KR101479604B1 - Survey Equipment For the Precise Cadastral Survey - Google Patents

Abstract

The present invention relates to survey equipment for precise cadastral survey which can precisely carry out cadastral survey in various locations, and efficiently conduct cadastral survey work. The survey equipment for precise cadastral survey according to the present invention comprises: a tripod-shape supporter (100); an L-shaped lower curved pole (200) equipped with a support body (210) and an accommodating body (220); a bracket-shaped middle curved pole (300) equipped with a first moving body (310), an accommodating body (320), an insert body (320), and a second moving body (340); an L-shaped upper curved pole (400) equipped with an accommodating body (410) and a survey device installing body (420); a first coupling member (500); a second coupling member (600); a third coupling member (700); and a cadastral survey device (800).

Description

[0002] Surveillance Equipment For the Precise Cadastral Survey [0003]

The present invention relates to a surveying instrument for precision cadastral surveying.

The cadastral survey involves only two-dimensional (x, y) positions as a survey to identify the limit (position, size, shape, boundary, etc.) of the right to the land by registering the land by each parcel unit.

For these cadastral surveys, basic surveys are carried out. Basis surveys are surveys carried out in order to establish foundation points necessary for cadastral surveys or to conduct detailed surveys.

Meanwhile, cadastral surveying is a survey to clarify the limitations of the water rights, so the housing area is the main target. However, in the case of houses, it is difficult to accurately measure the lower planar position of the projections due to roof projections such as eaves. Especially, it was more difficult to perform surveying using GPS surveying equipment.

Accordingly, conventionally, a pole to which a measuring instrument is installed is bent in a " C " shape, and a measurement apparatus is installed at the top of the pole to measure a position to be measured.

However, conventionally, it is difficult to precisely adjust the lateral length of a pole having a " C " shape, and it is difficult to properly cope with various projections of the roof. Therefore, it was difficult to secure the accuracy of the surveying.

Also, in the past, it was structurally complicated to fix the pole, which required a lot of time and labor to install the pole.

Patent No. 10-1239936

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a surveying instrument for precise cadastral surveying, which can perform cadastral surveying at various locations precisely, This is the task to be done.

According to an aspect of the present invention,

Tripod-shaped support 100:

A support 210 detachably mounted on the support 100; A through hole 221b formed in the periphery of the housing 221a and communicating with the housing space 221a and a through hole 221c formed in one side of the housing 221a and communicating with the housing space 221a, And is provided at one end of the accommodating portion 221. The accommodating portion 221 is provided at one end of the accommodating portion 221 so that the space of the penetrating hole 221c is smaller than the space of the accommodating space 221a Shaped lower flexural pole 200 having a protruding portion 222 protruding inwardly from the supporter 210 and extending laterally from the supporter 210. The lower flexural pole 200, :

An insertion portion 311 formed at one end thereof with a fixing hole 311a and movably inserted into a receiving space 221a of the lower bending pole receiving portion 221; A first moving body 310 having an engaging portion 312 for engaging with the protrusion 222 of the bending pole 200; And an opening hole (322) formed in the periphery and communicating with the accommodation space (321), wherein the hole (322) is formed on the surface adjacent to the opening hole (322) A receptor 320 on which a scale is displayed; An insertion body 330 formed with a plurality of fixing holes 331 along the longitudinal direction and movably inserted into the receiving space 321 of the receiver 320 and a fixing hole 341a formed at one end thereof, A second moving body 340 having an engaging portion 342 provided at one end of the inserting portion 341; The central bend pole (300), which is shaped like a 'c'

An accommodating space 411a in which the second moving body 340 of the center bending pole 300 is movably inserted, an opening hole 411b formed in the periphery and communicating with the accommodating space 411a, And a through hole 411c which is formed on one side of the first bending pole 300 and communicates with the receiving space 411a and into which the second moving body 340 of the bending pole 300 is movably inserted, A receiving portion 411 having a mark on its surface adjacent to the receiving portion 411 and a receiving portion 411 provided at one end of the receiving portion 411 and having a space smaller than the space of the receiving space 411a A protrusion 412 protruding inwardly from the inner surface of the base plate 410; And a measuring device installation body 420 extending upward from the receiver 410 and co-linear with the center of the support platform 100. The upper flexure pole 400 having a '

A first fastening member 500 passing through the opening hole 221b of the lower bending pole receiving portion 221 and being detachably fastened to the fastening hole 311a of the first moving body 310 of the middle bending pole,

A second fastening member 600 penetrating the opening hole 322 of the middle bending pole receptacle 320 and detachably fastened to the fastening hole 331 of the middle bending pole insert 330;

A third fastening member 700 penetrating through the opening hole 411b of the upper bending pole receptacle 410 and detachably fastened to the fixing hole 341a of the second moving body 340 of the middle bending pole,

A cadastral measuring instrument 800 detachably installed on the measuring instrument installation body 420 of the upper flexural pole 400;

And a control unit.

According to the present invention as described above, the cadastral surveying instrument 800 can be located at an accurate position, so that the surveying can be performed more precisely, and more accurate cadastral map can be created based on precisely secured surveying data . Further, the present invention has the effect of facilitating the cadastral surveying work by more reliably arranging the cadastral measurement apparatus 800 through the support stand 100 and the auxiliary support S.

1 is a front view for explaining a first embodiment according to the present invention,
FIG. 2 is a detail view showing a part of FIG. 1 in detail,
3 is a cross-sectional view of Fig. 2,
4 to 6 are diagrams for explaining the operation of the first embodiment according to the present invention,
7 is a detailed view for explaining a second embodiment according to the present invention,
8 is an operational diagram for explaining the operation of the second embodiment according to the present invention.

Hereinafter, the present invention will be described in detail.

Structural features of the first embodiment according to the present invention will be described with reference to FIGS. 1 to 3. FIG.

The present invention relates to an apparatus and a method for manufacturing the same, which comprises a support 100, a lower bending pole 200, a middle bending pole 300, an upper bending pole 400, a first fastening member 500, a second fastening member 600, A third fastening member 700, and a cadastial measuring device 800. [

The support 100 includes a plurality of support legs 110 and a support plate 120 provided on the support legs 110 to form a tripod shape. Here, the fastening protrusion 121 protrudes upward from the upper portion of the support plate 120.

The lower bending pole 200 has a support 210 and a receiver 220, and is detachably mounted to the support 100.

The supporting body 210 has a coupling groove 211 formed at a lower portion thereof and the coupling groove 211 and the coupling protrusion 121 of the supporting plate 120 are detachably coupled. Here, the fastening groove 211 and the fastening protrusion 121 can be press-fitted or threaded.

The receptacle 220 has a receiving portion 221 and a protruding portion 222 and is bent and extended from the supporting body 210 so as to have a '

The receiving part 221 includes a receiving space 221a formed therein and an opening hole 221b formed in the periphery of the receiving part 221 to communicate with the receiving space 221a, And has a through hole 221c, and a scale is displayed on the surface adjacent to the aperture hole 221b. In this embodiment, the opening hole 221b is provided on the front surface of the receiving portion 221, and a scale is displayed on the upper portion of the opening hole 221b.

The projecting portion 222 is provided at one end of the receiving portion 221 and protrudes inward from the receiving portion 221 such that the space of the through hole 221c is smaller than the space of the receiving space 221a.

The middle bending pole 300 has a first mobile body 310, a receiver 320, an insert 330, and a second mobile body 340, and has a "C" shape.

The first moving body 310 has a fixing hole 311a formed at one end thereof and includes an insertion portion 311 movably inserted into the accommodation space 221a of the lower bending pole accommodating portion 221, And a latching portion 312 which is provided at one end of the lower bending pole 200 and hooks on the projection 222 of the lower bending pole 200. Here, the catching portion 312 indicates a scale indicated on the surface of the lower bending pole receiving portion 221, so that the first moving body 310 is not separated from the receiving portion 221.

The receptacle 320 has a receiving space 321 formed therein and having one side opened and an opening hole 322 formed in the periphery and communicating with the receiving space 321, The scale is displayed on the surface in the neighborhood of. In the present embodiment, the opening hole 322 is provided on the front surface of the receiving part 320, and a scale is displayed on the upper part of the opening hole 322.

The insertion body 330 is formed with a plurality of fixing holes 331 along the longitudinal direction and is movably inserted into the receiving space 321 of the receiver 320. One end of the insert 330 received in the accommodation space 321 indicates a scale indicated on the surface of the receiver 320. In this embodiment, one end of the insert 330 is formed to be detachable from the receiving space 321, which facilitates separation of the insert 330 and the receiver 320, To improve mobility and storage stability.

The second moving body 340 has a fixing hole 341a at one end and an insertion portion 341 extending laterally from the insertion body 330) (342), and is opposed to the first moving body (310). Here, the catching portion 312 indicates a scale indicated on the surface of the upper bending pole receiving portion 221 to be described below, so that the first moving body 310 is not separated from the receiving portion 221.

The upper flexure pole 400 is equipped with a receiver 410 and a metering device mount 420 and is movably mounted to the mid flexion pole 300.

The receiver 410 has a receiving portion 411 and a protrusion 412 and the second moving body 340 of the middle bending pole 300 is movably inserted

The receiving portion 411 includes a receiving space 411a in which the second moving body 340 of the middle bending pole 300 is movably inserted and a receiving portion 411b formed in the periphery of the receiving portion 411 and communicating with the receiving space 411a And a through hole 411c which is formed on one side and communicates with the receiving space 411a and into which the second moving body 340 of the middle bending pole 300 is movably inserted, A scale is displayed on the surface adjacent to the aperture hole 411b.

The projecting portion 412 is provided at one end of the accommodating portion 411 and protrudes inward of the accommodating portion 411 such that the space of the through hole 411c is smaller than the space of the accommodating space 411a.

The measuring instrument installation body 420 is bent to extend from the receiver 410 so as to have a '' 'shape. Here, the measuring instrument installation body 420 is aligned with the center of the support base 100. In this embodiment, the measuring instrument installation body 420 is provided so as to be in line with the support plate 120. Meanwhile, in the present embodiment, the measuring instrument installation body 420 can be deformed in a length-adjustable manner by adjusting the length of the middle bending pole 300.

The first fastening member 500 passes through the opening hole 221b of the lower bending pole receiving portion 221 and is detachably fastened to the fixing hole 311a of the first moving body 310 of the middle bending pole. In this embodiment, the first fastening member 500 is fastened by a press-fitting method or a thread-fastening method.

The second fastening member 600 passes through the opening hole 322 of the middle bending pole receptacle 320 and is detachably fastened to the fastening hole 331 of the middle bending pole insert 330. In the present embodiment, the fastening member of the second fastening member 600 is formed by a press-fitting method or a thread connecting method.

The third fastening member 700 passes through the opening hole 411b of the upper bending pole receptacle 410 and is detachably fastened to the fastening hole 341a of the second moving body 340 of the middle bending pole. In the present embodiment, the fastening method of the third fastening member 700 is formed by a press-fitting method or a thread connecting method.

The cadastral measuring instrument 800 is detachably mounted on the measuring instrument installation body 420 of the upper flexural pole 400. In this embodiment, the cadastral measurement device 800 is composed of a GPS measurement device.

The operation according to the first embodiment of the present invention will be described with reference to FIGS. 4 to 6. FIG.

Operators perform basic or detailed measurements for cadastral mapping.

However, when it is necessary to measure the bottom of a house roof as shown in Fig. 4, it is difficult to carry out accurate measurement because it is difficult to receive a GPS signal at the bottom of the roof.

At this time, the operator places the support 100 so that the support plate 120 of the support 100 is aligned with the measurement point.

The operator then transversely moves the first mobile 310 of the center flexural pole 300 to prevent the receiver 320 of the center flexural pole 300 from interfering with the roof eaves. Then, the operator fixes the first moving body 310 to the receiver 220 of the lower bending pole 200 through the first fastening member 500, as shown in FIG. At this time, the worker confirms the scale of the lower bending pole 200 indicated by the first moving body 310.

Subsequently, the worker moves the second moving body 340 of the middle bending pole 300 from the receiver 410 of the upper bending pole 400 so as to be positioned at the scale. At this time, the operator moves the second moving body 340 while confirming the scale of the upper bending pole 400. The worker fixes the second moving body 340 to the receiver 410 of the upper bending pole 400 through the third fastening member 700.

The operator then inserts the insert 330 of the central bending pole 300 into the receiver 320 of the central bending pole 300 as shown in Figure 5 so that the central bending pole 300 and the upper bending pole 400 Avoid interference with roof eaves. At this time, the operator fixes the insert 300 of the middle bending pole 300 to the receptor 320 of the middle bending pole 300 through the second fastening member 600.

6, the operator installs the cadastral measuring instrument 800 on the measuring instrument installation body 420 of the upper flexural pole 400. [

Then, the operator drives the cadastral measurement apparatus 800 to obtain the plane coordinates of the corresponding position.

The worker can obtain the plane coordinates of various positions through the above-mentioned surveying work, and prepare the cadastral map through the existing survey data and the survey data secured by the new survey or correct the registration items on the cadastral map.

Structural features of the second embodiment according to the present invention will be described with reference to FIG.

The second embodiment according to the present invention is added to the configuration of the first embodiment.

The second embodiment of the present invention further comprises a connecting body L provided at the lower part of the first moving body 310 of the middle bending pole and an auxiliary support S detachably installed at the connecting body L. [ .

The connecting body L has a coupling groove L1 which opens downward and is provided at one end of the middle flexural pole first moving body 310 and is disposed on the same line as the middle flexural pole receptacle 320. [ Since the connecting body L is located on the same line as the middle bending pole receptacle 320, when the auxiliary support S is installed, the support 100 and the auxiliary support 100 can stably support the surveying equipment have.

The auxiliary support S includes a plurality of support legs S1, a support plate S2 provided on the upper portion of the support leg S1 and a support bar S3 detachably mounted on the support plate S2, It forms a tripod shape. Here, the support plate S2 has a fastening protrusion S2a protruding upward. The support bar S3 is provided at a lower portion thereof with a downwardly opened engagement groove S3a for detachably coupling with the engagement protrusion S2a. The support bar S3 protrudes upward, And a fastening protrusion S3b which is detachably fastened to the first guide portion L1.

In this embodiment, the fastening method of the connection body L and the auxiliary support S and the fastening method of the support plate S2 and the support bar S3 of the auxiliary support S can be press-fitted or threaded fastening.

The operation of the second embodiment according to the present invention will be described with reference to FIG.

When the eaves of the roof are long and the middle bending pole 300 is projected to the side, the measuring equipment becomes difficult to center.

At this time, the operator can stably install the measurement equipment through the support stand 100 and the auxiliary support S by installing the auxiliary support S on the connection body L as shown in FIG.

As described above, the present invention is very advantageous in that the cadastre measuring device 800 can be positioned at an accurate position since the center flexibly poles the first moving body 310 and the second moving body 320 while visually confirming the moving body.

Therefore, the present invention is advantageous in that a more accurate cadastral map can be performed by arranging the cadastral measurement apparatus 800 at an accurate position, and more accurate cadastral map can be created based on precisely secured survey data.

Furthermore, the present invention has the effect of facilitating the cadastral surveying work by more reliably arranging the cadastral surveying instrument 800 through the support 100 and the auxiliary support S.

100; A support 200; Lower flexion pole
300; A central bending pole 400; Upper flexion pole
500; A first fastening member 600; The second fastening member
700; A third fastening member 800; Cadastral surveying instrument

Claims (2)

Tripod-shaped support 100:
A support 210 detachably mounted on the support 100; A through hole 221b formed in the periphery of the housing 221a and communicating with the housing space 221a and a through hole 221c formed in one side of the housing 221a and communicating with the housing space 221a, And is provided at one end of the accommodating portion 221. The accommodating portion 221 is provided at one end of the accommodating portion 221 so that the space of the penetrating hole 221c is smaller than the space of the accommodating space 221a Shaped lower flexural pole 200 having a protruding portion 222 protruding inwardly from the supporter 210 and extending laterally from the supporter 210. The lower flexural pole 200, :
An insertion portion 311 formed at one end thereof with a fixing hole 311a and movably inserted into a receiving space 221a of the lower bending pole receiving portion 221; A first moving body 310 having an engaging portion 312 for engaging with the protrusion 222 of the bending pole 200; And an opening hole (322) formed in the periphery and communicating with the accommodation space (321), wherein the hole (322) is formed on the surface adjacent to the opening hole (322) A receptor 320 on which a scale is displayed; An insertion body 330 formed with a plurality of fixing holes 331 along the longitudinal direction and movably inserted into the receiving space 321 of the receiver 320 and a fixing hole 341a formed at one end thereof, A second moving body 340 having an engaging portion 342 provided at one end of the inserting portion 341; The central bend pole (300), which is shaped like a 'c'
An accommodating space 411a in which the second moving body 340 of the center bending pole 300 is movably inserted, an opening hole 411b formed in the periphery and communicating with the accommodating space 411a, And a through hole 411c which is formed on one side of the first bending pole 300 and communicates with the receiving space 411a and into which the second moving body 340 of the bending pole 300 is movably inserted, A receiving portion 411 having a mark on its surface adjacent to the receiving portion 411 and a receiving portion 411 provided at one end of the receiving portion 411 and having a space smaller than the space of the receiving space 411a A protrusion 412 protruding inwardly from the inner surface of the base plate 410; And a measuring device installation body 420 extending upward from the receiver 410 and co-linear with the center of the support platform 100. The upper flexure pole 400 having a '
A first fastening member 500 passing through the opening hole 221b of the lower bending pole receiving portion 221 and being detachably fastened to the fastening hole 311a of the first moving body 310 of the middle bending pole,
A second fastening member 600 penetrating the opening hole 322 of the middle bending pole receptacle 320 and detachably fastened to the fastening hole 331 of the middle bending pole insert 330;
A third fastening member 700 penetrating through the opening hole 411b of the upper bending pole receptacle 410 and detachably fastened to the fixing hole 341a of the second moving body 340 of the middle bending pole,
A cadastral measuring instrument 800 detachably installed on the measuring instrument installation body 420 of the upper flexural pole 400;
And a measuring instrument for precise cadastral surveying.
The method according to claim 1,
A connecting body L provided at a lower portion of one end of the middle bending pole first moving body 310 and having a coupling groove L1 opened in a downward direction and arranged in line with the middle bending pole receptacle 320;
A plurality of support legs S1; A support plate S2 provided on an upper portion of the support leg S1, with a fastening protrusion S2a protruding upward from the upper portion; A coupling groove S3a which is provided at the lower portion and opens downward and which is detachably coupled to the coupling protrusion S2a of the support plate S2, And a support bar (S3) having a fastening protrusion (S3b) detachably fastened to the support bar (S)
And a measuring instrument for precise cadastral surveying.

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