KR101712803B1 - Hanger Apparatus For Ceiling Which is Designed For Earthquake-resistant - Google Patents

Abstract

The present invention relates to a ceiling hanger apparatus having an earthquake-resistant function. The ceiling hanger apparatus is used to hang and install ceiling installation pieces such as ceiling finishing materials, pipes, and cable trays for installing cables onto the ceiling of a building. The configuration of the ceiling hanger apparatus includes: multiple support rods which have upper ends fixed to the ceiling slab of a building at predetermined intervals while having lower ends extended from the ceiling in a direct downward direction; an earthquake-resistant rod body which has the upper end connected to the ceiling slab and the lower end connected to the ceiling installation pieces and allows the angular changes of two or more parts in the longitudinal direction in random directions to safely hang the ceiling installation pieces on the ceiling even when relative movement between the ceiling installation pieces occurs due to vibration resulting from an earthquake; and a connection means which connects the lower ends of the support rod and the earthquake-resistant rod body and the ceiling installation pieces.

Description

[0001] The present invention relates to a ceiling hanger device having an earthquake-proof function,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ceiling hanger apparatus, and more particularly, to a ceiling hanger apparatus for installing a cable tray, a pipe, a ceiling finishing material or the like on a ceiling and having an earthquake-proof function.

The ceiling hanger apparatus of the present invention is a means for installing ceiling fixtures such as a cable tray, a pipe, and a ceiling finishing material in a hanging manner on the ceiling of various buildings. Generally, when the slab is struck, the insert is fixed at a certain interval and then the concrete is inserted. A ceiling hanging apparatus (hereinafter referred to as a hanging apparatus) is screwed to the insert.

The conventional hanger apparatus uses a bolt having a thread in its entire section along the length of the rod. When the upper end of the bolt is screwed into the insert, the lower end extends vertically downward. The ceiling fixture is mounted directly or indirectly to the bottom of the bolt.

On the other hand, there are seismic design issues that should be considered when designing buildings. Designing a building to withstand earthquakes in case an earthquake occurs in the area. Naturally, the cost of building construction is increased during the earthquake - proof design. However, considering the change of the earth 's internal structure and the unpredictability of earthquake, the seismic design should be carefully examined.

The seismic design of a building must be made in all areas of the building and ceiling fixtures are no exception. Therefore, a hanger device for installing ceiling fixtures should be followed by structural improvement in response to earthquake-resistant design.

An example of a seismic resistant structure for a conventional hanger apparatus or its attachments is Korean Patent Application No. 10-2011-0061022, No. 10-2012-0069678. They usually use springs to cope with up-and-down vibrations, which allow vertical vibration of ceiling fixtures. However, when the ceiling fixture is oscillated up and down, it can be given a natural frequency or an unpredictable load due to an increase in amplitude to the hanger device or the ceiling fixture.

Korean Patent Application No. 10-2011-0061022 Korean Patent Application No. 10-2012-0069678

SUMMARY OF THE INVENTION It is an object of the present invention to provide a suspended ceiling hanger apparatus for suspending a ceiling mount on a ceiling slab and reflecting seismic design. It is an object of the present invention to provide a hanger device having a structure capable of coping with any case irrespective of magnitude and duration of an earthquake and capable of tolerating vibration regardless of whether the earthquake is a longitudinal wave (P wave) or a transverse wave (S wave) The purpose.

The above objects are intended for hanging ceiling fixtures such as cable trays, pipes and ceiling finishing materials for installing cables on the ceiling of a building;

A support rod for supporting the ceiling fixture so that the ceiling fixture is fixed to the ceiling slab of the building at a predetermined interval so that the ceiling fixture extends in a direction directly below the floor;

The upper end is connected to the ceiling slab and the lower end is connected to the ceiling fixture so that vibrations such as an earthquake are generated so that the ceiling fixture can be safely suspended even if relative flow occurs between the ceiling and the ceiling fixture. The above object can be attained by providing an anti-vibration member provided with a joint capable of allowing an angle change in an arbitrary direction;

Connecting means for connecting the lower ends of the support rods and the inner rods and the ceiling fixtures;

And a ceiling hanger device having an earthquake-resistant function.

According to another aspect of the present invention, the anti-seizure body includes first, second and third unit rods;

Wherein the joint is installed at the connecting point of the first and second unit rods and the connecting point of the second and third unit rods in the same structure;
The joint comprising:
A base plate fixedly installed in a direction perpendicular to a lower end of the first unit rods;
A cover plate fixedly installed on an upper end of the base plate;
A hemispherical cap installed in the middle of the cover plate, the hemispherical cap having a center hole through which the first unit bar passes;
And a joint member interposed between the cover plate and the base plate in a state of being connected to the second unit bar and being in contact with the inner surface of the cap to make a hemispherical shape so as to make surface contact with the cap.

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According to another aspect of the present invention, the joint member may be in the form of a hemispherical shell.

According to another aspect of the present invention,

The support bar and the anti-seizing member may be installed in parallel on one insert member to be inserted into the ceiling slab.

According to the present invention, there is provided a ceiling hanger apparatus for suspending a ceiling fixture suspended from a ceiling slab and reflecting a seismic design. The present invention eliminates the problem caused by spring natural vibration without using a spring, and it can cope with any case irrespective of the magnitude and duration of an earthquake, and it is possible to prevent the earthquake from being affected by longitudinal waves (P waves) So that the vibration can be tolerated.

1 is a perspective view of an installation state of a ceiling hanger apparatus having an earthquake-proof function according to an embodiment of the present invention.
Fig. 2 is a perspective view of a ceiling hanger apparatus having an earthquake-proof function according to an embodiment of the present invention, and Fig. 3 is an exploded perspective view.
Fig. 4 is an exploded cross-sectional view of a ceiling hanger apparatus having an earthquake-proof function according to an embodiment of the present invention, and Fig. 5 is an assembled cross-sectional view.
6 is a partial side view showing the operational state of a ceiling hanger apparatus having an earthquake-proof function according to an embodiment of the present invention.
7 is a partial side view of a ceiling hanger apparatus having an earthquake-proof function according to another embodiment of the present invention.

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

The ceiling hanger apparatus (hereinafter, referred to as 'hanger apparatus') having the earthquake-resistant function of the present invention is for hanging a ceiling mount 101 such as a cable tray, a pipe, and a ceiling finishing material for installing cables on a building ceiling . The ceiling mount 101 illustrated in the figure is a cable tray.

The hanger device includes a support rod 10 whose upper end is fixed to the ceiling slab 100 of the building at a predetermined interval so that the lower end of the support bar 10 extends in a direction directly underneath the floor and a lower end of the support rod 10 and a ceiling mount 101 And a sealing member connected to the ceiling slab and having a lower end connected to the ceiling mount.
The supporting rod 10 fixes the ceiling mount 101 so that it does not shake in a normal state and the ceiling mount 20 prevents the ceiling mount 10 from falling down when there is vibration that the support rod 10 can not tolerate. .

The support bar 10 and the inner barrel member 20 can be hung upside down on the building slab 100 by the insert member 21 provided on the slab 100 of the building. The insert member 21 is inserted into the slab 100 by being installed in advance in the mold when the mold is installed to hit the slab 100. The insert member 21 is in the form of a nut and the upper end of the support bar 10 and the inner barrel member 20 is in the form of a screw rod screwed to the insert member 21. Since the insert member 21 is a known one, the further description thereof will be omitted.

The ceiling member 20 is a means to securely suspend the ceiling mount 101 even when a vibration such as an earthquake occurs to cause relative flow between the ceiling slab 100 and the ceiling mount 101. At least two joints (30) are provided along the longitudinal direction of the anti-seizure body (20). The support rod 10 is a rigid body, but the inner rod body 20 has fluidity by the joint 30. The joint 30 is provided at a connecting portion of the unit rods 20a, 20b, 20c constituting the inner pole body 20 and is a connecting means in the longitudinal direction for the linear member. Universal joints, universal joints, etc. used in a general axis joint can be used as joints. However, since the installation cost will be excessively required when using them, the present invention proposes a joint 30 having a more economical structure. Hereinafter, the joint 30 proposed in the present invention will be described.

The joint 30 is installed at each of the connecting portions of the first and second unit rods 20a and 20b and the second and third unit rods 20b and 20b so as to allow each linear member to change an angle in an arbitrary direction . The mounting directions of the joints 30 may be symmetrical to each other. Since the structure and operation of the upper and lower joints 30 are the same, the lower and upper joints 30 will be described below.

And the base plate 35 is fixed to the lower end of the third unit rods 20c at right angles to each other. The third unit rods 20c may be fixed to the base plate 35 by welding or screwing.

And the cover plate 33 is fixed to the upper end of the base plate 35. A hemispherical cap (34) is integrally provided in the middle of the cover plate (33). A center hole 34a having a diameter allowing the second unit rods 20b to pass through the cap 34 is provided in the middle of the cap 34.

The cover plate 33 and the base plate 35 are provided with bolt holes 34b and 35a respectively and are fixed to each other by fastening bolts 36. [ The joint member 31 is interposed between the cover plate 33 and the base plate 35 and positioned in the space provided by the cap 34. [ The joint member 31 functions as a knuckle by making a surface contact with the inner surface of the cap 34.

And the second unit rods 20b are connected to the joint member 31 at right angles. A groove 31a in which the second unit rods 20b are closely fitted is provided in the center of the joint member 31 and the second unit rods 20b are fixed by welding in a state of being fitted in the groove 31a, . The joint member 31 is in the form of a hemispherical shell. The size or diameter of the joint member 31 is set to be movable within the cap 34.

According to another embodiment of the present invention, the second unit rods 20b positioned in the middle of the anti-arm body 20 have a structure capable of adjusting the length. A structure similar to the turnbuckle is provided in the middle of the second unit rods 20b. That is, two unit rods constituting the second unit rods 20b are screwed to both ends of the nut rod 40 provided with the female thread on the inner peripheral surface. Since the screw directions of the second unit rods 20b are opposite to each other, the length of the second unit rods 20b can be adjusted as the nut rods 40 are rotated. This makes it possible to finely adjust the length of the ear piece 20 and facilitate the assembly.

A connection means 103 having the same shape as a rail is connected to the lower end of the support rod 10 and the endocardium 20 through a nut 22. [ It goes without saying that the concrete form of the connecting means 103 can be changed according to the form of the ceiling fixture.

According to such a configuration, even if the support bar 10, which is a rigid body, is damaged by vibration such as an earthquake, the ceiling mount 101 can be supported by the anti- Since the anti-vibration member 20 has fluidity, it is possible to swing without any resistance against vibration applied in an arbitrary direction as shown in FIG. Therefore, not only the vibration applied in the vertical direction, but also the vibration applied in the direction of the arrow L in FIG. 6, that is, the horizontal direction, can be comfortably supported by the ceiling fixture.

Hereinafter, another embodiment of the present invention will be described with reference to FIG. 7, the support rod 10 and the anti-shrinking body 20 are provided in parallel on one insert member 21. As shown in Fig. In other words, the hook fixing base 50 is provided on the upper end of the support rod 10 and the inner push rod body 20. The hook fixing base 50 includes a base rod 51 connected to the insert member 21 and extending vertically and a horizontal support base 52 transversely connected to the lower end of the base rod 51. At both left and right sides of the transverse support 52, there are provided coupling holes in which the support rods 10 and the upper end portions of the anti-shrinking bodies 20 are fitted.

The upper ends of the support rods 10 and the anti-shrinking bodies 20 are fixed by nuts in a state where they are sandwiched between the left and right sides of the transverse supporter 52. As a result, one insert member 21 can be shared by the support rod 10 and the anti-shrinking body 20, which is economically advantageous.

The configuration shown and described above is merely a preferred embodiment based on the technical idea of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: support rod 20:
20a, 20b, 20c: first, second and third unit rods 21: insert member
30: joint 31: joint member
33: cover plate 34: cap
35: base plate 40: nut rod
50: Loop mounting
100: (Ceiling) Slab 101: Ceiling fixture
103: Connection means

Claims (4)

For hanging ceiling fixtures, such as cable trays, piping, and ceiling cladding for installing cables, on the ceiling of a building;
A support rod (10) which is fixed to a ceiling slab of the building at a predetermined interval with a predetermined distance therebetween, so that a lower end of the support rod extends in a downward direction toward the floor, and fixes the ceiling fixture without moving;
The upper end is connected to the ceiling slab and the lower end is connected to the ceiling fixture so that vibrations such as an earthquake are generated so that the ceiling fixture can be safely suspended even if relative flow occurs between the ceiling and the ceiling fixture. (20) in which a joint capable of allowing an angular change in an arbitrary direction is installed;
And connecting means for connecting the lower ends of the support rods (10) and the inner rods (20) to the ceiling fixture;
The anti-intoler (20) comprises first, second and third unit rods (20a, 20b, 20c);
The joint 30 is installed at the connection points of the first and second unit rods 20a and 20b and the connection points of the second and third unit rods 20b and 20c in the same structure;
The joint (30) comprises:
A base plate 35 fixedly installed at a right angle to the lower end of the first unit rods 20a;
A cover plate 33 fixed to the upper end of the base plate 35;
A hemispherical cap (34) installed in the middle of the cover plate (33) and having a center hole through which the first unit rods (20a) pass;
And is interposed between the cover plate 33 and the base plate 35 in a state of being connected to the second unit rods 20b so as to make contact with the inner surface of the cap 34, A joint member 31 made hemispherical;
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The second unit rods 20b may have a length adjustable structure.
The two unit rods constituting the second unit rods 20b are screwed to opposite ends of the nut rod 40 provided with the female threads on the inner circumferential surface so that their screw directions are opposite to each other; And the length of the second unit rods (20b) can be adjusted by rotating the nut rod (40). delete delete The method according to claim 1,
Characterized in that the support bar (10) and the anti-shrinking body (20) are installed in parallel on one insert member (21) to be inserted into a ceiling slab.

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