KR20170016628A - Ceiling structure of building constructed by the prefabrication method - Google Patents

Abstract

The present invention relates to a ceiling structure of a building to be constructed by a prefabrication method, and is provided with an electric facility, a duct facility, and a piping facility of the building structure, and the upper frames, the lower frames, A composite frame unit formed in the form of a polyhedron by side frames; And the upper side frame of the composite frame unit may be inserted or drawn out, one side of which is connected to the slab and the other side of which is connected to the upper side frame of the composite frame unit, And a plurality of frame hanger units.

Description

[0001] The present invention relates to a ceiling structure of a building to be constructed by a prefabrication method,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ceiling structure of a building to be constructed by a prefabrication method and more particularly to a ceiling structure for a building to be constructed by a prefabrication method, The present invention relates to a ceiling structure of an architectural structure constructed by a prefabrication method in which a composite frame unit can be easily installed on a slab and a ceiling member can be easily installed.

Generally, buildings of offices, factories, houses, and the like are installed or installed with various kinds of ceilings. Therefore, a structure is installed on the ceiling to support and fix such a facility. Such a ceiling structure usually includes a long bolt suspended from a ceiling front face, a hanger fixed by fastening a bolt to the long bolt, a support frame fixed to the hanger, and fixing bars fixed to the support frame.

When the facility is located or penetrated in the ceiling, the use space of the building is not only disadvantageous, but it is not suitable for the view. Therefore, a ceiling plate is attached to the bottom of the bottom of the ceiling structure. In particular, when the building slab is formed to support the ceiling fixture bars on which the support frame and the ceiling plate are fixed, the ceiling structure is constructed such that the ceiling bolt is buried under the ceiling and the support frame and the fixing bars are assembled and shielded.

These ceiling structures were constructed by laying down the long bolt down the ceiling at uniform intervals and installing a support frame at the gap. At this time, in case that other facilities such as a luminaire and a duct are to be installed on the ceiling, it is necessary to construct a reinforcing frame and reinstall the supporting frame on the reinforcing frame. As a result, it has been pointed out that not only the ceiling frame is damaged at the time of construction but also the construction time is long and the construction cost is increased. In addition, since the hanger is fastened with a nut directly to the ball, the vibration of the building is transmitted to the ceiling structure as it is. Therefore, when an earthquake or other building shakes, the impact is transferred to the hanger, and the ceiling equipments held by the hanger are damaged, And so on.

Korean Patent No. 10-0383792

The present invention relates to a prefabrication method in which a composite frame unit having an electrical installation, a duct installation, and a piping installation can be easily installed on a slab, and a ceiling member can be easily installed, The present invention aims to provide a ceiling structure of an architectural structure to be constructed by a construction method.

According to the present invention, there is provided a building structure to be installed by a prefabrication method, wherein an electrical installation, a duct installation, and a piping installation of the building structure are provided therein, and the upper frames, the lower frames, A composite frame unit formed in a polyhedral shape; And the upper side frame of the composite frame unit may be inserted or drawn out, one side of which is connected to the slab and the other side of which is connected to the upper side frame of the composite frame unit, There is provided a ceiling structure of an architectural structure constructed by a prefabrication method including a plurality of frame hanger units.

The ceiling structure of a building to be constructed by the prefabrication method according to the present invention has the following effects.

First, since the composite frame unit including the electric equipment, the duct equipment, and the piping equipment is only required to be fixed over the frame hanger unit connected to the slab, the installation of the composite frame unit can be simplified.

Second, the ceiling member hanger unit can be easily secured to the composite frame unit.

Third, the composite frame unit can be installed more stably by connecting the wall forming the wall surface of the building structure with the side surface of the composite frame unit by the joining member, and the composite frame unit can be mounted to the frame hanging unit And can be prevented from being broken or damaged.

1 is a perspective view showing a detailed structure of a composite frame unit used in a ceiling structure of a building to be constructed by a prefabrication method according to the present invention.
2 is a partial cross-sectional view illustrating a ceiling structure of a building to be constructed by a prefabrication method according to an embodiment of the present invention.
3 is a perspective view illustrating a composite frame unit and a frame hanger unit of a ceiling structure of a building to be constructed by the prefabrication method according to FIG.
4 to 7 are perspective views showing embodiments of the frame hanging unit according to Fig.
Figs. 8 to 11 are perspective views showing embodiments of the ceiling hanger unit in Fig. 2. Fig.
12 and 13 are perspective views showing the joint member according to FIG.
Fig. 14 shows an example of the construction of the composite frame unit, the ceiling member and the wall by the frame hanger unit, the ceiling hanger unit and the joining member.

1 to 14 show a ceiling structure of a building to be constructed by the prefabrication method according to the present invention.

Referring to FIGS. 1 to 14, a ceiling structure of a building to be constructed according to a prefabrication method according to an embodiment of the present invention will be described. A ceiling structure of a building to be constructed by a prefabrication method, The structure includes a composite frame unit 100 and a frame hanger unit 200. [ FIG. 1 shows an embodiment in which the detailed structure of the composite frame unit 100 is provided. As shown in FIG. 1, the composite frame unit 100 is provided with electrical equipment, duct equipment, and piping equipment of a building structure. The frame unit 100 includes a frame hanger unit 200, ). The composite frame unit 100 includes upper frames 110, lower frames 130 and side frames 150 and is formed by them in the form of a rectangular parallelepiped as illustrated in FIG. 3 .

When the composite frame unit 100 is formed in the form of a rectangular parallelepiped as described above, there are many portions that can be fixed when the electric equipment, the duct equipment, and the piping equipment are provided inside the composite frame unit 100 And can be structurally stable, and the electric equipment, the duct equipment and the piping equipment can be installed more conveniently by the operator.

Each of the upper frames 110, each of the lower frames 130 and each of the side frames 150 may have a length (for example, a length) of elongated webs, a direction crossing the web at both ends of the web And a flange (not shown) extending from the flange (not shown).

The frame hanger unit 200 is provided so that the composite frame unit 100 can be fixedly suspended on the slab 1 as described above. More specifically, one side of the frame hanger unit 200 is connected to the slab 1 And the other side is connected to the upper frame 110 of the composite frame unit 100 to support the composite frame unit 100. As the frame hanger unit 200 is partly opened, the composite frame unit 100 can be connected to the frame hanger unit 200 through the opened portion of the frame hanger unit 200, as will be described later in detail. ). ≪ / RTI > In the present invention, as shown in Figs. 4 to 7, the frame hanger unit 200 is configured in various embodiments.

Referring to FIG. 4, the frame hanger unit 200 includes a first anchor bolt 210 and a first support member 230. Referring to FIG. One end of the first anchor bolt 210 is embedded in the slab 1, and the first anchor bolt 210 is elongated in the vertical direction and the first support member 230 is connected to the other side. The first support member 230 is connected to the other side of the first anchor bolt 210 and partially opened so that the composite frame unit 100 can be inserted or withdrawn, (110).

The first support member 230 includes a first horizontal plate 231 having a through hole 231a through which the other side of the first anchor bolt 210 can pass, A first vertical plate 232 extending in a direction intersecting with the first horizontal plate 231 at a front end of the first vertical plate 232, The second vertical plate 233 and the second vertical plate 233 extend in the direction opposite to the first vertical plate 232 at the front ends of the first vertical plate 232 and the second vertical plate 233, And a second vertical plate (234). The first support member 230 is formed in a 'C' shape by the above-described structures.

The second vertical plate 234 is formed to be shorter than the first vertical plate 232 so that a portion (unrepresented) opened between the first horizontal plate 231 and the second vertical plate 234 And the upper frame 110 of the composite frame unit 100 can be inserted or withdrawn through the opened portion (not illustrated). When the upper frame 110 is inserted through the opened portion (unmarked portion), the first vertical plate 232, the second horizontal plate 233, and the second vertical plate 234, And the frame hanger unit 230 can support the composite frame unit 100. [0034]

Meanwhile, when the other end of the first anchor bolt 210 passes through the first horizontal plate 231, the first nut 250 is fastened to the other side of the first anchor bolt 210, 230 are fixed so as not to be separated from the first anchor bolts 210.

5 shows another embodiment of the frame hanger unit 200a. The frame hanger unit 200a shown in FIG. 5 also includes a first anchor bolt 210 and a first support member 230a like the frame hanger unit 200 shown in FIG. Since the first anchor bolts 210 have the same configuration as the first anchor bolts 210 shown in FIG. 4, the same reference numerals are used and description thereof is omitted.

The first support member 230a includes a first horizontal plate 231a having a through hole 231a-1 to allow the other side of the first anchor bolt 210 to pass therethrough, A first vertical plate 232a extending from the front end of the first vertical plate 232a in a direction intersecting the first horizontal plate 231a and a second vertical plate 232b extending from the front end of the first vertical plate 232a in a direction opposite to the first horizontal plate 231a A second vertical plate 234a extending from the front end of the second horizontal plate 233a in a direction opposite to the first vertical plate 232a, The third horizontal plate 235a extending from the front end of the vertical plate 234a in the direction facing the second horizontal plate 233a and the second vertical plate 234a at the front end of the third horizontal plate 235a Extending in a direction opposite to the first vertical play Includes a third vertical plate (236a) is formed shorter than the length (234a). The first support member 230a is formed in the shape of an 'r' character as shown in FIG. 5 by the above-described configurations.

The third vertical plate 236a is formed to be shorter than the second vertical plate 234a so that an opening is formed between the tip of the third vertical plate 236a and the second horizontal plate 233a, And the upper frame 110 of the composite frame unit 100 can be inserted or withdrawn through the opened portion (not shown). The second vertical plate 234a, the third horizontal plate 235a and the third vertical plate 236a enclose the upper frame 110 and in particular by the third vertical plate 236a The frame hanger unit 200a supports the composite frame unit 100 while preventing the upper frame 110 from being separated from the first support member 230a.

6 shows another embodiment of the frame hanger unit 200b. The frame hanger unit 200b shown in FIG. 6 also includes the first anchor bolt 210 and the first support member 230b. The first support member 230b includes a first horizontal plate 231b having a through hole 231b-1 through which the other side of the first anchor bolt 210 can pass, A first vertical plate 232b extending in a direction crossing the first horizontal plate 231b at a front end of the first vertical plate 232b and a second vertical plate 232b extending from the front end of the first vertical plate 232b in a direction facing the first horizontal plate 231b And a second vertical plate 232b extending in a direction opposite to the first vertical plate 232b at a front end of the second horizontal plate 233b and having a length shorter than the length of the first vertical plate 232b And a second vertical plate 234b formed thereon. The first support member 220b may be inserted or withdrawn from the upper frame 110 of the composite frame unit 100 between the first horizontal plate 231b and the second vertical plate 234b (Not shown) is formed.

Meanwhile, the first support member 230b according to the present embodiment is hinged to be rotatable on the other end of the first horizontal plate 231b. When the first support member 230b is rotated in a direction facing the first vertical plate 232b, And a third vertical plate 235b for shielding the open portion (not marked) between the first horizontal plate 231b and the second vertical plate 234b.

The third vertical plate 235b is hinged to the other end of the first horizontal plate 231b so as to be rotatable so that the third vertical plate 235b is rotated to rotate the opened portion The upper frame 110 of the composite frame unit 100 is inserted into or withdrawn from the first support member 230b in an opened state and then the third vertical plate 235b is rotated again, (Not shown) can be shielded.

The frame hanger unit 200b according to the present embodiment can shield the opened portion (unrepresented) by the third vertical plate 235b which is rotatably hinged, and in particular, the composite frame unit 110 The upper frame 110 can be more effectively prevented from being separated from the first support member 230b when the upper frame 110 of the upper frame 110 is inserted into the frame hanger unit 200b.

7 shows another embodiment of the frame hanger unit 200 '. Particularly, the frame hanger unit 200 'shown in FIG. 7 is a modified embodiment of the frame hanger unit 200 shown in FIG. 4, wherein the frame hanger unit 200' 210, the first support member 230, and the length adjusting member 240. Here, the first anchor bolt 210 and the first supporting member 230 have the same configuration as the frame hanger unit 200 shown in FIG. 4 and will not be described in detail.

The length adjusting member 240 is provided between the first anchor bolt 210 and the first supporting member 230 and is coupled to the first supporting member 230 by a fastening member 260. The length of the length adjusting member 240 is adjusted between the first anchor bolt 210 and the first supporting member 230 so that the distance that the composite frame unit 100 is separated from the slab 1 is adjusted . That is, at least one length adjusting member 240 is provided between the first anchor bolt 210 and the first supporting member 230, and the length adjusting member 240 is provided between the first anchor bolt 210 and the first supporting member 230, 1 are spaced apart from each other. In this embodiment, one length adjusting member 240 is provided as an example.

The length adjusting member 240 may include a third horizontal plate 241a having a second through hole 241a through which the other side of the first anchor bolt 210 can pass, A third vertical plate 242 extending from the front end of the third horizontal plate 241 in a direction intersecting the third horizontal plate 241 and a third vertical plate 242 extending from the front end of the third vertical plate 242, And a fourth horizontal plate 243 extending in a direction opposite to the third horizontal plate. The first horizontal plate 233 and the second horizontal plate 243 are coupled to the first horizontal plate 231 and the second horizontal plate 233 so that the first support member 230 and the length adjustment member 240 can be coupled by the coupling member 260, A third through hole (not shown) corresponding to the first through hole is formed.

That is, when the length adjusting member 240 is disposed on the first supporting member 230, the coupling member 260 may pass through the third through hole (not shown) and the first through hole The first supporting member 230 and the length adjusting member 240 are engaged with each other. The fastening members 260 illustratively include, but are not limited to, bolts 261, washers 263, and nuts.

As described above. In the present invention, since the frame hanger unit is applied to various embodiments as shown in Figs. 4 to 7, when the building structure is constructed by a prefabrication method, the frame hanger unit suitable for an indoor structure is selectively Can be applied.

Meanwhile, the ceiling structure of the building to be constructed by the prefabrication method according to the present invention further includes a ceiling hanger unit and a joining member. The ceiling hanger unit 300 includes a ceiling member 10 which is spaced apart from the slab 1 by a predetermined interval and shields the composite frame unit 100 from exposure so as to form an indoor space ceiling of the building structure, One side of which is connected to the lower frame 130 of the composite frame unit 100 and the other side of which is connected to the ceiling member 10 to support the ceiling member 10 .

The ceiling hanger unit may be applied to various embodiments as shown in Figs. 8 to 11. Fig. Referring to FIGS. 8 and 9, the ceiling hanger unit 300 includes a fastening member 310 and a slide member 330. As described above, the lower frame 130 includes a web (not shown) and a flange (not shown), and the fixing member 310 is fixed to one of the flanges of the lower frame 130 do. The fastening member 310 includes a body 310. The fastening member 310 is inserted into a flange of one of the flanges of the lower frame 130 at one side of the body 310 ' The grooves 311 are formed. A plurality of holes 312 are formed at the other side of the body 310 so as to be spaced along the longitudinal direction of the body 310 ' The protrusions 313 are provided so that the slide member 330 can be engaged and fixed.

When the elastic member 315 is connected to the elastic member 315 and the external force is applied to the elastic member 315, the elastic member 315 is compressed, The protrusions 313 are inserted into the holes 312. When the external force is removed, the protrusions 313 protrude from the inside of the holes 312 while the elastic members 315 are stretched. The elastic member 315 is illustratively a spring, but is not limited thereto.

When the slide member 330 is engaged with the lower protrusions 313 as shown in FIG. 9, for example, when the slide member 330 is engaged with the latching member 310, The protrusions 313 may be inserted into the holes 312 when an external force is applied as described above so that an external force is applied to the third protrusions 313, And the protrusions 313 can be inserted into the holes 312.

The slide member 330 is engaged with the protrusions 313 of the fastening member 310 and is guided by the protrusions 313 to reciprocate horizontally. The slide member 330 may be formed as shown in FIG. 8, or a known M-bar may be applied. In the present embodiment, since the slide member 330 is applied as the M-bar, a detailed description of the shape of the slide member 330 will be omitted.

The ceiling member 10 is coupled to the slide member 330 and the slide member 330 to which the ceiling member 10 is coupled is guided by the protrusions 313 of the retaining member 310, So that the position of the ceiling member 10 can be adjusted. In addition, the height at which the ceiling member 10 is installed can be adjusted according to the position of the protrusions 313 to which the slide member 330 coupled with the ceiling member 10 is fixed.

10 and 11 show the ceiling hanger unit 300a according to another embodiment. 10 and 11, the ceiling hanger unit 300a has the same structure as that of the slide member 330 included in the ceiling hanger unit 300 shown in Figs. 8 and 9 . Therefore, the same reference numerals as those of the above-described embodiment are used for the slide member 330, and a detailed description thereof will be omitted.

The ceiling hanger unit 300a according to the present embodiment includes a second anchor bolt 310a, an engagement fixing member 320a, a fixing plate 340a, and a fixing nut 350a. The second anchor bolts 310a are the same as those of the first anchor bolts 210 of the frame hanger unit 200. The coupling and fixing member 320a includes a fourth vertical plate 321, a fifth horizontal plate 322, and a fifth vertical plate 323.

Referring to FIG. 10, the fourth vertical plate 321 is in close contact with one of the flanges of the lower frame 130. The fifth horizontal plate 322 extends from the front end of the fourth vertical plate 321 in a direction intersecting with the fourth vertical plate 321 and has a hole through which the second anchor bolt 310a can pass (Not shown) is formed. The fifth vertical plate 323 extends from the front end of the fifth horizontal plate 322 in a direction opposite to the fourth vertical plate and is in close contact with the flange of the other of the flanges of the lower frame 130 .

The fixing plate 340a is closely attached to the web of the lower frame 130 and is provided to fix the second anchor bolt 310a. In the present embodiment, holes (not shown) having a size larger than the diameter of the second anchor bolts 310a are formed on the web (unrepresented), so that it is difficult to fix the second anchor bolts 310a. Therefore, the fixing plate 340a may be brought into close contact with the web (not marked) so that the second anchor bolt 210a penetrates through the fixing plate 340a and is fixed.

More specifically, the fixing plate 340a is disposed on the web of the lower frame 130, and the engaging and fixing member 300a is disposed on the lower frame 130. [ 320a are disposed on the lower frame 130. The second anchor bolts 310a pass through the joint fixing member 320a and the fixing plate 340a at the same time. At this time, the fixing nut 350a is fastened to one side and the other side of the second anchor bolt 310a, and is fastened between the coupling fixing member 320a and the fixing plate 340a, And the coupling and fixing member 320a can be fixed. At this time, the height of the ceiling hanger unit 300a coupled to the lower frame 130 can be adjusted according to the fastening position of the fixing nuts 350a fastened to the second anchor bolts 310a.

On the other hand, protrusions 324 projecting further in the transverse direction are formed at the tip of the fifth vertical plate 323 of the coupling and fixing member 320a. The slide member 330 is hooked on the protrusions 324 and guided by the protrusions 324 so that the slide member 330 reciprocates in the horizontal direction, The position of the member 10 can be adjusted.

The joint member 400 is provided so that a wall 3 formed to form a wall space of the interior space of the building structure and the composite frame unit 100 can be joined to each other. And the other side is connected to the wall body 3. It should be noted that the joining member 400 is not directly connected to the wall 3 and the wall closure member 30, for example, the gypsum board and the joining member 400, And is coupled to the joining member 400 by a member.

As shown in FIGS. 12 and 13, the joining member 400 may be separately fabricated in an 'H' shape by bending an iron plate, but a known lightweight stud may be applied. In this embodiment, a known lightweight stud is applied to the joining member 400 as an example. The joining member 400 is coupled to the side frame 150 of the composite frame unit 100 by a fastening member 410. The fastening member 410 includes, by way of example, a bolt 411, a washer 412, and a nut 413. When the bolt 411 passes through the joint member 400 and the side frame 150 simultaneously, the washer 412 and the nut 413 are fastened to both sides of the bolt 411, The unit 100 and the joining member 400 are fixed.

As shown in FIG. 14, the height at which the ceiling member 10 is installed may not be all the same. When the ceiling member 10 is installed at a different height, the wall 3 is installed at the center of the interior space and the wall 3 and the composite frame unit 100 are connected to each other by using the bonding member 400, . At this time, the composite frame unit 100 and the wall 3 can mutually complement each other.

The fixing force of the composite frame unit 100 and the building structure is further improved by joining the composite frame unit 100 and the wall 3 forming the walls of the interior space by the joining member 400, The vibrations transmitted to the composite frame unit 100 are minimized to prevent damage to the composite frame unit 100 as well as the roof member 10 connected to the composite frame unit 100 from being damaged or damaged .

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: composite frame unit 110: upper frame
130: lower frame 150: side frame
200, 200a, 200b, 200`: frame hanger unit
210: first anchor bolt
230, 230a, 230b: a first supporting member
240:
300, and 300a: a ceiling hanging hanger unit
310: Retaining member s
310 ': Body 311: Home
313: projection 315: elastic member
330: slide member 310a: second anchor bolt
320a: engagement fastening member 340a: fastening plate
350a: Fixing nut
400: joining member 410: fastening member

Claims (16)

In an architectural structure constructed by a prefabrication method,
A composite frame unit having an electric facility, a duct facility, and a piping facility of the building structure inside and formed in the form of a polyhedron by upper frames, lower frames and side frames; And
The upper frame of the composite frame unit is partially opened so that the upper frame of the composite frame unit can be inserted or withdrawn and the other side is connected to the slab and the other side is connected to the upper frame of the composite frame unit, A ceiling structure of an architectural structure constructed by a prefabrication method including a plurality of frame hanger units. The method according to claim 1,
Wherein each frame hanger unit of the plurality of frame hanger units comprises:
A first anchor bolt, one side of which is embedded in the slab, and the other side of which is protruded to the lower side of the slab and the nut is fastened; And
And a first support member connected to the other side of the anchor bolt to support and support the upper frame so that the upper frame does not come off. The method of claim 2,
Wherein the first support member comprises:
A first horizontal plate having a through hole to allow the other side of the first anchor bolt to pass therethrough;
A first vertical plate extending from a front end of the first horizontal plate in a direction crossing the first horizontal plate;
A second horizontal plate extending from a front end of the first vertical plate in a direction opposite to the first horizontal plate; And
And a second vertical plate extending from a front end of the second horizontal plate in a direction opposite to the first vertical plate, the second vertical plate being shorter than the length of the first vertical plate,
A construction is formed by a prefabrication method in which a portion opened between the other end of the first horizontal plate and the front end of the second vertical plate is formed and the upper frame is inserted or drawn through the opened portion Structure of ceiling structure. The method of claim 3,
Wherein the upper frame is wrapped by the first vertical plate, the second horizontal plate, and the second vertical plate. The method of claim 3,
Wherein the first support member comprises:
And a third vertical plate hinged to the other end of the first horizontal plate and shielding the opened portion when the first vertical plate is rotated in a direction opposite to the first vertical plate. According to a prefabrication method, The ceiling structure of the building structure. The method of claim 2,
Wherein the first support member comprises:
A first horizontal plate having a through hole to allow the other side of the first anchor bolt to pass therethrough;
A first vertical plate extending from a front end of the first horizontal plate in a direction crossing the first horizontal plate;
A second horizontal plate extending from a front end of the first vertical plate in a direction opposite to the first horizontal plate;
A second vertical plate extending from a front end of the second horizontal plate in a direction opposite to the first vertical plate;
A third horizontal plate extending from a front end of the second vertical plate in a direction opposite to the second horizontal plate; And
And a third vertical plate extending in a direction opposite to the second vertical plate at a tip end of the third horizontal plate, the third vertical plate being shorter than the length of the second vertical plate,
And an upper part of the upper frame is inserted or drawn out through the opened part to form an open part between the other end of the second horizontal plate and the front end of the third vertical plate, Structure of ceiling structure. The method of claim 6,
And the upper frame is wrapped by the second vertical plate, the third horizontal plate, and the third vertical plate. The method of claim 3,
Wherein the frame hanger unit comprises:
At least one length adjustment unit provided between the first anchor bolt and the first support member and coupled to the first support member by a fastening member and having at least one or more lengths for adjusting the length of separation of the composite frame unit from the slab, A ceiling structure of an architectural structure constructed by a prefabrication method, The method of claim 8,
The length-
A third horizontal plate having a second through-hole to allow the other side of the first anchor bolt to pass therethrough;
A third vertical plate extending in a direction crossing the third horizontal plate at the tip of the third horizontal plate; And
And a fourth horizontal plate extending in a direction opposite to the third horizontal plate at the tip of the third vertical plate and having a third through-hole corresponding to the first through-hole so that the fastening member can be fastened A ceiling structure of an architectural structure constructed by a prefabrication method. The method according to claim 1,
One side of the slab is connected to a lower frame of the composite frame unit so as to be spaced apart from the slab by a predetermined height so that the composite frame unit is not exposed and a ceiling member provided to form an interior space ceiling of the building structure can be installed And a plurality of ceiling hanger units connected to the ceiling member and supporting the ceiling member. The ceiling structure of the building structure is constructed by a prefabrication method. The method of claim 10,
The lower frame including a web extending long in the horizontal direction and flanges extending in the vertical direction at both ends of the web,
The ceiling hanging hanger unit comprises:
And a plurality of protrusions protruding from the flange when the external force is removed, the protrusions being formed along the height direction, wherein the flange is formed with a groove through which one of the flanges can be inserted. And
And a slide member which is hooked on the protrusions and is guided by the protrusions and reciprocally slid in a horizontal direction, and to which the ceiling plate member is coupled, is constructed by a prefabrication method. The method of claim 11,
And an elastic member that is connected to the protrusions and is compressed to insert the protrusions when the external force is applied and is tensioned so that the protrusions are protruded when the external force is removed, The ceiling structure of an architectural structure constructed by the construction method. The method of claim 11,
The lower frame including a web extending long in the horizontal direction and flanges extending in the vertical direction at both ends of the web,
The ceiling hanging hanger unit comprises:
A second anchor bolt;
A fifth vertical plate extending in a direction intersecting with the fourth vertical plate at the tip of the fourth vertical plate and passing through the second anchor bolt, And a fifth vertical plate extending in a direction opposite to the fourth vertical plate at the tip of the fifth horizontal plate and in close contact with the flange of the other one of the flanges, An engaging and fixing member formed with a plurality of projections;
A fixing plate which is in close contact with the web and through which the second anchor bolt passes;
A plurality of fixing nuts fastened to the second anchor bolt and adapted to adjust and fix the position of the coupling and fixing member disposed on the lower frame; And
And a slide member which is hooked on the protrusions and is guided by the protrusions and reciprocally slid in a horizontal direction, and to which the ceiling plate member is coupled, is constructed by a prefabrication method. The method according to claim 1,
And a joining member connected to the side frame of the composite frame unit and the other side connected to the wall so that the composite frame unit can be joined to the wall provided for forming the wall space of the interior space of the building structure The ceiling structure of an architectural structure constructed by prefabrication method. 15. The method of claim 14,
Wherein the joint member is constructed by a prefabrication method including a lightweight stud. In an architectural structure constructed by a prefabrication method,
And a duct structure and a piping structure of the building structure, and is formed in the form of a rectangular parallelepiped by upper frames, lower frames and side frames, and is supported by frame hanger units, one side of which is connected to the slab. A ceiling structure of an architectural structure to be constructed by a prefabrication method including a composite frame unit.

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