KR20190119570A - Ceiling structure with increased workability and space utilization and construction method - Google Patents

Abstract

The present invention relates to a functional ceiling bonding structure and its construction method.
To this end, the present invention is fixed to the top of the computer bolt to the ceiling structure, in the ceiling coupling structure is coupled to the caring bar fixture for providing a carrying bar to the bottom of the computer bolt, the lower portion of the computer bolt is formed with a screw thread on the inner peripheral surface A height adjusting device is coupled, and a caring bar fixture is coupled to the height adjusting device to form a relative height of the caring bar fixture.
As a result, the height of the carrying bar can be flexibly adjusted, thereby making it possible to efficiently construct the ceiling structure.

Description

Ceiling structure with increased workability and space utilization and construction method

The present invention relates to a ceiling structure and a construction method for increasing the workability and space utilization, and more specifically, a carrying bar fixture for coupling a carrying bar to a lower end of a computer bolt fixed to the ceiling structure is coupled, the computer bolt The lower part of the height adjustment mechanism is formed on the inner circumferential surface of the thread is coupled, the height adjustment is coupled to the carrying bar fixtures can be adjusted relative height to increase the construction and space utilization to ensure workability in a narrow space It relates to a ceiling structure and its construction method.

In the building, slabs are formed in the horizontal direction except for the wall, the base, and the roof, and the upper part becomes the bottom of the upper floor and the lower part forms the ceiling of the lower floor based on the slab. In recent years, the lower part of the ceiling may be actively exposed without a separate finishing process. However, it is necessary to form a duct space in order to provide various piping and facility facilities, and to form a ceiling structure by combining a finishing panel at the lower part thereof. It is common.

Such ceiling structure is to pre-install a buried structure such as inserts in the formwork, etc. before placing the concrete to form the slab, and when the concrete is cured, by connecting the computer bolt to the exposed insert, or post-install the anchor on the cured concrete It is common to combine computational bolts. The computer bolt is coupled to the hanger for fixing the carrying bar, and after the carrying bar is provided with a carrying bar to combine the finishing support rail, such as M-bar or T-bar in the lower part of the carrying bar, The finishing structure is combined with the finishing support rail to complete the ceiling structure.

In general, the ceiling structure has a disadvantage in that the height adjustment of the hanger is limited to a certain width in coupling the hanger to the computer bolt, and to solve such a problem, Korean Patent Publication No. 10-2006-0098567 (September 19, 2006) , Hereinafter referred to as “prior art document 1”, discloses a method of controlling the height of a hanger by connecting a plate-shaped hanger bent as shown in FIG. 1 to a computer bolt.

However, in the conventional ceiling structure including the prior art document 1, loosening occurs easily due to vibration in screwing the hanger to the computer bolt, and when using a plate-shaped hanger that is bent in general, when the load of the finishing panel is heavy or the worker There is a problem that the hanger is bent by the load of the change or is separated by vibration.

In addition, in order to fix the bent plate-shaped hanger, workability is deteriorated due to a large number of clamping parts, bolts and nuts, and when the height of the ceiling is low, the worker is in the process of minimizing the duct space at the top of the finishing panel. There was an additional problem that a safety risk occurs as the construction of the hanger or cutting the computer bolt arbitrarily.

Accordingly, the applicant filed the Republic of Korea Patent No. 10-1574463 (registered on November 27, 2015, hereinafter referred to as 'prior art document 2') to enable the flexible height adjustment during the construction process, the ceiling structure can be secured durability Has been proposed.

The prior art document 2, but as shown in Figure 2 to implement a height adjustment by having a pair of computer bolts in the upper and lower centers around the connector, easy loosening by a screw coupling structure made at the same time, upper and lower Due to the difficulty in the relative rotation of the connector and the hanger, the workability was reduced. As a pair of computer bolts were installed on the upper and lower parts, the space at the top of the ceiling was unnecessarily wasted and construction was not possible in the low space. There is an additional problem that the work process is complicated and the workability is reduced.

Moreover, if there is no facility to be provided on the ceiling or only the construction of a simple finishing panel is required according to the site conditions, there is a need for an industry for a ceiling structure capable of rapid construction.

The present invention has been made in order to solve the above problems, it is possible to flexibly adjust the height of the carrying bar is possible to efficiently construct the ceiling structure, to prevent the loosening of the ceiling structure by preventing rotation by vibration, the electrical equipment It can be expected to be freely and workable by the relative rotation of the car, and it is possible to secure an additional space corresponding to the height of the carrying bar at least, so that the efficient use of the space is possible, and the use of workability and space to prevent the departure or flow of the carrying bar. The present invention relates to a ceiling structure and a construction method thereof having increased properties.

In the ceiling structure having increased workability and space utilization of the present invention, the upper end of the computer bolt 10 is fixed to the ceiling structure (SB), the lower end of the computer bolt 10 for providing a carrying bar (CB) In the ceiling structure (C) to which the caring bar fixtures 20 are coupled, the height adjusting mechanism 30 having a thread 31 formed on the inner circumferential surface is coupled to the lower portion of the computer bolt 10, and the height adjusting mechanism 30 Carrying bar fixture 20 is coupled to the) is characterized in that it is formed to enable relative height adjustment of the carrying bar fixture (20).

In addition, the carrying bar fixture 20 has at least one side wall portion 23 formed between the upper flange 21 and the lower flange 22, and the upper and lower flanges 21 and 22 and the side wall portion ( 23 is characterized in that the space (S) for providing a carrying bar (CB) is provided.

In addition, the upper flange 21 or the lower flange 22 of the carrying bar fixture 20 is formed with a circular adjusting hole through hole 24, the height adjustment of the cylindrical to penetrate the adjusting hole through hole 24 Sphere 30 is provided, the outer circumferential surface of the height adjustment opening 30 is formed with a locking flange 32 is characterized in that the locking coupled to enable the height adjustment is possible to rotate from the carrying bar fixture (20). .

In addition, the lower flange 22 is a coupling flange for coupling the height adjusting hole 30 and the mounting flange 22a for providing a carrying bar (CB) around one side wall portion (23) ( 22b) is formed by changing the height relative to the mounting flange (22a), characterized in that the locking flange 32 of the height adjustment hole 30 does not protrude to the lower portion of the mounting flange (22a). do.

In addition, a separation prevention device is provided between the inner side of the side wall portion 23 of the carrying bar fixture 20 and the outer diameter of the locking flange 32 to prevent relative rotation of the carrying bar fixture 20 and the height adjustment device 30. It is characterized by.

In addition, the anti-rotation opening 40 has a fitting piece 42 formed to surround the side of the locking flange 32 to the lower portion of the '' 'guide guide 41 so that the height adjustment hole 30 is guided inwardly. The guide piece 41 is provided between the upper flange 21 of the carrying bar fixture 20 and the upper surface of the engaging flange 32, and the inner side of the side wall portion 23 of the carrying bar fixture 20 is provided. The fitting piece 42 is provided between the side surfaces of the locking flange 32.

In addition, the clip piece 51 of the anti-rotation tool 50 is formed with a guide groove 51a into which the upper flange 21 or the lower flange 22 of the carrying bar fixing tool 20 is inserted, and the engaging portion ( 51b is formed, the anti-rotation portion 51c is formed at the lower portion, the locking portion 51b is provided on the upper surface of the upper flange 21 of the carrying bar fixture 20, and the carrying bar fixture 20 It is characterized in that the anti-rotation portion (51c) is provided between the inner side of the side wall portion 23 and the side surface of the locking flange (32).

In addition, the locking flange 32 is formed in a regular polygonal shape is provided with a relatively large long diameter portion (D1) and a small radius of the short diameter portion (D2), the fitting piece 42 or the rotation preventing portion of the rotation preventing device The thickness t of 51c is thicker than the distance s between the center of the locking flange 32 and the inner side of the side wall portion 20 and the length of the long diameter portion D1, and the short diameter portion D2 It is characterized by being formed thinner than the difference in length.

In addition, any one side wall portion 23 formed in the carrying bar fixture 20 is formed with a locking side wall portion 23a at a height such that the carrying bar CB is not separated, and the upper flange 21 ) Is formed in the slit 21a so that the blocking piece 26 is detachably inserted into the slit 21a so that the opening part OP provided at the upper portion of the engaging side wall portion 23a is blocked. .

In addition, the elastic bolt piece 60 is fitted between the threaded bolt 10 and the height adjustment port 30 to prevent the rotation of the height adjustment port 30 by the pressing force of the elastic pressure piece 60. It features.

In addition, one side of the elastic pressing piece 60 is characterized in that the insertion portion 61 of the curved shape is integrally formed.

And the filling member 70 having a height corresponding to the upper portion of the upper carrying ring (CB) and the lower portion of the upper flange 21 provided in the space (S) of the carrying bar fixture 20 is provided with a carrying bar ( It is characterized in that the up and down flow of CB) is prevented.

On the other hand, the construction method (M) of the ceiling structure to increase the workability and space utilization of the present invention is provided with a height adjustment tool 30 to penetrate through the adjustment hole through-hole 24 formed in the carrying bar fixture 20 Height adjustment sphere provided step (S10); Carrying bar provided step (S20) having a carrying bar (CB) to pass through the plurality of carrying bar fixtures 20 is provided with the height adjustment (30); Temporary coupling step (S30) for temporarily coupling the height adjustment device 30 to the lower portion of the computer bolt 10 is fixed to the ceiling structure (SB) in advance; And a fine adjusting step S40 of finely adjusting the height adjusting device 30 so that the carrying bar fixing device 20 is provided at the correct position.

And a filling member 70 having a height corresponding to an upper portion of the carrying bar CB provided in the carrying bar fixture 20 and a lower portion of the upper flange 21 to move the upper and lower flows of the carrying bar CB. Filling member coupling step (S50) to prevent the; may further include.

Ceiling structure and the construction method of the present invention to increase the workability and space utilization of the present invention, the height adjustment is coupled to the lower portion of the computer bolt, the caring bar fixture is coupled to the height adjustment is possible to adjust the relative height There is an advantage that can be efficiently constructed.

In addition, the caring bar fixtures are coupled to be capable of rotating relative to the height adjustment device to secure the construction according to the conditions of the construction site, there is an additional advantage that can be flexibly adjusted the angle of the caring bar.

Furthermore, the carrying bar fixture has at least one side wall portion integrally formed between the upper and lower flanges so that the carrying bar can be stably fixed without being detached and can form a stable ceiling structure even with the weight of the finishing panel.

In addition, by providing a height adjusting opening penetrates the upper and lower flanges of the carrying bar fixture, at least the space corresponding to the height of the carrying bar can be additionally secured, thereby effectively utilizing the space.

In addition, the anti-rotation openings are provided on the upper and lower flanges to prevent rotation, thereby preventing loosening of the coupling structure.

In another embodiment, it is possible to prevent the rotation by the vibration of the height adjustment sphere by fitting the elastic pressing piece between the computer bolt and the height adjustment sphere.

In addition, the filling member is provided between the upper portion of the carrying bar provided in the carrying bar fixture and the lower portion of the upper flange to prevent the vertical flow of the carrying bar.

And as the pressing bar is formed in the caring bar fixture, it is possible to prevent the separation or flow of the carrying bar.

1 and 2 are perspective views showing the ceiling structure of the prior art.
Figure 3 is a perspective view showing the overall shape of the functional ceiling coupling structure of the present invention.
Figure 4 is an exploded perspective view of the coupling structure according to an embodiment of the present invention.
5 is a perspective view of the coupling structure of the coupling structure according to an embodiment of the present invention.
Figure 6 is a schematic diagram showing the angle adjustment and height adjustment of the coupling structure according to an embodiment of the present invention.
7 is an exploded perspective view of a coupling structure according to another embodiment of the present invention.
8 is a perspective view showing a coupling structure according to another embodiment of the present invention.
9 is a perspective view illustrating a carrying bar fixture according to various embodiments of the present disclosure.
Figure 10 is a perspective view showing a fastening process of the packing member according to an embodiment of the present invention.
Figure 11a is an exploded perspective view of the coupling structure provided with a rotation preventing device according to an embodiment of the present invention.
FIG. 11B is a cross-sectional view illustrating various coupling forms of the coupling structure according to FIG. 11A. FIG.
Figure 12a is an exploded perspective view of the coupling structure provided with a rotation preventing device according to another embodiment of the present invention.
12B is a cross-sectional view illustrating various coupling forms of the coupling structure according to FIG. 12A.
Figure 13a is a perspective view showing the insertion process of the elastic pressing piece according to an embodiment of the present invention.
Figure 13b is a horizontal cross-sectional view showing the insertion process for (a) to (c) of Figure 13a.
14 is a perspective view showing the insertion process of the elastic pressing piece according to another embodiment of the present invention.
Figure 15 is a perspective view showing the insertion process using a filling member according to an embodiment of the present invention.
Figure 16 is a block diagram showing the construction method of the functional ceiling coupling structure of the present invention.

Hereinafter, on the basis of the accompanying drawings will be described in more detail with respect to the ceiling structure (C) and the construction method (M) that increased the workability and space utilization of the present invention.

1 shows a ceiling structure according to the prior art, and FIG. 2 shows a ceiling structure pre- filed by the applicant.

The ceiling structure of the prior art disclosed in FIG. 1 manufactures a hanger by bending a sheet metal, and screw-couples to a computer bolt, but when the load of the finishing panel is heavy, the hanger is curved due to the load or is separated by vibration. There was this.

Furthermore, the applicant's pre- filed ceiling structure disclosed in FIG. 2 has a pair of computer bolts at the top and bottom centers of the connector to implement height adjustment, but easy loosening occurs, and the relative rotation of the hanger is difficult to construct. Degraded.

Above all, the related art related to the ceiling structure has a problem in that the space above the ceiling is unnecessarily wasted by coupling the carrying bar to the bottom of the hanger or by providing a pair of computer bolts through the connector.

Thus, the ceiling structure (C) of the present invention increases the workability and space utilization, the upper end of the computer bolt 10 is fixed to the ceiling structure (SB), as shown in Figure 3, Carrying bar fixture 20 for coupling the carrying bar (CB) at the bottom is coupled, the height adjustment 30 is coupled between the computer bolt 10 and the carrying bar fixture (20).

As shown in FIGS. 4 and 5, the height adjusting opening 30 may have a screw thread 31 formed on an inner circumferential surface thereof so as to be screwed to a lower portion of the computer bolt 10. Therefore, by adjusting the relative coupling degree of the computer bolt 10 and the height adjustment device 30, it is possible to adjust the relative height of the carrying bar fixture 20 coupled to the height adjustment device (30).

As a result, as shown in (b) of FIG. 6, the height of the carrying bar fixture 20 may be adjusted based on the height adjustment device 30 according to the construction site conditions, and thus, the height of the entire ceiling structure C may be adjusted. Can be flexibly controlled and construction property can be secured.

In addition, the height adjustment device 30 may be formed so that the thread 31 is formed only on the upper portion of the inner circumferential surface to reduce the fatigue caused by the manipulation for height adjustment, and the thread is not formed on the lower portion.

On the other hand, the carrying bar fixture 20 can be formed so as to be able to rotate relative to the height adjustment device 30, as shown in Figure 6 (a) efficiency of the height adjustment operation using the height adjustment device (30) It can be expected, and additionally, depending on the placement or direction of the finishing panel coupled to the ceiling structure (C) can optionally adjust the angle of the caring bar fixture 20, based on this coupling to the carrying bar (CB) and the lower part By controlling the direction of the finishing support rail is to be able to flexibly adjust the layout and orientation of the overall finishing panel.

In one embodiment, as shown in Figure 4, the upper flange 21 or the lower flange 22 constituting the carrying bar fixture 20 is formed with a circular control through-hole 24, the control sphere The cylindrical height adjusting device 30 may be provided to penetrate the through hole 24.

At this time, the engaging flange 32 is formed on the outer circumferential surface of the height adjustment device 30 can be coupled to the locking so as to be relatively rotatable from the carrying bar fixture (20). As a result, the operator may carry the caring bar fixture 20 even when the upper flange 21 or the lower flange 22 is engaged with the adjusting hole through-hole 24 by the locking flange 32 of the height adjusting device 30. Rotation of can be made flexible.

Meanwhile, as shown in FIGS. 4 and 7, the carrying bar fixture 20 has at least one sidewall portion 23 integrally formed between the upper flange 21 and the lower flange 22, so that the upper, A space S for providing the carrying bar CB may be provided by the lower flanges 21 and 22 and the sidewalls 23.

Accordingly, as shown in FIG. 8, the carrying bar CB may be stably supported by the upper and lower flanges 21 and 22 and the side wall part 23 constituting the carrying bar fixture 20.

The carrying bar fixture 20 may be manufactured in a wide variety of shapes according to the arrangement or number of the upper and lower flanges 21 and 22 and the side wall 23. In an embodiment, the side wall portions 23 may be formed between the upper and lower flanges 21 and 22, respectively, to form a rectangular cross section. In another embodiment, one side wall portion 23 may be formed at one end. It can also be made to have a 'c' shaped cross section by forming a bay. At this time, by adjusting the through hole 24 in the upper and lower flanges 21 and 22, the height adjusting opening 30 is provided to pass through the upper and lower flanges 21 and 22, the height The additional amount of space corresponding to the length of the control opening 30 can be additionally secured, so there is an advantage in that the efficient use of space is possible.

In addition, the side of the side wall portion 23 is provided with a carrying bar (CB) on one side, the other side by adjusting the through hole 24 in the upper and lower flanges 21, 22 to form a height adjustment port 30 ) May be formed to penetrate.

In this case, as shown in FIG. 7, the lower flange 22 includes a mounting flange 22a and a height adjusting device 30 for providing a carrying bar CB about one side wall portion 23. A coupling flange 22b for coupling may be formed by changing a relative height of the mounting flange 22a.

By increasing the relative height of the mounting flange (22a) and the coupling flange (22b) corresponding to the height of the locking flange 32 formed on the lower end of the height adjustment device 30 can be expected to improve the space utilization have. In addition, since the locking flange 32 does not protrude to the lower portion of the mounting flange 22a, in order to prevent interference with the height adjustment hole 30 in coupling the finishing support rail, etc., thereby improving workability. Can be.

In addition, as shown in (b) of FIG. 9, at the end of the mounting flange 22a, the locking sidewall portion 23a may be formed only at a height such that the carrying bar CB is not separated. As a result, the carrying bar CB may be more easily provided, but it may have a stable fixing effect.

In this case, as shown in FIG. 10, a slit 21a is formed in the upper flange 21 to block the slit 21a so that the open part OP provided at an upper portion of the engaging side wall part 23a is blocked. The piece 26 may be inserted detachably.

That is, by selectively inserting or separating the blocking piece 26 into the slit 21a, the opening part OP may be blocked or opened, and the carrying bar CB is stably fixed while the carrying bar ( CB) It is possible to secure workability of mounting. The blocking piece 26 may be integrally formed with the locking piece 26a so that the blocking piece 26 may be fixed to the upper flange 21 while being inserted into the slit 21a.

In addition, as shown in (b) of FIGS. 11A and 11B, a plurality of pin holes 32a are formed in the locking flange 32 of the height adjustment opening 30, and the locking flange 32 is provided with a hook. A plurality of pin holes 21c and 22c may also be formed in the upper flange 21 or the lower flange 22 at positions corresponding to the pin holes 32a.

As a result, a more stable rotation prevention may be expected by inserting a fixing pin P to penetrate through the pin holes 21c and 22c of the upper flange 21 or the lower flange 22 and the pin hole 32a of the locking flange 32. When the fixing pin (P) is formed of a metal material, the end may be bent after penetrating through the pin hole, thereby achieving a more robust construction.

On the other hand, the ceiling structure (C) of the present invention, as shown in Figure 11a to 12b is provided with a rotation preventing device between the caring bar fixture 20 and the height adjustment device 30 is the caring bar fixture 20 And relative rotation between the height adjustment port 30 can be prevented.

Specifically, the locking flange 32 of the height adjustment device 30 is formed in a regular polygonal shape, the anti-rotation tool between the inner side wall portion 23 of the carrying bar fixture 20 and the outer diameter of the locking flange 32 Is provided to prevent the relative rotation of the caring bar fixture 20 and the height adjustment device (30).

 As shown in FIGS. 11A and 11B, the anti-rotation tool 40 according to an embodiment includes a locking flange 32 at a lower portion of the 'C'-shaped guide piece 41 so that the height adjustment hole 30 is guided inward. The fitting piece 42 is integrally formed to surround the side surface of the cover), and the guide piece 41 is provided between the upper flange 21 of the carrying bar fixture 20 and the upper surface of the locking flange 32. The fitting piece 42 may be provided between the inner side of the side wall portion 23 of the carrying bar fixture 20 and the side surface of the locking flange 32.

At this time, the engaging flange 32 is formed in a regular polygonal shape is provided with a relatively large long diameter portion (D1) and a small radius of the short diameter portion (D2), the thickness t of the fitting piece 42 of the rotation preventing device (t) ) May be formed thicker than the distance s from the center of the locking flange 32 to the inner side of the side wall portion 23 and the length difference between the long diameter portion D1 and thinner than the difference between the lengths of the short diameter portion D2. have.

As a result, the free space through which the locking flange 32 can be rotated is not secured by the thickness t of the fitting piece 42 of the anti-rotation tool 40, and the caring bar fixture 20 and the height adjusting device ( It is possible to prevent loosening due to relative rotation of 30).

In addition, the fitting piece 42 formed integrally with the lower portion of the guide piece 41 of the rotation preventing device 40 may be formed only on a pair of facing surfaces facing the side wall portion 23, It may be manufactured to facilitate the fitting of the anti-rotation opening 40 in the space-time so as to form all.

Furthermore, by extending one end of the guide piece 41 to form an extension portion 41a, the guide piece 41 is formed between the carrying bar fixing tool 20 and the locking flange 32 of the height adjusting device 30. After the insertion, the extension part 41a is bent downward to prevent separation and separation in the reverse direction.

On the other hand, as shown in (a) of Figure 12b may be provided with a rotation preventing device 40, by using a fixing pin (P) instead of the rotation preventing device 40, as shown in (b) it can be made a fixed force.

The rotation preventing device 50 according to another embodiment will be described. 12A and 12B, the clip piece 51 of the anti-rotation tool 50 is formed with a guide groove 51a into which the upper flange 21 of the carrying bar fixture 20 is inserted and caught on the upper portion. The portion 51b may be formed, and the anti-rotation portion 51c may be formed at the lower portion thereof.

Thus, the engaging portion 51b is provided on the upper surface of the upper flange 21 of the carrying bar fixture 20, and the inside of the side wall portion 23 of the carrying bar fixture 20 and the engaging flange 32 An anti-rotation part 51c may be provided between the side surfaces.

At this time, the engaging flange 32 is formed in a regular polygonal shape is provided with a relatively large long diameter portion (D1) and a small radius of the short diameter portion (D2), the rotation preventing portion (51c) of the rotation preventing device (50) ), The thickness t is formed thicker than the distance s from the center of the locking flange 32 to the inner side of the side wall portion 20 and the length of the long diameter portion D1, and the length difference of the short diameter portion D2. It can be formed rather thin, thereby, the free space for the locking flange 32 can be rotated by the thickness (t) of the anti-rotation portion (51c) is not secured caring bar fixtures 20 and height adjustment ( It is possible to prevent loosening due to relative rotation of 30).

In addition, the pressing piece 52 is bent at the other side of the rotation preventing device 50 so that the operator can easily insert the rotation preventing device 50 by only pressing the pressing piece 52. Therefore, the pressing piece 52 is preferably formed perpendicular to the overall longitudinal direction of the clip piece 51.

On the other hand, as shown in Figure 12b (b) is provided with a rotation preventing device 50 and at the same time the fixing pin (P) is used together to achieve a more firm fixing force.

13A and 13B are perspective views illustrating an insertion process of the elastic pressing piece 60 and elasticity through opening holes 33 between the threaded bolts 10 and the height adjustment holes 30 as shown in the cross-sectional view. The pressing piece 60 is fitted to be coupled to the rotation of the height adjustment port 30 by the pressing force of the elastic pressing piece 60 can be prevented.

The elastic pressing piece 60 may be inserted through a portion in which the thread 31 is not formed on the inner circumferential surface of the height adjusting opening 30 in which the opening hole 33 is formed, and the elastic pressing piece 60 is computerized. It is deformed in a round shape along the shape between the bolt 10 and the inner circumferential surface of the height adjustment device 30, and the pressing force is naturally applied by the deformation of the elastic pressing piece 60 to prevent rotation of the height adjustment device 30. You can do it.

At this time, the locking jaw 34 may be formed on the inner circumferential surface of the height adjusting opening 30 into which the elastic pressing piece 60 is inserted so that the elastic pressing piece 60 may be inserted in the horizontal direction. The locking step 34 may be formed at a height corresponding to the width of the elastic pressing piece 60 along the inner circumferential surface.

And the one side of the elastic pressing piece 60 is formed integrally with the insertion portion 61 of the curved shape to facilitate the fitting, and functions to easily fit the elastic pressing piece 60 in the insertion process. In addition, a stable pressing force can be secured when fitting based on the curved shape.

In addition, the pressing piece 62 is bent on the other side of the elastic pressing piece 60 so that the operator can easily insert the elastic pressing piece 60 only by pressing the pressing piece 62. Therefore, the pressing piece 62 is preferably formed perpendicular to the overall longitudinal direction of the elastic pressing piece 60.

In addition, a friction forming part 63 may be formed on at least one surface of the elastic pressing piece 60 so as to secure a frictional force with the inner circumferential surface of the computer bolt 10 or the height adjusting opening 30. The friction forming unit 63 may be formed of a material capable of forming a frictional force, or may form irregularities to impart additional frictional resistance to separation and detachment due to the pressing force, thereby preventing relative rotation of the height adjustment device 30. .

In addition, as shown in FIG. 14, a fitting hole 35 may be formed to allow the elastic pressing piece 60 to be inserted into the height adjusting opening 30, and may be elastic through the fitting hole 35. The pressing piece 60 is fitted to be coupled to the rotation of the height adjustment port 30 by the pressing force of the elastic pressing piece 60 can be prevented.

Insertion portion 61 of the curved shape of the elastic pressing piece 60 functions to ensure a stable pressing force when fitting the fitting hole 35, the pressing piece 62 bent at one end is the operator Only the pressing step from the top to the bottom to facilitate the insertion of the elastic pressing piece (60).

On the other hand, in the carrying bar fixture 20 so that a plurality of carrying bar fixtures 20 through the carrying bar (CB), the carrying bar fixture 20 is slipped from the carrying bar (CB) In order to prevent that, the pressing fixture 25 may be formed on the side wall portion 23 of the carrying bar fixture 20.

In addition, although not shown in the figure, the carrying bar (CB) is a clip of the carrying bar (CB) to secure the coupling force of the clip connecting to the finishing support rail, such as embar (M-bar) or T-bar (T-bar) One or more acute angles may be formed at the upper edge to be coupled thereto.

Protruding portions 25a or friction pads 25b are formed in the pressing fixture 25 so that the carrying bar fixture 20 is stably fixed to the carrying bar CB without being separated from the carrying bar CB. It can be manufactured as possible. In addition, when the carrying bar fixture 20 is formed to have a rectangular cross section by the locking flange 32 of the height adjustment hole 30 is fixed to the adjusting hole through hole 24 formed in the upper flange 21 The caring bar fixture 20 may be manufactured to be fitted onto the caring bar CB.

In addition, a filling member 70 having a height corresponding to an upper portion between the upper portion of the carrying bar CB and the lower portion of the upper flange 21 provided in the space S of the carrying bar fixture 20 is provided. It can be constructed to prevent the up and down flow of (CB).

The filling member 70 may be made of a metal material or a synthetic resin having a predetermined rigidity, and may be implemented to be combined by an interference fit by elastic deformation. When manufactured from a material having rigidity, it may be manufactured in various shapes.

As an example, as shown in FIG. 15, the filling member 70 may have a locking piece 71 formed at one end thereof, and the other side 72 may be manufactured to deform the shape. That is, the locking piece 71 is fixed to the side wall portion 23 of the carrying bar fixture 20, the other side 72 passes between the upper portion of the carrying bar (CB) and the lower portion of the upper flange 21, the other side. It can be bent so as to be caught by the side wall portion 23.

On the other hand, the engaging flange 32 of the height adjustment port 30 may be provided between the upper flange 21 and the carrying bar (CB) of the carrying bar fixture 20. In this case, the height of the filling member 70 may be manufactured corresponding to the height between the lower portion of the locking flange 32 and the upper portion of the carrying bar CB, or may be provided to avoid the locking flange 32.

In another embodiment, when the material is made of elastically deformed material, the filling member 70 is inserted through the opening to fill the space between the upper portion of the carrying bar CB and the lower portion of the upper flange 21 so as to fill up and down flow. Can be prevented.

On the other hand, the construction method (M) for forming the ceiling structure (C) to increase the workability and space utilization of the present invention, as shown in the block diagram of FIG. It may include a provision step (S20), the temporary coupling step (S30) and the fine adjustment step (S40).

The height adjusting device provided step (S10) is a step having a height adjusting device 30 so as to pass through the control hole through hole 24 formed in the carrying bar fixing device (20). As described above, the carrying bar fixture 20 may be manufactured in a wide variety of shapes depending on the arrangement or the number of the upper and lower flanges 21 and 22 and the side wall 23, but the upper and lower flanges 21 Adjuster through hole 24 is formed in the (22).

Accordingly, the height adjusting device 30 is provided to pass through the control hole through-hole 24 formed in the upper flange 21 or the lower flange 22, the locking flange 32 of the height adjusting device 30 is upper , It is coupled so as to be caught by the lower flange (21, 22).

After the height adjustment sphere provided step (S10) may include a carrying bar provided step (S20) for fixing the carrying bar (CB) to the carrying bar fixture (20). The carrying bar provided step (S20) is a step of fixing the carrying bar (CB) for coupling the finishing support rail to be seated on the carrying bar fixture (20).

In general, one carrying bar (CB) is fixed by a plurality of carrying bar fixtures 20, the carrying bar (CB) so as to pass through a plurality of carrying bar fixtures 20 is provided with a height adjustment (30). It is provided.

After the temporary coupling step (S30) is a step of temporarily coupling the height adjustment device 30 is coupled to the carrying bar fixture 20 to the lower portion of the computerized bolt 10 is fixed to the ceiling structure (SB) in advance.

A thread 31 is formed on the inner surface of the height adjustment port 30 to screw the threaded bolt 10. At this time, since it is difficult to specify the exact position in the vertical direction in consideration of the coupling of the finishing panel, it remains maintained once temporarily coupled.

After the temporary coupling step S30, a fine adjustment step S40 is performed. The fine adjustment step (S40) is a step of adjusting the height adjustment device 30 so that the carrying bar fixture 20 is provided in place.

On the other hand, the filling member 70 having a height corresponding between the upper portion of the carrying bar (CB) and the lower portion of the upper flange 21 provided in the carrying bar fixture 20 is provided to the upper and lower of the carrying bar (CB) Filling member coupling step (S50) to prevent flow may be further included.

In addition, after the fine adjustment step (S40) or the filling member coupling step (S50), the side wall portion 23 of the carrying bar fixture 20 to prevent loosening so that the height adjustment device 30 does not rotate Carrying bar fixture fixing step (S60) for preventing the rotation of the carrying bar fixture 20 by seating the anti-rotation device between the inner side and the side of the locking flange 32 may be further included.

Rotating stopper 40 according to one embodiment is fitted to the side of the locking flange 32 to the lower side of the '' 'shaped guide piece 41 so that the height adjustment hole 30 is guided inwardly (42) In another embodiment, the anti-rotation tool 50 may include a guide groove 51a in which the upper flange 21 of the carrying bar fixture 20 is inserted into the clip piece 51, and the locking portion 50 is disposed on the upper portion. 51b may be formed, and an anti-rotation part 51c may be formed at a lower portion thereof.

For the rotation prevention tool according to the various embodiments described above will not be described in detail.

In addition, the carrying bar fixing fixture fixing step (S60) is omitted, and the elastic pressing piece 60 between the computer bolt 10 and the height adjusting device 30 to prevent loosening so that the height adjustment device 30 does not rotate. ) Is fitted to the height adjustment port fixing step (S70) to prevent the rotation of the height adjustment port 30 by the pressing force of the elastic pressing piece 60 can be carried out.

At this time, the locking jaw 34 is formed on the inner circumferential surface of the height adjustment opening 30 so that the elastic pressing piece 60 can be inserted in the horizontal direction or the fitting hole 35 is formed so as to be inserted in the vertical direction from the top. The fitting press of the elastic pressing piece 60 can be easily made, the one side and the other side of the elastic pressing piece 60 is inserted into the curved portion 61 and the pressing piece 62 to facilitate the fitting It is integrally formed to be bent, so that the elastic pressing piece 60 can be easily inserted in the insertion process.

Of course, both the carrying bar fixing fixture fixing step (S60) and the height adjustment fixture fixing step (S70) may all proceed.

The ceiling structure (C) and the construction method (M) which increased the workability and space utilization according to the present invention described above are those skilled in the art and essential features of the present invention. It will be appreciated that the present invention may be embodied in other specific forms without modification.

Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the following claims rather than the foregoing description, and the meanings of the claims and All changes or modifications derived from the scope and equivalent concept should be construed as being included in the scope of the present invention.

Claims (14)

The upper end of the computerized bolt 10 is fixed to the ceiling structure (SB), and the ceiling structure (C) to which the carrying bar fixture 20 for coupling the carrying bar (CB) to the lower end of the computerized bolt (10) is coupled. In
A height adjusting device 30 having a thread 31 formed on an inner circumferential surface thereof is coupled to a lower portion of the computer bolt 10, and a carrying bar fixing device 20 is coupled to the height adjusting device 30 so that the carrying bar fixing device 20 is provided. Ceiling structure with increased workability and space usability, characterized in that the relative height of the) is formed to be adjustable. The method of claim 1,
The carrying bar fixture 20 has at least one side wall portion 23 formed between the upper flange 21 and the lower flange 22, so that the upper and lower flanges 21 and 22 and the side wall portion 23 By the space portion (S) for providing a carrying bar (CB) is provided by the ceiling structure with increased workability and space usability. The method of claim 2,
The upper flange 21 or the lower flange 22 of the caring bar fixture 20 is formed with a circular adjustment hole through hole 24, the cylindrical height adjustment hole (through) through the control hole through hole 24 ( 30 is provided, the outer circumferential surface of the height adjustment device 30 is formed with a locking flange 32 is rotatable from the carrying bar fixture 20 is coupled to the construction that is coupled to enable height adjustment Ceiling structure with increased space utilization. The method of claim 3,
The lower flange 22 is a coupling flange 22b for coupling the height adjusting device 30 with a mounting flange 22a for providing a carrying bar CB around one side wall portion 23. Is formed by varying the height relative to the mounting flange (22a), the workability, characterized in that the locking flange 32 of the height adjustment opening (30) does not protrude to the bottom of the mounting flange (22a) Ceiling structure with increased space and space utilization. The method of claim 3,
A separation prevention device is provided between the inner sidewall portion 23 of the carrying bar fixture 20 and the outer diameter of the locking flange 32 to prevent relative rotation of the carrying bar fixture 20 and the height adjusting device 30. Ceiling structure with increased construction and space utilization. The method of claim 5,
The anti-rotation opening 40 is formed with a fitting piece 42 to surround the side of the locking flange 32 to the lower portion of the 'c' shaped guide piece 41 so that the height adjustment port 30 is guided inward, A guide piece 41 is provided between the upper flange 21 of the carrying bar fixture 20 and the upper surface of the engaging flange 32, and the inside of the side wall portion 23 of the carrying bar fixture 20 and the engaging flange. Ceiling structure with increased workability and space usability, characterized in that the fitting piece 42 is provided between the side surfaces of (32). The method of claim 5,
The clip piece 51 of the anti-rotation tool 50 is formed with a guide groove 51a into which the upper flange 21 or the lower flange 22 of the carrying bar fixing tool 20 is inserted, and the engaging portion 51b at the upper portion thereof. Is formed, the anti-rotation portion (51c) is formed on the lower portion, the locking portion 51b is provided on the upper surface of the upper flange 21 of the carrying bar fixture 20, the carrying bar fixture 20 An anti-rotation part (51c) is provided between the inner side of the side wall portion (23) and the side surface of the locking flange (32), the ceiling structure with increased workability and space utilization. The method according to claim 6 or 7,
The engaging flange 32 is formed in a regular polygonal shape is provided with a relatively large long diameter portion (D1) and a small radius of the short diameter portion (D2), the fitting piece 42 or the rotation preventing portion (51c) of the rotation prevention tool ), The thickness t is formed thicker than the distance s from the center of the locking flange 32 to the inner side of the side wall portion 20 and the length of the long diameter portion D1, and the length difference of the short diameter portion D2. The ceiling structure with increased workability and space utilization, characterized in that formed thinner than. The method of claim 2,
The one side wall portion 23 formed in the carrying bar fixture 20 is formed with a locking side wall portion 23a only at a height such that the carrying bar CB is not separated, and the upper flange 21 The slit 21a is formed so that the blocking piece 26 is inserted into the slit 21a to be detachably inserted so that the opening part OP provided at the upper portion of the locking side wall portion 23a is blocked. Ceiling structure with increased space utilization. The method of claim 1,
An elastic pressing piece 60 is fitted between the computing bolt 10 and the height adjusting opening 30 to prevent rotation of the height adjusting opening 30 by the pressing force of the elastic pressing piece 60. Ceiling structure with increased construction and space utilization. The method of claim 10,
One side of the elastic pressing piece (60) is a ceiling structure with increased workability and space usability, characterized in that the insertion portion 61 is formed integrally curved. The method of claim 2,
A filling member 70 having a height corresponding to an upper portion of the carrying bar CB provided in the space S of the carrying bar fixture 20 and a lower portion of the upper flange 21 is provided, and the carrying bar CB. Ceiling structure with increased workability and space utilization, characterized in that the vertical flow of the) is prevented. A height adjusting tool providing step (S10) having a height adjusting tool (30) to penetrate the adjusting tool through hole (24) formed in the caring bar fixing tool (20);
Carrying bar provided step (S20) having a carrying bar (CB) to pass through the plurality of carrying bar fixtures 20 is provided with the height adjustment (30);
Provisional coupling step (S30) for temporarily coupling the height adjustment port 30 to the lower portion of the computer bolt 10 is fixed to the ceiling structure (SB) in advance; And
Fine adjustment step (S40) for fine-tuning the height adjustment device 30 so that the caring bar fixture 20 is provided in place;
Construction method of the ceiling structure to increase the workability and space utilization, characterized in that it comprises a. The method of claim 13,
A filling member 70 having a height corresponding to an upper portion of the carrying bar CB provided in the carrying bar fixture 20 and a lower portion of the upper flange 21 is provided to increase the vertical flow of the carry bar CB. Preventing filling member coupling step (S50);
Construction method of the ceiling structure to increase the workability and space usability, characterized in that it further comprises.

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