KR20120075159A - Space factor test device - Google Patents

Abstract

PURPOSE: A device for inspecting a conductor-occupying ratio of an electrical steel plate is provided to simplify a task by confirming a result by performing a thickness measurement and a weight measurement at the same time and to enhance the reliability by reducing measurement errors. CONSTITUTION: A device for inspecting a conductor-occupying ratio of an electrical steel plate comprises an lower chuck(14), an aligning unit(24), a pressing unit, a height measuring unit, and a weight measuring unit. The lower chuck is arranged in the upper part of a support base. A plurality of specimens is placed on the lower chuck. The aligning unit is installed in the lower chuck, thereby aligning the specimens. The pressing unit presses the specimens placed on the lower chuck. The height measuring unit measures the height of the specimen pressed by the pressing unit. The weight measuring unit measures the weight of the specimen pressed by the pressing unit.

Description

Drop rate test apparatus of electrical steel sheet {SPACE FACTOR TEST DEVICE}

The present invention relates to a test apparatus for electrical steel sheet. More particularly, the present invention relates to a spot rate test apparatus for testing a spot rate of an electrical steel sheet.

In general, the test of the electrical conductivity of the electrical steel sheet is determined by applying a constant pressure in a state in which the specimen is laminated and centered, measuring the thickness thereof, and measuring the weight to determine the weight ratio.

Conventionally, in the process of stacking a plurality of specimens and applying pressure for measuring the spot ratio, there is a problem that it is difficult to maintain accurate test pressure by manually adjusting a certain test pressure using a hydraulic jack.

In addition, the fatigue of the operator is increased, as well as the specimen alignment is made by hand by the operator, thereby reducing the reliability of test data due to misalignment.

In addition, it is difficult for the operator to measure the pressurized height using a vernier caliper while the test piece is pressed, and it is difficult to accurately measure the size of the test piece. There was a risk of safety accidents, such as workers being scratched.

Thus, by precisely centering the specimen and applying a constant pressure, the thickness measurement and the weight measurement are performed at once, thereby providing a spot rate test apparatus, which is capable of reducing reliability and improving reliability by improving quality.

To this end, the present invention is a device for testing the spot ratio of an electrical steel sheet, the lower chuck is disposed on the upper support base, a plurality of specimens are placed, the alignment unit is installed on the lower chuck to align the specimen, the specimen placed on the lower chuck It may include a pressing unit for pressing, a height measuring unit for measuring the height of the specimen pressed by the pressing unit, a weight measuring unit for detecting the weight of the specimen pressed by the pressing unit.

The apparatus may further include a display unit installed at one side of the support base to display a test result of a spot rate on the electrical steel sheet.

The pressing unit may include a hydraulic cylinder for vertically moving the upper chuck to be installed on the upper chuck for vertically moving the upper chuck and the upper chuck to move the sample along the guide and the guide installed vertically on the lower chuck.

The alignment unit may include an alignment member disposed on the lower chuck and positioned on the side of the specimen and an air cylinder for moving the alignment member to the specimen side.

The height measuring unit may include a linear scale installed on the upper chuck and moving together with the upper chuck, and a measuring bar extending vertically from the linear scale to the lower chuck.

The weighing unit is provided with a scale positioned at the bottom of the lower chuck, an up-down unit installed on a support base for raising and lowering the scale, and mounted vertically on the scale and lifting the specimen through the lower chuck. It may include a bar.

According to the present apparatus as described above, the thickness measurement and the weight measurement can be performed at once to confirm the result, thereby making the operation easier.

In addition, it is possible to reduce the measurement error caused by the conventional manual work to increase the reliability of the test, and to minimize the risk of safety accidents occurring during the work.

1 is a schematic diagram showing the configuration of the test device for the spot rate of electrical steel sheet according to the present embodiment.
2 is a schematic plan view of an apparatus for testing a spot rate of an electrical steel sheet according to the present embodiment.
3 is a view for explaining the operation of the spot rate test apparatus of the electrical steel sheet according to this embodiment.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As can be easily understood by those skilled in the art, the following embodiments may be modified in various forms without departing from the spirit and scope of the present invention and the embodiments described herein. It is not limited to the example.

The drawings are schematic and illustrate that they are not drawn to scale. The relative dimensions and ratios of the parts in the figures have been exaggerated or reduced in size for clarity and convenience in the figures and any dimensions are merely exemplary and not limiting.

1 and 2 show an apparatus for testing a spot rate of an electrical steel sheet according to the present embodiment.

As shown, the drip rate test apparatus 10 is calculated by aligning a plurality of specimens P and pressing them at a set pressure and measuring the height and weight thereof.

To this end, the spot rate test apparatus is arranged on the support base 12 to arrange a plurality of specimens P on which the lower chuck 14 and the lower chuck 14 are arranged to align the specimen P. The pressing unit presses the specimen P placed on the lower chuck 14, the height measuring unit measuring the height of the specimen P pressed by the pressing unit, and the specimen P pressed by the pressing unit. It includes a weight measuring unit for detecting the weight of).

The support base 12 is a lower structure for supporting the device, the guide 16 is installed vertically on the top. The lower chuck 14 is fixedly spaced apart from the support base 12 by the guide 16. The lower chuck 14 is a specimen (P) is placed on the upper end is pressed by the pressing unit.

The pressing portion is moved up and down along the guide 16 extending upward through the lower chuck 14 to install the upper chuck 18 for pressing the specimen (P), and the fixing table above the upper chuck 18 It includes a hydraulic cylinder 22 for moving the upper chuck 18 up and down.

The upper chuck 18 penetrates the guide 16 and slides along the guide 16. The upper chuck 18 is a plate structure for pressing the specimen (P). The guide 20 is fixed to the guide 16 above the upper chuck 18. And the hydraulic cylinder 22 is installed in the vertical direction on the top of the fixing 20, the piston rod of the hydraulic cylinder 22 is connected to the upper chuck 18 through the fixing 20.

Accordingly, when the hydraulic cylinder 22 is stretched and driven, the upper chuck 18 is moved up and down along the guide 16 to press the specimen P placed on the lower chuck 14 at a set pressure.

As shown in FIG. 2, the alignment unit is installed at the upper end of the lower chuck 14 and disposed at both side surfaces of the specimen P, and the upper end of the lower chuck 14, It is connected to the alignment member 24 includes an air cylinder 26 for moving each alignment member 24 to the specimen (P) side.

When the air cylinder 26 is extended, the alignment member 24 is moved to align the specimens P stacked up and down.

The alignment member 24 is approximately larger than the height of the stacked specimen (P) or correspond to the height of the specimen (P) so that all of the stacked specimen (P) can be aligned together.

In the present embodiment, the alignment member 24 is provided on both sides of the specimen (P), both four are arranged to align the specimen (P). The alignment member 24 is not particularly limited in number and installation position as long as it can align the stacked specimens P.

The height measuring unit is for measuring the height of the specimen (P) pressed by the upper chuck 18. As mentioned, the droplet rate calculation requires detecting the laminated thickness of the pressed specimen P, that is, the height of the specimen P from the lower chuck 14.

To this end, the height measuring unit is installed on the upper chuck 18 and moves on the linear scale 28 moving with the upper chuck 18, and the vertical scale down from the linear scale 28 extends above the lower chuck 14. Bar 30.

The measurement bar 30 is perpendicular to the lower chuck 14 to accurately measure the distance between the lower chuck 14 and the upper chuck 18.

When the upper chuck 18 is lowered to press the specimen P at the set pressure, the distance between the upper chuck 18 and the lower chuck 14 becomes the height of the pressed specimen P. The distance between the upper chuck 18 and the lower chuck 14 can be confirmed through the linear scale 28 by the measuring bar 30 which moves in contact with the lower chuck 14.

As the upper chuck 18 approaches the lower chuck 14, the measuring bar 30 of the linear scale 28 is pressed by the lower chuck 14. The distance between the upper chuck 18 and the lower chuck 14 is confirmed through the linear scale 28 indicating the length of the measuring bar 30 or the moving distance of the measuring bar 30. As such, by checking the distance between the upper chuck 18 and the lower chuck 14, it is possible to accurately determine the height of the pressed specimen (P).

On the other hand, the weight measuring unit is for measuring the weight of the specimen (P) required in the calculation of the droplet rate. In this embodiment, the weighing unit is made directly on the lower chuck 14 without moving the specimen P.

The weighing unit is provided on a scale 32 positioned below the lower chuck 14, on a support base 12, an up-down unit 34 for raising and lowering the scale 32, and the scale 32. It is installed vertically in the upper portion and includes a lifting bar 36 for lifting the specimen (P) through the lower chuck 14.

The up-down unit 34 has a structure capable of raising and lowering the scale 32, and may be, for example, a driving cylinder operated by air or hydraulic pressure. The up-down unit 34 is not particularly limited as long as it is a structure capable of raising and lowering the scale 32.

The scale 32 is configured to measure the weight of the specimen (P) mounted on the elevating bar 36, the elevating portion is installed on the upper end.

The lifting bar 36 is arranged at a plurality of intervals so as to lift the specimen (P) in a horizontal state. As shown in FIG. 2, the elevating bars 36 are arranged at six intervals.

The lifting bar 36 is slidably installed in the through hole 38 formed in the lower chuck 14.

As shown in FIG. 3, when the up-down unit 34 is driven to elevate the scale 32, the elevating bar 36 installed on the scale 32 is moved upward and placed on the lower chuck 14. (P) will be lifted.

Specimen P is supported by the lifting bar 36, the weight of the specimen (P) is transferred to the balance 32 through the lifting bar 36 is accurately measured.

In addition, the apparatus further includes a display unit 40 installed on one side of the support base 12 to display the test result of the dripping rate for the electrical steel sheet. The display unit 40 displays the droplet ratio of the specimen P obtained by substituting the measured weight and height of the specimen P and the pressing force of the specimen P into the droplet ratio calculation formula.

Hereinafter, the operation of the apparatus will be described.

The laminated specimen (P) is placed on the lower chuck 14 and the first stacked specimen (P) is aligned. When the air cylinder 26 installed in the lower chuck 14 is extended, the alignment member 24 is moved to press the side surfaces of the stacked specimens P. The side surface of the stacked specimen (P) is aligned neatly and the specimen (P) is located exactly in the center of the lower chuck (14).

When the hydraulic cylinder 22 is operated in this state, the upper chuck 18 is lowered to press the specimen P placed on the lower chuck 14 to pressurize to a predetermined pressure.

Here, the linear scale 28 moves with the upper chuck 18 as the upper chuck 18 descends so that the measurement bar 30 accurately measures the height between the upper chuck 18 and the lower chuck 14. It becomes possible. Since the height between the lower chuck 14 and the upper chuck 18 is the height of the test piece (P) is located between the upper chuck 18 and the lower chuck 14 is measured by the linear scale 28 By detecting the height of the bar 30, the height of the test piece P can be detected accurately.

After pressurizing the specimen P as described above, the upper chuck 18 is raised upward again according to the contracting operation of the hydraulic cylinder 22. And the up-down unit 34 is operated to lift the balance 32 up to measure the weight of the specimen (P).

When the balance 32 is moved upward, the lifting bar 36 installed on the balance 32 moves upward through the through hole 38 of the lower chuck 14 to lift the specimen P from the lower chuck 14. do. The weight of the specimen (P) is transmitted to the scale 32 through the lifting bar 36 to allow the scale 32 to measure the weight of the correct specimen (P).

In this way, the height and weight measurement after the alignment and pressing of the specimen (P) can be made continuously.

While the illustrative embodiments of the present invention have been shown and described, various modifications and alternative embodiments may be made by those skilled in the art. Such variations and other embodiments will be considered and included in the appended claims, all without departing from the true spirit and scope of the invention.

10: test apparatus 12: support base
14: lower chuck 16: guide
18: upper chuck 20: fixture
22: hydraulic cylinder 24: alignment member
26: air cylinder 28: linear scale
30: measuring bar 32: scale
34: up-down unit 36: lifting bar
38: through hole 40: display unit

Claims (5)

In the spot rate test apparatus of electrical steel sheet,
A lower chuck disposed on an upper support base, on which a plurality of specimens are placed, an alignment portion installed on the lower chuck to align the specimen, a pressing portion for pressing the specimen placed on the lower chuck, and a height of the specimen pressed by the pressing portion Height measuring unit for measuring the drip rate test apparatus of the electrical steel sheet comprising a weight measuring unit for detecting the weight of the specimen pressed by the pressing unit. The method of claim 1,
The pressing unit includes a guide installed vertically to the lower chuck, an upper chuck moving up and down along the guide to pressurize the specimen, and a hydraulic cylinder installed on a fixing table above the upper chuck to vertically move the upper chuck. Drain rate test device for electrical steel sheet. The method of claim 1,
The alignment unit is installed on the lower chuck and the alignment member located on the side of the specimen, and the droplet rate test apparatus of the electrical steel sheet including an air cylinder for moving the alignment member to the side of the specimen. The method of claim 2,
Wherein the height measuring unit is installed on the upper chuck linear scale to move with the upper chuck, and the drop rate test apparatus of the electrical steel sheet including a measuring bar extending vertically down from the linear scale to the lower chuck. The method according to any one of claims 1 to 4,
The weighing unit includes a scale positioned below the lower chuck, an up-down unit for lifting and lowering the scale, and a lifting bar installed vertically on the scale and lifting the specimen against the lower chuck through the lower chuck. Drip rate test apparatus of electrical steel sheet.

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