KR102336057B1 - Ceiling reinforcement of Wind pressure and Construction method - Google Patents

Abstract

The present invention relates to a reinforcing bar for reinforcing computerized bolts that can be adjusted in height to prevent bending or vibration of a front window structure from natural disasters such as typhoons and earthquakes in ceiling construction of buildings.

Description

Ceiling reinforcement of Wind pressure and Construction method using the same

The present invention relates to a ceiling reinforcement for wind pressure provided in a lightweight steel frame of a building ceiling construction.

Modern buildings are constructed from a variety of materials. In particular, in the case of ceiling finishing materials, various materials such as tiles, gypsum boards, and plywood are used, and in order to construct them, a lightweight steel structure has been used as shown in FIG. 1 . However, with the development of culture, safety is increasing to protect users' lives from various mechanical facilities and natural environments such as earthquakes and winds.

In particular, the development of technologies to withstand strong winds is emerging for ceilings in locations affected by wind, but the development status is insufficient.

As shown in FIG. 1, the lightweight structure of the ceiling includes a load hanger (1), a main carrier hanger (2) mounted on the load hanger (1), a main carrier (3) inserted into the main carrier hanger (2), the main Divided by a clip-type carrier 6 arranged intersecting the carrier 3, a clip hanger 5 coupling the main carrier 3 and the clip-type carrier 6 to each other, and the main carrier 3 and the clip-type carrier 6 It includes a finishing material (4) interposed in the formed space.

Since this lightweight ceiling structure is applied equally to indoor and real ceilings, in the case of outdoor ceilings, bending of the computerized bolt 11, clip hanger 5 falling off, Damage to the finishing material 4 occurred, and there were problems such as safety accidents and property damage. As a related prior art document, there is Republic of Korea Patent Publication No. 10-2019-0119570 (2019. 10. 22).

In order to solve this problem, some sites solved the problem of wind pressure by increasing the thickness of the computerized bolt 11, but it was also difficult to solve the problem of shock such as vibration.

In addition, there was a problem in that the existing computerized bolt 11 and the main carrier hanger (2) could not be used and a reinforced product had to be used.

The present invention has a problem in solving the above problems.

The ceiling reinforcement 100 for wind resistance according to an embodiment of the present invention is coupled so that the computerized bolt 11 and the main carrier hanger 15 for the ceiling construction are height-adjusted by the adjusting member 14, The computerized bolt 11 is provided to penetrate the inside of the reinforcing bar 30, and an adhesion clip 20 is provided on the upper portion of the main carrier hanger 15, and the reinforcing bar 30 is provided at the upper portion The nut 12 is provided and moves through rotation to push the adhesion clip 20 downward so that the adhesion clip 20 is strongly in close contact with the main carrier (C), so that the main carrier hanger 15 and the main carrier (C) It is characterized in that the reinforcing bar 30 prevents bending of the computerized bolt 11 at the same time as preventing vibration caused by the space between the two.
On the other hand, the construction method using a ceiling reinforcement for wind pressure according to an embodiment of the present invention, the steps of fixing the insert to the ceiling of the building; coupling the reinforcing bar 30 and the computerized bolt 11; connecting the computer bolt 11 to the insert; coupling the adhesive clip 20 to the control member 14 with the control member insertion hole 26; coupling the control member 14 and the computerized bolt 11; adjusting the height of the adjusting member (14); coupling a main carrier (C) to the main carrier hanger (15); and moving the reinforcing bar 30 for reinforcement.
In addition, the present invention provides an adhesion clip 20 for inducing close contact between the main carrier (C) and the computerized bolt 11, a reinforcing bar 30 for preventing the force caused by wind pressure of the computerized bolt 11, and a reinforcing bar for reinforcing It is composed of a friction agent to prevent loosening of (30), a nut (12) for inducing close contact with the main carrier (C) by adjusting the height of the reinforcing bar (30) for reinforcing, and through the rotation of the reinforcing bar (30) for reinforcing the main carrier The problem was solved by strengthening the adhesion between (C) and the electric bolt 11 and strengthening the strength of the electric bolt 11.

In the case of the reinforcing bar 30 for reinforcement, it can be divided into a tubular reinforcing bar 30a made by partially bending a hollow tubular round tube, and a prismatic reinforcing bar 30b made by bending the entirety, and these two reinforcing bars are computed on the upper part. A nut fixture 34 that can be fixed by combining the nut 12 capable of coupling the bolt 11 is configured and used by combining the nut.

In addition, in order to prevent loosening due to vibration of the reinforcing bar 30, friction can be induced in the computerized bolt 11 or the adjusting member 14 penetrating the inside of the reinforcing bar 30 by inserting a friction agent. It is completed by inserting the friction agent by configuring the friction agent insertion hole 31 into which the friction agent can be inserted, or inserting a friction agent washer between the main carrier C and the reinforcement bar 30 for reinforcement.

In the present invention, by first coupling the above-mentioned problem solving means to the computerized bolt 11 before the coupling of the adjusting member 14, the main carrier hanger 15 and the main carrier ( C) It is possible to strengthen the vibration problem of the gap that occurs between the couplings and the vertical bending strength of the computerized bolt 11 .

As a specific effect, first, it prevents vertical shaking of the main carrier (C), thereby preventing noise of parts.

Second, the compatibility of the product is high because it is possible to selectively reinforce it only where it is needed while using the existing product as it is.

Third, it is possible to strengthen or reinforce the bending strength of the computerized bolt 11 .

Fourth, the safety was increased by preventing loosening due to vibration.

Fifth, in reinforcing from wind pressure, space usability was increased by using the existing space for computerized bolts for daldae without using methods such as diagonal reinforcement in a separate space.

1 is a view showing a lightweight steel structure of a conventional ceiling,
Figure 2 is a detailed view showing an example of a conventional ceiling hanger coupling,
3 is a perspective view showing an exploded view of the reinforcing bar 30 for reinforcing the present invention;
Figure 4 is a perspective view showing an embodiment of the adhesion clip of the present invention;
Figure 5 is a perspective view showing an embodiment in which the fastening of the present invention is completed.

Hereinafter, it will be described in detail with reference to FIGS. 3 to 4 according to the present invention.

3 shows the configuration of the reinforcing bar 30 for reinforcement, the reinforcing bar 30 is an upper portion of the reinforcing bar 30 by using a pipe that can penetrate the machine bolt 11 for reinforcement of the vertical bending of the wire bolt 11. A nut fixture 34 capable of inserting and fixing the nut 12 is provided, and the nut fixture 34 is configured with a nut movement limiting part 33 to prevent the nut 12 from moving even the lower part of the tube. ) to prevent movement.

In addition, the wall portion constituting the nut fixture 34 is configured to be fixed with the nut 12 .

In addition, as for the reinforcing bar 30, a tubular reinforcing bar 30a in which only a portion of the upper portion of the reinforcing bar is formed with a nut insertion hole or a prismatic reinforcing bar 30b in which the entire reinforcing reinforcing bar is formed in a square shape can be selectively applied.

The reinforcing bar 30 is pre-coupled to the computerized bolt 11, and then the construction is performed by coupling the computerized bolt 11 to the ceiling fixing anchor.

In addition, the friction agent insertion hole 31 and the screw fastener 32 may be selectively applied to the reinforcing bar 30 , or a friction agent such as a washer may be used.

This is to prevent rotation of the reinforcing bar 30 by fastening a friction agent or a screw to prevent loosening of the reinforcing bar 30 from various shocks or vibrations.

And the function of the adhesion clip 20 will be described using the drawing of the adhesion clip 20 of FIG. 4 .

The form of the adhesion clip 20 is for inducing adhesion of the reinforcing bar 30 to the main carrier (C), and the form may be different.

The contact clip 20 uses a contact pin clip that fills the gap between the upper surface of the main carrier hanger 15 and the main carrier (C) to prevent shaking and vertical movement of the main carrier (C), or Adjuster insert 26 to be inserted through the upper tube diameter, the upper surface 21 that is in close contact with the upper surface of the adjuster 14 after insertion, two side surfaces 22 configured to surround the side of the main carrier C, the main The adjustment member 14 is composed of a contact portion 24 formed on both sides in the longitudinal direction to be in close contact with the upper portion of the carrier C, and support portions 23 formed on both sides in the longitudinal direction through which the strength of adhesion is transmitted vertically by the adhesion portion. ) and the main carrier hanger 15 can be used by covering it.

The structure and function of the ceiling reinforcement 100 have been described.

Hereinafter, the construction method of the ceiling reinforcing bar 100 will be described, an insert fixing step to the ceiling of a building for hanging a computerized bolt from the ceiling, a reinforcing reinforcing bar coupling step, a step of connecting the computerized bolt to the insert, and a close-fitting clip coupling to the adjuster It consists of a step, a step of combining the adjusting device and the computerized bolt, a step of adjusting the height of the adjusting member, a main carrier coupling step, a reinforcing bar adjustment step, and a reinforcing bar loosening prevention step.

In the step of combining the reinforcing bar for reinforcement, the length of the reinforcing bar 30 is cut to be shorter than the length of the electric bolt exposed from the insert so that the height adjustment of the adjusting member 14 is possible. The nut 12 of the reinforcing bar 30 is coupled to the upper portion of the direction.

At this time, the lower part of the reinforcing bar 30 for reinforcing the computerized bolt 11 is exposed so that the height of the adjusting member 14 can be adjusted.

In the case of coupling the close-fitting clip to the adjusting member, it is a necessary process to further strengthen the adhesion between the main carrier (C) and the computerized bolt 11. Construction takes place after the bonding step.

And the step of adjusting the reinforcing bar is such that the lower portion of the reinforcing bar 30 is in close contact with the upper surface of the main carrier hanger 15 when using the cohesive pin clip through the rotation of the reinforcing bar 30, and the adhering clip 20 When using, it is in close contact with the upper surface of the adhesion clip 20 so that the adhesion part 24 of the adhesion clip 20 strongly adheres to the upper surface of the main carrier (C).

Lastly, in the step of preventing loosening of the reinforcing bar, a friction agent can be inserted through the friction agent insertion hole or screwed through a screw fastener, but the difference between the outer diameter of the computerized bolt 11 and the outer diameter of the reinforcing bar 30 is If it is large, insert a washer at the bottom of the reinforcing bar to prevent loosening.

Therefore, the step of preventing loosening of the reinforcing bar is carried out before the step of combining the adjusting device and the computerized bolt.

11: Threaded bolt 12: Nut
14: adjuster 15: main carrier hanger
20: adhesion clip
21: upper surface 22: side 23: support part
24: adhesion portion 25: main carrier through portion 26: adjustment member coupling sphere
30a, 30b: reinforcing bar 31: friction material insertion hole
32: screw fastener 33: friction part 34: nut fastener
100: ceiling reinforcement C: main carrier

Claims (4)

In the ceiling reinforcing bar 100 in which the computerized bolt 11 for the ceiling construction and the main carrier hanger 15 are height-adjusted by the adjuster 14,
The computerized bolt 11 is provided to penetrate the inside of the reinforcing bar 30, and an adhesion clip 20 is provided on the upper portion of the main carrier hanger 15, and the reinforcing bar 30 is provided at the upper portion The nut 12 is provided and moves through rotation to push the adhesion clip 20 downward so that the adhesion clip 20 is strongly in close contact with the main carrier (C), so that the main carrier hanger 15 and the main carrier (C) A ceiling reinforcement for wind pressure, characterized in that it prevents the vibration caused by the space between the reinforcement rods (30) and prevents bending of the computerized bolts (11) at the same time.
delete The construction method using the ceiling reinforcement for wind pressure of claim 1,
fixing the insert to the ceiling of the building;
coupling the reinforcing bar 30 and the computerized bolt 11;
connecting the computer bolt 11 to the insert;
coupling the adhesive clip 20 to the control member 14 with the control member insertion hole 26;
coupling the control member 14 and the computerized bolt 11;
adjusting the height of the adjusting member (14);
coupling a main carrier (C) to the main carrier hanger (15); and
moving the reinforcing bar 30 for reinforcing;
Construction method using a ceiling reinforcement for wind pressure, characterized in that it comprises a.
delete

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