KR20130009155A - Apparatus for correction standard weight - Google Patents

Abstract

PURPOSE: A standard weight body for the correction is provided to prevent the deformation of the skid deformation of a coil weight measuring device caused by the standard weight body for the correction. CONSTITUTION: A standard weight body(100) for the correction is utilized for correcting a weight measuring device which measures the weight of an object having an outer curved surface. A surface of the standard weight body contacting to a skid which is a measurement pedestal is formed into a curved surface.

Description

Apparatus for correction standard weight

The present invention relates to a standard weight body for calibration used in the calibration of a coil weighing apparatus, and is a standard weight body for body chain calibration mounted on a skid upon calibration of the coil weighing apparatus.

In general, the strip-shaped steel sheet is shipped out of print, but is usually shipped in coils. The coil wound as described in Korean Patent Registration 908,703 and Korean Patent Publication No. 2005-003844, is first wrapped in a wrapping paper and then transported to a crane or the like to be placed on a seating frame made of a square frame to be bundled with a seating band in order to be sent to the consumer. After that, it is transferred to a weighing device and weighed, and then shipped to the desired weight.

To this end, the wound coil is transferred to the skid (skid) of the coil car, and lifted it by using a hook attached to the overhead crane, placed on the skid (skid) of the coil weighing device to measure the weight.

On the other hand, in order to compensate for the error of the coil weighing apparatus, a calibration operation of the coil weighing apparatus is periodically performed. That is, the standard weight body for calibration of the one-tone bundle 101 shown in FIG. 1 (a) and the two-tone bundle 102 shown in FIG. Check and adjust the tilt and weight error of the coil weighing device by stacking it up to the maximum capacity with a crane.

FIG. 2 is a view illustrating a standard weight body 101 and 102 for calibrating a coil weighing device mounted on a skid 210 of a coil weighing device for calibrating a coil weighing device. After the standard weight bodies 101 and 102 are placed on the skid 210, tilt and weight error corrections are performed.

At this time, even if the standard weight body 101,102 for the correction of the rectangular parallelepiped is mounted on the skid, it can be seen that the support structure 220 of the H-beam type supporting the skid is erected correctly without bending. The support structure of the H-beam because the outer surface shape of the standard weight body for calibration has a cuboid shape, and the bottom surface of the standard weight body for calibration in the form of a cuboid is loaded in the direction perpendicular to the skid 210. There is no warpage at 220,

On the other hand, when the coil weight is actually measured, the weight is measured while the coil of the wound form spans both skids, and as shown in FIG. 3, the support structure 220 is bent by the distributed load of the coil. Measurements are made in the deformed state.

However, when the calibration is performed using a standard weight body for calibration in the form of a rectangular parallelepiped, the weight error due to the deformation of the support structure is corrected while the actual coil weight is measured. Therefore, even if the weight calibration is performed using a standard weight body for calibration in the form of a cuboid, since the calibration is made without considering the deformation of the supporting structure by the coil shape wound up, several tens of kilograms ~ Hundreds of kilograms of weight error can occur.

The technical problem of the present invention is to provide a standard weight body for calibration used in the calibration of the coil weighing apparatus. In addition, the technical problem of the present invention is to prevent the skid deformation of the coil weighing apparatus during calibration. In addition, the technical problem of the present invention is to ensure that no error occurs when performing the calibration of the coil weighing apparatus. In addition, the technical problem of the present invention is to perform the calibration after measuring the weight of the standard weight body for calibration under the same conditions as the site to measure the actual coil weight when performing the calibration of the coil weighing apparatus.

Embodiment of the present invention is a body weight calibration standard weight body used in the calibration of the weight of the weighing device for measuring the weight of the object having a curved surface, the surface in contact with the skid, which is the weight mounting seat is curved Is formed.

In addition, the body weight calibration standard weight body used in the calibration of the weight of the weighing device for measuring the weight of the object having a curved surface, the upper surface of the straight surface form, both ends of the upper surface to the curved surface It includes the bottom surface.

In addition, the standard weight body for calibration includes a top surface in the form of a straight surface, a bottom surface in the form of a straight surface, and a side connecting the top surface and the bottom surface to a curved surface.

In addition, the curved surface is the same as the curvature of the curved surface of the object having the curved surface.

According to the embodiment of the present invention, it is possible to prevent skid deformation of the coil weighing device due to the standard weight body for calibration. In addition, according to the embodiment of the present invention, the weight of the standard weight body for calibration can be measured under the same conditions as the site for measuring the actual coil weight. In addition, according to the embodiment of the present invention, it is possible to eliminate the occurrence of errors when performing the calibration of the coil weighing apparatus. It can also be maintained at optimum conditions due to calibration and matching of practical conditions. In addition, it can be used for other equipment for moving and can be applied to various measuring instruments.

1 shows a standard weight body for calibration in the form of a cuboid.
2 is a view showing a standard weight body for calibration in the form of a cuboid is placed on the skid of the coil weighing apparatus.
FIG. 3 is a diagram illustrating a wound coil over the skid of the coil weighing device.
4 is a diagram illustrating a coil weight measuring device.
5 is a view showing a state of the standard weight body for calibration having a curved surface according to an embodiment of the present invention.
FIG. 6 is a diagram showing a standard weight body for calibration having a curved surface over a skid of a coil weighing apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention in more detail. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention and to those skilled in the art to fully understand the scope of the invention. It is provided to inform you. Wherein like reference numerals refer to like elements throughout.

4 is a diagram illustrating a coil weight measuring device.

In the following description, the object to be measured by the coil weighing apparatus will be described by taking a coil as an example, but not limited to the coil, any device that is wound like a coil and measures an object having a curved surface outside may be applied. An object having an outer surface is called an outer surface object.

Skid 210 is a wooden or metal carrier used to carry or support cargo. The coil weighing apparatus measures the weight by placing a coil on the skid 210. That is, the coil is picked up by a crane having a hook in the form of a hook hanger and placed on a skid to measure the weight of the coil. The coil to be transported by standing by a crane or a forklift is placed on the skid 210 which is a seating stand of the apparatus as it is standing. The skid 210 is implemented as two spaced apart, so that both sides of the coil has a shape that spans both sides of the skid 210. For reference, when the weight calibration of the coil weighing device is performed, the standard weight body for calibration is placed on both sides of the skid, not the coil.

The support structure 220 carries a skid as an H-beam shaped structure. A plurality of load cells 240 are provided on the bottom bottom surface of the support structure 220. In addition, a plurality of tilt sensing bodies 230 are provided between the support structure 220 and the housing 200. Therefore, the load sensing body 240 can detect the load of the object placed on the skid, the tilt sensing body 230 can detect the inclination of the support structure inclined by the load of the object. The values sensed by the load sensing body 240 and the tilt sensing body 230 are transmitted to a meter (not shown).

On the other hand, when the weight calibration of the coil weighing apparatus is made, the standard weight body for calibration is placed on the skid, so that weight calibration and tilt calibration are performed so that there is no weight error. For example, a calibration standard weight body weighing exactly one ton is put on, and the meter reading is calibrated so that the weight of one ton is displayed on the coil weighing device. In addition, the calibration of the support structure is carried out when a 1 ton calibration standard weight body is placed on the skid of the coil weighing device.

The standard weight body for calibration is a body used at the time of weight calibration with respect to the weighing apparatus which measures the weight of a coil, and has a fixed width x length x height (bottom surface height). One unit of the body has a weight of 1 ton (ton), 2 tons, etc., and is used as a reference load in the weight calibration of the weighing device.

Orthodontic weight body 100 according to an embodiment of the present invention is not a conventional rectangular parallelepiped, as shown in FIG. 5 so that the surface in contact with the skid is formed as a hemispherical curved surface. For example, as shown in FIG. 5A, the upper surface 100a has a straight surface and the bottom surface 100b has a half moon-shaped curved surface. The bottom surface 100b connects both ends of the top surface to a hemispherical curved surface.

On the upper surface 100a having a straight surface, an existing calibration standard weight body in the form of a cuboid may be mounted. The bottom surface 100b of the standard weight body for calibration according to the embodiment of the present invention, which is a surface touching the skid of the coil weighing device, is implemented as a hemispherical curved surface, thereby giving the same state as when the coil is wound. I can bring it. Since the coil has a curved surface, the skid contact surface of the standard weight body for calibration is curved in order to create the same assumptions as the coil. Since the standard weight body for calibration has a curved surface similar to the coil, even if the weight calibration and the tilt calibration are performed after placing the standard weight body for calibration on the upper surface, no error occurs when measuring the actual coil weight.

The curved surface of the bottom surface 100b preferably has the same curved surface as the curvature of the outer diameter of the wound coil. By using a standard weight body for calibration having a curved surface equal to the curvature of the outer diameter of the coil, the calibration can be made accurately.

On the other hand, the standard weight body for calibration, as shown in Figure 5 (b), can be implemented to have a protruding bottom surface 100c protruding downward in the vertical direction in the center of the curved bottom surface (100b). have. The protruding bottom surface 100c has a straight surface shape. The protruding bottom surface 100c is to be placed stably between the skid of the coil weighing device. Therefore, the length of one side (horizontal length or longitudinal length) of the protruding bottom surface is designed to be smaller than the gap length of two spaced skids. The protruding bottom faces protrude below the gap between the two skids, resulting in stable mounting. At this time, the skid still touches the curved surface of the standard weight body for calibration, which can bring the same state as when the coil was placed.

On the other hand, the standard weight body for calibration is, as shown in Figure 5 (c), the top surface (100a) of the straight surface form, the bottom surface (100e) of the straight surface, the top surface (100a) and the bottom It may be implemented as a side surface (100d) connecting the surface (100e) to the curved surface. The side surface (100d) is implemented in a curved form rather than a straight form, so that the curved surface side (100d) is in contact with the skid. One side of the bottom surface is made smaller than the gap length of the skid so that the bottom surface 100e of FIG. 5C lies between two spaced skids.

On the other hand, a plurality of hook locking body 110 is formed on the upper surface of the standard device for calibration shown in Figure 5 (a), (b), (c). The hook catching body 110 is implemented in the form of a hook that the hook of the crane for lifting the standard weight body for calibration. After the hook of the crane is hooked to the hook catch, the crane is placed on top of the skid of the calibration standard.

For reference, FIG. 6 is a diagram illustrating a coil weight measuring apparatus showing a state in which a standard weight body for calibration having a curved surface is stacked on a skid according to an exemplary embodiment of the present invention.

Above the skid lies a standard weight body 100 for calibration having a curved surface according to an embodiment of the invention. Since the surface of the curved standard weight body 100 in contact with the skid 210 has a curved surface, the load is distributed like the actual coil is laid, and the support structure 230 is bent. Therefore, by using the standard weight body 100 for calibration having a curved surface to have the same condition as the coil, accurate calibration of the coil weighing apparatus can be made.

In addition, the upper surface of the calibration standard weight body 100 having a curved surface is in the form of a straight surface, a plurality of standard weight body for calibration (101, 102) in the form of a rectangular parallelepiped can be stacked thereon.

Although the present invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the present invention is not limited thereto but is limited by the following claims. Accordingly, those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the spirit of the following claims.

100: calibration standard weight body 200: housing
210: skid 220: support structure
230: tilt sensing body 240: load sensing body

Claims (8)

In the standard weight body for calibration of the body chain used in the calibration of the weight for the weighing device for measuring the weight of the object having a curved surface, the standard weight body for calibration, the surface of the surface contacting the skid, which is the measuring seat sieve. In the standard weight body for calibration, the body chain used in the calibration of the weight for the weighing device for measuring the weight of the object having a curved surface,
An upper surface in the form of a straight surface;
A bottom surface connecting both ends of the upper surface to a curved surface;
Standard weight body for calibration comprising a. The method of claim 2, wherein the bottom surface,
A standard weight body for calibration having a protruding bottom surface protruding downward from a center of the bottom surface and having a straight surface. The standard weight body for calibration according to claim 3, wherein a length of one side of the protruding bottom surface is smaller than an interval length of two spaced skids, which are gravimetric seats. In the standard weight body for calibration, the body chain used in the calibration of the weight for the weighing device for measuring the weight of the object having a curved surface,
An upper surface in the form of a straight surface;
Bottom surface in straight form;
A side surface connecting the upper surface and the bottom surface to a curved surface;
Standard weight body for calibration comprising a. 6. The standard weight body for calibration according to claim 5, wherein the length of one side of the bottom surface is smaller than the distance length of two spaced skids, which are gravimetric seats. The standard weight body for calibration according to any one of claims 1 to 6, wherein the curved surface is equal to the curvature of the curved surface of the object having the curved surface. The standard weight body for calibration according to any one of claims 2 to 6, wherein the upper surface is formed with a hook-type hook-type hook for hooking the hook of the crane for lifting the standard weight body for calibration.

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