KR20010084984A - Universal testing machine having a guide frame - Google Patents

Abstract

PURPOSE: A universal material testing machine with a guide frame is provided to be easily handled with light weight by molding the guide frame in an injection molding process and to enhance testing efficiency by attaching a scale. CONSTITUTION: A universal material testing machine contains; a cover frame(10); a motor and a decelerator(20) installed inside the cover frame; a driving sprocket(22) delivering the rotational force of a motor, on the decelerator; an idle sprocket(28) and a driven sprocket(30) rotated by connecting with the driving sprocket through a chain(24); a ball screw(34) vertically installed on the driving and the driven sprocket and rotated; a cress head block(106) connected to the ball screw and lifted by the rotation of the ball screw; an upper gripper unit(100) holding a material testing piece(104) under the cross head block and a lower gripper unit(102) installed in an upper base block(16) of the cover frame; and a guide frame(32) vertically formed outside of the ball screw. The guide frame symmetrically forms scale grooves, first recessed grooves, second recessed grooves and an uneven portions.

Description

Universal Testing Machine with Guide Frame {UNIVERSAL TESTING MACHINE HAVING A GUIDE FRAME}

The present invention relates to a universal testing machine having a guide frame, and more particularly, injection molding a guide frame installed in a universal testing machine capable of testing a material such as tension, compression, shear, bending, etc. The present invention relates to a universal testing machine having a guide frame, which is easy to handle and invented to improve efficiency of material testing by attaching a scale.

In general, a hydraulic universal testing machine has been introduced to apply a test load to a material in order to test the tension, compression, shear and bending of the material in one tester.

The hydraulic universal testing machine uses a lot of methods of displaying an electronic guidance device using a load cell and a potentiometer to an analog guided material tester that shows the measurement of the load applied to the material as a guide.

In the structure, the motor is installed inside the cover frame, and the cross-head block which is driven by the motor is moved up and down along the guide bar and the ball screw provided inside the guide frame.

At this time, the cross head block is usually provided with a gripper for holding the load cell and the test piece.

However, the guide frame used in the universal testing machine as described above is mostly manufactured by a number of bending processes, the accuracy is low, the process and the operation takes a long time, there is a problem that the unit price is expensive.

The present invention has been made in order to solve the above problems, injection molding without forming the guide frame of the universal testing machine by the bending process to prevent the corrosion of the product by integrally molding, beautiful appearance, mechanical noise It is an object of the present invention to provide a universal testing machine having a guide frame which can be inexpensive.

In addition, an object of the present invention is to provide a universal testing machine having a guide frame having a structure that can be attached to the scale by installing a plurality of grooves on the outside of the guide frame or to install accessories such as rods and wheels.

1 is a front view showing the universal testing machine of the present invention

Figure 2 is a side view showing the universal testing machine of the present invention

3 is a cross-sectional view taken along the line A-A of FIG.

Figure 4 is a cross-sectional view showing the structure of the guide frame of the universal testing machine of the present invention

* Explanation of symbols for the main parts of the drawings

10 cover frame 12 lower base block

14 support 16 upper base block

18: motor 20: reducer

22: drive sprocket 24: chain

26: bracket 28: idle sprocket

30: driven sprocket 32: guide frame

34: ball screw 36,37: guide bar

38: fixed block 40; Guide frame cover

42: scale groove 44: first groove

46: second groove 48: uneven portion

50: fixing hole 52: support bracket

54: wheel

100: upper gripper unit 102: lower briefer unit

104: test piece 106: cross head block

108: sliding bar housing 110: load cell

The present invention for achieving the above object and the cover frame; A motor and a reducer installed inside the cover frame; A drive sprocket provided on an upper side of the speed reducer and transmitting a rotational force of the motor; An idle sprocket and a driven sprocket installed to rotate by being connected by the drive sprocket and the chain; A ball screw installed vertically and rotating in an upward direction of the driving sprocket and the driven sprocket; A cross head block 106 connected to the ball screw and installed to move up and down as the ball screw rotates; An upper gripper unit installed at the cross head block 106 to hold a material test piece and a lower gripper unit installed at an upper base block of the cover frame; It is installed perpendicular to the outside of the ball screw, characterized in that comprises a guide frame made of "C" shape.

In addition, the guide frame is inclined inwardly to the outside of the entire "c" -shaped body is formed symmetrically, the first groove is formed below the scale groove, the first groove is formed below the first groove 2 grooves are formed, the rear surface is characterized in that the uneven portion is formed.

Preferred embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

Figure 1 is a front view showing a universal material tester of the present invention, Figure 2 is a side view showing a universal material tester of the present invention, Figure 3 is a cross-sectional view when cutting the line AA of Figure 1, Figure 4 is A cross section showing the structure of the guide frame of a universal testing machine.

Looking at the configuration of the present invention with reference to Figures 1 to 4, the universal testing machine equipped with a guide frame of the present invention, the lower base block 12 is installed on the inner lower surface of the cover frame 10 having a box shape, the upper An upper base block 16 is installed, and the lower base block 12 and the upper base block 16 are supported and fixed by a plurality of supports 14.

A motor 18 and a reducer 20 are installed above the lower base block 12, and a drive sprocket 22 is installed in the reducer 20.

The drive sprocket 22 is wound and installed to transmit power by the chain 24.

Meanwhile, a bracket 26 is fixed at an intermediate point of the upper base block 16, an idle sprocket 28 is installed at the bracket 26, and the idle sprocket 28 is connected to the chain 24. It is wound around and receives the rotational force by the drive sprocket 22.

In addition, a driven sprocket 30 is installed on the lower right side of the upper base block 16, and the driven sprocket 30 is connected to the idle sprocket 28 by a chain 25 to rotate the motor 18. The power is finally delivered.

Subsequently, a ball screw 34 is installed in the drive sprocket 22 in the vertical upward direction, and an upper end thereof is fixed to the fixed block 38, and in the driven sprocket 30 in the vertical upward direction. The ball screw 35 is provided, and the upper end thereof is fixed to the fixed block 38, and the ball screw housing 112 is provided to be able to move up and down along the ball screws 34 and 35.

Each of the guide bars 36 are vertically installed on the outside of the ball screws 34 and 35. The lower end is fixed to the upper base block 16, and the upper end is fixed to the fixing block 38. It is installed.

Each of the sliding bar housings 108 is installed at the guide bars 36 and 37 installed at both sides, and the cross bar block 106 having the ball screw housings 112 is horizontally provided at the sliding bar housings 108. It is provided so as to be able to move up and down along the guide bar and the ball screw, and the cross head block 106 is provided with a load cell 110 and an upper gripper unit 100 for holding a material test piece.

The lower gripper unit 102 is installed on the upper surface of the upper base block 16 so as to hold one end of the material test piece. The lower gripper unit 102 is installed to face the upper gripper unit 100 to hold the material test piece and to tension it. Perform tests such as compression, bending and flexure.

Guide frames 32 and 33 are installed outside the guide bars 36 and 37 and the ball screws 34 and 35 installed as described above.

As illustrated in FIG. 4, the guide frames 32 and 33 are formed to be integrally long by injection molding, and a plurality of grooves are formed at the outer side thereof.

Scale grooves 42 are formed symmetrically in the longitudinal direction on the outside of the guide frame 32, the first grooves 44 are formed symmetrically, the second grooves 46 are formed symmetrically , A plurality of fixing holes (50) are formed.

The scale groove 42 is formed to be inclined inwardly so as not to cause inconvenience to the operator caught, and is attached to the scale so as to find out the measured dimensions during the material test.

In addition, various accessories such as a switch and a rod may be installed in the first groove 44 to facilitate the operator, and the second groove 46 may be provided in the support bracket 52 as shown in FIG. 3. The wheel 54 is installed to operate when the electric stop of the cross head block 106 to move up and down.

In addition, as shown in FIG. 2, the second recess 44 is provided with a limit bar 58, and an upper end of the limit bar 58 is a limit bar bracket 56 fixed to the guide frame 32. It is fixedly installed.

The rear of the guide frame 32 is formed with an uneven portion 48 formed with a plurality of protrusions, the uneven portion 48 is made freely stretched according to the temperature difference and the room temperature according to the season guide frame 32 This prevents the twisting, thus providing a protective function.

The above description applies equally to the guide frame 33.

In addition, the present invention as described above is not limited to the specific embodiments described above, and anyone skilled in the art to which the invention belongs without departing from the gist of the invention claimed in the claims various modifications Would be possible.

The present invention as described above is an injection molded guide frame without undergoing a bending process is light in weight, easy to handle, and has the advantage of forming a plurality of grooves can be used to attach the scale and various accessories, to the conventional steel frame Compared with this, mechanical noise is prevented, so quiet operation is possible, product corrosion is prevented, and aesthetics are beautiful.

In addition, there is an effect that can be used semi-permanently as the expansion and contraction according to the temperature difference.

Claims (2)

A cover frame; A motor and a reducer installed inside the cover frame; A drive sprocket provided on an upper side of the speed reducer and transmitting a rotational force of the motor; An idle sprocket and a driven sprocket installed to rotate by being connected by the drive sprocket and the chain; A ball screw installed vertically and rotating in an upward direction of the driving sprocket and the driven sprocket; A cross head block 106 connected to the ball screw and installed to move up and down as the ball screw rotates; An upper gripper unit installed at the cross head block 106 to hold a material test piece and a lower gripper unit installed at an upper base block of the cover frame; It is installed vertically on the outside of the ball screw, the universal material tester having a guide frame, characterized in that it comprises a guide frame made of "C" shape. The method of claim 1, The guide frame is inclined inwardly to the outside of the entire "-" shaped body is formed symmetrically scale groove, the first groove is formed below the scale groove, the second groove below the first groove It is formed, the universal material testing machine having a guide frame, characterized in that the uneven portion is formed on the rear surface.