KR20220105739A - Material Abrasion Test System For Mold Sliding and Test Method Thereof - Google Patents

Abstract

The present invention relates to a system and a method for a material abrasion test through a linear reciprocating motion. The purpose of the present invention is to provide the system and the method for a mold sliding abrasion test capable of realizing an abrasion test in a situation where a bonding surface of an upper sample and a lower sample is not matched to a load unit applying load. Moreover, a plurality of devices share one slide to facilitate measurement of a test and comparison of data.

Description

Material Abrasion Test System For Mold Sliding and Test Method Thereof

The present invention relates to a wear test system and method, and more particularly, to a system and method for measuring the amount of wear of a sample through a reciprocating motion of a cylinder.

In general, wear test equipment is a tester that evaluates the friction and wear characteristics of materials. It is driven by converting the rotational motion of the motor into linear motion, and it is possible to test by surface contact, line contact, and point contact. Additionally, various friction and abrasion tests can be performed by controlling environmental conditions such as temperature and humidity.

The conventional friction tester mainly consists of a linear reciprocating test device, and the friction wear test was made through a structure in which the lower specimen moved linearly in the horizontal direction or the arm holding the upper specimen was moved linearly. The load line that applies the load to the sample and the contact surface between the upper sample and the lower sample were configured to coincide. However, in order to apply to a product whose load line and contact surface do not match, a wear test is required in a situation where the contact surface and the load line are separated.

In addition, since the conventional friction tester can measure only the friction force, the degree of wear was measured by a separate wear measurement equipment after the friction force test.

In addition, the conventional friction tester is configured to be inserted into the hole formed in the arm to which the upper sample is coupled, and thus cannot be formed larger than the hole, thereby limiting the size and testing of the upper sample.

The present invention has been devised to solve the above-described problems, and an object of the present invention is to apply a load at a predetermined distance from the contact surface between samples, so that a wear test in a situation where the contact surface and the load line are spaced apart is possible. To provide a material wear test system and method.

The present invention relates to a wear test apparatus for measuring the amount of wear of an upper specimen and a lower specimen by friction, wherein the upper specimen protrudes and is fixed to one side of a slide cylinder that reciprocates in the longitudinal direction for the lower specimen fixed on the upper surface, and the slide cylinder A post disposed perpendicular to the direction of motion to surface-contact the upper surface of the lower specimen and the lower surface of the upper specimen; a column that limits the post to only vertical movement; It characterized in that it comprises a measuring device for measuring the amount of wear of the upper specimen by measuring the amount of movement in the direction.

In addition, the post is a post body coupled to the column and movable in a vertical direction, a measuring base coupled to the upper end of the post body in the longitudinal direction to move vertically according to the displacement of the post, and a lower end of the post body It is characterized in that it comprises a coupling portion coupled to the upper specimen.

In addition, the coupling portion is disposed on the lower surface, characterized in that it comprises a post cover for fixing the upper specimen in the vertical direction.

In addition, it characterized in that it comprises a cylindrical load guide coupled in the vertical direction to the upper surface of the post body, a weight having a hole formed so as to be fitted to the load guide.

In addition, it is characterized in that at least one post is provided per one of the slide cylinders.

In addition, when a plurality of the posts are provided per one slide cylinder, the plurality of the posts are arranged to face each other or arranged in a line.

In addition, in the wear test method using the wear test apparatus, the lower specimen is fixed to the slide cylinder, the specimen fixing step in which the upper specimen is fixed to the post, the post applies a load to the upper specimen to apply a load to the lower specimen A load application step of making surface contact with the specimen, a reciprocating motion step of reciprocating the slide cylinder by pneumatic pressure, and a measuring step of measuring the wear amount of the upper specimen by the measuring device as the slide cylinder reciprocates do it with

In addition, in the wear test method using the wear test apparatus, the lower specimen is fixed to the slide cylinder, the specimen fixing step in which the upper specimen is fixed to each of the plurality of posts, the plurality of posts are respectively to the upper specimen A load application step of applying a load to surface contact with the lower specimen, a reciprocating motion step in which the slide cylinder reciprocates by pneumatic pressure, and a plurality of the measuring devices as the slide cylinder reciprocates to measure the wear amount of each of the upper specimens It is characterized in that it comprises a measuring step of measuring, and a comparative analysis step in which the wear amount of each of the upper specimens measured by the plurality of measuring devices is comparatively analyzed.

According to the present invention, it is configured to apply a load spaced apart from the contact surface at a predetermined interval, so that a wear test is possible in a situation where the contact surface and the load line are spaced apart.

In addition, since the coupling part can be formed larger than the body of the post, it is easy to manufacture and combine the post suitable for the sample.

In addition, by configuring a plurality of wear test devices on both sides of the slide cylinder, it is possible to conduct the test at the same time and to facilitate comparative analysis.

1 is a perspective view of the present invention;
2 is a front view of the present invention;
3 is a front view of the present invention;
4 is an enlarged front view of the present invention;
5 is a side view of the present invention;
6 is an enlarged side view of the present invention;
7 is a flowchart of the present invention;

Abrasion tests through reciprocating frictional motion between samples have been previously disclosed. However, the present invention suggests that the test is possible in a situation where the contact surface between the samples is spaced apart from the load line.

Hereinafter, a mold sliding material wear test system and method according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

[1] Overall composition and principle of operation

First, Figure 1 is a perspective view of the present invention. Referring to FIG. 1 , the slide cylinder 200 is disposed on the base 100 . The slide cylinder 200 includes a guide 221 penetrating the cylinder 200 and a pneumatic cylinder. The lower sample 210 is coupled to the upper surface of the slide cylinder 200, and in this case, it is characterized in that it is disposed on both sides of the upper surface rather than the center of the upper surface. Columns 300 are spaced apart perpendicular to the movement direction of the slide cylinder 200 . The column 300 is coupled to a post 400 that moves vertically, and the upper sample 421 is disposed on the upper surface of the lower sample 210, and the upper sample 421 is fixed to the bottom of the post 400 and the post ( 400) It is pressed to the lower sample 210 through its own weight, the load guide 430 disposed on the upper end, and the load of the additional weight 440 . Accordingly, in the present invention, wear occurs due to friction between the upper sample 421 and the lower sample 210 through the reciprocating motion of the slide cylinder 200, and the amount of wear of the sample is measured by measuring the vertical displacement of the post 400 ( 500) is continuously measured.

At this time, although not shown, the lower sample 210 is bolted to both sides in the movement direction of the slide cylinder 200, so that it is easy to separate and combine. The slide cylinder 200 has stoppers 220 disposed on both sides, and a speed controller and a solenoid valve are disposed on one side, so that the slide cylinder 200 reciprocates through pneumatic pressure. A plurality of wear test devices can be arranged vertically in the movement direction of the slide cylinder 200 , and the test can be performed by sharing one cylinder 200 . A plurality of posts 400 for coupling the upper sample 421 are also disposed. The column 300 is fixed through a column base fixed to the base 100 .

2 to 4 illustrate the present invention on a single test basis. 2 is a front view of the present invention. Referring to FIG. 2 , the slide cylinder 200 is disposed in the center of the base 100 and the lower sample 210 is disposed on the upper surface of the slide cylinder 200 . The column 300 is disposed perpendicular to the movement direction of the slide cylinder 200 and is coupled to a post 400 that applies a load to the lower sample 210 . The post 400 is limited to be movable only in the vertical direction through the groove formed in the column 300 and the column cover 322 . The post 400 can be configured to easily change the load by inserting a cylindrical load guide 430 at the top. An additional weight 440 having a hole formed in the center may be inserted into the load guide 430 to further apply a load to the sample. By coupling the bracket 510 to one side of the upper end of the column 300, the measuring instrument 500 is fixed in the vertical direction. In addition, the measurement base 520, which is a reference for measuring the amount of wear, is coupled to the upper side of the post 400 . The measuring device 500 sets the distance to the measuring base 520 to zero before the test. Thereafter, as the slide cylinder 200 wears the upper sample 421 and the lower sample 210 through reciprocating motion, the post 400 and the measuring base 520 move in the vertical direction and the measuring device 500 moves. Measure the displacement value continuously.

At this time, the additional weight 440 is characterized in that it is formed with a predetermined weight. The shape of the bracket 510 is not limited to the shape shown in the drawings, and it is sufficient to be formed so that the measuring device 500 can be fixed to the column 300 .

3 is a front view of the present invention excluding the slide cylinder. Referring to FIG. 3 , the column base is fixed to the base 100 , the column 300 is fixed to the column base, and the column 300 includes a column body 310 and a protrusion 320 . The column body 310 is coupled to a bracket 510 for fixing the measuring device 500 . The protrusion 320 is formed to protrude from the top of the column body 310 in the cylinder 200 direction, and a column groove 321 corresponding to the cross section of the post 400 for coupling with the post 400 is formed in the center. A column cover 322 is coupled to the end of the protrusion to limit the horizontal movement of the post 400 . At this time, the column body 310 and the protrusion 320 may be integrally configured. The post 400 is composed of a post body 410 and a coupling portion 420 . The post body 410 has a cross section corresponding to the column groove 321, is limited to vertical motion by the column groove 321, and has a load guide 430 and an additional weight that can change the load applied to the sample at the top ( 440) are combined. The coupling part 420 is formed at the lower end of the post body 410 and has a cross-section larger than that of the post body 410 . Due to this, the upper sample 421 was configured not to collide with the column 300 .

At this time, the width direction of the coupling portion 420 is written in the same way as the post body 410, but may be formed to be larger than the post body 410 to fit the upper sample 421 to be coupled. The column groove 321 corresponds to the cross-section of the post body 410 , and the post 400 is configured to allow replacement of the post 400 through the column cover 322 , so that replacement according to the sample is easy.

4 is an enlarged view of the coupling part. Referring to FIG. 4 , the coupling portion 420 of the post 400 is formed at the lower end of the post body 410 , and a post groove 422 is formed on the lower surface to correspond to the size of the upper sample 421 , so that the upper sample 421 is formed. ) are combined. A post cover 423 is disposed on the lower surface of the coupling part 420 to fix the upper sample 421 in the vertical direction.

At this time, since there is no limit to the size of the coupling part 420 , the size of the upper sample 421 is freely selected, and the fixing method between the coupling part 420 and the upper sample 421 can be freely changed. For example, if the post groove 422 is formed on the side and the post cover 423 is formed and fixed, the upper sample 421 can be secured from swinging left and right during reciprocating motion. Accordingly, the directions of the post groove 422 and the post cover 423 may be changed depending on the purpose, and there is no limitation. The post cover 423 also has a direct effect on the test load, so it is preferable to be thinly formed.

In addition, the post groove 422 and the post cover 423 can be firmly fixed by adding a vibration-proof member to prevent the cylinder 200 from shaking when the cylinder 200 reciprocates and when the direction is changed. The post groove 422 may be formed through the coupling portion 420 , and additional installation for fixing is possible.

5 is a side view of the present invention. A case where a plurality of wear test devices are installed in a single cylinder is illustrated. Referring to FIG. 5 , the slide cylinder 200 is disposed in the center of the base 100 , and the lower sample 210 is disposed on the upper surface of the slide cylinder 200 . The column 300 is disposed on the side of the slide cylinder 200 and is coupled to a post 400 that applies a load to the upper sample 421 . The post 400 is limited to be movable only in the vertical direction through the groove formed in the column 300 and the column cover 322 . The arranged column 300 is coupled to a bracket 510 for fixing the post 400 coupled to the upper sample 421 and the measuring device 500 . The column 300 may be divided into a column body 310 fixed to the base 100 and a protrusion 320 protruding from the column body 310 in the cylinder 200 direction. The protrusion 320 includes a column groove 321 corresponding to the post body 410 in the central vertical direction, and a column cover 322 for fixing the post 400 after coupling to the column groove 321 is added. include as The combined post 400 is coupled so that the upper sample 421 protrudes to the side, and details will be described later.

6 is an enlarged side view of the present invention. Referring to FIG. 6 , the lower sample 210 is disposed on the upper surface of the slide cylinder 200 , and the column 300 is disposed spaced apart from the side surface. The column 300 includes a column body 310 and a protrusion 320 that is formed to protrude at the top and can be coupled to the post 400 . The post 400 includes a coupling part 420 to which the post body 410 capable of vertical movement by the column 300 and the upper sample 421 are coupled. The lower sample 210 is coupled to both sides of the upper surface of the slide cylinder 200 , and in detail, it is disposed to protrude outward than the slide cylinder 200 . The load line and the contact surface between the upper sample 421 and the lower sample 210 are spaced apart from the post 400 to perform a wear test.

[2] Wear test method

7 is a flow chart of the material wear test of the present invention. Referring to Figure 7, in the wear test method using the wear test device, first the slide cylinder is fixed to the base, the lower specimen is fixed to the upper surface of the slide cylinder, the column is arranged on the side of the slide cylinder, and a post is placed on the protrusion of the column is coupled, and the specimen fixing step (S1) in which the upper specimen is fixed to the coupling portion of the post. After the specimen fixing step (S1), it is a load application step (S2) in which the upper specimen is in contact with the lower specimen and a load is applied by the weight of the post and the load guide and additional weight coupled to the top of the post. After the load application step (S2), the slide cylinder reciprocates by pneumatic pressure under the control of the speed controller and the solenoid valve included in the control unit to perform a material wear test in which the upper and lower samples are rubbed. It is a reciprocating motion step (S3). . After the reciprocating motion step (S3), as the slide cylinder reciprocates, the measuring device includes a measuring step (S4) of measuring the amount of wear of the upper specimen and the lower specimen.

When performing a plurality of tests on a single cylinder, after the measuring step (S4), as the slide cylinder reciprocates, a measuring step in which a plurality of measuring instruments measure the amount of wear of each upper specimen, It includes a comparative analysis step (S5) of comparative analysis of the amount of wear.

The present invention is not limited to the above-described embodiments, and the scope of application is varied, and anyone with ordinary knowledge in the field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims It goes without saying that various modifications are possible.

100: base
200: slide cylinder
210: lower sample 220: stopper 221: guide
300: column
310: column body 320: protrusion
321: column groove 322: column cover
400 : Post
410: post body 420: coupling part
421: upper sample 422: post groove 423: post cover
430: load guide 440: additional weight
500: measuring instrument
510: bracket 520: measurement base

Claims (8)

In the wear test apparatus for measuring the amount of wear by rubbing the upper specimen and the lower specimen,
a slide cylinder for reciprocating the lower specimen fixed on the upper surface in the longitudinal direction;
a post having an upper specimen protruded and fixed to one side, and disposed perpendicular to the movement direction of the slide cylinder to surface-contact the upper surface of the lower specimen and the lower surface of the upper specimen;
a column limiting the post to only be movable in a vertical direction; and
a measuring device fixed to the column and connected to the post to measure the amount of wear of the upper specimen by measuring the amount of vertical movement of the post;
Abrasion test apparatus comprising a.
According to claim 1, wherein the post,
A post body coupled to the column and movable in the vertical direction,
A measuring base coupled to the upper end of the post body in the longitudinal direction and moved in the vertical direction according to the displacement of the post, and
A coupling part coupled to the upper specimen at the lower end of the post body
Abrasion test apparatus comprising a.
3. The method of claim 2,
The coupling part is disposed on a lower surface, and a wear test apparatus including a post cover for fixing the upper specimen in a vertical direction.
3. The method of claim 2,
A cylindrical load guide coupled in a vertical direction to the upper surface of the post body,
Abrasion testing apparatus including a weight having a hole formed therein to be inserted into the load guide.
The method of claim 1,
Abrasion testing apparatus, characterized in that at least one post is provided per one of the slide cylinders.
6. The method of claim 5,
When a plurality of the posts are provided per one slide cylinder,
A wear testing apparatus, characterized in that the plurality of the posts are arranged to face each other or arranged in a line.
In the wear test method using the wear test apparatus of claim 1,
a specimen fixing step in which the lower specimen is fixed to the slide cylinder and the upper specimen is fixed to the post;
a load applying step in which the post applies a load to the upper specimen to make surface contact with the lower specimen;
a reciprocating motion step in which the slide cylinder reciprocates by pneumatic;
a measuring step in which the measuring device measures the amount of wear of the upper specimen as the slide cylinder reciprocates;
Abrasion test method including.
In the wear test method using the wear test device of claim 5,
a specimen fixing step in which the lower specimen is fixed to the slide cylinder and the upper specimen is fixed to each of the plurality of posts;
a load applying step in which a plurality of the posts apply a load to the upper specimen, respectively, to make surface contact with the lower specimen;
a reciprocating motion step in which the slide cylinder reciprocates by pneumatic;
a measuring step of measuring the amount of wear of each of the upper specimens by a plurality of measuring devices as the slide cylinder reciprocates;
a comparative analysis step in which the wear amount of each of the upper specimens measured by the plurality of measuring devices is comparatively analyzed;
Abrasion test method including.

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