KR100616778B1 - Lightning conductor using precast beam - Google Patents

Abstract

The present invention relates to a lightning arrester of a building using a precast beam, and an object thereof is to use a precast beam configured to connect a lightning rod and a ground rod by integrally constructing a lowering wire to a plurality of precast beams selected from a building using the precast beam. It is to provide lightning arresters of buildings. The present invention for this purpose in a prefabricated lightning arrester for building a building using a precast beam, Among the precast beams constituting the framework of the building, a plurality of precast beams are arranged continuously from the upper end of the building to the lower end A conductive member formed integrally and wrapped with an insulator; A connecting member configured to connect the conductive members formed on the respective precast beams to form a lower conductive wire; An upper connector installed on a side of a precast beam disposed at a top of a building among precast beams having the conductive member formed thereon; A lower connector installed on a side of the precast beam disposed at the bottom of the building, from among the precast beams having the conductive member formed thereon; An upper lightning conductor wire extending from an lightning arrester provided at an upper end of the building and connected to the upper connector; And a lightning arrester wire extending from a ground rod embedded in the ground of the building and connected to the lower connector.

Downed conductor, precast beam, conductor member, connecting member, lightning arrester

Description

Lightning conductor using precast beam}

1 is a block diagram showing an arrester according to a preferred embodiment of the present invention,

Figure 2 is a perspective view showing a connection state of the conductive member using the connecting member shown in FIG.

3 is a cross-sectional view showing a connection state of the upper connector and the upper lightning protection wire shown in FIG.

4 is a cross-sectional view illustrating a connection state of a lower connector and a lower lightning rod shown in FIG. 1.

<Description of the symbols for the main parts of the drawings>

(A): Lightning rod part (B): Lowering conductor

(C): Grounding rod (10): Conductor member

20: connecting member 30: upper connector

(31): first outer socket (32): first inner socket

40: lower connector 41: second external socket

(42): Second internal socket (50): Upper lightning conductor

60: lower lightning conductor

The present invention relates to a lightning arrester, and more particularly, to a lightning arrester of a building using a precast beam configured to connect a lightning rod and a ground rod integrally with a plurality of precast beams selected from a building in which a precast beam is used.

In general, a lightning arrester means a device installed in a building for the purpose of preventing a fire, breakage and injury of a building caused by a lightning strike by safely inducing (discharging) an impact current caused by a lightning strike.

The basic structure of the lightning arrester as described above consists of a lightning rod, a lower conductor and a ground rod. The lightning rod is a structure provided in the upper end of the building to absorb the impact current caused by lightning strike made of a sharp metal conductor. The down-conducting wire is a conductive wire connecting the lightning rod and the ground rod to transmit the shock current absorbed by the lightning rod to the ground rod to discharge it to the ground. The ground rod is a metal conductor embedded in the ground of the building and is a structure for discharging the impact current transmitted through the down-conductor to the ground.

However, the conventional lightning arrester as described above has a problem in that the construction is not easy as the down-conducting wire is constructed separately on the outside of the building.

The present invention has been made in view of the above problems, and an object of the present invention is to use a precast beam configured to connect a lightning rod and a ground rod by integrally constructing a lower conductor line in a plurality of precast beams selected from a building in which a precast beam is used. It is to provide lightning arresters of buildings.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional drawbacks in the lightning protection device of a prefabricated building to build a building using a precast beam,

Among the precast beams constituting the frame of the building, a conductor member integrally formed with a plurality of precast beams arranged on a line continuous from the upper end to the lower end of the building and wrapped with an insulator;

Connecting members provided at both ends of the conductive members formed in each of the precast beams to connect the conductive members of two precast beams adjacent to each other by bolting to form a lower conductive wire;

Among the precast beams in which the conductive member is formed, a part of the precast beams formed on the top of the building is exposed to the side, and a first external socket made of an insulator and a first external socket installed inside the first external socket. An upper connector connected to the conductor member inserted through an outer socket and made of a conductor, the upper connector including a first inner socket having a hole for fastening a bolt at one end thereof;

Among the precast beams in which the conductive member is formed, a part of the precast beams is formed to be exposed to the side of the precast beam disposed at the bottom of the building, and a second external socket made of an insulator and a second external socket installed inside the second external socket. A lower connector connected to the conductor member inserted through an outer socket, the lower connector including a second inner socket formed of a conductor and having a hole for fastening a bolt at one end thereof;

An upper lightning conductor wire extending from an lightning arrester provided at an upper end of the building and connected to a first inner socket of the upper connector; And

And a lower lightning rod extending from a ground rod embedded in the ground of the building and connected to a second internal socket of the lower connector.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 conceptually illustrates a configuration of an arrester according to a preferred embodiment of the present invention. Referring to FIG. 1, a lightning arrester according to a preferred embodiment of the present invention includes a conductor member 10, a connection member 20, an upper connector 30, a lower connector 40, and an upper lightning conductor wire 50. ) And a lower lightning rod 60. Such a lightning arrester has the conductor member 10 integrally formed in a plurality of precast beams 70 selected in a building constructed by a precast method, thereby forming a lightning rod A and a ground rod C when constructing a frame of a building. It is structured so that the down-conductor line B which connects can be built together.

The precast method refers to a method for transporting and assembling a member manufactured at a manufacturing plant or a site, not at the final use position of the member, to a final position as is well known. In the case of the precast beam, reinforced concrete has a predetermined size. Curing is done.

On the other hand, the conductive member 10 is placed in the state of being placed in the interior of the beam together with the reinforcing bar constituting the precast beam 70 when manufacturing the precast beam 70 by precast beam It is formed integrally with 70. At this time, the conductive member 10 is wrapped by an insulator, and both ends, that is, the upper end and the lower end are formed to protrude to the upper and lower ends of the precast beam 70 by a predetermined length. The conductive member 10 is installed in each of the precast beams 70 arranged on an arbitrary line continuous from the upper end to the lower end of the building, among the precast beams 70 and 70` constituting the frame of the building. In addition, interconnection with the conductive member 10 formed in the neighboring precast beam 70 forms a down-conducting wire (B) extending continuously from the upper end of the building to the lower end.

2 illustrates a connection configuration of the conductor members provided in two neighboring precast beams. Referring to FIG. 2, the connecting member 20 is provided at both ends of the conductive member 10 protruding to the upper and lower ends of the precast beam 70, and is provided in two precast beams 70 disposed adjacent to each other. The members 10 are interconnected. The connecting member 20 is a flat metal conductor, and is provided with a fastening hole 21 in which a bolt is fastened to a central portion thereof. Accordingly, the bolts 22 are fastened to the fastening holes 21 in the state in which the connecting members 20 provided in the two conductive members 10 arranged adjacent to each other are overlapped to each other to the precast beam 70. It is connected to the two wire member 10 provided.

3 shows the upper connector. Referring to FIG. 3, the upper connector 30 includes a first outer socket 31 and a first inner socket 32, and among the precast beams 70 having the conductive member 10. A portion of the precast beam 70 disposed at the top of the building is exposed to the side. The first external socket 31 is fixed by pouring concrete in a state in which a part of the precast beam is disposed to be exposed to the side of the precast beam, and the first external socket 31 is made of an insulator. have. The first inner socket 32 is connected to the conductive member 10 installed inside the first outer socket 31 and inserted through the first outer socket 31, and one end of the first outer socket 31 is closed. In the same manner as is installed to be exposed to the side of the precast beam, one end of the exposed first internal socket 32 is provided with a hole 33 is fastened to the bolt. The first internal socket 32 is composed of a conductor as a whole.

4 shows the lower connector. Referring to FIG. 4, the lower connector 40 includes a second outer socket 41 and a second inner socket 42, and among the precast beams 70 having the conductive member 10. A part is exposed to the side of the precast beam 70 arrange | positioned at the lower end of a building. The second external socket 41 is fixed by pouring concrete in a state in which a part of the precast beam is disposed so as to be exposed to the side of the precast beam, and the second external socket 41 is formed of an insulator. have. The second inner socket 42 is connected to the conductive member 10 installed in the second outer socket 41 and inserted through the second outer socket 41, and one end of the second outer socket 41 is connected to the second outer socket 41. In the same manner as is installed to be exposed to the side of the precast beam, one end of the exposed second inner socket 42 is provided with a hole 43 is fastened to the bolt. The second internal socket 42 is composed of a conductor as a whole.

The upper lightning rod 50 extends from the lightning rod A installed in the upper end of the building and is connected to the upper connector 30, wherein an end of the upper lightning rod 50 is connected to the upper connector 30 by a bolt 51. It is configured to be fastened and fixed to the first inner socket (32).

The lower lightning rod 60 extends from the ground rod C buried in the ground of the building and is connected to the lower connector 40, wherein an end of the lower lightning rod 60 is connected to the lower connector 40 by a bolt 61. It is configured to be fastened to the second inner socket (42) of.

The lightning arrester of the present invention configured as described above, in the arrangement process of the precast beam 70 for the construction of the frame of the building, connecting members 20 and bolts to the conductor member 10 provided in each precast beam 70 It is connected to form a down-conducting line (B) that is continuous from the upper end to the lower end of the building. After connecting the lightning rod and the upper connector 30 is installed in the upper end of the building by the upper lightning rod 50, the lightning rod by connecting the ground rod and the lower connector 40 buried in the ground of the building to the lower lightning rod 60 The configuration of the device can be completed.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

According to the present invention, a lightning arrester is constructed by using a precast beam in a building using a precast beam as described above, so that a separate space is not required for the installation of the down-conductor wire, and when the frame is constructed, the precast beam is provided. By connecting the conductor member, since the lower conductor is configured, the workability can be improved.

Claims (2)

In the lightning protection device of a prefabricated building that builds a building using a precast beam, Among the precast beams constituting the frame of the building, a conductor member integrally formed with a plurality of precast beams arranged on a line continuous from the upper end to the lower end of the building and wrapped with an insulator; Connecting members provided at both ends of the conductive members formed in each of the precast beams to connect the conductive members of two precast beams adjacent to each other by bolting to form a lower conductive wire; Among the precast beams in which the conductive member is formed, a part of the precast beams formed on the top of the building is exposed to the side, and a first external socket made of an insulator and a first external socket installed inside the first external socket. An upper connector connected to the conductor member inserted through an outer socket and made of a conductor, the upper connector including a first inner socket having a hole for fastening a bolt at one end thereof; Among the precast beams in which the conductive member is formed, a part of the precast beams is formed to be exposed to the side of the precast beam disposed at the bottom of the building, and a second external socket made of an insulator and a second external socket installed inside the second external socket. A lower connector connected to the conductor member inserted through an outer socket, the lower connector including a second inner socket formed of a conductor and having a hole for fastening a bolt at one end thereof; An upper lightning conductor wire extending from an lightning arrester provided at an upper end of the building and connected to a first inner socket of the upper connector; And And a lower lightning conductor wire extending from the ground rod embedded in the ground of the building and connected to the second inner socket of the lower connector. The method of claim 1, The connecting member is a lightning protection device of a building using a precast beam, characterized in that the connection member is composed of a flat metal conductor installed on both ends of the conductor member, the fastening hole for fastening the bolt in the center.

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