CN218437825U - Connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel - Google Patents

Abstract

The utility model relates to a field of building heat preservation technique especially relates to a connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel, and it is including setting up shaped steel, fastener and the connecting rod between two adjacent heated boards, shaped steel passes through fastener fixed connection in the structural layer, the connecting rod is inserted and is located two adjacent heated boards, just the connecting rod is connected in shaped steel, and the cavity between two adjacent heated boards is filled insulation material and is formed with the heat preservation. This application can optimize the waterproof performance of heated board concatenation portion, optimizes the stability after the installation.

Description

Connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel

Technical Field

The utility model belongs to the technical field of building heat preservation and specifically relates to a connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel is related to.

Background

A slope roof is a roof with the slope of more than or equal to 3 percent, has different requirements aiming at the architectural style along with the development of the building technology at present, and mainly adopts the style of an antique building aiming at the slope roof. Especially, in the construction of the slope roof of the domestic ancient wind, the slope tile is required to be constructed on the building roof to form the ancient wind-like slope tile roof.

In the actual work progress, in order to satisfy the demand to building waterproof insulation, still need set up waterproof and insulation construction at the roofing, prior art mainly adopts structural layer, waterproof layer, heat preservation and screed-coat from bottom to top. Then fixing the sandal strips on the leveling layer, and paving the sloping tiles on the sandal strips to finish the construction of the sloping tile roof.

In the prior art, when the heat insulation layer is constructed, heat insulation is mainly paved by paving the heat insulation plate, and when the heat insulation plate is paved, the heat insulation plate is fixedly connected to the structural layer by mainly adopting a plurality of nylon Long Sheding distributed in an array manner; when can lead to the construction to accomplish the back and use, there is structural damage in the face of heated board position in the position that the nail was penetrated to the nylon, can have relatively great seepage risk when leading to rainy. If adopt the fixed heated board of mode of bonding, then can have the long-term back of using, because of the adhesive force of adhesive layer reduces for there is the risk that breaks away from in heated board and structural layer, makes the stability and the waterproof unable compromise of heated board, is the problem that needs solve at present urgently.

Disclosure of Invention

In order to keep under the prerequisite of heated board waterproof performance, with heated board relatively stable connect in the structural layer, this application provides a connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel.

The application provides a pair of connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel adopts following technical scheme:

the utility model provides a connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel, is including setting up shaped steel, fastener and the connecting rod between two adjacent heated boards, shaped steel passes through fastener fixed connection in structural layer, the connecting rod is inserted and is located two adjacent heated boards, just the connecting rod is connected in shaped steel, and cavity packing insulation material between two adjacent heated boards is formed with the heat preservation.

By adopting the technical scheme, when the heat insulation plate is used after being installed, the heat insulation plate is connected to the profile steel through the connecting rod, meanwhile, the profile steel is connected to the structural layer through the fastening piece, compared with the mode that the heat insulation plate is penetrated and arranged along the thickness direction of the heat insulation plate through the nylon shooting nail, the influence on the waterproof performance of the heat insulation plate can be effectively reduced, and the plate surface of the heat insulation plate can be kept in a relatively complete state; meanwhile, compared with a bonding mode, the insulation boards are connected to the profile steel through the connecting rods, so that the connection stability can be effectively increased, and the gaps between two adjacent insulation boards are filled with the insulation layers to perform insulation treatment on the gaps where the profile steel is located, so that the influence of the profile steel on the insulation performance is reduced, the waterproof insulation performance of the insulation boards is optimized, and the fixation stability of the insulation boards can be optimized; in addition, when the tile construction of sloping, can also be used as the installation basis of sloping tile with shaped steel, compare in directly laying the sloping tile and be fixed in the roofing, can effectually reduce the load that is applied to the heated board such as sloping tile to make the structural layer can directly bear the weight of sloping tile, reduce the influence to the heated board.

Optionally, the heat insulation layer is a heat insulation concrete layer.

Through adopting above-mentioned technical scheme, adopt the heat preservation that the heat preservation concrete poured and formed, can also further with shaped steel, heated board, connecting rod and the relatively inseparable combination of structural layer, make the heat preservation have the intensity of relative preferred simultaneously.

Optionally, shaped steel includes shaped steel floor and two connect in the shaped steel connecting plate of shaped steel floor, one of them the shaped steel connecting plate laminating is in the structural layer and is connected in the structural layer through the fastener, just shaped steel floor and shaped steel connecting plate all inlay and locate the heat preservation.

Through adopting above-mentioned technical scheme, two shaped steel connecting plates are connected in the shaped steel floor for the heat preservation can block and locate between two shaped steel connecting plates, after further optimizing the heat preservation construction and accomplishing, the stability that shaped steel and heat preservation combined.

Optionally, two the shaped steel connecting plate and heated board and the heat preservation parallel and level setting of keeping away from the structural layer in the shaped steel connecting plate.

Through adopting above-mentioned technical scheme for after the heat preservation construction between two adjacent heated boards is accomplished, can keep the roughness of relative preferred.

Optionally, waterproof layers are coated on the surfaces of the profile steel connecting plate, the heat insulation layer and the heat insulation plate far away from the structural layer.

Through adopting above-mentioned technical scheme, the waterproof layer can further do water repellent to the surface of steel connecting plate, heat preservation and heated board to further reduce the possibility that the seepage takes place in the clearance between heated board and heat preservation and the shaped steel connecting plate.

Optionally, the section steel is provided with a water stop plate, and the water stop plate is embedded in the heat preservation layer.

Through adopting above-mentioned technical scheme, the sealing plate can be to the waterproof treatment of the clearance between shaped steel and the heat preservation for when water oozes, need walk around the outer wall of shaped steel and the outer wall of sealing plate in proper order, thereby make the route of water infiltration increase, thereby reach the effect of stagnant water.

Optionally, the connecting rod is a twisted steel.

Through adopting above-mentioned technical scheme, the screw thread of connecting rod perisporium can restrict the displacement of relative heat preservation to can further optimize the compactness that connecting rod and heat preservation combine.

Optionally, the fastener is a chemical bolt.

Through adopting above-mentioned technical scheme, compare in adopting the crab-bolt, need not be in advance with the fastener pre-buries in the structural layer, compare in expansion bolts simultaneously, can make the screw rod portion inseparable combination in the structural layer of fastener through the chemical agent of fastener to optimize the stability after the installation.

Optionally, the section steel is provided with a connecting hole, and the connecting rod penetrates through the connecting hole.

Through adopting above-mentioned technical scheme, can slide through the axial of connecting rod relative connecting hole to adapt to the concatenation seam of different widths between two adjacent heated boards, with the actual width of adaptation roofing.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the heat insulation plate is used after being installed, the heat insulation plate is connected to the profile steel through the connecting rod, meanwhile, the profile steel is connected to the structural layer through the fastening piece, and compared with the method that the heat insulation plate is arranged in a penetrating mode along the thickness direction of the heat insulation plate through the nylon shooting nail, the influence on the water resistance of the heat insulation plate can be effectively reduced, and the plate surface of the heat insulation plate can be kept in a relatively complete state; meanwhile, compared with a bonding mode, the heat-insulation plate is connected to the profile steel through the connecting rod, and the profile steel is connected to the structural layer, so that the connection stability can be effectively improved; the heat insulation layer is filled in the gap between two adjacent heat insulation plates, so that the gap where the section steel is located is subjected to heat insulation treatment, the influence of the arranged section steel on the heat insulation performance is reduced, the waterproof heat insulation performance of the heat insulation plates is optimized, meanwhile, the heat insulation plates, the section steel and the fasteners can be combined together relatively tightly, and the fixing stability of the heat insulation plates is further optimized;

2. in addition, when the tile construction of sloping, can also be used as the installation basis of sloping tile with shaped steel, compare in directly laying the sloping tile and be fixed in the roofing, can effectually reduce the load that is applied to the heated board such as sloping tile to make the structural layer can directly bear the weight of sloping tile, reduce the influence to the heated board.

Drawings

Fig. 1 is a schematic cross-sectional structure diagram of embodiment 1 of the present application.

FIG. 2 is a schematic sectional view showing the structural shape of the section steel in example 2 of this application.

Description of reference numerals: 11. a heat-insulating board; 12. a structural layer; 13. a heat-insulating layer; 14. a waterproof layer; 2. section steel; 21. a section steel rib plate; 211. a profile steel clamping plate; 212. profile steel heat insulation strips; 213. a clamping groove; 214. a clamping bar; 215. a heat insulating support; 22. a section steel connecting plate; 23. a water stop plate; 24. connecting holes; 3. a fastener; 4. a connecting rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel.

Example 1

Referring to fig. 1, the connection structure includes a section steel 2 disposed between two adjacent insulation boards 11, a fastener 3, and a connection rod 4. The section steel 2 comprises a section steel rib plate 21 and two section steel connecting plates 22 which are parallel to each other, the two side edges of the section steel rib plate 21 in the length direction are respectively and fixedly connected to the section steel connecting plates 22, and the section steel rib plate 21 is perpendicular to the section steel connecting plates 22.

Specifically, one of the profiled bar connecting plates 22 is disposed in close proximity to the structural layer 12. The fastener 3 is a chemical bolt, an expansion bolt or an anchor bolt pre-installed in the structural layer 12, preferably a chemical bolt. The fastener 3 is arranged in the section steel connecting plate 22 attached to the structural layer 12 in a penetrating manner, and the fastener 3 is inserted and fixedly connected to the structural layer 12 so as to fixedly connect the section steel connecting plate 22 attached to the structural layer 12. Of course, in other embodiments, the fastener 3 may also be arranged through two profiled bar connecting plates 22.

Referring to fig. 1, a connecting hole 24 is opened in the section steel rib plate 21, the connecting rod 4 penetrates through the connecting hole 24, two ends of the connecting rod 4 are respectively inserted into the side edges of two adjacent insulation boards 11, and the connecting rod 4 is inserted into the insulation boards 11 along the width direction of the insulation boards 11 so as to limit the displacement of the insulation boards 11 relative to the structural layer 12. Specifically, the connecting rod 4 may be connected to the heat insulation plate 11 in an adhesive manner. Simultaneously, the setting of connecting hole 24 can only need to insert the one end of connecting rod 4 and locate the heated board 11 of having laid when heated board 11 is laid, then lays heated board 11 in structural layer 12 according to the position of the remaining one end of connecting rod 4, can accomplish laying of heated board 11 to when optimizing the convenience when laying heated board 11, adaptability when laying heated board 11 can also be optimized.

Referring to fig. 1, at the same time, a heat insulating layer 13 is formed by filling a heat insulating material in a gap between two adjacent heat insulating plates 11, so as to perform heat insulating treatment on a gap between two adjacent heat insulating plates 11 due to the arrangement of the section steel 2. The heat preservation layer 13 is formed by pouring heat preservation concrete, namely foaming concrete, and the section steel connecting plate 22, the section steel rib plate 21 and the connecting rod 4 are all embedded in the heat preservation layer 13. Of course, in other embodiments, the insulating layer 13 may be formed by filling and curing other materials, such as foam rubber, rigid polyurethane foam; the side edge of the heat insulation plate 11 can also be provided with a splicing hole, and after the connecting rod 4 is inserted into the splicing hole, the heat insulation concrete poured into the heat insulation plate 13 is poured into the splicing hole, so that the heat insulation plate 11 is fixedly connected with the connecting rod 4.

In addition, when the section steel 2 is used for the construction of the sloping tile roof, the section steel connecting plate 22 at the side far away from the structural layer 12 is used as an installation foundation for installing the sandals of the sloping tiles, so that the loads generated by the sloping tiles, the sandals and the like are applied to the structural layer 12 through the section steel 2, and the load born by the heat insulation board 11 is reduced.

Referring to fig. 1, in order to reduce the possibility of leakage due to the gap between the section steel 2 and the insulating layer 13, the section steel rib 21 is provided with a water stop plate 23, the water stop plate 23 is a steel plate, and the water stop plate 23 is welded to the section steel rib 21. And the two side edges of the water stop plate 23 along the length direction are respectively positioned at the two sides of the section steel rib plate 21 so as to be used as water stop. Of course, in other embodiments, the water stop plate 23 may be fixedly connected to the steel rib 21 by bolts.

Meanwhile, in order to further optimize the waterproof performance, the waterproof layer 14 is formed by coating the surface of one side of the heat-insulating layer 13 and the heat-insulating plate 11 away from the structural layer 12 and the profile steel connecting plate 22 located on one side of the two profile steel connecting plates 22 away from the structural layer 12, and the waterproof layer 14 is a layer structure formed by coating waterproof paint and curing so as to be used as further waterproof.

The implementation principle of the embodiment 1 is as follows: when installing, only need place shaped steel 2 in structural layer 12 earlier to in step splice heated board 11 each other through connecting rod 4 and shaped steel 2, form the splice groove simultaneously between two adjacent heated boards 11, then pass through 3 fixed connection of fastener in structural layer 12 with shaped steel 2, it can to pour the heat preservation concrete at last in the splice groove and form heat preservation 13. Compare in penetrating the nail fixedly with heated board 11 through the nylon, when can effectually reduce the damage to heated board 11 face, can also cooperate heat preservation 13 through connecting rod 4, with the fixed connection of 11 relatively stable of heated board in structural layer 12.

Example 2

Referring to fig. 2, the present embodiment is different from embodiment 1 in that the profiled bar rib 21 includes two profiled bar holding plates 211 and a profiled bar heat insulating strip 212 disposed between the two profiled bar holding plates 211. Two shaped steel grip blocks 211 are fixed connection respectively in the relative side face of two shaped steel connecting plates 22, and simultaneously, the centre gripping groove 213 has been seted up to two shaped steel grip blocks 211's relative side border.

Specifically, the clamping groove 213 has a plurality of clamping bars 214 distributed along the depth direction of the clamping groove 213 on both side walls, and the section steel heat insulation bar 212 is made of a heat insulation material, such as nylon or engineering plastic. And the outer wall of shaped steel heat insulating strip 212 is the same shaping has centre gripping strip 214, shaped steel heat insulating strip 212 is along the both sides border of length side block respectively locate in the centre gripping groove 213 of two shaped steel grip blocks 211, and centre gripping strip 214 on the shaped steel heat insulating strip 212 and the mutual joint of centre gripping strip 214 of centre gripping groove 213 inner wall, so that after heat preservation 13 pours the shaping, can restrict bending etc. of the both sides wall of centre gripping groove 213, make two shaped steel grip blocks 211 can be relatively stable connect in shaped steel heat insulating strip 212, reduce the heat transfer when using through shaped steel heat insulating strip 212 simultaneously, in order to optimize heat preservation heat-proof quality.

Referring to fig. 2, in order to allow the two profiled steel clamping plates 211 to be relatively stably connected by the profiled steel insulating bars 212, a heat insulating support 215 is formed to protrude from a portion of the profiled steel insulating bars 212 located between the two profiled steel clamping plates 211, and opposite side edges of the two profiled steel clamping plates 211 abut against the heat insulating support 215. The water stop plate 23 is welded to the section steel clamping plate 211, and the connecting rod 4 penetrates through the section steel clamping plate 211 facing one side of the structural layer 12.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a connection structure of assembled sloping tile roofing waterproof insulation board and shaped steel which characterized in that: including setting up shaped steel (2), fastener (3) and connecting rod (4) between two adjacent heated boards (11), shaped steel (2) are through fastener (3) fixed connection in structural layer (12), connecting rod (4) are inserted and are located two adjacent heated boards (11), just connecting rod (4) are connected in shaped steel (2), and cavity packing insulation material between two adjacent heated boards (11) is formed with heat preservation (13).

2. The connecting structure of the assembled sloping tile roof waterproof insulation board and the section steel according to claim 1, characterized in that: the heat preservation layer (13) is a heat preservation concrete layer.

3. The connecting structure of the assembled sloping tile roof waterproof insulation board and the section steel according to claim 1, characterized in that: shaped steel (2) include shaped steel floor (21) and two connect in shaped steel connecting plate (22) of shaped steel floor (21), one of them shaped steel connecting plate (22) are laminated in structural layer (12) and are connected in structural layer (12) through fastener (3), just shaped steel floor (21) and shaped steel connecting plate (22) all inlay and locate heat preservation (13).

4. The connection structure of assembled sloping tile roofing waterproof heated board and shaped steel of claim 3, its characterized in that: two keep away from shaped steel connecting plate (22) of structural layer (12) among shaped steel connecting plate (22) and heated board (11) and heat preservation (13) parallel and level setting.

5. The connection structure of assembled sloping tile roofing waterproof heated board and shaped steel of claim 3, its characterized in that: waterproof layers (14) are coated on the surfaces, far away from the structural layer (12), of the section steel connecting plate (22), the heat insulation layer (13) and the heat insulation plate (11).

6. The connecting structure of the assembled sloping tile roof waterproof insulation board and the section steel according to claim 1, characterized in that: the section steel (2) is provided with a water stop plate (23), and the water stop plate (23) is embedded in the heat preservation layer (13).

7. The connecting structure of the assembled sloping tile roof waterproof insulation board and the section steel according to claim 1, characterized in that: the connecting rod (4) is a twisted steel.

8. The connecting structure of the assembled sloping tile roof waterproof insulation board and the section steel according to claim 1, characterized in that: the fastener (3) is a chemical bolt.

9. The connecting structure of the assembled sloping tile roof waterproof insulation board and the section steel according to claim 1, characterized in that: the section steel (2) is provided with a connecting hole (24), and the connecting rod (4) penetrates through the connecting hole (24).

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