KR20220051974A - Pendant Connection Structure with Seismic Characteristics - Google Patents

Abstract

An objective of the present invention is to provide a pendant connection structure with a seismic property which can relatively simply secure a seismic property without greatly damaging an existing cable tray structure. According to the present invention, the pendant connection structure for a facility hung and installed on a ceiling such as a cable tray comprises: a first anchor bolt erected to fix the upper end thereof on the ceiling; a second anchor bolt separated from the lower end of the first anchor bolt and arranged on the same axis as the first anchor bolt, wherein the lower end thereof is connected to a support of the facility; a connector connected to the lower end of the first anchor bolt and the upper end of the second anchor bolt; and a channel having a C-shaped cross section, allowing the upper end thereof to be fixed on the ceiling, enclosing the first anchor bolt, the second anchor bolt, and the connector, and forming one or more connection points with the connector. The connection points are one coupling structure among bolting, clinching, and welding.

Description

Pendant Connection Structure with Seismic Characteristics

The present invention is a technology related to the installation structure of a facility suspended from the ceiling, such as a cable tray.

In general, in various buildings, factories, ships, and offshore structures, cables of large and small diameters are arranged along the ceiling to supply power or fluid, etc. It is supported and fixed in a tidy state using a tray.

The cable tray for supporting and fixing a plurality of cables is composed of a pair of side frames each having a predetermined length and positioned on the left and right sides, and a rung coupled with a predetermined interval between the side frames.

The cable tray is connected to the anchor bolt embedded in the ceiling of the building to the pedestal that supports the lower surface of the side frame in order to be fixed to the ceiling so that it can be supported.

On the other hand, as earthquakes occur frequently around the world in recent years, seismic design for buildings has been legislated, and accordingly, seismic properties for cable trays installed inside buildings are required.

As a prior art related to the present invention, "seismic-resistant cable tray hanger device" of Korean Patent Registration No. 10-1970594 is known.

1 is an exemplary view of an earthquake-resistant cable tray hanger device according to the prior art, a cable tray formed in the form of a ladder, a support frame for supporting the lower surface of the cable tray, a first support rod connected to the ceiling, and a straight line a second support rod connected to both ends of the frame, and an earthquake-resistant part provided between the first support rod and the second support rod to allow movement in a vibration direction transmitted to the support frame and the cable tray, wherein the earthquake-resistant part An upper connecting body coupled to the lower end of the support rod, a plurality of fastening members coupled to a lower surface of the upper connecting body, and connecting the fastening members to each other are movable in a vertical direction along the inner space of the fastening member, It is characterized in that it includes a plurality of square rings capable of pendulum movement based on the contact surface with the fastening member.

The seismic part in the prior art has a disadvantage in that it is difficult to manufacture because it has a complicated connection structure, and thus the cost burden is excessively increased, thereby reducing the practical applicability.

Republic of Korea Patent Registration No. 10-1970594

Therefore, in the present invention, it is intended to propose a pendant connection structure having an earthquake-resistant characteristic so that the earthquake-resistant characteristic can be secured relatively simply without significantly damaging the existing cable tray structure.

The pendant connection structure having earthquake-resistant characteristics according to the present invention as presented as a pendant connection structure for a facility installed suspended from the ceiling, the first anchor bolt being erected so that the upper end is fixed to the ceiling; a second anchor bolt disposed coaxially with the lower end of the first anchor bolt and a separation distance, the lower end connected to the pedestal of the facility; a connector connected to a lower end of the first anchor bolt and an upper end of the second anchor bolt; A channel having a C-shaped cross section, the upper end is fixed to the ceiling, and the first anchor bolt, the second anchor bolt, and the channel are wrapped around the connector to form one or more connection points with the connector; The connection point is characterized in that the coupling structure of any one of a bolting method, a clinching method, and a welding method.

Preferably, the connector is any one of three-sided, four-sided, and five-sided connectors with an empty interior, and the connection point is formed on at least one surface.

Preferably, the lower end of the channel, the left and right ends are bent in the horizontal direction, characterized in that coupled to the upper or lower surface of the pedestal.

According to the pendant connection structure having seismic properties according to the present invention, it is possible to provide better load-bearing properties than conventional cable trays and seismic properties that can withstand vibrations during earthquakes through a relatively simple configuration.

1 is an exemplary view of a seismic cable tray hanger device according to the prior art.
Figure 2 is a perspective view of a pendant connection structure having an earthquake-resistant characteristic according to an embodiment of the present invention.
3 is a perspective view of a case in which a three-sided connector is used as a pendant connection structure having earthquake-resistant characteristics of the present invention.
4 is a perspective view of a case in which a four-sided connector is used as a pendant connection structure having earthquake-resistant characteristics of the present invention.
5 is a perspective view of a case in which a five-sided connector is used as a pendant connection structure having earthquake-resistant characteristics of the present invention.
Fig. 6 is a side view of Fig. 5;
7 is a modified example of the combination of the pedestal and the channel.

Hereinafter, a more detailed description will be given of the pendant connection structure having seismic resistance according to the present invention, with reference to the accompanying drawings. However, the presented drawings and detailed descriptions thereof illustrate one possible example according to the technical idea of the present invention, and the technical protection scope of the present invention is not limited thereto.

2 is a perspective view of a pendant connection structure having earthquake-resistant characteristics according to an embodiment of the present invention, and FIG. 3 is a perspective view of a case in which a three-sided connector is used as a pendant connection structure having earthquake-resistant characteristics of the present invention, FIG. It is a perspective view when a four-sided connector is used as a pendant connection structure having earthquake-resistant characteristics of the present invention, and FIG. 5 is a perspective view when a five-sided connector is used as a pendant connection structure having earthquake-resistant characteristics of the present invention, It shows a side view of FIG. 5, and FIG. 7 is a modified exemplary view of the combination of the pedestal and the channel.

As shown, the pendant connection structure having seismic resistance according to an embodiment of the present invention presents a cable tray (CT) installed on the ceiling as a representative example. Therefore, the pendant connection structure having the seismic properties of the present invention can be used regardless of the name if it is a facility that is installed suspended from the ceiling other than the cable tray (CT).

The pendant connection structure having seismic properties of the present invention comprises a first anchor bolt 100 , a second anchor bolt 200 , a connector 300 , and a channel 400 as its components.

In this embodiment, a cable tray (CT) is to be installed, and the cable tray (CT) has a plurality of rungs 20 and side frames ( 10) is made of a plurality of pedestals 30 that are connected to and support the lower end, and are connected to the ceiling using the pedestals 30.

In order to hang the cable tray CT from the ceiling, the first anchor bolt 100 is installed upright with a predetermined length so that the upper end thereof is fixed to the ceiling.

And the second anchor bolt 200 is provided coaxially arranged with a predetermined distance to the lower side of the first anchor bolt 100. The lower end of the second anchor bolt 200 is connected to the pedestal 30 of the facility. Here, the facility becomes a cable tray (CT), and anything else is fine as long as it is suspended from the ceiling.

The first anchor bolt 100 and the second anchor bolt 200 are disposed coaxially with each other, but are in a spaced apart state, and in the present invention, the lower end of the first anchor bolt 100 and the upper end of the second anchor bolt 200 are They are indirectly connected to each other through the connector 300 .

In addition, a channel 400 having a C-shaped cross section is provided, and the upper end of the channel 400 is fixed to the ceiling and arranged vertically downward, and the first anchor bolt 100 and the second anchor bolt into the concave groove. (200), the connector 300 is positioned. That is, the channel 400 is disposed in a shape surrounding the first anchor bolt 100 , the second anchor bolt 200 , and the connector 300 , and preferably the lower end of the channel 400 is constrained on the pedestal 30 upper surface. make this happen

For restraint between the lower end of the channel 400 and the pedestal 30, the left and right ends of the lower end of the channel 400 are connected to the upper surface of the pedestal 30 by bolting, etc. by placing the bent pieces 410 that are bent in the horizontal direction. make it

Meanwhile, as shown in FIG. 7 , the pedestal 30 may be disposed in an upside-down state to connect the lower surface of the pedestal and the bent piece formed at the lower end of the channel.

In particular, the channel 400 forms one or more connection points P with the connector 300, and the connection point P here refers to a coupling structure of any one of a bolting method, a clinching method, and a welding method.

On the other hand, the connector 300 is any one of a three-sided, four-sided, and five-sided connector with an empty interior so that the connection point P is formed on at least one side.

That is, the connector 300 is positioned in the concave groove of the channel 400 so that at least one side of it forms a connection point P with one side of the channel 400 and is coupled.

3 shows a case configured using a three-sided connector 300, the lower end of the first anchor bolt 100 is penetrated through the upper surface of the connector 300 and is fastened with a nut (N), the connector 300 ) through the upper end of the second anchor bolt 200 is fastened with a nut (N). And the side of the connector 300 is coupled to one side of the channel 400 by forming a connection point P in a manner such as bolting, clinching, welding, or the like.

4 is a case of using a four-sided connector, the first anchor bolt 100 is connected on the upper surface of the connector 300, the second anchor bolt 200 is connected on the lower surface, the channel 400 and the left and right sides A connection point (P) is formed. That is, in the present embodiment, the connector 300 and the channel 400 form two connection points P.

5 is a case of using a five-sided connector, the first anchor bolt 100 is connected to the upper surface of the connector 300, the second anchor bolt 200 is connected to the lower surface of the connector 300, the left and right sides and the back surface of the connector 300 In the channel 400 and the connection point (P) can be formed.

Of course, in the case of a four-sided connector or a five-sided connector, there may be only one connection point with the channel, and there may be two or three connection points as needed.

The pendant connection structure having seismic properties of the present invention as described above allows the separated first and second anchor bolts to be indirectly connected through a connector for a facility to be suspended from the ceiling, such as a cable tray, and the connector is It is reconnected while forming one or more connection points with the channel, and as the upper end of the channel is connected to the ceiling and the lower end is connected to the pedestal, it has stronger load-bearing capacity and seismic resistance to strong vibrations during earthquakes.

In particular, since the first anchor bolt and the second anchor bolt are indirectly connected through a connector, seismic resistance to vertical and vertical vibrations can be strengthened.

The present invention is a technology suitable for use as a connection structure of facilities suspended from the ceiling, such as a cable tray.

100: first anchor bolt
200: second anchor bolt
300: connector
400 : channel
410: bent piece
P: connection point
N: Nut
CT: cable tray
10: side frame\
20 : rung
30: pedestal

Claims (3)

As a pendant connection structure for a facility suspended from the ceiling,
A first anchor bolt that is erected so that the upper end is fixed to the ceiling;
a second anchor bolt disposed coaxially with the lower end of the first anchor bolt and a separation distance, the lower end connected to the pedestal of the facility;
a connector connected to a lower end of the first anchor bolt and an upper end of the second anchor bolt;
A channel having a C-shaped cross section, the upper end is fixed to the ceiling, and the first anchor bolt, the second anchor bolt, and the channel are wrapped around the connector to form one or more connection points with the connector; The connection point is a pendant connection structure having earthquake-resistant characteristics, characterized in that the coupling structure of any one of a bolting method, a clinching method, and a welding method. The method of claim 1,
The connector is
A pendant connection structure with seismic resistance, characterized in that it is any one of three, four, and five-sided connectors with an empty interior, and the connection point is formed on at least one surface. 3. The method of claim 1 or 2,
The lower part of the channel,
The left and right ends are bent in the horizontal direction to be coupled to the upper or lower surface of the pedestal.

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