor 335 is installed.

A transmitter 341 is installed to transmit the detected weight to the controller 340 through a set frequency band in a wireless communication method.

The controller 340 is provided with a receiver 341 that receives the transmitted weight.

10 is a view showing an example in which the top of the rod can be rotated according to the present invention.

Referring to FIG. 10, the rod 330 also connects the first rod 331a, the second rod 331b, and the first rod 331a and the second rod 331b to rotate. It includes a hinge motor (H) and a rotating motor (337) which is axially connected to the hinge end (H) and rotates the first rod (331a).

The seating plate 332 is installed on the first rod 331a.

The second rod 331b positioned below the hinge end H may further include a disk-shaped locking plate 338 that extends over the upper peripheral area of each of the plurality of through holes 311.

Accordingly, when placing or separating the load weight 333 on the first rod 331a, the first rod 331a is rotated to the user's side, and the load weight 333 is inserted into the first rod 331a in this state. After separating and placing the weight 333 on the first rod 331a, the first rod 331a can be rotated to return to its original position.

According to the above configuration and operation, the present invention has an effect of performing load tests by providing different loads to multiple samples.

In addition, the present invention has an effect that it is possible to variably set the load application speed applied along a vertical direction to a plurality of samples.

As described above, although specific embodiments of the present invention have been described, it is apparent that various implementation modifications are possible within the limits that do not depart from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the described embodiments, and should be defined not only by the claims described below, but also by the claims and equivalents.

That is, the above-described embodiments are illustrative in all respects, and should be understood as not limiting, and the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims and It should be construed that any altered or modified form derived from the equivalent concept is included in the scope of the present invention.

100: main body
200: seating portion
210: seating groove
220: cover member
300: load application unit
310: lifting plate
320: lift
321: Ball screw
322: servo motor
330: load application member
331 load
332: seating plate
333: load weight
340: controller

Claims (5)

Body part;
It is provided on the upper portion of the main body portion, a seating portion to which a plurality of test objects are seated; And,
A load application unit installed on the main body unit and applying a load to each of the plurality of test objects seated on the seating unit;
Containing,
Load repeat test jig.
According to claim 1,
The seating portion,
It is formed on the upper portion of the main body, and the seating grooves, each of the plurality of test objects are seated,
Including the inner cover member disposed on the inner circumferential edge of the seating grooves,
The inner cover member,
Is disposed detachably from the top of the body portion,
Load repeat test jig.
According to claim 1,
The load applying unit,
A lifting plate in which a plurality of through holes are formed,
An elevator for elevating the elevating plate,
It is disposed on the lifting plate, the load applying members for applying a load to the plurality of test objects through the plurality of through-holes,
Equipped with a controller for driving the lift,
Load repeat test jig.
According to claim 3,
Each of the load applying members,
A disc-shaped seating plate is formed at a set position, and a rod having a set length,
It is fitted to the rod, seated on the seating plate and includes one or a plurality of load weights to provide the load,
The lower end of the rod penetrates each of the plurality of through holes,
The seating plate is disposed on the lifting plate,
Load repeat test jig.
The method of claim 4,
The lift,
A plurality of ball screws erected and arranged at four corners of the main body,
A plurality of servo motors rotating the plurality of ball screws under the control of the controller,
It is erected and installed on the main body, and includes a plurality of guide rods penetrating the elevation plate and guiding the elevation of the elevation plate.
The plurality of ball screws,
Screwed to the lifting plate,
Load repeat test jig.

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