KR102041565B1 - Movable weight measuring device - Google Patents

Abstract

A mobile load measuring device is disclosed. The mobile load measuring device includes two pedestals coupled to be fixed by a corresponding stopper and disposed on both sides of the measurement object; Two vertical pillars in which the lower body is fitted to the corresponding pedestal; And two horizontal plates having a fitting hole through which a corresponding vertical column is inserted and formed at one end side, and a plurality of length adjusting bars extending outward at the other end side thereof, and a length adjusting groove formed at the body of the two horizontal plates. The length adjusting bar includes a horizontal unit, each fixed in the opposite direction and including a stretchable portion spaced apart on the upper portion of the measurement object.

Description

Movable weight measuring device

The present invention relates to a mobile load measuring device.

In the case of carriers and offshore projects, the owners are only delivered the constructed ships when they have verified that there are no structural strength problems by completing load tests on the specified measuring objects.

By actually carrying out the load measurement on the measurement object such as lifting lugs, there is an advantage that can solve the errors that may occur in the calculation.

However, since the load measurement result differs according to the installation position, installation environment, etc. of a measurement object, accurate load measurement with respect to a measurement object is difficult with the measurement equipment fixedly equipped in a laboratory. In addition, in general, about 4,500 measurement objects are required to be subjected to a load test in a drillship veneer, and a mobile load measuring device that can easily perform a load test on each measurement object in an actual field is required.

In this regard, Korean Laid-Open Utility Model No. 20-2016-0001583 discloses a ship load measuring device for measuring the load of the ship to be built in the dock. However, this is fixed so that the load measuring portion is disposed between the banjo and the vessel provided on the bottom of the dock where the vessel is located, so that the measurer can conveniently move the vessel load measuring device to the required position to measure the load of the object. There was no limit.

Korean Utility Model Model No. 20-2016-0001583

The present invention is to provide a mobile load measurement device composed of each individual component to be separated, easy to transport to the site location for measurement, assembly at the site location and easy disassembly when the measurement is completed.

The present invention is to provide a mobile load measuring device that can be assembled with a load measuring device to correspond to the size and height of the object for measuring the load, which enables convenient load measurement on the object.

Other objects of the present invention will be readily understood through the following description.

According to an aspect of the present invention, a movable load measuring device, comprising: two pedestals coupled to a position by a corresponding stopper and disposed on both sides of a measurement object; Two vertical pillars in which the lower body is fitted to the corresponding pedestal; And two horizontal plates having a fitting hole through which a corresponding vertical column is inserted and formed at one end side, and a plurality of length adjusting bars extending outward at the other end side thereof, and a length adjusting groove formed at the body of the two horizontal plates. The horizontal adjusting unit includes a horizontal unit which is fixed in the opposite direction, respectively, and includes a stretchable portion spaced apart on the upper portion of the measurement object, both ends of the load measuring unit for measuring the load of the lifting measurement object And the pedestal, the vertical column, and the horizontal plate, respectively fixed to the measuring object and used so that the movable load measuring device can be assembled and disassembled at a position corresponding to the measuring object. Each of the stretchable part and the stopper is provided with a movable load measuring device, which is separated and managed as individual parts.

Threads corresponding to each other may be formed in the fitting hole of the horizontal plate corresponding to the outer circumferential surface of the vertical column.

The stretchable part may include a driving part for lifting the load measuring part and the measurement object.

The mobile load measuring device further includes a top sheet having one or more winches and fitted to each of the upper bodies of the two vertical pillars, wherein the one or more winches have one end at each predetermined position of the horizontal unit. The horizontal unit can be raised or lowered by winding or unwinding a fixed wire belt and winding or unwinding the wire belt.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

The mobile load measuring device according to the embodiment of the present invention has an advantage in that it is composed of each individual component to be separated and transported to the site location for measurement, assembly at the site location, and disassembly when the measurement is completed.

In addition, the load measuring device can be assembled to correspond to the size and height of the object for measuring the load has the effect that it is possible to measure the convenient load on the object.

1 is a view illustrating an assembly form of a mobile load measuring device according to an embodiment of the present invention.
Figure 2 illustrates the individual components constituting the mobile load measuring device according to an embodiment of the present invention.
Figure 3 is a view showing an example of the configuration of the longitudinal stretchable vertical column according to another embodiment of the present invention.
Figure 4 illustrates an assembly form of a mobile load measuring device according to another embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. As used herein, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described on the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

In addition, the terms “… unit”, “… unit”, “… module”, “… unit” described in the specification mean a unit that processes at least one function or operation, which means hardware or software or hardware and software. It can be implemented as a combination of.

For convenience of description, the present invention will be described by dividing the present invention into individual embodiments, but the matters described in one embodiment may be integrated with the matters described in another embodiment to be configured as a new individual embodiment. It is natural that the description is omitted.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the accompanying drawings may be exaggerated in size or size for convenience of description, it is obvious that the present invention is not limited by the shape of the illustrated size or size.

1 is a view illustrating an assembly form of a mobile load measuring apparatus according to an embodiment of the present invention, Figure 2 is a view illustrating the individual components constituting the mobile load measuring apparatus according to an embodiment of the present invention, 3 is a view showing an example of the configuration of the longitudinal stretchable vertical column according to another embodiment of the present invention.

1 and 2, the movable load measuring apparatus includes a plurality of vertical pillars 110a and 110b, a horizontal unit 120, a plurality of pedestals 130a and 130b, and a plurality of stoppers 140a and 140b.

Each of the plurality of vertical pillars 110a and 110b is formed in a rod shape and disposed on both sides of the measurement object 160, respectively. Naturally, the separation distance between the plurality of vertical pillars 110a and 110b may be determined in consideration of the width of the measurement object 160.

A plurality of fastening pins are formed on the lower bodies of the vertical pillars 110a and 110b, and a predetermined length is formed on the upper portions of the bodies of the vertical pillars 110a and 110b so that the threads are continuous.

Each fastening pin is pressed by the circumferential surface of the insertion groove, for example, is inserted into the insertion groove formed in the upper portion of the pedestal (130a, 130b) corresponding to the lower portion of the vertical pillar (110a, 110b). When it is maintained in a closed state and reaches the corresponding fastening groove, it may be formed into a ball shape which is drawn out to be fitted into the corresponding fastening groove in a pin pit-in manner and fixedly coupled thereto. The vertical pillars 110a and 110b are stably coupled to the corresponding pedestals 130a and 130b by inserting the lower body into the insertion groove, and fastening pins formed on the lower body to the fastening grooves formed on the circumferential surface of the insertion groove. do.

The vertical pillars 110a and 110b may be formed to have a fixed length, but may be formed to have a telescopic structure that is stretched and stretched using, for example, a hydraulic cylinder, to enable the length extension as illustrated in FIG. 3. In this case, a plurality of fastening pins may be formed at the bottom of the base portion 310, and one end may be fitted to the base portion 310 to form a screw thread at an outer circumferential surface of the pillar portion 320 to be pulled out or adjusted.

The horizontal unit 120 may include an elastic part 122 and a plurality of horizontal plates 124a and 124b.

The horizontal plates 124a and 124b are formed to have a body having a predetermined length, and correspond to the shape of the circumferential surface of the vertical pillars 110a and 110b so as to penetrate the vertical pillars 110a and 110b at one end thereof. A fitting hole is formed, and a plurality of length adjusting bars are formed at the other end.

On the inner circumferential surface of the fitting hole formed in the horizontal plate 124a, 124b, a thread corresponding to the thread formed in the vertical pillars 110a, 110b is formed, for example, the coupling shape of the bolt and nut, corresponding to an arbitrary height. When the horizontal plates 124a and 124b are moved in the longitudinal direction of the vertical pillars 110a and 110b, they may be stably maintained at the positions.

The stretching portion 122 is formed with a length adjusting groove in the longitudinal direction in the body, for example, the shape of the H beam. The length adjustment bars of the horizontal plates 124a and 124b are appropriately positioned on the length adjustment grooves on both sides of the stretchable part 122 so that the entire length of the horizontal unit 120 is an appropriate length corresponding to the width of the measurement object 160. It can be fixed using a fastening mechanism.

As described above, pedestals 130a and 130b are coupled to the lower portions of the vertical pillars 110a and 110b. A wheel 210 may be provided below the pedestals 130a and 130b for convenience of transportation.

Corresponding stoppers 140a and 140b are coupled to the sides of each of the pedestals 130a and 130b, and the pedestals 130a and 130b and the stoppers 140a and 140b each other, for example, in a slide pit-in manner. It can be formed to be combined.

That is, after placing the stoppers 140a and 140b to contact the side surfaces of the pedestals 130a and 130b, and pressing the push buttons provided on one side of the stoppers 140a and 140b, the stoppers 140a and 140b are accommodated inside the stoppers 140a and 140b. The stoppers 140a and 140b are raised while the stop plate 220 is pulled out so as to be exposed to the lower portions of the stoppers 140a and 140b by, for example, hydraulic pressure. When the stoppers 140a and 140b are raised, the structures respectively formed on the contacting sides of the stoppers 140a and 140b and the pedestals 130a and 130b may be inserted and fastened in a slide-in manner to be fixed to each other.

The stoppers 140a and 140b and the stop plate 220 may be manufactured to have a large enough area to prevent the fall, thereby allowing the mobile load measuring device to effectively apply the load applied when measuring the load to the measurement object 160. There is a characteristic that it also functions as a load balancer to disperse. Here, when the wheel 210 is not provided below the pedestals 130a and 130b, the pedestals 130a and 130b may also function as load balancers.

In general, the conventional load measuring device has a fixed length and width of the vertical column and the installation height and width of the vertical column, and there is no dispersion plate in the vertical column, which is disadvantageous for measuring loads of measurement objects of various sizes, and also buckling strength due to compressive load. There was a vulnerable problem.

On the contrary, in the mobile load measuring apparatus according to the present embodiment, the length of the vertical column and the installation height and width of the horizontal unit may be freely adjusted according to the size and height of the measurement object 160, and the stoppers 140a and 140b may be used. The back has an advantage of sufficiently reducing the effective length to minimize buckling strength reduction.

The stretchable part 122 is connected to the load measuring part 150 by the first wire, and the load measuring part 150 is provided on one side of the measurement object 160 by the second wire or / and the chain. 165 is connected.

A driving unit (not shown) which lifts the measurement object 160 and pulls the first wire so that the load of the measurement object 160 can be measured by the load measurement unit 150 in the elastic part 122. Is provided. The drive unit may include, for example, a winch that winds up or unwinds the first wire, or may include a pinion gear and a drive motor for lifting up and down the rack gear to which the first wire is fixed.

That is, after the movable load measuring device is assembled and installed to have a width and a height corresponding to the size of the measuring object 160, the driving unit provided in the stretchable part 122 pulls the first wire to measure the measuring object ( When the 160 is lifted, the load of the measurement object 160 is measured by the load measuring unit 150.

In addition, in the case where the winch is provided to stretch and wind the first wire in the expansion and contraction unit 122, even if the load measuring unit 150 is not provided, the number of times wound around the winch or / and the number of revolutions measured by the encoder are inverted so that the load is increased. It may be estimated how much was added. In this case, the load of the measurement object 160 may be estimated by referring to the distance-specific load value required for one rotation of the winch.

As described above, the mobile load measuring apparatus according to the present embodiment has a feature that can be assembled and used in the field so as to correspond to the size and height of the measurement object 160.

To this end, the mobile load measuring device may be separated into each individual part unit as illustrated in FIG. 2, and may be transported to the position of the measurement object 160. When the load measurement of the measurement object 160 is completed, the individual part unit is again. Can be managed separately.

4 is a view illustrating an assembly form of a mobile load measuring apparatus according to another embodiment of the present invention.

As illustrated in FIG. 4, the movable load measuring device may further include a top seat 410 inserted into and coupled to upper ends of the plurality of vertical pillars 110a and 110b, and the top sheet 410. The winch unit may be provided to wind or unwind the wire belt 420.

One or more wire belts 420, one end of which is fixed to the winch part and wound or unwound, are respectively fixed at predetermined positions of the horizontal plates 124a and 124b to elevate or fix the horizontal plates 124a and 124b. Be sure to

At this time, it is obvious that the winch portion corresponding to each wire belt 420 may be manipulated to wind or unwind the corresponding wire belt 420 at the same speed. In FIG. 4, the wire belt 420 has a case where only the horizontal plates 124a and 124b are fixed, but it may include not only the horizontal plates 124a and 124b but also the elastic part 122 as the fixing target. Of course.

In order to allow the horizontal unit 120 to be freely lifted and lowered by the wire belt 420 in a state where the vertical pillars 110a and 110b are fitted into the fitting holes formed at one ends of the horizontal plates 124a and 124b, FIG. 1. Unlike the outer circumferential surface of the vertical pillars (110a, 110b) and the inner circumferential surface of the fitting hole may be formed so as not to thread coupling. At this time, for example, the inner diameter of the fitting hole may be formed relatively larger than the outer diameter of the vertical pillars (110a, 110b).

When the movable load measuring device is assembled and installed to correspond to the size of the measurement object 160, the winch part of the top sheet 410 performs a winding operation on the wire belt 420, whereby the horizontal unit 120 has a height. When lifted and the measurement object 160 is lifted, the load of the measurement object 160 is measured by the load measuring unit 150.

Although the above has been described with reference to embodiments of the present invention, those skilled in the art may variously modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. And can be changed.

110a, 110b: vertical column 120: horizontal unit
122: expansion and contraction portion 124a, 124b: horizontal plate
130a, 130b: base 140a, 140b: stopper
150: load measurement unit 160: measurement object
165: fixed portion 210: wheel
220: stop plate 310: base
320: pillar portion 410: top sheet
420: Wire Belt

Claims (4)

In the mobile load measuring device,
Two pedestals which are coupled to be fixed in position by corresponding stoppers, respectively disposed on both sides of the measurement object;
Two vertical pillars in which the lower body is fitted to the corresponding pedestal; And
Two horizontal plates having a fitting hole through which a corresponding vertical column is inserted and formed at one end side and a plurality of length adjusting bars extending outward at the other end side, and the length of the two horizontal plates in the length adjusting groove formed at the body. It includes a horizontal unit is fixed in the opposite direction to the control bar including a stretchable unit which is spaced apart on top of the measurement object,
Both ends of the load measuring part for measuring the load of the lifting measurement object are fixed to the stretchable part and the measurement object, respectively,
The movable load measuring device is the pedestal, the vertical column, the horizontal plate to be assembled and disassembled at a position corresponding to the measurement object. The stretchable part and the stopper are each separated and managed as individual parts, the mobile load measuring device. The method of claim 1,
And a thread corresponding to each other is formed in the fitting hole of the horizontal plate corresponding to the outer peripheral surface of the vertical column. The method of claim 1,
The stretchable part includes a load measuring part and a driving part for lifting the measurement object. The method of claim 1,
It further comprises a top sheet having at least one winch, which is fitted to each of the upper body of the two vertical pillars,
At least one winch unit winds up or unwinds a wire belt having one end fixed to a predetermined position among the horizontal units, and the horizontal unit is moved up or down by winding or unwinding a wire belt.

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