KR20210080824A - Adapter of measuring for pipe - Google Patents

Abstract

The present invention relates to a measuring instrument support adapter for exposed piping, which supports a GPS instrument to stably stand on an upper part of an exposed piping. In addition, a structure of the support adapter is improved so that accurate measurement of the GPS instrument in the exposed piping can be performed, by easily grasping an upper center position of the exposed piping and placing the measuring instrument in a correct position. The present invention is composed of an adapter body, a curved portion, an upper surface portion, and an extension portion.

Description

Meter support adapter for exposed piping {ADAPTER OF MEASURING FOR PIPE}

The present invention relates to a measuring instrument support adapter for exposed pipe, in particular, supports the GPS instrument stably standing on the upper part of the exposed pipe, and easily grasps the upper center position of the exposed pipe and places the instrument at the correct position to expose it It relates to a measuring instrument support adapter for exposed pipe whose structure is improved so that an accurate measurement of the GPS instrument in the pipe is made.

In general, among the facilities of gas pipelines and gas supply bases that pass through various areas, there are those that pass or are installed on soft ground such as landfills, so there is a problem that deformation of gas pipes and gas facilities is caused due to subsidence due to ground imbalance. have.

In this case, there is a problem that may cause a major accident such as a gas leak. In the case of some bases and gas pipelines, it is estimated that deformation of several cm or more occurs per year, but at present, a system that can automatically measure and monitor the exact amount of deformation has not been developed.

Therefore, in order to secure the safety of gas supply, it is very important to establish a system that can constantly measure and overall monitor the amount of deformation of gas pipelines located on soft ground and facilities in the gas base, and development of related technologies.

In particular, as important facilities that pose risks due to national land development and collective selfishness are being built in landfills or in vulnerable areas of the ground, the need for ground subsidence and structural deformation monitoring for safety monitoring is growing.

On the other hand, the leveling method has been used in the past to measure the deformation of the gas pipe, but it has the disadvantage that it is difficult to measure on a large scale at all times, and it takes a lot of manpower and time. In addition, a method using a speedometer or an accelerometer is used to measure the deformation of the ground or structure.

Among the methods for measuring the deformation of the ground or structure as described above, in the case of displacement measurement using a speedometer, it is not suitable for deformation measurement of structures having a low frequency, and if the deformation range is wide or the distance from the reference point is large, the deformation measurement is difficult. The downside is that it is difficult.

And, in the case of deformation measurement using an accelerometer, an accelerometer is installed on the ground or structure and deformation measurement is performed using frequency and mode spectrum analysis, but the problem of inaccuracy of the result arises.

As a prior art for improving this, as disclosed in Korean Patent Publication No. 10-0563148 "Gas facility deformation monitoring system using GPS" (registration date: March 15, 2006), crustal displacement measurement technology and real-time movement surveying A gas station with a precision of several millimeters in the long term and several centimeters in quasi-real time using GPS carrier waves, precise GPS satellite orbit data, and high-precision data processing techniques observed at regular reference stations and gas facilities to which technology (RTK) is applied. The purpose is to measure and monitor the three-dimensional deformation of gas structures including internal facilities and gas pipes. The present invention, which is configured for this purpose, includes a GPS satellite group that transmits radio signals while traveling around the earth in the sky; GPS observation means installed in the gas base facilities and gas structures to receive radio signals transmitted from the GPS satellite group while monitoring the three-dimensional displacement and movement of the object to be observed; a monitoring center server that remotely controls each GPS observation means while receiving GPS observation means, GPS carrier observation data of the national GPS reference network, and orbital power provided from an international GPS observation network; a data collection DB server for storing the received observation data and orbital force; a data processing server that calculates displacement according to deformation of target facilities and structures based on GPS carrier observation data and orbital force stored in the data collection DB server; a monitoring status display device for displaying the displacement calculated through the data processing server; a wired/wireless communication network that connects each GPS observation means and the monitoring center server and the national GPS reference network and the monitoring center server to receive GPS carrier observation data and transmit remote control signals; and an Internet network that connects the international GPS observation network and the monitoring center server to receive orbital power provided from the international GPS observation network.

As a prior art related to a measuring device for RTK surveying for this purpose, as disclosed in Korean Patent Publication No. 10-1946400 "Geological survey system using RTK control surveying" (registration date: 2019.01.31), RTK (Real Time Kinematic) control surveying not only secures high-precision survey data in real time, but also stably fixes and supports the GPS instrument even on difficult hard or concrete surfaces, and attenuates vibration transmitted from the outside to obtain accurate survey data. It is related to the geodetic survey system.

In the above case, precise measurement is made by providing a grounding part having a sharp end, which becomes a plurality of leg members, and a buffering part that buffers vibration transmitted from the ground between the grounding parts, but in this case, measurements can be made on a flat road surface. However, there is a disadvantage that it is difficult to find and measure the center position in the upper part of the exposed pipe having a lower part buried and formed to have a circular curvature, which makes it difficult to accurately measure and generate a measurement error.

In particular, in the case of surveying equipment equipped with a fixed tripod at the bottom, since it is difficult to position the fixed tripod above the exposed pipe, the operator separates the fixed tripod and holds the pointed end of the pole of the measuring instrument by hand. However, in this case, there is a risk of scratching the surface of the exposed pipe and the GPS measurement value varies depending on the skill level of the operator, making accurate GPS measurement difficult.

Korean Patent Publication No. 10-0563148 "Gas facility deformation monitoring system using GPS" (Registration date: March 15, 2006) Korean Patent Publication No. 10-1946400 "Geodetic surveying system using RTK control surveying" (Registration date: 2019.01.31)

The present invention was created to solve the problems in consideration of the above-mentioned problems, and its purpose is to stably support the GPS measuring instrument to stand on the upper part of the exposed pipe, and to easily grasp the upper center position of the exposed pipe to ensure the correct position. An object of the present invention is to provide a measuring instrument support adapter for exposed pipe whose structure is improved so that accurate measurement of the GPS instrument in the exposed pipe is achieved by disposing a measuring instrument in the .

The present invention for achieving the above object is an adapter body, a curved portion formed to correspond to the curvature of the exposed pipe on the lower part of the adapter body so as to be seated on the upper side of the outer periphery of the exposed pipe, and a flat plate shape on the upper part of the adapter body It is characterized in that it consists of an upper surface portion formed, and an extension portion extending upward from the center of the upper surface portion and having a fitting hole formed therein so that the pole of the measuring instrument is fitted therein.

A magnet member attached to the exposed pipe by a magnetic force of a magnet is further provided below the curved portion.

The magnet member is formed in a curved shape corresponding to the curvature of the curved part.

It further includes a leveling system provided on the upper side of the upper surface of the left and right sides based on the extension, respectively.

The present invention can not only stably support the measuring instrument pole at the upper side of the exposed pipe, but also stably support the coupling of the exposed pipe and the support adapter that supports the measuring instrument pole at the upper side of the exposed pipe with the curved supporting force of the curved part. has useful advantages.

In addition, the present invention has an advantage in that when the magnet member is provided on the lower side of the curved portion, the adapter body can be firmly coupled to the upper side of the exposed pipe by the magnetic force of the magnet member.

In addition, the present invention has the advantage that the adapter body can be easily placed in the correct position by using a leveler provided on the upper surface of the adapter body, thereby increasing work convenience.

1 is a perspective view showing the configuration of a measuring instrument support adapter for exposed piping according to the present invention.
Fig. 2 is a front view of Fig. 1;
Fig. 3 is a plan view of Fig. 1;
Figure 4 is a state diagram of the use of the present invention.

Hereinafter, the measuring instrument support adapter for exposed pipe according to the present invention will be described in more detail through the detailed description of the embodiments with reference to the drawings.

In describing the present invention, if it is determined that a detailed description of a related known technology or configuration may unnecessarily obscure the gist of the present invention, a detailed description thereof will be omitted. And the terms to be described later are terms defined in consideration of functions in the present invention, and may vary according to the intention or custom of the user. Therefore, the definition should be made based on the content throughout this specification. In addition, 'including' a certain component means that other components may be further included, rather than excluding other components, unless otherwise stated.

When the measuring instrument support adapter for exposed pipe according to the present invention is described with reference to FIGS. 1 to 4 , the adapter body 100 and the exposed pipe 10 are positioned above the outer periphery of the adapter body 100 so as to be seated on the lower part of the body. A curved portion 110 formed to correspond to the curvature of the exposed pipe 10 , an upper surface portion 120 formed in a flat plate shape on an upper portion of the adapter body 100 , and an upper portion extending upward from the center of the upper surface portion 120 . It is composed of an extension 130 having a fitting hole 135 so that the pole 25 of the measuring instrument 20 is fitted therein.

Referring to FIG. 1 , the adapter body 100 has an arc-shaped curved surface 110 having a curvature corresponding to the outer circumferential curvature of the exposed pipe 10 at the lower portion so as to be seated on the upper side of the exposed pipe 10 .

As the curved portion 110 is formed to have a curvature corresponding to the curvature of the exposed pipe 10 , it is in close contact with the exposed pipe 10 and has the advantage of stably supporting the adapter body 100 .

The upper surface part 120 is preferably formed in a horizontal flat shape for use of the leveling level 300 , but may be formed in a curved shape when the curved leveling level 300 is used.

On the upper surface portion 120 formed on the upper side of the adapter body 100, an extension portion 130 in the form of a pipe extends vertically on the upper center of the adapter body 100 .

As shown in FIG. 2 , the extension part 130 has a fitting hole 135 having an open top so that the lower part of the measuring instrument pole 25 is fitted.

The fitting hole 135 has a structure in which the lower end is formed in a sharp chain shape to have a shape corresponding to the lower portion of the measuring instrument pole 25 .

In addition, in the present invention, the magnet member 200 is provided on the lower side of the curved portion 110 .

The magnet member 200 performs a function of attaching the adapter body 100 to the exposed pipe 10 by the magnetic force of the magnet.

In addition, the magnet member 200 is preferably formed in a curved shape having a curvature corresponding to the curved portion (110).

And, as shown in FIG. 3 , the present invention further includes a leveling meter 300 provided on the upper side of the upper surface portion 120 on both sides of the left and right sides based on the extension portion 130 .

The level 300 can easily find a horizontal state in which the pole 25 of the measuring instrument 20 fitted to the extension 130 of the adapter body 100 is located at a vertical position in the forward direction from the center of the exposed pipe 10. will assist you to

The leveling system 300 is provided on both left and right sides with respect to the extension part 130 , respectively.

As shown in FIGS. 1 and 4, the support adapter of the present invention of this configuration places the curved part 110 provided with the magnet member 200 on the lower side on the upper side of the exposed pipe 10 and uses the level 300 to couple the adapter body 100 to the upper side of the exposed pipe 10 in the correct position while checking the horizontal state.

Next, the lower end of the GPS instrument pole 25 separated from the fixed tripod enters into the fitting hole 135 of the extension 130 to make the instrument pole 25 stand upright.

In this case, even if the operator does not hold the instrument pole 25 by hand, since the instrument pole 25 stands in the vertical direction at the correct position, it is possible to comfortably and stably perform the surveying operation.

Therefore, in the present invention, not only can the instrument pole 25 be stably supported at the upper measurement position of the exposed pipe 10, but also the support adapter supporting the instrument pole 25 on the upper side of the exposed pipe 10 and exposed It has a useful advantage of being able to stably support the coupling of the pipe 10 with the curved support force of the curved portion 110 .

In addition, in the present invention, when the magnet member 200 is provided on the lower side of the curved portion 110 , the adapter body 100 can be firmly coupled to the upper side of the exposed pipe 10 by the magnetic force of the magnet member 200 . have an advantage

In addition, the present invention has the advantage that the adapter body 100 can be easily placed in the correct position by using the level 300 provided on the upper surface portion 120 of the adapter body 100, thereby increasing work convenience.

10: exposed pipe 20: measuring instrument
25: pole 100: adapter body
110: curved portion 120: upper surface portion
130: extension 135: fitting hole
200: magnet member 300: level

Claims (4)

The adapter body 100, and
a curved portion 110 formed to correspond to the curvature of the exposed pipe 10 at the lower portion of the adapter body 100 so as to be seated on the upper side of the outer periphery of the exposed pipe 10;
An upper surface portion 120 formed in the form of a flat plate on the upper portion of the adapter body 100,
Exposed pipe support, characterized in that it is extended upwardly from the center of the upper surface part 120 and comprises an extension part 130 having a fitting hole 135 formed therein so that the pole 25 of the measuring instrument 20 is fitted therein. adapter.
The measuring instrument support adapter for exposed pipe according to claim 1, wherein a magnet member (200) attached to the exposed pipe (10) by magnetic force of a magnet is further provided under the curved portion (110).
The measuring instrument support adapter according to claim 2, wherein the magnet member (200) is formed in a curved shape corresponding to the curvature of the curved part (110).
The measuring instrument support adapter for exposed piping according to claim 1, further comprising a leveling meter (300) provided on the upper side of the upper surface portion (120) on both sides of the left and right sides based on the extension (130).

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