WO2016010201A1 - Fixing bracket for structure, and diy prefabricated structure using same - Google Patents

Abstract

The present invention relates to a fixing bracket for a structure, and a DIY prefabricated structure using the same, and more specifically, enables the upper end of a connection body of a connector, to which a frame is coupled, to have a sloped part formed thereon, which is sloped downward in an outward direction, thereby coupling the frame, which is vertically or horizontally coupled to the connector, to be sloped downward.

Description

Fixing bracket for structure and prefabricated structure using same

The present invention relates to a structure fixing bracket and a DIY prefabricated structure using the same, and more specifically, the inclined portion is formed to be inclined downward in the outward direction on the upper end of the connecting body to which the frame is coupled, the frame is in close contact with the inclined portion By combining configuration, it is possible to facilitate the assembly of the prefabricated structure having a gable-shaped roof, and also separates the connector having a connector for coupling the frame in a vertical and horizontal direction and a slope having an inclined portion for coupling the frame downward in a conventional manner. Since it is not necessary to manufacture each mold, it is possible to significantly reduce the manufacturing cost of the fixing bracket constituting the prefabricated structure, thereby improving productivity, and the inclined portion is formed with a vertical hole through which the upper end of the frame coupled in the vertical direction is inclined. Due to the vertical hole formed in the connector For the purpose of assembling the skeleton structure in addition to use the assembly of the roof-shaped skeleton of Fig it relates to DIY prefabricated structure using a number of fixed brackets and for this structure to be used.

In general, a prefabricated structure is composed of a frame made of steel or synthetic resin to form a hexahedral structure skeleton, and by combining a panel on the outer surface of the structure skeleton awnings, pagora, coffee beans, sperm, simple warehouse , Garages, prefabricated factories, etc. to be installed on the ground.

In order to assemble the frame into a hexahedral shape, both ends of the frame are coupled to the bracket, the bracket is formed in the 'b' and 'T' shape, both sides of the bracket can be fitted to the frame Coupler is formed.

Therefore, since the bracket and the frame are coupled by rotating the bolt in a state in which the frame is fitted to the coupler formed at both ends of the bracket, the assembly time of the prefabricated structure can be expected to be reduced.

However, since the prefabricated structure formed by the cube is formed using the bracket, the aesthetic appearance of the prefabricated structure may not be easy, and the assembly of the prefabricated structure formed by the hexahedron may cause water to collect on the upper surface of the prefabricated structure.

In order to solve this problem, gable-shaped roof is coupled to the upper surface of the structure skeleton formed of a cube.

In order to couple the gable-shaped roof to the upper surface of the structure armature, a triangular frame is manufactured separately and the bracket having a hexahedron with a bracket having an inclined surface that can be coupled to the upper surface of the structure armature or inclinedly coupled to the structure armature. By combining the upper surface of the structure, it is expected that the effect of facilitating the assembly of the gable-shaped roof on the upper surface of the structure skeleton formed of a cube.

However, the problem of the conventional fixed bracket for the structure and the DIY prefabricated structure using the same is that the brackets for the frame is coupled vertically and horizontally, and the bracket for inclined coupling the frame must be manufactured separately, thereby increasing the production cost of the prefabricated structure This caused a problem that the productivity is lowered.

In addition, it is not easy to manufacture a prefabricated structure of various sizes having a gable roof because the gable-shaped roof is combined with the top surface of the structure armature by making and combining a frame formed in a triangular shape on the top surface of the structure armature formed of a hexahedron. In addition, since the frame has to be manufactured in a triangular shape, the assembly time of the prefabricated structure is increased, as well as the manufacturing cost of the prefabricated structure increases.

And because the frame constituting the conventional prefabricated structure is not implemented at all the groove to which the closing panel is coupled, by combining the finishing panel to the frame using screws one by one, the coupling time of the finishing panel is long, as well as beautiful appearance of the prefabricated structure Problems could not be solved.

◆ prior art literature ◆

Patent Application Publication No. 2010-11293.

Patent: No. 1208908.

Patent Application Publication No. 1998-19341.

Therefore, the present invention for solving the above problems is formed by inclined downward in the outward direction inclined to the upper end of the connecting body of the connector to which the frame is coupled, by forming a frame coupled to the connector to be in close contact with the inclined portion, having a gable roof The prefabricated structure can be easily assembled, and the prefabricated structure is not required to be manufactured in a separate mold, respectively, since the connector having the connector for coupling the frame in the vertical and horizontal directions and the connector having the inclined portion for inclining the frame downward in a conventional mold are not required. The manufacturing cost of the fixing bracket constituting the can significantly reduce the productivity can be improved, the inclined portion is formed in the vertical hole through the upper end of the frame coupled in the vertical direction through the vertical hole formed in the inclined portion gabled Structures in addition to the purpose of assembling the roof armature And the providing to Figure DIY prefabricated structure using a number of fixed brackets and for this structure to be used for the purpose of assembling for the purpose.

The present invention for achieving the above object,

In the fixed bracket for the structure comprising a horizontal coupling portion for coupling the frame horizontally, and a vertical coupling portion for coupling the frame vertically, the connector formed on the upper and lower surfaces of the connecting body, respectively,

The upper one side of the connecting body is characterized in that the inclined portion that can be coupled to the connector inclined downward in the frame.

According to the present invention, the inclined portion is formed to be inclined downward in the outward direction at the upper end of the connecting body of the connector to which the frame is coupled, and the frame is coupled to the connector so as to be in close contact with the inclined portion, thereby easily assembling the prefabricated structure having a gable roof. Can be expected, using the connector provided with the inclined portion can be expected to produce the prefabricated structure having a gable-shaped roof DIY (Do it yourself).

In addition, since it is not necessary to manufacture each of the connector having a connector for coupling the frame in the vertical and horizontal direction and the inclined portion for inclining the frame downward in a separate mold as in the prior art, the manufacturing cost of the fixing bracket constituting the prefabricated structure is significantly reduced. Productivity can be improved.

In addition, the inclined portion forms a vertical hole through which the upper end of the frame coupled in the vertical direction passes through the vertical hole formed in the inclined portion. You can expect the effect.

1 is a view showing a fixing bracket for the structure of the present invention

Figure 2 is a cross-sectional view of the fixing bracket for the structure of the present invention.

3 to 8 show another form of the fixing bracket for the structure of the present invention.

Figure 9 is an exploded perspective view showing a DIY prefabricated structure that is a structure using a fixing bracket for the structure of the present invention.

10 is a perspective view showing a DIY prefabricated structure that is a structure using a fixing bracket for the structure of the present invention.

11 to 14 is a view showing a fixing bracket coupled to the DIY prefabricated structure of the present invention.

15 is a partially enlarged perspective view illustrating a state in which a roof armature coupled to the prefabricated structure of the present invention is coupled;

Figure 16 is a cross-sectional view showing the top of the roof armature coupled to the prefabricated structure of the present invention.

Figure 17 is a perspective view showing another form of the fixture constituting the roof skeleton of the present invention.

18 is a partially enlarged perspective view illustrating another form of the guide rail to which the top of the cover plate of the present invention is coupled;

19 is a partially enlarged perspective view showing another form of the guide rail to which the top of the cover plate of the present invention is coupled.

20 is a view showing a support coupled to the prefabricated structure of the present invention.

21 is a view showing the closing connector coupled to the roof frame of the present invention.

2 is a view showing a frame coupled to the prefabricated structure of the present invention.

Figure 23 is a front view showing another form of the roof armature coupled to the prefabricated structure of the present invention.

Figure 24 is a perspective view showing another embodiment of the DIY prefabricated structure is a structure using a fixing bracket for the structure of the present invention.

25 is a cross-sectional view showing a fixing bracket coupled to the DIY prefabricated structure of the present invention.

Figure 26 is a view showing the shade of the DIY prefabricated structure of the present invention.

27 and 28 are views showing another embodiment of the fixing bracket for the structure of the present invention.

29 is a view showing another form of the fixing portion formed in the connector of the present invention.

30 is a view showing a coupling hole capable of coupling the frame in the horizontal direction to the connector of the present invention.

Figure 31 is an exploded perspective view showing a prefabricated structure using another embodiment of the fixing bracket of the present invention.

32 is a front view showing a prefabricated structure using another embodiment of the fixing bracket of the present invention Figure 31 of the present invention.

33 is a partially enlarged cross-sectional view showing a state in which the frame and the roof frame are coupled using the connector of the present invention.

34 is a view showing a state in which the sunshade frame is coupled to the fixing bracket of the present invention.

35 is a view showing a garage as a prefabricated structure using another embodiment of the fixing bracket of the present invention.

36 is a view showing the sperm as a prefabricated structure using another embodiment of the fixing bracket of the present invention.

Figure 37 is an exploded perspective view showing the form of the base coupled to the prefabricated structure is installed using another embodiment of the fixing bracket of the present invention.

38 is a perspective view showing another embodiment of the base of the present invention;

39 shows another form of the fitting rail of the present invention.

◆ Explanation of reference numerals ◆

400: connector, 410: connecting body,

420: horizontal coupling portion, 421: first horizontal coupling portion,

422: second horizontal coupling portion, 430: horizontal plate,

431: inclined portion, 432: vertical hole,

433: open end, 440: coupling wing,

441: ramp, 442: fixed plate,

443: fixing hole, 450: vertical coupling,

451: vertical groove, 460: binding plate,

470, 470a: base, 471: frame fixing,

500: structure armature, 510: roof armature,

520: fastener, 521, 521a: fixed end,

522: fitting groove, 523, 523a: fixing part,

524: fixing groove, 530: guide rail,

531: guide groove, 532: fitting,

533,533a: bolt hole, 540: support,

540a: support body, 541: fixed wing,

542: reinforcing pipe coupler, 550: cover plate,

560: frame, 561: rail groove,

570; Roof frame, 580: reinforcement frame,

590: finishing panel, 591: finishing part,

592: horizontal panel, 1000: connector,

1001: first connector, 1002: second connector,

1100: connecting body, 1101: connecting end,

1102: fitting groove, 1103: vertical groove,

1104: locking groove, 1105: coupling groove,

1106: coupling hole, 1200: fixing part,

1210: first fixed body, 1220: second fixed body,

1221: horizontal plate, 1222: opening end,

1230: third fixed body, 1300: fitting rail,

1310: coupling, 1320: fitting,

1321: vertical end, 1322: hanging end,

The present invention relates to a structure fixing bracket and a DIY prefabricated structure using the same, the inclined portion is formed to be inclined downward in the outward direction on the upper end of the connecting body of the connector to which the frame is coupled, the frame is coupled to the connector to be in close contact with the inclined portion gable It relates to a fixed bracket for the structure to facilitate the assembly of the roof and DIY prefabricated structure using the same.

Hereinafter, a preferred embodiment of the present invention will be described with reference to FIGS. 1 to 39.

According to the present invention, the inclined portion 431 is formed in the connector 400 to which the frame 560 is vertically or horizontally coupled, thereby allowing the frame 560 coupled to the connector 400 to be inclined downward in an outward direction. It is possible to improve productivity by reducing the assembly time and manufacturing cost of the prefabricated structure having a roof.

1 illustrates a connector 400 of the present invention.

The connector 400 has a connecting body 410 is formed to protrude the vertical coupling portion 450 in the lower portion to the frame 560 in the vertical groove 451 formed on the inner side of the vertical coupling portion 450 as shown in FIG. Join in a vertical position.

A horizontal coupling part 420 is formed on the upper portion of the connection body 410 to couple the frame 560 in the horizontal direction as shown in FIG. 2.

The horizontal coupling portion 420 is composed of a first horizontal coupling portion 421 and a second horizontal coupling portion 422 so that the frame 560 can be orthogonally coupled as shown in FIG.

The first horizontal coupling portion 421 is formed to be biased to the center or one side of the upper surface of the connecting body 410, the first horizontal coupling portion 421 by sliding the frame 56 from the top to the sliding movement A horizontal plate 430 having an opening end 433 is formed to be coupled to each other.

The inclined portion 431 is formed to be inclined downward in the interior of the first horizontal coupling portion 421 having the horizontal plate 430 formed as described above, and the upper end of the inclined portion 431 is shown in FIG. It is formed to be connected to the upper end of the horizontal plate 430, the lower end of the inclined portion 431 is formed to be connected to one end of the connection body 410.

Therefore, since the inclined portion 431 is formed inside the first horizontal coupling portion 421, the frame 560 coupled to the inside of the first horizontal coupling portion 421 by the inclined portion 431 is the outer side. It can be coupled inclined downward in the direction because of this it is possible to install a gable-shaped roof on the upper surface of the structure skeleton 500 as shown in FIG.

The second horizontal coupling part 422 is formed on one side or both sides of the first horizontal coupling part 421 provided with the inclined part 431 therein.

The second horizontal coupling part 422 has a horizontal plate 430 having an opening end 433 formed thereon so that the frame 560 can be fitted from the top like the first horizontal coupling part 421. will be.

In this way, the first and second horizontal coupling portions 421 and 422 forming the horizontal coupling portion 420 are formed with a horizontal plate 430 having an opening end 433, and the opening end 433. The structure skeleton 500 made of a hexahedron as shown in FIG. 9 because the frame 560 is coupled inward while the frame 560 is fitted inside the first and second horizontal coupling parts 421 and 422 through the frame 560. The last frame 560 can be easily combined.

In addition, the inside of the first horizontal coupling portion 421 further forms a slope inclined downward in the outward direction to form a gable-shaped roof by using the frame 560 coupled to the slope 431. Assembling of the prefabricated structure having can be facilitated.

At this time, the first and the second horizontal coupling portion 421, 422 is formed on the surface facing the coupling plate 460 further, the horizontal panel 592 to the coupling plate 460 is configured to form a hexahedron The structure skeleton 500 is coupled to the ceiling to the bottom plate by using a horizontal panel 592 coupled to the upper and lower surfaces to facilitate the coupling of the horizontal panel 592 used as the ceiling panel to the bottom panel.

3 and 4 is a frame configured to be coupled to the inclined portion 431 due to the coupling blade 440 to form a vertical coupling blade 440 at the upper end in the horizontal coupling portion 420 having the inclined portion 431 560 is to increase the bonding force.

The coupling blade 440 is formed to protrude on the upper end of the first horizontal coupling portion 421, which is a horizontal coupling portion 420, the inclined portion 431 is formed, as shown in Figure 3 (a), the coupling blade 440 Of the frame 560 coupled to the connector 400 as shown in (b) of FIG. 3 due to the inclined end 441 to form an inclined end 441 formed at the same angle as the inclined portion 431 The top of the prefabricated structure can be beautifully prevented from being exposed to the outside in advance.

At this time, since the fixing plate 442 is further formed on the inner upper portion of the coupling blade 440 as shown in FIG. 4A, the fixing plate 442 formed on the inner upper side of the coupling blade 440 when the frame 560 is coupled. Due to this, the frame 560 may be coupled to penetrate the fixing hole 443, which may increase the coupling force of the frame 560 coupled to the connector 400, as well as the inclined frame 560. ) Can be expected to be effective to prevent the separation through the upper surface of the connector 400.

5 and 6 illustrate the formation of the vertical hole 432 in the inclined portion 431 of the connector 400.

In the vertical hole 432 formed in the inclined portion 431, as shown in FIGS. 5A and 5B, the vertical coupling portion 450 formed at the lower portion of the connecting body 410 communicates with the vertical groove 451. To form.

As such, the frame coupled to the connector 400 is coupled to penetrate the vertical groove 451 and the inclined portion 431 as shown in (a) of FIG. 6, or the frame 560 is inclined as shown in (b) of FIG. 6. By being coupled to the 400, not only can be used as a connector 400 constituting the structure skeleton 500 as shown in Figure 10 (a), as well as a gable-shaped roof skeleton coupled to the upper surface of the structure skeleton 500 ) Can be used to assemble.

That is, by coupling the frame 560 to be penetrated, as shown in FIG. 9, the frame 560 of the structure skeleton 500 made of a hexahedron may be used for horizontal or vertical coupling, as shown in FIG. 10. Coupling the roof frame 57 to be in close contact with the inclined portion 431 structure gasket-shaped roof skeleton 510 can be configured to combine the structure armature 500 with the upper surface manufacturing cost of the connector 400 is manufactured mold While it can significantly reduce the assembly time can be expected to reduce the assembly time of the prefabricated structure.

(A) and (b) of FIG. 7 illustrate another form of the connector 400, and the opening end 433 is formed on both sides of the upper surface of the second horizontal coupling portion 422 constituting the horizontal coupling portion 420. ) Is provided with a horizontal plate (430).

As such, by forming the horizontal plate 430 having the open ends 433 at both sides in the second horizontal coupler 422, the state in which the end of the frame 560 coupled horizontally is visually confirmed is assembled. The structure can be assembled firmly.

FIG. 8 illustrates that second horizontal coupling portions 422 are formed on both sides of the first horizontal coupling portions 421 constituting the horizontal coupling portions 420 of the present invention.

By forming the second horizontal coupling portion 422 symmetrically on both sides of the first horizontal coupling portion 421, and coupling the frame 560 to the second horizontal coupling portion 422 in the horizontal direction, The frame 560 coupled in the horizontal direction as described above can be continuously coupled using the connector 400, and thus can be provided by assembling prefabricated structures of various sizes desired by the consumer, and also having a large prefabricated structure. Is installed on the ground in both directions by using the connector 400 is provided with the second horizontal coupling portion 422 in both directions to reinforce the assembly strength of the prefabricated structure, it is not easy to damage the prefabricated structure by external shocks Can be expected to prevent the effect.

9 to 23 illustrate a prefabricated structure, a sperm, a shed, a garage, a prefabricated factory, and a prefabricated housing, which are prefabricated structures having a gable-shaped roof using the connector 400 having the inclined portion 431. The same reference numerals are used for the components, and description of overlapping reference numerals will be omitted.

The prefabricated structure is composed of a structure skeleton 500 assembled in the form of a cube on the ground, a roof skeleton 510 coupled to the upper surface of the structure skeleton 500, the cover plate 550 on the upper portion of the roof skeleton 510 ) Is assembled to install the prefabricated structure having a gable roof on the ground.

The structure skeleton 500 installs the base 470 at equal intervals on the ground.

Base 470 is installed on the ground to form a horizontal coupling portion 420 on the upper surface of the connection body 410, the horizontal coupling portion 420 is biased to the center or one side of the upper surface of the connection body 410 The first horizontal coupling part 421 is formed, and the second horizontal coupling part 422 is formed on both sides or one side of the first horizontal coupling part 421.

In addition, an opening end 433 may be provided on an upper surface of the horizontal coupling part 420 including the first and second horizontal coupling parts 421 and 422 so that the frame 560 is fitted from the top to slide inward. By forming the flat plate 430, it is possible to facilitate the coupling of the frame 560 is coupled to the upper surface of the base 470 in the horizontal direction.

At this time, the base 570 is coupled to the ground is not shown in the figure, but the bar is fixed to the anchor bolt is fixed to the ground or coupled to put on the ground bar.

Thus coupled to the upper surface of the base 470 coupled to the ground in a vertical direction, one side of the frame 560 facing the rail groove 561 in the longitudinal direction as shown in Figure 22 (a) ~ (e) Formed to form a long, sliding coupling the closing panel 590 to the rail groove 561 as shown in FIG.

In this way, the frame 560 vertically coupled to the base 470 forms a rail groove 561, and the sliding panel 590 is coupled to the inner side of the rail groove 561 by slidingly coupling the frame 560. The coupling time of the closing panel 590 to be coupled to the sliding can be reduced, and the overall appearance of the prefabricated structure can be beautiful because the frame does not need to combine the finishing panel by rotating the screws one by one as in the prior art.

On the other hand, the structure panel 500 is coupled to the closing panel 590 is coupled to the roof skeleton 510 formed in the gable shape on the upper surface.

Gable roof frame 510 is coupled to the upper end of the plurality of frames 560 coupled in the vertical direction to the connector 400 is provided with the inclined portion 431, the inclined portion provided in the connector 400 431 is inclined downward in the outward direction and symmetrically coupled to each other about the center of the structure skeleton (500).

At this time, the connector 400 provided with the inclined portion 431 is a bar that is formed as shown in Figure 11 to 14 depending on the installation location and use.

That is, the connector 400 formed as shown in FIG. 11 is coupled to the front and rear ends of the structure skeleton 500 as shown in FIG. 9, and the connector 400 formed as shown in FIG. 12 is the structure skeleton 500 as shown in FIG. 9. Will be combined in the middle.

Accordingly, the gasket-shaped roof skeleton 510 may be prefabricated on the upper surface of the structure skeleton 500 by using the connector 400 formed as illustrated in FIGS. 11 and 12, as well as roof skeletons 510 of various sizes. Can be installed on the upper surface of the structure skeleton (500).

The roof frame 570 is coupled to the roof frame 570 in close contact with the upper surface as shown in FIG. 9 to the connector 400 in which the structure skeleton 500 is symmetrically coupled to the upper surface. The fastener 520 is coupled to the top of the frame 570 as shown in FIG. 15 to couple the top of the roof frame 570 in close contact with the inclined surface 431 to be connected to each other.

15 and 16, the fixture 520 forms a fixing end 521 at which the upper end of the roof frame 560 is fitted to the inside of the fixture 520 at both ends.

On the upper surface of the fastener 520 having the fixing end 521 is attached to the guide rail 530 provided on both sides of the guide groove 531, the upper end of the cover plate 550 is fitted to the inside as shown in FIG. , Combine in desorption.

The guide rails 530 are symmetrically formed with 'b' shaped fitting grooves 522 on the upper end of the fixture 520 such that the guide rail 530 is detachably coupled to the fixture 520.

And the fitting portion 532 corresponding to the fitting groove 522 is formed to protrude to the bottom of the guide rail 530, as shown in Figure 15 guide rails 530 with the guide grooves 531 provided at both ends of the fixture 520 The coupling is configured as shown in Figure 16 in a sliding manner on the upper surface.

Thus, using the fastener 520 can facilitate the coupling of the pair of roof frame 570 configured to be inclined downward in the outward direction to the connector 400, the cover plate on the upper surface of the fastener 520 Sliding coupling the guide rail 530 to the upper end as shown in Figure 16 to facilitate the coupling of the cover plate 550 coupled to the upper surface of the roof frame 570.

In addition, by coupling the guide rail 530 to the upper surface of the fixture 520, by coupling the cover plate 550 to the guide rail 530, to the guide rail 530 to which the cover plate 550 is coupled. Due to this can be expected to prevent water from flowing through the top of the roof frame 510 having a gable roof.

17 (a) to 17 (f) illustrate another form of the fixture 520, the other form of the fixture 520 is one side or both side reinforcement of the fixture 520 to which the guide rail 530 is coupled. Fixing parts 523 and 523a that can couple the frame 580 are further formed.

The fixing part 523 formed in the fixing tool 520 has a fixing part 523 provided with fixing grooves 524 as shown in FIGS. 17A and 17B so that an end of the reinforcing frame 580 is fitted inside. ) Is formed on one side or both sides.

In this case, the upper surface of the fixing part 523 may be inclined at the same angle as the fixing device 520 to reinforce the coupling strength of the guide rail 530 coupled to the fixing device 520.

Then, as shown in (c) and (d) of FIG. 17, the fixing part 523a is formed to protrude on one side or both sides of the fixing part 520 so that the fixing part 523a is fitted inside the fixing frame 580. To 520.

At this time, the fixing portion 523a formed on one side or both sides of the fixing tool 520 is to be formed to be symmetrically formed around the center as shown in (e) and (f) of FIG.

In this way, the cover plate 550 is formed by protruding the fixing parts 523 and 523a to one side or both sides of the fixture 520 to which the guide rails 530 are coupled while both ends of the roof frame 570 are fitted inside. The coupling force with the guide rail 530 to be coupled may be increased.

18 and 19 show the coupling of the '59' shaped finish portion 591 on the front and rear of the guide rail 530 to which the cover plate 550 is coupled.

A bolt hole 533 is formed at the center of the guide rail 530 so as to couple the finishing portion 591 to the front and rear surfaces of the guide rail 530, and the bolt hole 533 corresponds to the bolt hole 533. Cover plate 550 fitted to the guide rail 530 while being able to make the overall appearance of the roof frame 510 constituting the prefabricated structure by combining the finishing portion 591 provided with the (533a) using a bolt. ) Can be prevented from falling to the front and rear of the roof frame (510).

20A and 20B are perspective views illustrating the support part 540.

The support portion 540 is formed on the one side of the support body 540a formed in a 'U' shape to form a fixed wing 541 is coupled to the end of the roof frame 570 to the support portion 540 to the roof frame 570 To combine.

In addition, as shown in FIG. 10, the reinforcing frame 580 is coupled to the roof frame 570 to be connected to the inside of the support body 540a to not only reinforce the installation strength of the roof frame 570, but also not shown in the drawing. Although it is to collect the water flowing along the surface of the cover plate 550 to facilitate the coupling of the discharge pipe that can be discharged to the outside.

Figure 21 is coupled to the end of the roof pipe 570 of the present invention 'L' or 'T' shaped reinforcing pipe coupler 542, the reinforcing pipe coupler 542 reinforcement frame 580 To combine the fixed end 521a is formed at the end of the reinforcing pipe coupler 542 so that the reinforcing frame 580 is coupled.

22 is a front view showing a state in which the roof frame 570 is bent to the connector 400 coupled to the upper surface of the structure skeleton 500 is coupled.

As such, the roof frame 570, which is bent to the connector 400 provided with the inclined portion 431, may be coupled to form an arched roof to be easily coupled to the upper surface of the structure skeleton 500. It is.

24 and 25 illustrate another embodiment of a prefabricated structure in which a prefabricated structure is installed to be in close contact with an outer wall of a building by using a connector 400 having an inclined portion 431, and the same reference numerals are used for the same components. The description of overlapping reference numerals will be omitted.

The frame 560 is coupled to the ground in a vertical direction so that the prefabricated structure can be installed on the outer wall of the building, and the frame 560 is coupled to the connector 400 having the inclined portion 431 at the top thereof.

At this time, the inclined portion 431 formed on the connecting body 410 of the connector 400 is coupled to the connector 400 to the upper end of the frame 560 to form the same angle as shown in FIG.

In this way, the cover plate 550 is coupled to the upper surface of the frame 560 in a state in which the roof frame 570 is closely coupled to the inclined portion 431 of the connector 400 that is coupled, and thus, the outer wall of FIG. Prefabricated structures can be installed together.

On the other hand, Figure 26 is configured to combine the connector 400 with the inclined portion 431 with the anchor bolt on the wall surface, the roof frame 570 to the connector 400 is configured to be inclined downward to the awning or pagora prefabricated structure. Prefabricated structures such as can be installed.

At this time, the fixing blade 541 is further provided on the outer surface of the first horizontal coupling portion 421 having the inclined portion 431 provided therein so as to couple the connector 400 to the wall with the anchor bolt. Form.

Therefore, the frame 560 is inclined downwardly coupled to the inclined portion 431 provided at the connector 400, and the cover plate 550 made of a transparent resin material is coupled to the upper surface of the frame 560 to form a shade or Pagora can be installed on the exterior walls of buildings.

At this time, the frame 560, the roof frame 570, the reinforcement frame 580, which is connected to the connector 400, is not shown in the drawings or a rectangle in the drawings, but may be formed in any shape of a circular or 'H' shape. It can be said.

27 and 35 illustrate another embodiment of the fixing bracket of the present invention, and the same reference numerals are designated for the same components, and thus descriptions of the overlapping reference numerals will be omitted.

The present invention is to install the prefabricated structure assembled to the ground by combining the frame 550 vertically and horizontally and the roof frame 570 inclined upward at the end of the plurality of connectors 1000 formed in the 's' shape .

As such, by using the connector 1000 to form the prefabricated structure by combining the frame 550 and the frame 550 with the roof frame 570 inclined upward on the top to form a prefabricated structure, components for assembling the prefabricated structure can be minimized. This is to reduce the production cost of the prefabricated structure as much as possible to improve productivity.

The connector 1000 forms a connection body 1100 formed in a '' shape as shown in FIG. 27, and protrudes the connection end 1101 at both ends of the connection body 1100.

By protruding the connecting end 1101 at both ends of the connecting body 1100, the frame 550 can be coupled as shown in FIG. 31, and thus the prefabricated structure having a gable roof as shown in FIG. It can be installed on the ground.

The connecting body 1100 of the connector 1000 to which the end of the frame 550 is coupled is formed at an angle of 30 ° or 45 °.

Since the connecting body 1100 is formed at an angle of 30 ° or 45 °, when the cover plate 550 is coupled to the upper surface of the structure skeleton 500 as shown in FIG. 32, the coupling body 1100 is inclined at an angle of 30 ° or 45 °. In addition to the use of prefabricated structures having a gable shape, such as coffee beans, sperm, simple warehouses, garages, prefabricated factories, and the like, the prefabricated structures can be assembled and installed for house use.

A pair of fixing parts 1200 are formed on one or both sides of the connection body 1100 formed as described above, as shown in FIGS. 27 and 28.

The fixing part 1200 protrudes to form a 'U'-shaped first fixing body 1210 having an upper opening as shown in FIGS. 27A and 28A and a first fixing body 1210. Reinforcement frame 580 is coupled to the upper portion to be fitted to be coupled.

(A)-(d) of FIG. 29 illustrate another form of the fixing part 1200 protruding from the connection body 1100.

(A) and (b) of FIG. 29 protrude and form the second fixing body 1220 on one side or both sides of the connecting body 1100.

By cutting a portion of the upper end of the second fixed body 1220 protruding from the connecting body 1100, the horizontal plate 1221 having the open end 1222 is formed to protrude, thereby forming a second fixed body 1220. Sliding movement of the reinforcing frame 580 in the state fitted from the upper through the formed opening end 1222 is coupled to the inside of the second fixed body 1220 can not only facilitate the coupling of the reinforcement pipe 580 Due to the horizontal plate 1221, the reinforcement frame 580 may be prevented from falling out above the connector 1000.

In this case, as shown in (c) and (d) of FIG. 29, the third fixing body 1230 fitted to the end of the reinforcing frame 580 is formed to protrude.

The fitting groove 1102 is formed at the upper end of the connection body 1100 of the connector 1000 formed as described above.

The fitting groove 1102 is composed of a vertical groove 1103 having an open top, and a locking groove 1104 formed in communication with the end of the vertical groove 1103, and the locking groove 114 is connected to a body ( 1100 is the same angle and shape as 'ㅅ' is formed in the shape.

At this time, the locking groove 1104 is a bar that is formed in the shape of 'ㅗ' or 'ㅇ' in addition to the '\' shape shown in the figure.

As such, forming a fitting groove 1102 at the top center of the connecting body 1100, and engaging the fitting rail 1300 for slidingly coupling the cover plate 550 inside the fitting groove 1102 as shown in FIG. Therefore, the cover plate 550 may be easily installed on the upper surface of the prefabricated structure formed in the shape of a gable, as well as the upper end of the connector 1000 by sliding the fitting rail 1300 to engage the fitting rail 1300. It can be expected to reduce the assembly time of the prefabricated structure by reducing the effect.

On the other hand, in the connecting body 1100, the fixing portion 1200 protrudes to form a coupling groove 1105 as shown in Fig. 27 (b) and 28 (b).

Since the fixing groove 1105 is formed in the connection body 1100, the frame 550 is coupled to the connector 1100 in the horizontal direction as shown in FIG. 33A.

Thus, as shown in Figure 31, the frame 550 can be coupled across the frame 560 to the top of the prefabricated structure skeleton 500, thereby increasing the bonding force of the prefabricated structure and thereby the prefabricated structure is easily damaged by external impact. It can be prevented.

At this time, (a), (b) of Figure 30 shows that the coupling hole 1106 can be formed in the connecting body 1100.

By forming the coupling hole 1106 in the connection body 1100 in this manner, as shown in (b) of FIG. 33, the frame 560 coupled to the connector 1000 can be coupled to penetrate from the outside in the connector 1000. Frame 560 is coupled to the can facilitate the installation.

31 and 37 illustrate a prefabricated structure that is cooked using the connector formed in the shape of 's', and the description of the same reference numerals will be omitted for the same components.

The prefabricated structure combines a plurality of bases 470 on the ground at equal intervals as shown in FIG. 31, and combines the frame 560 on the upper surface of the base 470 in a vertical direction to form a structure skeleton 500. ).

As such, the roof frame 570 is inclined upwardly so as to be symmetrical to each other on the upper surface of the structure skeleton 500 by using a plurality of connectors 1000 to form a gable-shaped roof on the upper surface of the structure skeleton 500 formed of a hexahedron. To combine.

At this time, the connector 1000 is coupled to the upper end of the structure skeleton 500 is formed in the shape of '', the first to the connector 1000 to help the examiner's understanding while more easily explaining the present invention. And the second connector 1001 and 1002 will be described separately.

That is, the first connector 1001 is coupled to the upper end of the structure skeleton 500 so that the roof frame 570 can be inclined upwardly on the upper end of the frame 560 installed in the vertical direction, and the second connector 1001. The roof frame 570 is coupled to the top so as to connect the roof frame 570 coupled inclined upward to each other and at the same time to fit the fitting rail 1300 to which the cover plate 550 is coupled as shown in FIG.

33 is a cross-sectional view of the first connector 1101 of the connector 1000 of the present invention.

The first connector 1101 is coupled to the upper end of the frame 560 coupled in the vertical direction while constituting the structure skeleton 500 as shown in (a), (b) of FIG.

Since the first connector 1101 is formed at an angle of 30 ° or 45 ° to the upper end of the frame 560, the upper end of the first connector 1101 is inclined upward as shown in FIGS. 33A and 33B. It is formed in a 'b' shape, by coupling the roof frame 570 to the top of the first connector 1101, the roof frame 570 is naturally coupled upwardly inclined.

Therefore, the roof frame 570 is coupled to the roof frame 570 to facilitate the installation of the gable-shaped roof on the upper surface of the structure skeleton 500 due to the roof frame 570 coupled to the upward slope due to the first connector 1101. By simplifying the structure of (1000) it can be expected to reduce the production cost.

At this time, the fitting rail 1300 is coupled to the fitting groove 1102 provided in the first connector 1101 to be coupled to the finishing panel 590 and the roof frame 570 coupled to the outer surface of the structure skeleton 500. An effect of facilitating installation of the cover plate 550 can be expected.

34 (a) and (b) illustrate a second connector 1102, which is a connector 1000 connecting the roof frame 570 and the roof frame 570, the upper surface of the structure skeleton 500 It is formed in the shape of '' 'on the top of the roof frame 570 coupled to be inclined upwardly symmetrically with respect to the center, and combines the second connector 1102 with the connecting end 1101.

And the fitting rail 1300 is coupled to the fitting groove 1102 provided in the second connector 1102.

The fitting rail 1300 forms a coupling part 1310 having the same angle as the connector 1000, and the fitting part 1320 slidingly coupled to the inside of the fitting groove 1102 at the center of the bottom of the coupling part 1320. ) Is long in the longitudinal direction.

The fitting portion 1320 forms a vertical end 1321 corresponding to the vertical groove 1103 provided in the connecting body 1100, and the 's' shaped locking end at the end of the vertical end 1321 ( 1322 to form a fitting rail (1300) coupled to the connector 1000 does not have to be coupled with a separate coupling tool bolts to facilitate the coupling of the fitting rail (1300) coupled to the connector 1000 In addition, the bolt is not exposed to the outside to facilitate the appearance of the prefabricated structure.

At this time, the locking end (1322) coupled to the end of the vertical end (1321) bar as shown in Figure 39 (a), (b) can be formed in the '-' or 'o' shape bar.

35 and 36 illustrate the installation of a garage or sperm, which is a prefabricated structure, using the connector 1000.

37 and 38 illustrate another form of the base 470a which can be installed in a vertical direction with the frame 560 on the ground. The base 470a is a 'T' as shown in FIG. 38. Now, it is formed in a '+' shape.

The frame fixing part 471 is formed in the direction in which the frame 560 is coupled so as to couple the frame 560 in the vertical and horizontal directions.

As such, the base 470a provided with the frame fixing part 471 is installed on the ground in the direction in which the frame 560 is coupled, and the frame 560 can be coupled to the base 470 in the horizontal and vertical directions. will be.

In addition, by simplifying the shape of the base 470a can be expected to simplify the structure of the base 470a constituting the prefabricated structure to reduce the mold cost.

Claims (23)

1. Horizontal coupling portion 420 for horizontally coupling the frame 560, and vertical coupling portion 450 for coupling the frame 560 vertically is connected to the upper and lower surfaces of the connecting body 410, respectively In the fixed bracket for the structure comprising a 400,

   The fixing bracket for the structure, characterized in that formed on the upper side of the connecting body 410 inclined portion 431 that can be coupled to the connector 400 inclined downward to the frame 560.
2. The method of claim 1, wherein the inclined portion 431,

   Is formed on the inner side of the first horizontal coupling portion 421 is formed in the center or the upper surface of the upper surface of the connection body 410,

   A horizontal plate 430 having an opening end 433 is formed on the upper end of the first horizontal coupling part 421 by cutting the upper part by fitting the frame 560 from the upper side so as to slide inward. The upper end is coupled to one end of the (430), the lower end is a fixed bracket for the structure, characterized in that the inclined portion 431 is coupled to the connecting body 410 formed on the first horizontal coupling portion (421).
3. The method according to claim 2,

   The second horizontal coupling portion 422 is formed on one side or both sides of the first horizontal coupling portion 421,

   The second horizontal coupling part 422 cuts an upper portion of the frame 560 so that the frame 560 is slidably engaged in an upper direction thereof, and thus the horizontal plate 430 having the opening end 433 is provided to the second horizontal coupling part ( Fixing bracket for the structure, characterized in that formed on the upper surface of (422).
4. The method according to claim 1,

   The inclined portion 431 is a fixed bracket for a structure, characterized in that the vertical hole 432 is formed in communication with the vertical groove 451 of the vertical coupling portion 450.
5. The method according to claim 1,

   Coupling wings 440 for fixing both sides of the frame 560 coupled to the inclined portion 431 is formed on the top of the horizontal coupling portion 420,

   The upper end of the coupling blade 440 is a bracket for prefabricated structure, characterized in that further formed inclined end 441 of the same angle as the inclined portion (431).
6. The method according to claim 5,

   Fastening bracket for the prefabricated structure, characterized in that the inner side of the coupling blade 440 further formed with a fixing plate (442).
7. The frame 560 is formed long, and both ends of the plurality of the frame 560 constitutes a hexagonal structure skeleton 500 consisting of a connector 400 coupled to the inside, respectively, of the structure skeleton 500 In the DIY prefabricated structure comprising a coupling structure of the roof frame 510 of the gable shape is coupled to the cover plate 550,

   The roof armature 510,

   Vertical coupling portion 450 formed on the lower portion of the connecting body 410 to be coupled to the upper end of the frame 560 of the structure skeleton 500 coupled in the vertical direction, the inclined portion inclined downward on the upper side of the upper portion of the connecting body 410 Comprising 431, the inclined portion 431 is a plurality of connectors 400 are coupled to the upper surface of the structure skeleton 500 to be symmetrical with each other;

   A roof frame 570 coupled to the top surface of the inclined portion 431 to be inclined downward in an outward direction;

   DIY prefabricated structure, characterized in that consisting of; 's' shape is formed, the fixture 520 is provided with a fixed end 521 for coupling the top of the roof frame 570 coupled to the connector 400.
8. The method of claim 7, wherein the connector 400,

   The first horizontal coupling portion 421 is formed at the center or one side of the upper surface of the connection body 410, and the inclined portion 431 is formed inside the first horizontal coupling portion 421,

   The first horizontal coupling portion 421,

   The upper portion of the horizontal plate 430 is formed by cutting the upper portion by inserting the frame 560 from the upper side to be slid inwardly, and having an opening end 433 formed thereon, and having an upper end coupled to one end of the horizontal plate 430. The lower end forms an inclined portion 431 on the first horizontal coupling portion 421 to be coupled to the connection body 410,

   The second horizontal coupling portion 422 is formed on one side or both sides of the first horizontal coupling portion 421,

   The second horizontal coupling part 422 cuts the upper part by inserting the frame 560 from the upper side so as to slide inward, and forms a horizontal plate 430 having an opening end 433 on the upper surface. Fixing brackets for structures.
9. The method according to claim 7,

   DIY prefabricated structure, characterized in that formed in the inclined portion 431 a vertical hole 432 in communication with the vertical groove 451 of the vertical coupling portion 450.
10. The method according to claim 7,

    The coupling blade 440 is formed on the upper end of the horizontal coupling portion 420 is in close contact with the front, rear surface of the roof frame 570 coupled to the inclined portion 431,

    An upper end of the coupling blade 440 further forms an inclined end 441 at the same angle as the inclined portion 431 to cover the cover plate 550 in close contact with the inclined end 441 of the coupling blade 440. DIY prefabricated structure, characterized in that coupled to the upper surface of the (570).
11. The method of claim 10,

    DIY prefabricated structure, characterized in that the fixing plate 442 further formed on the inner top of the coupling blade 440.
12. The method according to claim 7,

    The guide groove 531 that the upper end of the cover plate 550 is fitted to the inner side of the guide rail 530 provided on both sides is configured to be coupled to the upper end of the fixture 520,

    Protrudes a pair of fitting portion 532 formed in the 'L' shape on the lower portion of the guide rail 530,

    DIY, characterized in that the fitting groove 522 corresponding to the fitting portion 532 formed in the fixture 520, the guide rail 530 formed long in the longitudinal direction coupled to the upper surface of the fixture 520 in a sliding manner Prefabricated structures.
13. The method of claim 7, wherein

    On one surface of the facing fixture 520 protrudes to form a fixing portion 523,

    DIY prefabricated structure, characterized in that the reinforcing frame 580 is fitted between the two ends of the fixing portion 523 between the fixing fixture 520.
14. The method according to claim 7,

    At the bottom of the facing roof frame 570, 'U' shaped support portion 540 is coupled,

    DIY prefabricated structure, characterized in that the end is coupled to the support portion 540 of the reinforcement frame 580 so as to fit inside the support portion 540.
15. The method according to claim 7,

    Structure armature 500 is configured to combine the closing panel 590 on both sides and the front, rear, respectively,

    DIY prefabricated structure, characterized in that formed on the one surface of the frame 560 facing each other, the length of the rail groove 561 in the longitudinal direction is inserted into both sides or the front, rear end of the closing panel 590.
16. A connector 1000 provided with a connection body 1100 having a 'ㅅ' shape;

    A connection end 1101 formed at both ends of the connection body 1100 to which the end of the frame 560 is coupled;

    It is formed on one side or both sides of the connecting body (1100) protruding, and a fixed portion (1200) is coupled to the end of the reinforcing frame 580; Fixed bracket for the structure, characterized in that consisting of.
17. The method of claim 16,

    Connection body 1100 is a fixed bracket for the structure, characterized in that formed at an angle of 30 ° or 45 °.
18. The method of claim 16, wherein the fixing unit 1200,

    Fixing for a structure, characterized in that the upper surface is a pair of the first fixing body 1210, the upper surface is opened so that the reinforcing frame 580 is fitted in one side or both sides of the connecting body 1100 from the upper side inward direction Brackets.
19. The method of claim 16, wherein the fixing unit 1200,

    On one side or both sides of the connecting body 1100 is formed by protruding a pair of second fixed body 1220,

    The second fixed body 1220 is,

    Fixing bracket for a structure, characterized in that the horizontal plate (1221) is provided with an opening end (1222) by cutting a certain portion so as to slide the reinforcing frame 580 from the upper side to slide inward.
20. The method of claim 16,

    On the center top of the connector (1000) to form a 's' shaped fitting groove 1102,

    The fitting groove 1102 is a fixed bracket for the structure, characterized in that formed at the same angle as the connector (1000).
21. The method of claim 16,

    The fixing bracket for the structure, characterized in that the inner side of the connector 1000 is formed in the connecting body 1100, the coupling groove 1105 or the coupling hole 1106 is coupled to the frame 580 in the horizontal direction.
22. The base 570 is installed on the ground at equal intervals, and the frame 560 is coupled to the upper surface of the base 570 in the vertical direction to form a structure skeleton 500 made of a hexahedron,

    Using a plurality of roof frame 570 that can be coupled to the cover plate 550 inclined downward symmetrically coupled to the upper surface of the structure skeleton 500 by using the connector 1000 formed in the 's' shape,

    Roof frame 570 is configured to combine the cover plate 550 on the upper surface,

    The connector 1000,

    A first connector 1001 coupled symmetrically about the center of the upper surface of the structure skeleton 500;

    And a second connector 1002 connecting the roof frame 570 coupled to the upper end of the structure skeleton 500 to be inclined upward by the first connector 1001.

    DIY prefabricated structure, characterized in that a pair of fixing portions (1200) for coupling the reinforcement frame (580) on one side or both sides of the first and second connectors (1001, 1002).
23. The method of claim 22, wherein

    The coupling part 1310 is provided at the same angle as the connection body 1100, the fitting rail (1300) for fixing the upper end of the cover plate 550 is coupled to the upper surface of the roof frame 270 to the connector 1000 In the center of the upper part of the configuration, detachably combined,

    In the center of the upper end of the connector (1000) forms a 's' shaped fitting groove 1102,

    DIY prefabricated structure, characterized in that the protruding formed in the longitudinal direction in the center of the lower portion of the fitting rail (1300) to the fitting portion 1320 to be coupled to the inside of the fitting groove (1102).

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