KR101733211B1 - System for wireway having earthquake resistant structure and Constructing method for the same - Google Patents

Abstract

The present invention relates to an earthquake-resistant wireway system and a method for constructing the same. The earthquake-resistant wireway system comprises: a pillar unit having a first pillar member and a second pillar member arranged at a regular interval in an inner space of a building; a horizontal wire arranged horizontally between the first pillar member and the second pillar member; a horizontal wire holder unit having a first horizontal wire holder installed on the first pillar member and a second horizontal wire holder installed on the second pillar member; a horizontal vibration absorbing member disposed between the horizontal wire and the first horizontal wire holder to block the transmission of vibration of the pillar unit to the horizontal wire; a holding wire for holding the horizontal wire to prevent sagging of the horizontal wire; a ceiling holder installed on a ceiling surface of the building to hold one end of the holding wire; a connection bracket for connecting the other end of the holding wire and the horizontal wire; and a raceway unit supported by being installed on the horizontal wire and having a luminaire coupled to one side thereof. The present invention is to provide an earthquake-resistant wireway system installed in an inner space of a building to effectively enduring an earthquake and a method for constructing the same.

Description

Technical Field [0001] The present invention relates to a seismic wireway system and a construction method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seismic wireway system and a construction method thereof, and more particularly, to a seismic wireway system installed in an internal space of a building and capable of withstanding earthquakes, and a construction method thereof.

Generally, a raceway is a kind of wiring duct for an electric wiring, which is often installed on a ceiling of a large building such as a parking lot or a machine room. The raceway is installed in a state exposed to a bottom plate, a wall, a ceiling or the like.

For example, a hanger is installed on an indoor ceiling scene, and then a raceway is hanged at a lower end of the hanger so that the hanger supports loads of the raceways.

However, in the conventional installation structure of the raceway, when a vibration such as an earthquake occurs, such a vibration can not be absorbed, so that the hanger can be separated from the ceiling scene or the raceway can be separated from the hanger due to severe vibration .

Korean Registered Utility Model No. 20-0407104 (Name of Design: Race Way Incorporated with Luminaire, Date of Notification: January 24, 2006)

SUMMARY OF THE INVENTION An object of the present invention is to provide an anti-seismic wireway system installed in an internal space of a building to withstand an earthquake effectively, and a construction method thereof.

In order to solve the above problems, the present invention provides a pillar unit having a first pillar member and a second pillar member arranged at regular intervals in an inner space of a building; A horizontal wire disposed horizontally between the first pillar member and the second pillar member; A horizontal wire holder unit having a first horizontal wire holder installed on the first pillar member and a second horizontal wire holder installed on the second pillar member; A horizontal vibration absorbing member disposed between the horizontal wire and the first horizontal wire holder to block transmission of vibration of the column unit to the horizontal wire; A holding wire holding the horizontal wire to prevent the horizontal wire from sagging; A ceiling holder installed on a ceiling of the building to hold one end of the holding wire; A connecting bracket for connecting the other end of the holding wire and the horizontal wire; The present invention also provides an anti-seizure wireway system including a raceway unit mounted on and supported on the horizontal wire and having a luminaire coupled to one side thereof.

The anti-seizure wireway system may further include a wire vibration absorbing member disposed between the connection bracket and the holding wire to block vibration of the holding wire from being transmitted to the horizontal wire.

In addition, the seismic wireway system may further include a horizontal wire height adjusting unit disposed between the wire vibration absorbing member and the connection bracket to adjust the height of the horizontal wire.

Wherein the horizontal wire height adjusting unit comprises: an absorbent member connecting part coupled to the wire vibration absorbing member; one end connected to the absorbent member connecting part and the other end connected to the connecting bracket to define an interval between the connecting bracket and the absorbent member connecting part And a gap adjusting unit for adjusting the gap.

Wherein the connection bracket includes a first plate and a second plate disposed on an upper surface of the first plate while forming a space in which the horizontal wire is received between the first plate and the first plate, The two plates can be simultaneously fixed by the gap adjusting unit.

In addition, the seismic wireway system may further include a tension adjusting unit disposed between the horizontal wire and the second horizontal wire holder to adjust the tension on the horizontal wire.

Wherein the horizontal wire includes a first horizontal wire and a second horizontal wire disposed in parallel with the first horizontal wire in parallel with the first horizontal wire and the horizontal vibration absorbing member between the first horizontal wire holder and the first horizontal wire And a second horizontal vibration absorbing member disposed between the first horizontal wire holder and the second horizontal wire.

One end of the first pillar member is fixed to a ceiling of the building, and the other end of the first pillar member forms a free end and can be disposed on the inner space of the building.

According to another aspect of the present invention, there is provided a method of manufacturing a building, comprising: installing a first pillar and a second pillar at predetermined intervals in an inner space of a building; Providing a first horizontal wire holder on the first post member and a second horizontal wire holder on the second post member; Installing a horizontal vibration absorbing member in the first horizontal wire holder; Installing a horizontal wire between the horizontal vibration absorbing member and the second horizontal wire holder; Installing a ceiling holder on a ceiling of the building; Providing a connection bracket on the horizontal wire; Installing a holding wire between the ceiling holder and the connection bracket; And installing a raceway unit on the horizontal wire. The present invention also provides a method of constructing a seismic wireway system including installing a raceway unit on the horizontal wire.

The method of constructing the seismic wireway system may further include installing a wire vibration absorbing member in the connection bracket before installing the holding wire to prevent transmission of the vibration of the holding wire to the horizontal wire have.

Here, one end of the holding wire may be coupled to the ceiling holder, and the other end may be coupled to the wire vibration absorbing member.

The vibration-proof wire-way system and the method of manufacturing the same according to the present invention provide a horizontal vibration absorbing member and a wire vibration absorbing member at points where horizontal wires are held to minimize the transmission of vibration to the horizontal wire provided with the raceway unit So that the raceway unit can be safeguarded from an earthquake.

In addition, the seismic wireway system according to the present invention has the effect of simplifying the installation and construction of the raceway system by installing the raceway unit using the wire, thereby making it possible to arrange the process in the field and construct a high-quality building .

1 is a view showing an embodiment of an anti-seizure wireway system according to the present invention.
Fig. 2 is a view showing a main part of a plan view for the area A in Fig.
Fig. 3 is a view showing a main part of a plan view for the area B in Fig.
FIG. 4A is an enlarged view of a region C in FIG. 1, and FIG. 4B is a view showing a state viewed from the side of FIG. 4A.
Fig. 5 is an enlarged view of the area D in Fig. 1, and Fig. 5 (b) is a view showing a state viewed from the side of Fig. 5 (a).
FIG. 6 is a view showing a state in which the raceway is installed from above in FIG. 1; FIG.
7 is a flowchart illustrating a method of constructing an anti-seizure wireway system according to the present invention.
8 is a view showing another embodiment of a dustproof wireway system according to the present invention.

Hereinafter, preferred embodiments of the present invention in which the above-mentioned problems to be solved can be specifically realized will be described with reference to the accompanying drawings. In describing the embodiments, the same names and the same symbols are used for the same configurations, and additional description therefor will be omitted below.

1 to 6, an embodiment of a vibration-proof wire-way system according to the present invention will be described.

The wireway installation system according to the present embodiment may be applied to a seismic wireway system for installing a raceway unit in a building, for example, a space of a basement, such that the raceway unit can withstand vibration such as earthquake .

The wireway system includes a column unit, a horizontal wire 200, a horizontal wire holder unit, a horizontal vibration absorbing member, a holding wire 300, a ceiling holder 560, a connection bracket 600, a raceway unit 400, A vibration absorbing member 550, a tension adjusting unit, and a horizontal wire height adjusting unit 900.

The column unit includes a first pillar member 110 and a second pillar member 120 disposed at regular intervals in an inner space of the building 1. [

The first pillar member 110 and the second pillar member 120 are installed between a ceiling surface of the building 1 and a bottom surface to support the horizontal wire 200. Here, the first pillar member 110 and the second pillar member 120 are fixed to a ceiling surface and a bottom surface of the building by separate fixing devices, respectively.

The first pillar member 110 and the second pillar member 120 may have a rod shape of a metal having a circular cross section or a polygonal cross section, but the present invention is not limited thereto and may have an angle shape.

The horizontal wire holder unit includes a first horizontal wire holder 710 installed on the first pillar member 110 and a second horizontal wire holder 720 installed on the second pillar member 120 do.

The first horizontal wire holder 710 and the second horizontal wire holder 720 are fixed to the first pillar member 110 and the second pillar member 120 so that the horizontal wire 200 is vertically Thereby supporting the horizontal wire 200, the horizontal vibration absorbing member, and the tension adjusting unit so as not to be moved.

The height at which the first horizontal wire holder 710 and the second horizontal wire holder 720 are installed with respect to the ground is determined according to the installation height of the raceway unit 400.

Although not shown, the first horizontal wire holder 710 and the second horizontal wire holder 720 are fixed to the first pillar 110 and the second pillar 120 by separate fixing devices, respectively Respectively.

The horizontal wire 200 includes a first horizontal wire 210 and a second horizontal wire 220 disposed in parallel with the first horizontal wire 210. That is, the horizontal wires 200 are arranged in two rows, and are disposed horizontally between the first pillar member 110 and the second pillar member 120.

The horizontal wire 200 is composed of two wires, that is, the first horizontal wire 210 and the second horizontal wire 220. However, the present invention is not limited to this, and the horizontal wire 200 ) Can be variously modified.

The raceway unit 400 is installed and supported on the horizontal wire 200. An upper region of the raceway unit 400 is coupled to the horizontal wire 200 and a lower region of the raceway unit 400 is coupled to the luminaire.

One side of the upper region of the raceway unit 400 is fitted to the first horizontal wire 210 and the other side of the upper side of the raceway unit 400 is fitted to the horizontal wire 200 .

The horizontal vibration absorbing member blocks transmission of the vibration to the horizontal wire 200 when the column unit is vibrated due to vibration of the building.

One end of the horizontal vibration absorbing member is coupled to the first horizontal wire holder 710 and the other end is coupled to the horizontal wire 200.

Specifically, the horizontal vibration absorbing member includes a first horizontal vibration absorbing member 510 disposed between the first horizontal wire holder 710 and the first horizontal wire 210, and a second horizontal vibration absorbing member 510 disposed between the first horizontal wire holder 710 And a second horizontal vibration absorbing member 520 disposed between the second horizontal wire 220 and the second horizontal vibration absorbing member 520.

In the present embodiment, a spring damper is used as the horizontal vibration absorbing member, but the present invention is not limited to this, and the horizontal vibration absorbing member can be any member having a structure capable of absorbing vibration.

The tension adjusting unit is disposed between the second horizontal wire holder 720 and the horizontal wire 200 to adjust the tension on the horizontal wire 200.

Specifically, the tension adjusting unit includes a first tension adjusting member 530 disposed between the first horizontal wire 210 and the second horizontal wire holder 720, a second tension adjusting member 530 disposed between the second horizontal wire 220 and the second horizontal wire holder 720, And a second tension regulating member 540 disposed between the second horizontal wire holders 720.

Since the first tension adjusting member 530 and the second tension adjusting member 540 have substantially the same structure, the first tension adjusting member 530 will be described as follows.

The first tension adjusting member 530 includes a bolt member 531 having one side joined to the first horizontal wire 210 and the other side passing through a part of the second horizontal wire holder 720, And a nut member 533 supported on the horizontal wire holder 720 and moving the bolt member 531 while being screwed with the bolt member 531.

The ceiling holder 560 is installed on a ceiling of the building 1 to hold one end of the holding wire 300.

Here, the ceiling holder 560, the holding wire 300, the wire vibration absorbing member 550, the horizontal wire height adjusting unit 900, the connecting bracket 600, and the horizontal wire 200 are sequentially Respectively.

One side of the holding wire 300 is coupled to the ceiling holder 560 and the other side is coupled to the wire vibration absorbing member 550. As a result, the holding wire 300 catches the horizontal wire 200 to prevent the horizontal wire 200 from sagging.

The wire vibration absorbing member 550 is disposed between the connection bracket 600 and the holding wire 300 to prevent the vibration of the holding wire 300 from being transmitted to the horizontal wire 200.

In the present embodiment, a spring damper is used as the wire vibration absorbing member 550, but the present invention is not limited thereto, and the wire vibration absorbing member 550 may be a member having a structure capable of absorbing vibration.

As a result, the horizontal vibration absorbing member and the wire vibration absorbing member are installed at the points for holding the horizontal wire so as to suppress the transmission of vibration to the horizontal wire provided with the raceway unit as much as possible, do.

The horizontal wire height adjusting unit 900 is disposed between the wire vibration absorbing member 550 and the connection bracket 600 to adjust the height of the horizontal wire 200.

Specifically, the horizontal wire height adjusting unit 900 includes an absorptive member connecting part 920 coupled with the wire vibration absorbing member 550, one end connected to the absorbing member connecting part 920, And an interval adjusting unit 910 coupled to the connection bracket 600 to adjust the interval between the connection bracket 600 and the absorbing member connection unit 920.

The gap adjusting unit 910 includes a height adjusting bolt 911 passing through the absorbing member connecting part 920 and a height adjustment bolt 911 disposed on the opposite side of the head of the height adjusting bolt 911 with respect to the absorbing member connecting part 920 A locking nut 913 for fixing the absorbing member connection part 920 and an interval adjusting nut 920 disposed on the upper and lower surfaces of the connection bracket 600 through which the height adjustment bolt 911 passes, (915).

For example, in order to adjust the interval between the connection bracket 600 and the absorbent member connection portion 920, an operator loosens the top gap adjustment nut 915a located on the top surface of the connection bracket 600, The lower space adjusting nut 915b positioned on the lower surface of the bracket 600 is adjusted to move the connecting bracket 600 in the upper direction while moving the height adjusting bolt 911 in the longitudinal direction of the height adjusting bolt 911, The adjustment nut 915a is adjusted and the connection bracket 600 is fixed.

As a result, when the connection bracket 600 is moved upward, the horizontal wire 200 coupled to the connection bracket 600 is also moved upward so that the height of the horizontal wire 200 is adjusted.

The connection bracket 600 is disposed on the upper surface of the first plate 610 while forming a space for receiving the horizontal wire 200 between the first plate 610 and the first plate 610 And a second plate 620.

A through hole (not shown) through which one end of the height adjusting bolt 911 is inserted is formed in the first plate 610 and the second plate 620, And the bottom gap adjusting nut 915b is disposed on the lower surface of the first plate 610. [

When the upper surface gap adjusting nut 915a and the lower surface adjusting nut 915b are tightened while moving in the direction of the connection bracket 600, the first plate 610 and the second plate 620 And is simultaneously fixed by the gap adjusting portion 910, that is, the gap adjusting nut 915.

1 to 7, a method of constructing a dustproof wireway system according to the present invention will be described below.

First, the operator installs the first pillar member 110 and the second pillar member 120 at regular intervals in the inner space of the building (S10).

Next, the operator installs a first horizontal wire holder 710 on the first pillar 110 and a second horizontal wire holder 720 on the second pillar 120 (S20 ).

Of course, the present invention is not limited to this. After the first horizontal wire holder 710 and the second horizontal wire holder 720 are installed on the first pillar member 110 and the second pillar member 120 The first pillar member 110 and the second pillar member 120 may be installed in a space inside the building.

Next, the operator installs the horizontal vibration absorbing member in the first horizontal wire holder 710 (S30).

Next, the operator installs a tension adjusting unit in the second horizontal wire holder 720. [ Of course, the process of installing the horizontal vibration absorbing member and the tension adjusting unit may be reversed.

Next, the operator installs a horizontal wire 200 between the horizontal vibration absorbing member and the tension adjusting unit (S40). Of course, when the tension adjusting unit is not used, the horizontal wire 200 may be installed between the horizontal vibration absorbing member and the second horizontal wire holder 720.

The present invention is not limited thereto and an operator may install the first horizontal wire holder 710 and the second horizontal wire holder 720 in the first pillar member 110 and the second pillar member 120, And the horizontal vibration absorbing member and the tension adjusting unit are installed and the horizontal pillar 200 and the first pillar member 110 and the second pillar member 120 are inserted into the inner space of the building You can also install it.

Next, the worker installs the ceiling holder 560 on the ceiling of the building 1 (S50). Of course, the process of installing the ceiling holder 560 may be performed before the column unit is installed, and the process of installing the first horizontal wire holder 710, the horizontal vibration absorbing member, As shown in FIG.

Next, the operator installs the connection bracket 600 on the horizontal wire 200 (S60). Of course, the connection bracket 600 may be installed only after the horizontal wire 200 is installed.

Next, the operator installs a horizontal wire height adjusting unit 900 on the connection bracket 600 to adjust the height of the horizontal wire 200.

Next, the worker absorbs the wire vibration in the horizontal wire height adjusting unit 900 before the holding wire 300 is installed so as to prevent the vibration of the holding wire 300 from being transmitted to the horizontal wire 200 The member 550 is installed (S70).

Next, the operator installs the holding wire 300 between the ceiling holder 560 and the connection bracket 600 (S80). One end of the holding wire 300 is coupled to the ceiling holder 560 and the other end is coupled to the wire vibration absorbing member 550.

Of course, the operator may install the wire vibration absorbing member 550 and the horizontal wire height adjusting unit 900 after installing the holding wire 300 first.

Next, the raceway unit 400 is installed on the horizontal wire 200 (S90). The tension of the horizontal wire 200 can be adjusted by the tension adjusting unit even after the raceway unit 400 is installed and the height of the horizontal wire 200 is adjusted by the horizontal wire height adjusting unit 900 Lt; / RTI >

8, another embodiment of the vibration-proof wire-way system according to the present invention will be described.

The components of the wireway system according to the present embodiment are similar to those of the wireway system according to the above-described one embodiment. However, the column unit provided in the wireway system according to the present embodiment is different from the above-described embodiment in that it is suspended in a ceiling of a building.

Specifically, the column unit includes a first columnar member 810 and a second columnar member 820 disposed at a predetermined interval. Here, one end of the first pillar member 810 is fixed to a ceiling of the building, and the other end is disposed on the inner space of the building, forming a free end. Similarly, one end of the second pillar member 820 is fixed to the ceiling of the building, and the other end forms a free end.

If the first pillar member 810 and the second pillar member 820 are installed without connecting the ceiling surface and the bottom surface of the building, the installation cost of the system is reduced, and the earthquake resistance against various earthquake .

As described above, the present invention is not limited to the above-described specific preferred embodiments, and various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention as claimed in the claims. And such variations are within the scope of the present invention.

110: first pillar member 120: second pillar member
200: horizontal wire 210: first horizontal wire
220: second horizontal wire 300: holding wire
400: raceway unit 510: first horizontal vibration absorbing member
520: second horizontal vibration absorbing member 530: first tension adjusting member
540: second tension adjusting member 550: wire vibration absorbing member
560: Ceiling holder 600: Connection bracket
610: absorptive member connection part 620: first horizontal wire coupling part
630: second horizontal wire coupling part 640: bracket body
710: first horizontal wire holder 720: second horizontal wire holder

Claims (10)

A pillar unit having a first pillar member and a second pillar member arranged at regular intervals in an inner space of a building;
A horizontal wire disposed horizontally between the first pillar member and the second pillar member;
A horizontal wire holder unit having a first horizontal wire holder installed on the first pillar member and a second horizontal wire holder installed on the second pillar member;
A horizontal vibration absorbing member disposed between the horizontal wire and the first horizontal wire holder to block transmission of vibration of the column unit to the horizontal wire;
A holding wire holding the horizontal wire to prevent the horizontal wire from sagging;
A ceiling holder installed on a ceiling of the building to hold one end of the holding wire;
A connecting bracket for connecting the other end of the holding wire and the horizontal wire; And,
And a raceway unit supported on the horizontal wire and having a luminaire coupled to one side thereof. The method according to claim 1,
Further comprising a wire vibration absorbing member disposed between the connection bracket and the holding wire to block transmission of vibration of the holding wire to the horizontal wire. 3. The method of claim 2,
Further comprising a horizontal wire height adjusting unit disposed between the wire vibration absorbing member and the connection bracket for adjusting a height of the horizontal wire. The method of claim 3,
Wherein the horizontal wire height adjusting unit comprises: an absorbent member connecting part to be coupled with the wire vibration absorbing member; one end connected to the absorbent member connecting part and the other end connected to the connecting bracket, And an interval adjusting unit for adjusting the interval of the wire. 5. The method of claim 4,
Wherein the connection bracket includes a first plate and a second plate disposed on an upper surface of the first plate while forming a space in which the horizontal wire is received between the first plate and the first plate,
Wherein the first plate and the second plate are simultaneously fixed by the gap adjusting unit. The method according to claim 1,
Further comprising a tension adjusting unit disposed between the horizontal wire and the second horizontal wire holder to adjust the tension on the horizontal wire. 7. The method according to any one of claims 1 to 6,
Wherein the horizontal wire includes a first horizontal wire and a second horizontal wire disposed in parallel with the first horizontal wire,
Wherein the horizontal vibration absorbing member comprises a first horizontal vibration absorbing member disposed between the first horizontal wire holder and the first horizontal wire and a second horizontal vibration absorbing member disposed between the first horizontal wire holder and the second horizontal wire, Absorbing member. ≪ RTI ID = 0.0 > 11. < / RTI > 7. The method according to any one of claims 1 to 6,
Wherein one end of the first pillar member is fixed to the ceiling of the building and the other end is disposed on the inner space of the building to form a free end. Installing a first pillar and a second pillar at regular intervals in an inner space of a building;
Providing a first horizontal wire holder on the first post member and a second horizontal wire holder on the second post member;
Installing a horizontal vibration absorbing member in the first horizontal wire holder;
Installing a horizontal wire between the horizontal vibration absorbing member and the second horizontal wire holder;
Installing a ceiling holder on a ceiling of the building;
Providing a connection bracket on the horizontal wire;
Installing a holding wire between the ceiling holder and the connection bracket; And,
And installing a raceway unit on the horizontal wire. 10. The method of claim 9,
Further comprising the step of installing a wire vibration absorbing member in the connection bracket before the holding wire is installed to prevent the vibration of the holding wire from being transmitted to the horizontal wire, wherein one end of the holding wire is connected to the ceiling holder And the other end is coupled to the wire vibration absorbing member.

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