KR101010333B1 - Level surveying using a assembly level point device - Google Patents

Abstract

PURPOSE: A prefabricated benchmark arranging apparatus used for leveling is provided to prevent the movement of the leveling part in spite of subsidence of ground. CONSTITUTION: A prefabricated benchmark arranging apparatus used for leveling comprises a bearing pile(10), a supporting member(20) and a leveling part(30). The bearing pile is installed through the rock by passing through the ground. The supporting member comprises a joint rod(21) which is inserted in an insert hole(11) formed on the top of the bearing pile, a support part(22) which is formed on the top of the joint rod, and a base(24) which is formed on the top of the support part and has a fixing joint key(25). The leveling part is laid under the ground so that a benchmark(32) formed on the top is exposed to the ground surface.

Description

LEVEL SURVEYING USING A ASSEMBLY LEVEL POINT DEVICE}

The present invention relates to a prefabricated level point installation device used for leveling, in particular, to suppress ground subsidence, and is produced to have rigidity even when ground subsidence is generated, thereby preventing the flow of the leveling unit formed level level, level level elevation of the leveling unit The present invention relates to a prefabricated level point installation device used for leveling, which can prevent a value from being displaced to prevent an error.

Since the national level reference point becomes the elevation standard for designing, mapping, and establishing other reference points for various construction projects, surveying with high level of geodetic level survey using national level reference point should be carried out, and the observation result according to the national level survey is objective. And ensure sufficient reliability. Leveling (plane survey) is used to determine the height in three-dimensional coordinates and observes elevation or elevation between several points on the surface. The national benchmark is based on mean sea level (geoid), and the results of the level survey are important information that provides data for mapping, design, and construction.The design of roads, railways, canals, construction of planned structures, and drainage It serves as a reference point in the fields of characteristic research and mapping.

In this related art, as shown in FIG. 1, a method of installing the leveling part 1 in the concrete block 2 is generally used, but when the settlement occurs in the ground, the leveling part There is a problem that the level point of (1) frequently loses the elevation value.

The present invention has been made in order to solve the above problems of the prior art, it is possible to suppress ground subsidence, it can have a rigidity even if ground subsidence occurs to prevent the flow of the leveling unit formed level point, the level point of the leveling unit It is an object of the present invention to provide a prefabricated level point installation device used for level measurement, which can prevent the occurrence of an error by preventing the elevation value from being displaced.

Means of the present invention for achieving the above object, the support pile is penetrated through the ground and installed in the rock, the binding rod is fixed to the insertion hole formed in the upper portion of the support pile, and formed on the upper end of the binding rod And a base seated at the top of the support pile, a base formed at the top of the base, and having a base where a fixed binding key protrudes from the center of the upper surface, and a support member embedded in the ground, and a fixing hole formed at the bottom thereof. The fixed binding key of the base is seated on the upper end of the base, and is formed of a level surveying portion buried in the ground to expose the level point formed on the ground surface,
A plurality of support anchors are further formed at equal intervals along the circumference of the supporting portion constituting the supporting member.

Prefabricated level point installation device used for leveling according to the present invention can be installed on the rock to support the support pile and the leveling unit vertically coupled to the upper support pile and then to prevent ground subsidence by installing a filler for preventing flow It is possible to use semi-permanently as it prevents the occurrence of error by preventing the level point elevation value of leveling part from being displaced by preventing the flow of leveling part where level point is formed even if ground subsidence occurs. It can be applied to the effect.

1 shows a level survey structure of the prior art;
Figure 2 is an installation state of the prefabricated level point installation apparatus used for leveling in accordance with the present invention.
Figure 3 is an exploded perspective view of the prefabricated level point installation apparatus used for leveling according to the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be more apparent.

Figure 2 is an installation state of the prefabricated level point installation apparatus used for leveling according to the present invention, Figure 3 is an exploded perspective view of the prefabricated level point installation apparatus used for leveling according to the present invention.

As shown in FIG. 2 and FIG. 3, the assembled level point installation apparatus used for leveling according to the present invention is composed of a support pile 10, a support member 20, and a leveling unit 30. .

The support pile 10 is installed to penetrate the rock through the ground to prevent settlement, the present invention to be stably settled on the ground, while the whole is made of a circular shape having the same outer diameter, up and down The insertion hole 11 is formed therethrough.

The support pile 10 is formed in a pointed shape that is gradually narrowed toward the lower end thereof so as to easily penetrate the ground and the rock.

The supporting member 20 is buried in the ground while being coupled with the support pile 10 so that the level measurement unit 30 to be described later can be installed in the ground at any time without flowing to the upper, lower, left, and right sides. For the purpose, it consists of a binding rod 21, the supporting portion 22 and the base 24.

The binding rod 21 is formed in the lowermost part of the components constituting the support member 20, the whole is made of a circular shape having the same outer diameter, a little more than the insertion hole 11 of the support pile 10 It is formed to have a small diameter so that the support member 20 is coupled to the support pile 10 as it is fitted in the insertion hole 11 of the support pile (10). For example, the binding rod 21 and the support pile 10 is in contact with the end portion by welding may be to achieve a stable coupling state of the binding rod 21 and the support pile 10.

The support portion 22 is formed on the top of the binding rod 21, and formed in a circular shape having a diameter larger than the binding rod 21 and the support pile 10, the binding rod 21 is a support pile (10) As it is fitted in the insertion hole 11 of the) is seated on the top of the support pile (10).

In addition, along the circumference of the support portion 22, a plurality of support anchors 23 having a cross-section having a substantially "o" shape or a "wh" shape are further formed at equal intervals. The support anchor 23 is embedded in the flow preventing filler 40 to be described later to prevent the up and down flow of the level measurement unit 30.

The base 24 is formed on the upper end of the support portion 22, and is formed in a flat circular shape having a diameter larger than the diameter of the level measurement portion 30 so as to stably support the level measurement portion 30. In the center of the upper surface, the fixing binding key 25 is formed to protrude upward.

The level measurement unit 30 has a cross-section having a shape of approximately “o”, and a fixing hole 31 is formed in the lower center portion, so that the fixing binding key 25 of the base 24 is fixed to the fixing hole 31. Is seated on the top of the base 24 so that it is received, and is buried in the ground so as to be exposed to the surface of the ground so that the level point 32, which is the level value of the elevation for surveying the elevation difference on the earth formed thereon, can be identified.

In addition, the fixing hole 31 of the leveling unit 30 is formed to have a diameter slightly smaller than the diameter of the fixing binding key 25 so that the fixing binding key 25 is fitted into the fixing hole 31. Therefore, it is preferable to ensure that the leveling unit 30 can be stably fixed to the upper portion of the base 24, and the leveling unit (30) for more stable coupling of the leveling unit 30 and the base 24 Where the base 30 is in contact with the base 24 may be finished by welding.

In addition, the supporting part 22 constituting the supporting member 20, the base 24 and the level measurement part 30 is embedded in the flow preventing filler 40.

The flow preventing filler 40 is provided with a formwork (not shown) around the base 22, the base 24 and the level measurement unit 30, and the concrete or mortar in the form / After curing, it is formed by releasing the formwork, and the upper part is exposed to the surface of the ground.

The flow preventing filler 40 formed of concrete or mortar as described above is structurally secured to suppress ground subsidence and have rigidity even when ground subsidence occurs, thereby supporting the support member 20 and the level measurement part 30. As it can be settled stably without flowing in the ground, the level point elevation value of the leveling unit 30 is not displaced, thereby effectively preventing the occurrence of errors.

In addition, the support anchor 23 and the base 24 of the support portion 22 acts as a locking jaw inside the flow preventing filler 40, so even if ground subsidence is generated, it does not flow up and down, resulting in level measurement. It may help to prevent the flow of the portion (30).

10: support pile 11: insertion hole
20: support member 21: binding rod
22: support 23: Jijiangka
24: base 25: fixed binding key
30: leveling unit 31: fixed hole
32: Level 40: Filling material for preventing flow

Claims (3)

A support pile 10 installed through the ground and penetrating the rock;
A binding rod 21 inserted into and fixed to an insertion hole 11 formed at an upper portion of the support pile 10, and a support formed at an upper end of the binding rod 21 and seated at an upper end of the support pile 10. A support member 20 formed at an upper end of the support unit 22 and a base 24 formed at an upper end of the support unit 22 and having a fixed binding key 25 protruding at a central portion thereof;
A fixing hole 31 is formed at a lower portion thereof, and is fixed to an upper end of the base 24 so that the fixing binding key 25 of the base 24 is accommodated. Level measurement unit 30 is embedded in;
Prefabricated leveling point installation apparatus used for leveling, characterized in that a plurality of support anchors 23 are further formed at equal intervals along the circumference of the supporting portion 22 constituting the supporting member (20). delete The method of claim 1,
The support member 20 and the level measurement unit 30 is a prefabricated level point installation device, characterized in that embedded in the flow preventing filler 40 is formed of concrete or mortar.

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