KR101973032B1 - Seismic equipment for cable tray - seismic cable tray system including this - Google Patents

Abstract

The present invention relates to a seismic device for a cable tray capable of protecting a cable tray from vibration of a building caused by an earthquake or the like, and a seismic cable tray system including the same. More specifically, the present invention relates to the seismic device for a cable tray comprising: first and second operation members individually connected to first and second vertical rods; a body in which the first and second operation members are individually installed on both sides thereof to be swingable in all directions around the first and second vertical rods and are individually installed to be movable upward and downward in a vertical direction; and an elastic member installed inside the body to support the first and second operation members.

Description

Technical Field [0001] The present invention relates to a seismic cable tray system,

The present invention relates to a seismic resistant device for a cable tray and a seismic resistant cable tray system including the same, and more particularly to a seismic resistant device for a cable tray that can protect a cable tray from vibration of a building caused by an earthquake or the like, ≪ / RTI >

Generally, a large variety of cable trays are used in large buildings or factories so that cables such as wires and communication lines can be concentratedly arranged in a safe space.

The cable tray had to be connected to as many cables as required according to the length and route of the cables installed inside the building, and the cable tray had to be installed on the ceiling of the building in order to avoid inconvenience to residents of the buildings.

Accordingly, in the prior art, a cable tray capable of loading cables, a connecting member connecting a plurality of cable trays, a plurality of supporting members supporting a plurality of cable trays connected to the cable tray, a plurality of supporting members fixed to the ceiling of the building, A vertical cable tray system is provided.

However, when the ground shakes due to an earthquake, the building is shaken, and the vibration generated by the shaking of the building is transmitted to the cable tray as it is, so that the cable tray may be damaged or the loaded cable may be damaged and cut.

Accordingly, Patent Document 1 discloses a cable tray; A cable tray supporting member including a pair of vertical members fixed in a ceiling of the building and arranged in a vertical direction and a horizontal member horizontally coupled to the pair of vertical members to support the cable tray; A first hinge portion rotatably coupled to the transverse member, a connecting portion that is inclined at a predetermined angle with the vertical member and is rotatably coupled to the transverse member through the first hinge portion, And a second hinge portion to which the other end of the cable tray is coupled and the other end of which is fixed to the ceiling, wherein the bottom surface and side surface of the cable tray are formed of a piece of non- Shaped body having two or more 'U' shaped bodies and two or more bodies connected to each other in the longitudinal direction, and connected to the longitudinal ends of the body, A bottom connecting bar formed to face each other, and a bottom surface of two or more of the bodies connected to each other is inserted into the groove portion of the bottom connecting bar The bottom connection bar is provided a seismic cable tray system is molded so that the cross section is self 'Ω' of the nonflammable sheet piece, and the cross section is formed by pressing from above so that "ㅐ" shape with 90 ° rotation.

However, currently, there is a demand for a vibration-proof cable tray system capable of reducing vibrations of a building transmitted to a cable tray differently from the case of Patent Document 1.

Patent Document 1: Korean Patent No. 10-1436333 (Registered on Aug. 26, 2014)

Accordingly, it is an object of the present invention to provide a seismic resistant device for a cable tray and a seismic resistant cable tray system including the seismic resistant cable tray, which can protect a cable tray differently from a vibration of a building caused by an earthquake or the like.

In order to accomplish the above object, the present invention provides a cabinet comprising a first vertical rod installed at a predetermined interval on a ceiling of a building, and a second vertical rod installed on a plurality of supporting members supporting a plurality of cable trays The first and second actuating members are connected to the first and second vertical rods, respectively. The first and second actuating members can swing in both directions about the first and second vertical rods And an elastic member provided inside the main body and supporting the first and second actuating members, wherein the first and second actuating members are fixed to the main body, .

Further, a seismic cable tray system including the above-mentioned seismic device for a cable tray is provided.

When vibration of a building generated by an earthquake or the like is transmitted, the first and second actuating members are oscillated in four directions about the first and second vertical rods due to the elasticity of the elastic members, or reciprocated upward and downward in the vertical direction Therefore, there is an effect of absorbing a horizontal vibration component generated in all directions including a length and a width direction of a plurality of connected cable trays and a vertical vibration component generated in a height direction of a plurality of connected cable trays.

That is, since the vibrations of the building caused by the earthquake or the like are transmitted to the connected cable tray in a large amount, the cable tray can be prevented from being detached from the supporting member and damaged. At the same time, It is effective to prevent accidents.

Further, there is an effect of absorbing the vibration component in the horizontal direction in a wider range than in the prior art.

Since the first and second actuating members and the elastic members are provided inside the body, the seismic apparatus for a cable tray can be installed between the first and second vertical rods more easily than before.

Since the first and second insertion portions of the first and second actuating members are formed in a shape similar to the hemisphere, when the earthquake occurs, the first and second insertion portions of the first and second actuating members are centered on the first and second vertical rods There is an effect that the first and second cap members of the main body are not disturbed when swinging in all directions.

Since the first and second insertion portions are fitted into the fitting grooves of the first and second cap members, the first and second insertion portions of the first and second actuating members are separated from their original positions when swinging in all directions It has the effect of blocking.

Further, there is an effect that the first and second cap members of the main body are not further disturbed

Since the resilient force of the compressed elastic member restrains the elastic member from moving differently inside the cylindrical tube to the fitting space of the first and second insertion portions, when the earthquake occurs, the operation of the vibration- .

In addition, since the elastic member is inserted into the fitting space of the first and second inserting portions in a large area, the effect of swinging the first and second operating members due to the elasticity of the elastic member and moving them upward and downward in the vertical direction quickly .

That is, when an earthquake occurs, there is an effect that the earthquake-resistant apparatus for cable trays can be quickly responded to the vibration of buildings.

In the present invention, since the elastic member is made of a coil spring having good elasticity, it has an effect of absorbing the vibration of the building more easily.

The present invention is a seismic cable tray system including a seismic isolation device for a cable tray having a structure different from that of the prior art, and is capable of protecting a cable tray and a cable differently from the vibration of a building caused by an earthquake or the like.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 and Fig. 2 are a detailed view of a seismic cable tray system according to an embodiment of the present invention,
3 is a detailed view of a seismic device for a cable tray included in a seismic cable tray system according to an embodiment of the present invention,
FIG. 4 and FIG. 5 are views showing the state of use of a seismic resistant device for a cable tray included in a seismic resistant cable tray system according to an embodiment of the present invention,
6 is a use state diagram of a seismic cable tray system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5, a dustproof cable tray system 200 according to an embodiment of the present invention includes a first vertical rod 210 installed at a predetermined interval on a ceiling of a building, A support member 240 for supporting the cable tray 220 connected to the cable tray 220 in a plurality of ways, a support member 240 for supporting the cable tray 220, A second vertical rod 250 mounted to the member 240 so as to face the first vertical rod 210 and a second vertical rod 210 installed between the first vertical rod 210 and the second vertical rod 210, 100).

That is, the anti-seizing cable tray system 200 is used to significantly reduce the transmission of vibrations of a building caused by an earthquake or the like to a cable tray 220 to which a plurality of cables are connected.

Here, the vibration of the building includes a vibration component in a horizontal direction generated in all directions including a longitudinal direction and a width direction of a plurality of connected cable trays 220, and a vibration component generated in a height direction of the cable tray 200 And a vertical vibration component.

The cable tray 220 may include a pair of side rails and a rung supporting the cable 1 while connecting the pair of side rails or a bottom plate supporting the cable 1, And a side plate integrally formed on both sides of the side plate.

The seismic apparatus 100 for a cable tray included in the seismic cable tray system 200 according to an embodiment of the present invention includes first and second vertical rods 210 and 250, The operation members 10 and 20 and the first and second actuating members 10 and 20 are installed on both sides so as to swing in the four directions about the first and second vertical rods 210 and 250, And a main body 30 installed to be movable upward and downward in the vertical direction, respectively.

The seismic retrofit device 100 for a cable tray includes an elastic member 40 installed inside the main body 30 and supporting the first and second operation members 10 and 20.

Here, the elastic member 40 is made of a coil spring having good elasticity.

The main body 30 includes a cylindrical tube 31 having both openings and first and second female threaded portions 31a and 31b formed on both inner surfaces thereof.

The main body 30 has first and second fastening portions 32a and 33a which are engaged with the cylindrical tube 31 and protrude from one outer surface of the main body 30 and are fastened to the first and second female threaded portions 31a and 31b The first and second operating holes 32c and 33c are formed on one side opposite to the outer surface of the cylindrical tube 31. The first and second operating holes 32c and 33c penetrate the center of the cylindrical tube 31, The first and second cap members 32 and 33 are formed.

The first actuating member 10 is smaller in size than the first actuating hole 32c and is exposed to the first actuating hole 32c and is connected to the first vertical rod 210 via the rod coupling 260 And a first insert inserted into the cylindrical tube and protruding from the connecting rod so as to be larger in size than the first actuating hole and being supported by the elastic member, And a part 12 is included.

The second actuating member 20 is formed to be larger in size than the second actuating hole 33c and inserted into the cylindrical tube 31 and supported by the elastic member 40, And a second inserting portion 22 connected to the second inserting portion.

The first and second actuating holes 32c and 33c are connected to the first and second vertical rods 210 and 250 by elasticity of the elastic member 40, Or the first and second cap members 32 and 33 so as to move upward and downward in the vertical direction, respectively.

That is, the inner diameters of the first and second actuating holes 32c and 33c are larger than the outer diameters of the connecting rod 11 and the second vertical rod 250, and are formed in a shape similar to a circle.

The first and second insertion portions 12 and 22 of the cylindrical tube 31 are connected to the first and second vertical rods 210 and 250 by elasticity of the elastic member 40, Or vertically move up and down, respectively.

That is, the inner diameter of the cylindrical tube 31 is formed to be larger than the outer diameter of the first and second insertion portions 12 and 22, and the cross-section is formed in a shape similar to a circle.

The first and second inserting portions 12 and 22 are disposed on the first and second cap members 32 and 33 when the first and second vertical rods 210 and 250 swing in four directions about the first and second vertical rods 210 and 250, It is formed in a hemisphere-like shape so as not to be caught.

The first and second actuating holes 32c and 33c have fitting grooves 32c 'and 33c' in which a part of the first and second insertion portions 12 and 22, .

The first and second insertion portions 12 and 22 supported by the elastic member 40 are formed on the outer surface thereof with a fitting space 12a and 22a into which the elastic member 40 is inserted.

6, the support member 240 of the seismic cable tray system 200 according to another embodiment of the present invention includes a supporting member 240 of another seismic cable tray system 200 installed in the periphery 240) and a connecting member (2) having a cable tray seismic device (100).

The operation and effects of the cable-stayed earthquake-proof apparatus 100 included in the dustproof cable tray system 200 according to the embodiment of the present invention will be described as follows.

1 to 5, a plurality of cable trays 220 connected by the connecting member 230 are supported by the receiving member 240 while a second vertical rod (not shown) installed on the receiving member 240 250 and the first vertical rod 210 installed on the ceiling of the building are connected to the cable tray earthquake-proof apparatus 100 to complete the seismic cable tray system 200.

A plurality of cables 1 are placed on the cable tray 220 connected in a plurality.

Here, the elasticity of the elastic member 40, which is fitted in the fitting spaces 12a and 22a of the first and second insertion portions 12 and 22, A part of the first and second insertion portions 12 and 22 formed in the shape of the first and second cap members 32 and 33 is fitted in the fitting grooves 32c 'and 33c' And the second vertical rod 250 are exposed in the first and second actuating holes 32c and 33c of the first and second cap members 32 and 33.

The first and second engaging portions 32a and 33a of the first and second cap members 32 and 33 are engaged with the cylindrical tube 31 and the first and second cap members 32 and 33 The first and second male threaded portions 32b and 33b are fastened to the first and second female threaded portions 31a and 31b of the cylindrical tube 31.

The connection member 11 of the first actuating member 10 exposed in the first actuating hole 32c is connected to the first vertical rod 210 and the rod coupling 260 And the second vertical hole 250 is exposed in the second operation hole 33c.

4, when the vibration is generated in the horizontal direction by the earthquake or the like, the vibration component in the horizontal direction generated in all directions including the longitudinal direction and the width direction of a plurality of connected cable trays 220 Is transmitted to the earthquake-proof apparatus 100 using the cable tray.

The connecting rod 11 of the first actuating member 10 and the second vertical rod 250 are connected to the first and second vertical rods 210 and 210 in the first and second actuating holes 32c and 33c of the main body 30, The first and second insertion portions 12 and 22 of the first and second actuating members 10 and 20 are also pivoted around the cylindrical tube 31 of the main body 30 The first and second vertical rods 210 and 250 are swung in four directions.

That is, the first and second actuating members 10 and 20 swing 360 degrees around the first and second vertical rods 210 and 250.

At the same time, since the elastic member 40 is formed of a coil spring, when the connecting rod 11, the second vertical rod 250, and the first and second insertion portions 12 and 22 swing, Both of the elastic members 40 are continuously compressed in four directions around the first and second vertical rods 210 and 250 by the elastic members 12 and 22, respectively.

Since the first and second inserting portions 12 and 22 are formed in a shape similar to a hemisphere, when the first and second inserting portions 12 and 22 swing in four directions about the first and second vertical rods 210 and 250, It does not catch on the cap members 32 (33).

That is, the first and second inserting portions 12 and 22 easily swing in four directions about the first and second vertical rods 210 and 250, respectively.

Since a part of the first and second insertion portions 12 and 22 are fitted into the fitting grooves 32c 'and 33c' of the first and second cap members 32 and 33, 2 insertion portions 12 and 22 are more swingable in four directions about the first and second vertical rods 210 and 250, respectively.

Since both sides of the elastic member 40 are fitted into the fitting spaces 12a and 22a of the first and second insertion portions 12 and 22, the elasticity of the compressed elastic member 40 Thereby restricting the elastic member 40 from moving differently inside the cylindrical tube 31.

Therefore, the vibration component in the horizontal direction generated in all directions including the longitudinal direction and the width direction of the cable tray 220 connected in plurality is absorbed and deformed by the deformation of the elastic member 40 formed of the coil spring.

That is, the horizontal vibration component transmitted to the plurality of connected cable trays 220 is significantly reduced.

5, when vibrations are generated in the vertical direction of the building due to the earthquake or the like, vertical vibration components generated in the height direction of the cable trays 220 connected to the cable trays 220 are transmitted to the cable tray earthquake- 100).

The connecting rod 11 of the first operating member 10 is then reciprocally moved upward and downward in the vertical direction about the first vertical rod 210 in the first operating hole 32c of the main body 30 And at the same time the first insertion portion 12 of the first actuating member 10 is continuously reciprocated upward and downward in the vertical direction about the first vertical rod 210 in the cylindrical tube 31 .

Since the elastic member 40 is formed of a coil spring, the elastic member 40 is elastically deformed by the elastic force of the elastic member 40 supporting the first insertion portion 12 by the first insertion portion 12 which reciprocally moves upward and downward in the vertical direction, (40) is continuously compressed in the vertical direction.

Here, one of the opposite sides of the elastic member 40 is stably supported in a state of being fitted in the fitting space 22a by the second operating member 20 which does not work.

Since both sides of the elastic member 40 are fitted in the fitting spaces 12a and 22a of the first and second insertion portions 12 and 22, the elasticity of the compressed elastic member 40 Thereby restricting the elastic member 40 from moving differently within the cylindrical tube 31.

Since the first insertion portion 12 formed in a shape similar to the hemispherical member is continuously fitted while being guided by the fitting groove 32c 'in the upward and downward directions continuously in the vertical direction, the compressed elastic member 40, The first insertion portion 12 is prevented from moving differently within the cylindrical tube 31 due to the elasticity of the first insertion portion 12 to return.

The second vertical rod 250 connected to the second insertion portion 22 of the second operation member 20 is continuously reciprocated upward and downward in the vertical direction in the second operation hole 33c of the main body 30, The second insertion portion 22 of the second actuating member 20 is also reciprocally moved upward and downward in the vertical direction about the second vertical rod 250 in the cylindrical tube 31 .

Since the elastic member 40 is formed of a coil spring, the elastic member 40 can be elastically deformed by the elastic force of the elastic member 40, which supports the second insertion portion 22 by the second insertion portion 22, which reciprocally moves upward and downward in the vertical direction. And one side of the opposite side of the discharge port 40 is continuously compressed in the vertical direction.

Here, one of the elastic members 40 is stably supported in a state of being fitted in the fitting space 12a by the first actuating member 10 which does not work.

Since both sides of the elastic member 40 are fitted in the fitting spaces 12a and 22a of the first and second insertion portions 12 and 22, the elasticity of the compressed elastic member 40 Thereby restricting the elastic member 40 from moving differently within the cylindrical tube 31.

Since the second insertion portion 22 formed in a shape similar to the hemisphere is continuously inserted while being guided by the fitting groove 33c 'in the upward and downward directions continuously in the vertical direction, The second insertion portion 22 is prevented from moving differently inside the cylindrical tube 31 due to the elasticity of returning the second insertion portion 22.

5, the vibration component in the vertical direction generated in the height direction of the cable tray 220 connected in plurality is absorbed by the deformation of the elastic member 40 formed by the coil spring, and is reduced.

That is, the vertical vibration component transmitted to the plurality of connected cable trays 220 is significantly reduced.

Thus, the seismic cable tray system 200 including the above-mentioned cable tray earthquake-proof apparatus 100 significantly reduces the transmission of vibrations of buildings caused by earthquakes or the like to the cable tray 220 to which a plurality of vibrations are connected.

6, the seismic resistant cable tray system 200 according to another embodiment of the present invention is configured to detect vibrations of a building caused by an earthquake or the like by a connecting member having a cable- (2).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various changes and modifications may be made by those skilled in the art.

10: first operating member 11: connecting rod
12: first insertion portion 12a: fitting space
20: second operating member
22: second insertion portion 22a: fitting space
30: main body 31: cylindrical tube
31a: first female screw portion 31b: second female screw portion
32: first cap member 32a: first engaging portion
32b: first male threaded portion 32c: first operating hole
32c ': fitting groove 33: second cap member
33a: second engaging portion 33b: second engaging portion
33c: second operating hole 33c ': fitting groove
40: elastic member
100: Seismic equipment for cable trays
200: Resistant cable tray system
210: first vertical load 220: cable tray
230: connecting member 240: receiving member
250: second vertical load 260: rod coupling

Claims (7)

A plurality of first vertical rods installed at predetermined intervals on the ceiling of the building,
Claims [1] A seismic resistant device for a cable tray installed between second vertical rods provided on a plurality of supporting members for supporting a plurality of connected cable trays,
First and second actuating members 10 and 20 respectively connected to the first and second vertical rods,
The first and second actuating members 10 and 20 are installed on both sides of the first and second vertical rods so as to be swingable in four directions around the first and second vertical rods, )Wow,
And an elastic member (40) installed inside the main body (30) and supporting the first and second actuating members (10, 20)
The main body 30 has a cylindrical tube 31 which is opened on both sides and has first and second female threaded portions 31a and 31b formed on both sides thereof,
The first and second fastening portions 32a and 33a which are engaged with the cylindrical pipe 31 are protruded from one of the outer surfaces of the first and second female threaded portions 31a and 31b, The first and second actuating holes 32c and 33b are formed on one side opposite to the outer surface of the cylindrical tube 31. The first and second actuating holes 32c and 33c are connected to the inside of the cylindrical tube 31, (32) (33)
The first actuating member 10 is smaller in size than the first actuating hole 32c and is exposed to the first actuating hole 32c and connected to the first vertical rod via the rod coupling 260 And a first insertion portion 12 protruding from the connecting rod 11 so as to be larger than the first operating hole 32c and inserted into the cylindrical tube 31 and supported by the elastic member 40 Including,
The second actuating member 20 is formed to be larger in size than the second actuating hole 33c and is inserted into the cylindrical tube 31 and supported by the elastic member 40, And an insertion portion (22)
The first and second actuating holes 32c and 33c are formed in such a manner that the connecting rod 11 and the second vertical rod are swung in four directions about the first and second vertical rods respectively by elasticity of the elastic member 40, The first and second cap members 32 and 33 can be moved upward and downward in the direction of the arrow A,
The first and second insertion portions 12 and 22 are swung in the inside of the cylindrical tube 31 in four directions about the first and second vertical rods respectively due to the elasticity of the elastic member 40, Up and down movement of the cable tray. delete The method according to claim 1,
Wherein the first and second inserting portions (12, 22) are formed in a shape similar to a hemispherical shape. The method of claim 3,
The first and second operation holes 32c and 33c form fitting grooves 32c 'and 33c' in which a part of the first and second insertion portions 12 and 22 are fitted. Use seismic equipment. The method according to claim 1,
Characterized in that a fitting space (12a) (22a) in which the elastic member (40) is fitted is formed on the outer surface of the first and second insertion portions (12,22) supported by the elastic member (40) Use seismic equipment. The method according to claim 1,
Wherein the elastic member (40) is made of a coil spring. A first vertical rod 210 installed at a predetermined interval on the ceiling of the building,
A cable tray 220 for supporting the cable 1,
A connection member 230 for connecting the cable tray 220 in a plurality of ways,
A supporting member 240 for supporting the cable tray 220 connected in plurality,
A second vertical rod 250 mounted on the receiving member 240 to face the first vertical rod 210,
The earthquake-resistant apparatus for a cable tray according to any one of claims 1 to 6, which is installed between the first and second vertical rods (210, 250) Tray system.

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