KR100958989B1 - Friction Coefficient Tester - Google Patents

Abstract

The present invention relates to a test device for measuring the coefficient of friction, the frame 10, and the first and second friction block support (20A) (20B) mounted hanging on the frame 10 and mounted so that the friction block is demountable ), A pressurized cylinder 40 mounted on the frame 10 to push and move the first friction block support 20A, and a second friction block support 20B mounted on the frame 10. A stopper 50 for blocking the movement of the sample, and a holder 70 for biting and fixing one side of the friction coefficient measuring specimen P are provided and the specimen for moving the specimen P fixed to the holder 70 up and down. A load cell 60 mounted on the moving cylinder 80, any one of the stopper 50 and the pressurizing cylinder 40 and the specimen moving cylinder 80 to measure the vertical and horizontal forces applied to the specimen P; 62) and the load cell 60 (62) while driving the pressurized cylinder 40 and the specimen moving cylinder (80) The control unit is configured to calculate the friction coefficient of the test piece by receiving the measured value in), whereby the friction coefficient of one or both surfaces of the test piece can be accurately and simply performed once. Has an effect.

Friction Coefficient, Test, Friction Block, Holder, Load Cell

Description

Test apparatus for measuring the friction coefficient of a test piece

1 is a schematic configuration diagram showing an overall friction coefficient measurement test apparatus according to the prior art;

Figure 2 is a schematic configuration diagram showing the friction coefficient measurement test apparatus according to the invention as a whole;

3 is a detailed view of the holder of the present invention;

4 is a perspective view of main parts of the present invention;

Figure 5 is a schematic diagram showing the hydraulic supply and signal transmission system of the cylinder and the load cell of the present invention.

[Description of Reference Numerals]

P: Psalm 10: Frame

20A, 20B: friction block support 26: idle roller

40: pressurized cylinder 50: stopper

60, 62: load cell 70: holder

80: specimen moving cylinder 90: control unit

The present invention relates to a test device for measuring friction coefficient, and more particularly, to a test device for measuring friction coefficient so that the friction coefficient of one or both surfaces of the specimen can be performed accurately and simply at one time.

In general, when stamping the plated steel sheet produced in steel mills, the occurrence of fracture due to the friction failure is one of the problems. To solve this problem, the friction characteristics of the plated steel sheet, in particular, the friction coefficient value is measured accurately. It is very important to set the working conditions so that no fracture occurs during stamping molding.

Conventional apparatus for measuring the coefficient of friction of the plated steel sheet, as shown in Figure 1, put the specimen (P) of the plated steel sheet on a number of idle rollers 110 arranged to have a predetermined interval, After fixing one side to the specimen fixing block 130 connected to the specimen moving cylinder 120 through the tightening screw 132, the friction block 150 connected to the pressure cylinder 140, the upper portion of the specimen (P) The specimen moving cylinder 120 is operated in a state in which the surface is in close contact with a predetermined pressure to perform a test for measuring the coefficient of friction.

At this time, the friction coefficient is calculated by the value measured in the load cell 160 attached to the rod of the specimen moving cylinder 120 and the pressure value of the pressure cylinder 140 adjusted through the pressure control valve 142. The friction coefficient of the specimen P is obtained.

Reference numeral 170 denotes a hydraulic pressure generating unit that provides hydraulic pressure to the cylinders 120 and 140.                         

However, since the conventional friction coefficient measuring method can measure only the friction coefficient of one surface of the specimen P, two tests must be performed to measure the friction coefficient of both surfaces of the specimen P as necessary. It is a very inefficient method that takes a lot of time and labor, and because it is to manually adjust the pressure of the pressure cylinder 140 by the pressure control valve 142, it is difficult to set the correct pressure of the pressure cylinder 140 The problem was that the accuracy of the test was lowered.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide a friction coefficient measurement test apparatus, which enables the friction coefficient of one or both surfaces of a specimen to be accurately and simply performed at a time.

As a technical configuration for achieving the above object, the present invention, the frame and the first and second friction is mounted so as to move freely in a direction away from or close to each other and the friction block is detachable A block support, a pressurized cylinder mounted on the frame to push the first friction block support toward the second friction block support, and a second friction block support mounted on the frame to the first friction block support. A stopper for blocking movement in a direction away from the top, and a holder for biting and fixing one side of the friction coefficient measurement specimen, the specimen being fixed to the holder between the first friction block support and the second friction block support. A specimen moving cylinder to be moved, any one of the stopper and the pressure cylinder, and the specimen moving cylinder. A load cell for measuring the vertical and horizontal forces applied to the specimen and a control unit configured to calculate the friction coefficient of the specimen by calculating the friction coefficient of the specimen by driving the pressure cylinder and the specimen moving cylinder and receiving the measured values from the load cell; The friction block is characterized in that the idle roller is installed in the contact portion with the specimen.

delete

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic configuration diagram showing a friction coefficient test apparatus according to the present invention as a whole, a bottom plate 12 placed on the floor, an upper plate 14 placed on top of the bottom plate 12 and Two vertical ends having a lower end fixed to the bottom plate 12 and an upper end fixed to the top plate 14 to fix the bottom plate 12 and the top plate 14 to each other and to be parallel to each other. It has a frame 10 composed of supports 16.

The first and second friction block supports 20A and 20B are spaced apart from each other by a predetermined interval between the vertical supports 16, and the first and second friction block supports 20A are symmetrically disposed. 20B is mounted on the top plate 14 by a plurality of link bars 30 so as to be free to move in a direction away from or close to each other, that is, left and right in the drawing. That is, one end of the link bar 30 is hinged to be rotatable to the top plate 14 and the other end is hinged to be rotatable to the first and second friction block support (20A) (20B), respectively. .                     

At this time, the link bar 30 connecting the first friction block support 20A and the upper plate 14 has the same length and is installed in parallel with each other, so that the first friction block support 20A does not rotate. The link bar 30 which is moved along the arc-shaped path and connects the second friction block support 20B and the upper plate 14 also has the same length and is installed in parallel with each other so that the second friction block support 20B ) Is set to move along an arced path without rotating.

In the first and second friction blocks 20A and 20B, friction block mounting grooves 22 having narrow inlets are formed in portions facing each other, and the friction blocks described later in the friction block mounting grooves 22 are formed. It is mounted so that it can be disassembled. In addition, the friction block mounting groove 22 is formed to have a long length in the front and rear directions of the drawings so that the friction block can be fitted in the longitudinal direction.

The first friction block support 20A is moved toward the second friction block support 20B by the pressure cylinder 40, and the pressure cylinder 40 is mounted on the vertical support 16 and its rod ( 42 moves forward and backward toward the first friction block support 20A to move the first friction block support 20A toward the second friction block support 20B.

In addition, the second friction block support 20B is blocked from moving in the direction away from the first friction block support 20A by the stopper 50 mounted to the vertical support 16. In addition, the stopper 50 is equipped with a load cell 60 for measuring the vertical force for measuring the magnitude of the force applied in the direction perpendicular to the specimen.

The specimen P whose friction coefficient is measured by the apparatus of the present invention is supported by the holder 70 so as to be located between the first and second friction block supports 20A and 20B. 70 is mounted to the rod 82 end of the specimen movement cylinder 80. At this time, a horizontal force measuring load cell 62 for measuring the magnitude of the force applied in the horizontal direction between the holder 70 and the rod 82 is mounted.

The specimen moving cylinder 80 is mounted to the horizontal support 18 so that the rod 82 can be moved forward and backward in the vertical direction, the horizontal support 18 is fixed to the vertical support 16.

And, the holder 70 is a pneumatic cylinder 72 is operated by pneumatic, as shown in Figure 3, and the triangular block 74 is spaced apart or close to each other by the operation to the air cylinder 72 A generally known air gripper having is sufficient.

4 is a perspective view of the main portion of the present invention, in which two kinds of friction blocks 24A and 24B are mounted to friction block mounting grooves 22 formed in each of the first and second friction block supports 20A and 20B. ), The friction block 24A, 24B has a body portion that can be fitted into the friction block mounting groove 22, and the friction block support to be in contact with the specimen (P) in the body portion The idling roller 26 is provided in the part which the protrusion part which protrudes more than the surface of (20A) (20B) is formed integrally, or is in contact with the test piece P.

Figure 5 is a schematic diagram showing the hydraulic supply and signal transmission system of the cylinder and the load cell of the present invention, the pressure cylinder 40 and the specimen moving cylinder 80 is connected to the hydraulic supply source 92 to receive the hydraulic pressure, the stopper 50 The load cell 60 mounted on the) and the load cell 62 mounted on the specimen moving cylinder 80 are electrically connected to the control unit 90 to provide a measurement value.

Of course, the controller 90 is pre-programmed to receive the measured values provided by the load cells 60 and 62 to calculate and output the friction coefficient of the specimen P by calculation.

The operation of the present invention having the above configuration will be described.

The apparatus of the present invention can be tested on one side or both sides of the specimen (P), and when one side is the test object, the friction block having a friction block 24A having a projection and the idle roller 26 The friction block 24A is mounted on the friction block mounting groove 22 of the first and second friction block supports 20A and 20B, respectively, and both sides are to be tested. To the friction block mounting grooves 22 of the first and second friction block supports 20A and 20B, respectively. Then, the lower end of the friction coefficient measurement specimen (P) is fitted to the holder 70 and fixed.

Raise the rod 82 of the specimen moving cylinder 80 so that the specimen P fixed to the holder 70 is positioned between the first and second friction block supports 20A and 20B, and the pressure cylinder The rod 42 of the 40 is advanced to bring the friction blocks into close contact with both surfaces of the specimen P.

Subsequently, the rod 82 of the specimen moving cylinder 80 is lowered by a predetermined distance, at which time the measured value measured by the load cells 60 and 62 is provided to the controller 90 to provide a coefficient of friction of the specimen P. Is calculated and output.

When the friction coefficient measurement test of the specimen is completed, the apparatus of the present invention is moved to the initial state in the reverse order to the above, and the specimen P is removed from the holder 70.

As described above, according to the test device for measuring friction coefficient according to the present invention, the friction coefficient measurement can be easily and quickly performed on one side or both sides of the specimen as a test object.

Claims (2)

Frame 10 and the first and second friction block support 20A (20B) is mounted so as to be free to move in the direction away from or close to each other hanging on the frame 10 and the friction block is detachable And a pressurized cylinder 40 mounted on the frame 10 to push the first friction block support 20A to move toward the second friction block support 20B, and mounted on the frame 10 so as to be mounted on the frame 10. 2 stopper 50 for preventing the friction block support 20B from moving in the direction away from the first friction block support 20A, and a holder 70 for biting and fixing one side of the friction coefficient measurement specimen P; And a specimen moving cylinder 80 for vertically moving the specimen P fixed to the holder 70 between the first friction block support 20A and the second friction block support 20B. One of the stopper 50 and the pressure cylinder 40 and the specimen moving cylinder ( The load cells 60 and 62 mounted on the specimen 80 and measuring the vertical and horizontal forces applied to the specimen P, and driving the pressurized cylinder 40 and the specimen moving cylinder 80 to the load cells 60 and 62. A control unit configured to calculate a friction coefficient of the test piece by receiving a value measured in The friction block, the friction coefficient measuring test apparatus, characterized in that it comprises a idle roller 26 is installed in the contact portion with the specimen (P). delete

Images