KR101001214B1 - Fixing apparatus roof panels in assembly buildings - Google Patents

Abstract

PURPOSE: A roof-panel fixing device of an assembled building is provided to increase insulating, sound absorbing and water leakage blocking effects and to prevent dew condensation due to heat exchange and secondary damage due to flame and toxic gas in case of fire. CONSTITUTION: A roof-panel fixing device of an assembled building comprises furrings(1), a lower perforated metal plate(2), a Z-shape saddle(3), a sliding clip(5), a sound absorbing and insulating member(6), an upper finishing metal plate(7) and an insulating bar(8). The furrings are installed in a horizontal-bar form on an assembled roof. The lower perforated metal plate is assembled to the tops of the furrings. The Z-shaped saddle is fixed to the furring along with the lower perforated metal plate. The sliding clip is installed on the top of the Z-shaped saddle. The sound absorbing and insulating member is installed in a space, which is formed between the Z-shaped saddles on the top of the lower perforated metal plate.

Description

Fixing apparatus roof panels in assembly buildings}

The present invention relates to a roof panel fixing device of a prefabricated building, and more particularly, Z-type fixed fixing at predetermined intervals from the upper surface of the lower perforated metal forming plate fixed to the roof steel of the prefabricated building to prevent the insulator layer and the heat sinking material. The upper part of the saddle (Saddle) is formed by the sliding clip engaging hole at a certain interval by cutting the upper part of the saddle (Saddle), as well as inserting and installing a sliding clip having a waterproof, flameproof and thermal insulation performance, as well as the upper wing of the Z-shaped saddle The upper surface is provided with a thermal insulation bar that maintains the same height as the upper projection of the body of the sliding clip to greatly enhance the insulation and sound absorption effect, it can be generated between the upper finishing metal forming plate, Z-shaped saddle and lower perforated metal forming plate. Condensation can be completely prevented by heat exchange And it is invented to form a heat-resistant bar itself to a heat-resistant material to prevent secondary damage due to the flame in the event of a fire, and to significantly increase the leakage blocking effect and to facilitate the construction.

In general, roof panels of prefabricated buildings are structured with a focus on several elements that can greatly insulate, absorb, leak, and support. The material for increasing insulation and sound absorption is glass wool, which is polyester or inorganic insulation. It is mainly used, but the contraction force is large, the self-support is very weak.

Therefore, in order to provide such a sound absorbing plate material therein, the roof panel itself should be designed to have sufficient supporting force.

However, in the case of the roof panel of a prefabricated building using glass wool (G / W), the sound absorbing deck and the metal sliding clip are fixed to Perlin, which is the roof steel frame, through the SDS bolts. The external temperature of the molten metal forming plate is transmitted to the perforated through the metal bolt (that is, the heat exchange between the inside and the outside of the upper metal forming plate through the metal bolt) and between the upper metal forming plate and the perrin There is a problem that condensation occurs in the space part.

Meanwhile, in some cases, the lower perforated metal forming plate is positioned on the upper part of the perlin, which is a roof steel frame, and the several Z-shaped birds formed by bending the cross section of the lower perforated metal forming plate to have a “Z” shape and the lower perforated metal forming plate. Sliding fixed to the furlin through the bolt together, the sound insulation layer is installed in the insulating layer which is a space formed between the Z-shaped birds in the upper portion of the lower perforated metal-forming plate, and the metal bent formed on the upper wing of the Z-shaped birds The clip is fixed through the SDS bolt, and the upper finishing metal forming plate bent to a predetermined shape is placed on the upper portion of the sound absorbing insulation, and then a portion of both ends of the upper forming metal forming plate and the upper part of the Z-shaped saddle are integrally formed. It adopts a method of fixing each other.

By the way, in this way, including the Z-shaped saddle and the sliding clip is installed between the upper finishing metal forming plate and the furlin are all made of metal SDS bolt itself is formed of a metal of the upper finishing metal forming plate Since the external temperature has a structure in which the Z-shaped saddle, the sliding clip, and the SDS bolt are transferred to the purlin (that is, a heat exchange structure), condensation occurs in the space portion between the upper-formed metal sheet and the purlin. have.

Therefore, in the "connecting member of the prefabricated building roof body" of the prior domestic registered patent No. 10-0593462 and domestic registered utility model No. 20-0416147, in order to solve the above problems, it is injected into plastic instead of the Z-shaped saddle The molded frame for securing the insulating layer is fixed to the perlin through the SDS bolt together with the lower perforated metal plate, and a sound absorbing insulation is installed in the insulating layer, which is a space formed between the frames for securing the insulating layer on the upper portion of the lower perforated metal plate. Sliding clips are installed in the clip insertion grooves formed in the upper part of the insulating layer securing frame, and the upper finishing metal forming plate is bent and formed into a predetermined shape on the upper portion of the sound absorbing insulating material, and then both ends of the metal forming plate for each upper finishing. Part of the upper part of the sliding clip rolled together to fix each other Through it is possible to place a clip and the sliding bolt in the correct position, and secure the leak to block, and the construction is easy.

In the connection member of the prefabricated building roof structure having such a structure, it is possible to completely block the transmission of the external temperature of the upper metal forming plate for furnishing by installing a frame for securing an insulating layer injection-molded with plastic instead of the Z-shaped saddle having good heat transfer. Condensation can be solved in the space between the upper part metal forming plate and the purlin, but the frame for securing the insulation layer is molded of plastic, so it is very vulnerable to fire and heat and toxic gas is generated in case of fire. There is a problem such as.

The present invention has been made in order to solve such a conventional problem, is fixed to the upper surface of the lower perforated metal forming plate fixedly installed on the upper portion of the perlin, the roof steel of the prefabricated building is fixed to the insulating layer and the thermal insulation material sinking. Z-shaped saddle (Saddle) to prevent the formation of a sliding clip coupling hole at a predetermined interval by a method of cutting, inserting and inserting the sliding clip having waterproof, flame-proof and heat-insulating performance, as well as the Z-shaped On top of the upper wing of the saddle, a thermal insulation bar that maintains the same height as the upper projection of the body of the sliding clip can be installed to greatly enhance the insulation and sound absorption effect between the upper metal forming plate and the Z-shaped saddle and the lower perforated metal forming plate. Condensation can be completely prevented by heat exchange, which can occur in By molding the idling clip and insulation bar itself with heat-resistant material, it can prevent secondary damage due to the generation of fire and toxic gas in case of fire, and can greatly improve the leakage blocking effect and facilitate construction. It is an object of the present invention to provide a roof panel fixing device of a prefabricated building that can be implemented.

In order to achieve the above object, the present invention includes a plurality of purlins installed in the form of a horizontal bar in a prefabricated roof of a building to reinforce a lower transverse bearing force of the roof itself; Several lower perforated metal forming plates seated and assembled on the upper surfaces of the purines; Several Z-shaped saddles fixed to the perrin with the lower perforated metal forming plate through S.D.S bolts at predetermined intervals on the upper surface of the lower perforated metal forming plate to prevent the insulator layer and the insulator from sinking; Several sliding clips installed on an upper surface of the Z-shaped saddle; Sound absorbing insulation is installed in the space formed between the Z-shaped saddle in the upper portion of the lower perforated metal sheet; In the roof panel fixing device of the prefabricated building composed of several upper finishing metal-forming plate which is positioned on the upper portion of the sound-absorbing insulation and fixed to the upper portion of the sliding clip by integrally rolling the upper portion of the sliding clip, the upper portion of the Z-shaped saddle It is cut at a predetermined interval to form a sliding clip coupling hole, characterized in that the heat insulation bar is installed on the upper surface of the upper wing of the Z-shaped birds to maintain the same height as the protrusions of the upper body of the sliding clip.

" 형상을 갖도록 철판을 프레스를 이용하여 절곡 성형한 클립과;
상기 클립의 저단부 일부를 상면의 중심선 상에서 내부로 함몰되게 인서트시킨 상태에서 사각 판체 형상을 갖도록 사출 성형한 바디;로 구성하되, 상기 바디의 양 측면에서 수평방향 중심선 상에는 Z형 새들의 상단 날개에 형성된 슬라이딩 클립 결합 홀의 양측 걸림편이 끼워져 걸려지는 걸림홈을 형성한 것을 특징으로 한다.In this case, the sliding clip has a longitudinal section "

A clip obtained by bending a steel plate using a press to have a shape;
A body formed by injection molding to have a rectangular plate shape in a state in which a portion of the lower end of the clip is recessed inwardly on a center line of the upper surface; and configured on a horizontal center line at both sides of the body, It characterized in that the locking groove is formed by engaging both sides of the formed sliding clip engaging hole is fitted.

In addition, the body of the sliding clip is characterized in that the heat transfer through the clip in the upper metal forming plate for finishing to form a heat insulating material to prevent the transfer to the lower perforated metal forming plate and the purlin through the Z-shaped saddle.

At this time, the heat insulating material is characterized in that it comprises a composite polypropylene (P.P).

In addition, the air distribution groove is further formed on the longitudinal center line at the bottom of the body of the sliding clip to improve the thermal insulation performance by reducing the cost and increase the air flow rate.

On the other hand, it is characterized in that the hook extending from the side of the longitudinal direction of the heat insulation bar toward the lower portion is formed in the form of hooks that hang in the form of surrounding both sides of the upper wing of the Z-shaped birds.

In addition, the bottom surface of the heat insulation bar is characterized in that it is further formed with several air distribution grooves for reducing the material cost and increase the air flow volume at a predetermined interval in the longitudinal direction.

In addition, when the heat insulation bar is installed on the upper wing of the Z-shaped birds, it is characterized in that the heat insulation bar itself is fixed to the upper wing of the Z-shaped birds using a silicone adhesive.

In this case, the insulation bar is extrusion molded using a composite polypropylene (PP), or injection molded using a polyethylene (PE) foam.

As described above, according to the roof panel fixing apparatus of the prefabricated building, Z is fixedly installed at a predetermined interval on the upper surface of the lower perforated metal forming sheet fixedly installed on the upper part of the prefabricated building to prevent the thermal insulation layer and the heat sink from sinking. A sliding clip coupling hole is formed at a predetermined interval on the upper part of the saddle, and a sliding clip having waterproof, flameproof, and heat insulating performance is inserted into and installed on the upper part of the upper wing of the Z-shaped saddle. By installing a heat insulation bar that maintains the same height as the first, it is possible to greatly improve the insulation and sound absorption effect, and secondly, the condensation due to heat exchange that can occur between the metal forming plate for upper finishing and the Z-shaped saddle and the lower hole metal forming plate. To prevent the occurrence of a third sliding clip and the insulation bar itself By forming a material with good thermal effect and heat resistance, it can prevent secondary damage due to the occurrence of fire and toxic gas in case of fire, and can greatly improve the leakage protection effect of the fourth, and the fifth construction can be easily performed. It can be very useful invention.

1 is a partially cutaway perspective view of a prefabricated building roof to which the device of the present invention is applied.
2 is an exploded perspective view of the apparatus of the present invention.
Figure 3 is an enlarged cross-sectional view of the main portion to which an embodiment of the insulating bar is applied in the present invention.
Figure 4 (a) (b) is an enlarged exploded perspective view and side cross-sectional view of the main portion to which another embodiment of the heat insulation bar of the present invention is applied.

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

1 is a perspective view of a cut away part of the prefabricated building roof to which the device of the present invention is applied, FIG. 2 is an exploded perspective view of the device of the present invention, and FIG. Figure 4 (a) (b) is an enlarged exploded perspective view and side cross-sectional view of the main portion to which another embodiment of the insulation bar is applied in the present invention.

According to the present invention,

Several purlins (1) installed in the form of horizontal bars in the prefabricated roof of the building to reinforce the lower transverse bearing capacity of the roof itself; Several lower perforated metal forming plates (2) seated and assembled on the upper surfaces of the purines (1); The lower perforated metal forming plate (2) is fixed to the furin (1) together with the lower perforated metal forming plate (2) through the SDS bolt (4) at a predetermined interval on the upper surface of the lower perforated metal forming plate (2) to sink the heat insulating layer and insulation Several Z-shaped saddle (3) to prevent; Several sliding clips (5) installed on an upper surface of the Z-shaped saddle (3); Sound-absorbing heat insulating material (6) installed in the space formed between the Z-shaped saddle (3) in the upper portion of the lower perforated metal forming plate (2); In the roof panel fixing device of the prefabricated building, which is located on the sound-absorbing heat insulating material 6, a part of both ends is composed of several upper finishing metal-forming plate 7 fixed by rolling the upper part of the sliding clip 5 integrally. ,

A portion of the upper portion of the Z-shaped saddle 3 is cut at regular intervals to form a sliding clip coupling hole 32, and the body of the sliding clip 5 is formed on the upper surface of the upper wing 31 of the Z-shaped saddle 3. (52) A heat insulating bar (8) is additionally installed so as to maintain the same height as the upper surface protrusion.

" 형상을 갖도록 철판을 프레스를 이용하여 절곡 성형한 클립(51)과;At this time, the sliding clip 5,
The cross section is "

A clip 51 which is formed by bending a steel plate using a press to have a shape;

A body 52 which is injection-molded to have a square plate shape in a state in which a portion of the lower end of the clip 51 is inserted to be recessed inwardly on an upper surface center line, and includes a horizontal center line on both sides of the body 52. On the upper surface 31 of the Z-shaped saddle (3) is characterized in that the engaging grooves 521 to which both sides of the engaging piece 33 of the sliding clip coupling hole 32 are fitted are formed.

In addition, the body 52 of the sliding clip 5 is a lower perforated metal sheet 2 through the Z-shaped saddle (3) is the heat transferred through the clip 51 in the metal sheet for the upper finish (7) And it is characterized in that it was molded with a heat insulating material to prevent delivery to the purlin (1).

At this time, the heat insulating material is characterized in that it comprises a composite polypropylene (P.P).

In addition, the air distribution groove 522 is further formed on the longitudinal center line at the bottom of the body 52 of the sliding clip 5 to improve thermal insulation performance by reducing cost and increasing air flow rate.

On the other hand, extending from the both sides in the longitudinal direction of the heat insulation bar 8 toward the lower portion extending the engaging ring 81 which is caught in the form of surrounding both sides of the upper wing 31 of the Z-shaped saddle (3) It features.

In addition, the bottom surface of the heat insulation bar 8 is characterized by further molding a plurality of air distribution grooves 82 to reduce the material cost and increase the air flow volume at a predetermined interval in the longitudinal direction.

In addition, when the insulating bar 8 is installed on the upper surface of the upper blade 31 of the Z-shaped saddle 3, the insulating bar 8 itself is connected to the upper blade of the Z-shaped saddle 3 using the silicone adhesive 9. 31) is fixedly installed.

In this case, the heat insulation bar 8 is extrusion molded using a composite polypropylene (P.P), or injection molding using a polyethylene (P.E) foam.

Referring to the operation and effect of the device of the present invention configured as described above are as follows.

First, the present invention is a sliding clip by cutting the upper part of the Z-shaped saddle 3 (that is, the upper part including the upper wing 31) that is used in the roof panel fixing device of a known prefabricated building at regular intervals. The coupling hole 32 is formed, and the heat insulation bar 8 is additionally installed on the upper surface of the upper wing 31 of the Z-shaped saddle 3 to maintain the same height as the protrusion of the upper surface of the body 52 of the sliding clip 5. One of them is the main technical component.

In this case, the roof panel fixing device of a known prefabricated building includes several furrins (1) and lower perforated metal plate (2), SDS bolts (4), Z-shaped saddles (3), sliding clips (5), and sound absorbing insulation ( 6) and a metal forming plate 7 for upper finishing.

In the above, the furlins (1) are in the form of C-shaped steel and fixedly installed by welding or the like in the form of a horizontal bar in the prefabricated roof of the building to perform the function of reinforcing the lower transverse bearing capacity of the roof itself, Perforated metal forming plate (2) is seated and assembled on the upper surface of the purlin (1) through a number of SDS bolts (4) to perform the function of supporting the Z-shaped saddle (3) and the sound-absorbing insulation (6), etc. to be described later Done.

In addition, the Z-shaped saddle (3) is fixed to the purlin (1) together with the lower perforated metal forming plate (2) through the SDS bolt (4) at a predetermined interval on the upper surface of the lower perforated metal forming plate (2). It is installed to perform the function of preventing the sinking of the heat insulating layer and the heat insulating material through the intermediate bearing reinforcement, the Z-shaped saddle (3) to which the present invention is applied, the Z-shaped saddle (3) including the upper wing 31 as described above It has a form having a sliding clip coupling holes 32 formed by cutting a portion of the upper portion at a predetermined interval.

In addition, the sliding clips 5 are detachably coupled to the sliding clip coupling hole 32 formed in the upper surface portion of the Z-shaped saddle 3 to perform a function of fixing the upper metal forming plate 7 for finishing. The sound-absorbing heat insulating material 6 is composed of polyester wool or glass wool, which is installed in the space formed between the Z-shaped saddle 3 at the upper portion of the lower perforated metal forming plate 2 to perform sound absorbing and heat insulating functions. do.

The upper finishing metal forming plates 7 are positioned above the sound-absorbing heat insulating material 6 installed between the Z-shaped saddles 3 so that a part of both ends of the upper and lower ends of the sliding clip 5 are partially folded and folded. It is integrally rolled and fixed.

" 형상을 갖도록 철판을 프레스를 이용하여 절곡 성형하여 바디(52)의 사출 성형시 상기 클립(51)의 저단부 일부가 상기 바디(52)의 중심선 상에서 내부로 함몰되게 인서트시켜 줌으로써 상기 바디(52)의 중심선 상에는 상기 클립(51)이 돌출되는 형태로 설치된다.Meanwhile, in the present invention, the sliding clip 5 detachably installed in the sliding clip coupling hole 32 formed by cutting a portion of the upper portion of the Z-shaped saddle 3 including the upper wing 31 at a predetermined interval. ) Is composed of a clip 51 and the body 52, the clip 51 has a longitudinal section "

By bending the iron plate to have a shape using a press to insert a portion of the lower end of the clip 51 recessed inward on the centerline of the body 52 during injection molding of the body 52. The clip 51 is installed on the center line of the projecting shape.

At this time, the body 52 has a shape that is injection-molded to have a rectangular plate shape, as well as the sliding clip coupling hole formed in the upper wing 31 of the Z-shaped saddle 3 on the horizontal center line in both sides ( Both sides of the locking piece 33 of the 32 is inserted into the engaging groove 521 is formed to have a shape.

In addition, the body 52 of the sliding clip 5 is heat transfer through the clip 51 in the upper metallized sheet 7 for finishing the lower perforated metallized sheet 2 through the Z-shaped saddle (3) In order to prevent the transfer to the perlin (1) and molded into a heat insulating material including a composite polypropylene (PP), as well as material savings on the longitudinal center line at the bottom of the body 52 of the sliding clip (5) The air distribution groove 522 is further formed to improve insulation performance by increasing air flow, including cost reduction and weight reduction.

On the other hand, the thermal insulation bar 8 used in the present invention completely different from the prior art completely prevents the heat transfer phenomenon that may be generated between the upper finishing metal forming plate 7 and the Z-shaped saddle 3 while simultaneously sliding the sliding bar. When the clip 5 is engaged with the sliding clip engagement hole 32 of the Z-shaped saddle 3, a part of the body 52 of the sliding clip 5 protrudes higher than the upper wing 31 of the Z-shaped saddle 3. In order to prevent this due to the shape to be extruded using a composite polypropylene (PP) as a heat insulating material to have the same height as the upper protrusion of the body 52, or injection molding using a polyethylene (PE) foam. .

In this case, when the heat insulating bar 8 is simply extruded into a long plate shape, the insulation bar 8 may be separated from the upper surface of the upper blade 31 of the Z-shaped saddle 3, thereby being separated. As shown in (b), the hooks 81 of the insulation bar 8 are Z-shaped saddle 3 by extending the locking ring 81 from the front and rear surfaces of the insulation bar 8 downward. The upper wing of the 31 is hung in a form surrounding the sides so that the insulating bar 8 can be completely prevented from slipping off the upper surface of the upper wing 31 of the Z-shaped saddle (3) itself.

In addition, as described above, when the extrusion bar 8 is formed into an elongate plate shape having only the hooks 81 on the front and rear sides thereof, as shown in FIGS. Of course, the cost may be increased, and the bottom surface of the heat insulation bar 8 and the upper wing 31 of the Z-shaped saddle 3 may come into contact with each other, thereby reducing the heat insulation effect. a) (b) by forming a plurality of uneven air distribution groove 82 in the longitudinal direction at the bottom surface of the heat insulating bar (8) by further molding the material cost during the molding of the heat insulating bar (8) Not only can it reduce, but also greatly increases the air flow rate between the bottom surface of the heat insulation bar 8 and the upper wing 31 of the Z-shaped saddle 3, so that the heat insulation effect can be greatly increased.

In addition, in the above form by further forming the engaging ring 81 before and after the heat insulation bar 8, the heat insulation bar 8 is placed on the upper surface of the upper blade 31 of the Z-shaped saddle (3). When installed, the heat insulation bar 8 itself does not flow in the front and rear directions on the upper surface of the upper blade 31 of the Z-shaped saddle 3, but since it does not have a mutually fixed form, it flows in the left and right directions. Of course, there is a fear of being separated from the upper wing 31 of the Z-shaped saddle (3) when an impact or the like is applied to the insulating bar (8) itself in the installation process of the upper metal forming plate (7) for the top finish.

Therefore, in the present invention, when the heat insulation bar 8 is installed on the upper surface of the upper blade 31 of the Z-shaped saddle 3, a silicone adhesive 9 is used as shown in FIGS. 3 and 4 (b). Insulation bar (8) itself to be fixedly installed on the upper wing 31 of the Z-shaped saddle (3).

On the other hand, when forming the Z-shaped saddle (3) is conventionally formed using an iron plate having a thickness of 1.2t, by forming a Z-shaped birds using such a thin iron plate and sliding on its upper wing (31). The sliding clip 5 is installed by forming the clip coupling hole 32, and then, when a strong wind pressure acts on the upper metal sheet metal sheet while the upper metal sheet metal sheet 7 is fixedly installed, the sliding clip ( 5) There is a fear that deformation such as bending of the engaging piece 33 of the Z-shaped saddle 3 for fixing it may occur.

Accordingly, in the present invention, when the Z-shaped saddle 3 is molded, the sliding clip 5 is fixed to the sliding clip 5 even when strong wind pressure is applied by molding using an iron plate having a thickness of 1.6 tons unlike the conventional art. Deformation such as bending of the engaging pieces 33 on both sides of the clip coupling hole 32 can be completely prevented.

In order to construct the upper finishing metal forming plate 7 of the prefabricated building using the apparatus of the present invention having such a configuration, first, the furrins 1 having the form of C-shaped steel are formed in the form of a horizontal bar in the prefabricated roof of the building. Fixed installation through furnace welding or the like, and the lower perforated metal forming plate members 2 and the Z-shaped saddles 3 are disposed on the upper part of the purlin 1, and then the Z-type is formed using several SDS bolts 4. After fixing the saddles 3 and the lower perforated metal forming plate 2 to the upper surface of the purlin 1, a poly portion is formed in the space formed between the Z-shaped saddles 3 at the top of the lower perforated metal forming plate 2. Filling the sound-absorbing insulation (6) made of ester wool or glass wool.

Subsequently, sliding clips 5 are respectively installed in the sliding clip coupling holes 32 formed in the upper surface portion of the Z-shaped saddle 3, and then an upper portion of the sound-absorbing heat insulating material 6 is provided between the Z-shaped saddles 3. And placing the upper finishing metal forming plates 7 between the sliding clips 5, and then sliding both ends of the upper finishing metal forming plates 7 and the clips 51 of the sliding clips 5 through the remote folding. Installation of the upper metal finishing plate 7 for finishing is completed when the rolled up and fixed together as shown in the enlarged view of FIG.

As described above, in the present invention, the sliding clip coupling hole 32 is formed in the upper portion of the Z-shaped saddle 3, and the installation of the sliding clip 5 having waterproof, flameproof, and thermal insulation performance is inserted into the Z-shaped saddle. The upper surface of the upper blade 31 of (3) is provided with a heat insulating bar (8) that maintains the same height as the upper projection of the body 52 of the sliding clip (5), thereby significantly improving the insulation and sound absorption effect on the roof of the prefabricated building. It can be improved and can completely prevent condensation caused by heat exchange between the upper finishing metal forming plate and the Z-shaped saddle and the lower perforated metal forming plate, and the sliding clip and the insulating bar itself have good thermal insulation effect. By forming a material that is resistant to heat, it can prevent secondary damages due to the occurrence of flames and toxic gases in case of fire, and can greatly improve the leakage blocking effect. It can be performed easily.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

1: Perrin 2: Lower Perforated Metal Forming Plate
3: Z-shaped birds 31: the upper wing
32: sliding clip coupling hole 33: locking piece
4: SDS bolt 5: sliding clip
51: Clip 52: Body
521: hanging groove 522, 82: air distribution home
6: sound-absorbing insulation material 7: metal forming plate for finishing
8: insulation bar 81: hook
9: silicone adhesive

Claims (9)

Several purlins installed in the form of horizontal bars in the prefabricated roof of the building to reinforce the lower transverse bearing capacity of the roof itself; Several lower perforated metal forming plates seated and assembled on the upper surfaces of the purines; A plurality of Z-shaped saddles fixed to the perrin with the lower perforated metal forming plate through SDS bolts at predetermined intervals on the upper surface of the lower perforated metal forming plate to prevent the settlement of the insulating layer and the insulating material through reinforcing intermediate bearing capacity; Several sliding clips installed on an upper surface of the Z-shaped saddle; Sound absorbing insulation is installed in the space formed between the Z-shaped saddle in the upper portion of the lower perforated metal sheet; In the roof panel fixing device of a prefabricated building, which is located on top of the sound-absorbing heat insulating material, a part of both ends is composed of several upper finishing metal-forming plate which is fixed by rolling the upper part of the sliding clip integrally,
A portion of the upper portion of the Z-shaped birds are cut off at a predetermined interval to form a sliding clip coupling hole, and an insulation bar is installed on the upper surface of the upper wing of the Z-shaped birds to maintain the same height as the protrusion of the upper surface of the body of the sliding clip.
Roof panel fixing device of the prefabricated building, characterized in that extending from the two sides in the longitudinal direction of the heat insulation bar extending in the form of hanging hooks surrounding both sides of the upper wing of the Z-shaped birds.
The method according to claim 1,
The sliding clip,
The cross section is "

A clip obtained by bending a steel plate using a press to have a shape;
Consists of the injection-molded body having a rectangular plate shape in a state in which a portion of the lower end of the clip is inserted to be recessed inward on the centerline of the upper surface;
The roof panel fixing device of the prefabricated building, characterized in that on both sides of the body formed on the horizontal center line on the horizontal direction of the Z-shaped saddle both the engaging pieces of the sliding clip coupling hole formed in the upper wing is fitted.
The method according to claim 2,
The body of the sliding clip is a heat insulating material formed of a composite polypropylene (PP) to prevent the heat transferred through the clip from the upper finishing metal forming plate to the lower perforated metal forming plate and furin through the Z-shaped saddle Roof panel fixing device for prefabricated building, characterized in that molded.
delete The method according to claim 2,
The roof panel fixing device of the prefabricated building, characterized in that the air distribution groove is further formed on the longitudinal center line at the bottom of the body of the sliding clip to improve the insulation performance by reducing the cost and increase the air flow rate.
delete The method according to claim 1,
Roof panel fixing device of a prefabricated building, characterized in that further formed by forming a plurality of air distribution grooves for reducing the material cost and increase the air flow at a predetermined interval in the longitudinal direction from the bottom of the insulation bar. delete delete

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