CN212358869U - Heat preservation and insulation composite tile of taut assembly of foaming inflation padlock - Google Patents

Abstract

The utility model relates to a thermal-insulated compound tile that keeps warm of taut assembly of foaming inflation padlock, including the surface plywood, the bottom surface plywood, set up the ripples portion of the tile on surface plywood and bottom surface plywood, the hole portion of tile, the surface plywood is to range upon range of each other with the bottom surface plywood and sets up together, and be formed with the interval cavity between surface plywood and bottom surface plywood, still be equipped with a plurality of perpendicular connection laths in the interval cavity, the last side of each perpendicular connection lath is connected with the bottom surface looks padlock of surface plywood, the lower side of each perpendicular connection lath is connected with the top surface looks padlock of bottom surface plywood, and it has expanded material to fill between surface plywood and bottom surface plywood, utilize expanded material's foaming expansion characteristic, it is inseparable each other, firmly connect and constitute an integral compound tile plate body. The tile has the advantages of light weight, thickness, high structural strength, strong deformation resistance, good bearing capacity, safety, environmental protection, good sound insulation and heat preservation, no degumming and cracking separation between the surface layer plate and the bottom layer plate, and good durability.

Description

Heat preservation and insulation composite tile of taut assembly of foaming inflation padlock

Technical Field

The utility model relates to a roofing tile field, especially a heat preservation and insulation composite tile.

Background

At present, the heat preservation and insulation composite tiles sold in the market generally comprise a metal surface layer, a metal bottom surface layer and a white foam interlayer sandwiched between the metal surface layer and the metal bottom surface layer, wherein the metal surface layer and the white foam interlayer, and the metal bottom surface layer and the white foam interlayer are combined into a whole by an adhesion mode. The main defects of the heat-preservation and heat-insulation composite tile are as follows: because the metal surface layer and the white foam interlayer and the metal bottom surface layer and the white foam interlayer are not physically connected, the metal surface layer and the white foam interlayer are bonded by the adhesive, and the metal bottom surface layer and the white foam interlayer are applied in a high-temperature outdoor environment, the phenomenon of cracking and layer separation is easy to occur; moreover, because the layer structure of the composite structure does not have any hard physical connection structure, the integral structural strength is generally not high, the composite structure is easy to deform, and the bearing performance is poor.

Therefore, in view of the above-mentioned disadvantages of the prior art, the present invention is to provide a heat-insulating composite tile which can be improved in structure and production manner to meet the needs of people in building construction.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem and not enough, provide a light in weight, thick and solid, structural strength is high, anti deformability is strong, bearing capacity is good, safety ring protects, the heat insulating ability that gives sound insulation is good, and is connected through the padlock between perpendicular connection lath and surface laminate, the bottom surface laminate, does not have the phenomenon of coming unstuck, the fracture absciss layer between the messenger, the thermal-insulated compound tile that keeps warm of the taut assembly of foaming inflation padlock that long service life, durability are good.

The technical scheme of the utility model is realized like this: a heat-insulating composite tile with a foam expansion buckle lock in tensioning assembly comprises a surface layer plate, a bottom layer plate, a tile wave part and a tile pit part which are arranged on the surface layer plate and the bottom layer plate, it is characterized in that the surface layer plate and the bottom layer plate are mutually overlapped and arranged together, a spacing cavity is formed between the surface layer plate and the bottom layer plate, a plurality of vertical connecting laths are also arranged in the spacing cavity, the upper side edge of each vertical connecting lath is in buckling and locking connection with the bottom surface of the surface laminate, the lower side edge of each vertical connecting lath is in buckling and locking connection with the top surface of the bottom laminate, the spacing cavity is divided into a plurality of small spacing cavities, foaming materials are filled in the small spacing cavities, and the foaming expansion characteristic of the foaming materials is utilized, so that the surface layer plate, the bottom layer plate and each vertical connecting lath are mutually tightly and firmly connected to form an integral composite tile plate body.

Furthermore, a single-layer buckling edge part integrated with the tile wave part is arranged on one side edge of the composite tile body, a composite buckling edge part integrated with the tile wave part is arranged on the other side edge of the composite tile body, and the composite tile body are buckled on the composite buckling edge part through the single-layer buckling edge part and are mutually assembled and connected together.

Furthermore, the utility model also comprises a waterproof cover strip, a fixed code piece and a screw, wherein the top of the tile wave part is also provided with a concave groove; the middle concave part of the fixed code piece is embedded in a concave groove of the tile wave part, and the screws penetrate through the middle concave part and are sequentially locked into the single-layer buckling edge part and the composite buckling edge part; elastic buckling edges are respectively formed on two sides of the waterproof buckling cover strip, and the waterproof buckling cover strip is buckled with the extension wing part of the fixed code piece through the elastic buckling edges and covers the single-layer buckling edge part and the composite buckling edge part.

The utility model has the advantages that: the composite tile adopts a plurality of vertical connecting laths arranged between the surface layer plate and the bottom layer plate to lock and assemble the surface layer plate and the bottom layer plate, foam materials are filled in a spacing cavity formed between the surface layer plate and the bottom layer plate, and the foaming expansion characteristic of the foam materials is utilized to lock and assemble the surface layer plate and the bottom layer plate and the vertical connecting laths, so that the surface layer plate and the vertical connecting laths can be tensioned and tensioned without gaps, and the integral, high-strength, light-weight and firmly-assembled composite tile is assembled; whole tile not only light in weight, thick and solid, structural strength is high, anti deformability is strong, bearing capacity is good, safety ring protects, the heat insulating ability that gives sound insulation is good, moreover through having adopted surface plywood, bottom surface plywood and erect the physical structure between the connection lath and be connected firmly, need not glue at all and bond, make the utility model discloses a tile does not have the phenomenon of coming unstuck, the fracture absciss layer completely, and long service life, durability are good, and environmental protection and safety more.

Drawings

Fig. 1 is a schematic cross-sectional structure view of the single tile of the present invention.

Fig. 2 is a schematic cross-sectional structure diagram of the two tiles of the present invention assembled together.

Fig. 3 is a schematic view of the structure of the disassembled section of the two tile assembly parts of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the waterproof cover strip of the present invention.

Fig. 5 is a schematic perspective view of the fixing member of the present invention.

Fig. 6 is a schematic cross-sectional structure view of the vertical connecting lath of the present invention.

Fig. 7 is a schematic side view of the cross connecting plate of the present invention.

Detailed Description

As shown in figure 1, the heat preservation and heat insulation composite tile with the taut assembly of foaming expansion padlock of the utility model comprises a surface layer board 1, a bottom layer board 2, a tile wave part 3, a tile pit part 4 and the like which are arranged on the surface layer board 1 and the bottom layer board 2, in order to realize the purpose of the utility model, as shown in figure 1, the surface layer board 1 and the bottom layer board 2 are mutually overlapped and arranged together, a spacing cavity 5 is formed between the surface layer board 1 and the bottom layer board 2, a plurality of vertical connecting laths 6 are also arranged in the spacing cavity 5, the upper side edge of each vertical connecting lath 6 is connected with the bottom surface of the surface layer board 1 in a locking way, the lower side edge of each vertical connecting lath 6 is connected with the top surface of the bottom layer board 2 in a locking way, the spacing cavity 5 is separated to form a plurality of small spacing cavities, foaming materials 7 are filled in each small spacing cavity, the foaming expansion characteristic of the foaming materials 7 is utilized, so that the surface layer plate 1, the bottom layer plate 2 and each vertical connecting lath 6 are tightly and firmly connected with each other to form an integral composite tile body 10. The utility model discloses a such structural design makes the hard connection physical structure who has a plurality of perpendicular connection laths 6 between surface plywood 1, the bottom surface plywood 2, has strengthened the structural strength of monoblock tile greatly, makes its bearing capacity reinforcing, can not take place the absciss layer that ftractures between surface plywood 1, the bottom surface plywood 2 moreover to also do not bond with glue, the ageing resistance is strong, and the durability is high, and no toluene, formaldehyde produce, environmental protection safety. In addition, the surface layer plate 1, the bottom layer plate 2 and the vertical connecting lath 6 are tensioned and tensioned through the foaming expansion characteristic of the foaming material 7 on the basis of hard connection, so that the phenomena of infirm assembly, loosening and layer separation are avoided, and the composite floor is firm and durable.

In order to facilitate splicing between the composite tile body 10 and to ensure good leakage-proof performance, as shown in fig. 1 or fig. 2, a single-layer buckling edge 101 integrated with the tile wave portion 3 is disposed on one side edge of the composite tile body 10, a composite buckling edge 102 integrated with the tile wave portion 3 is disposed on the other side edge of the composite tile body 10, and the composite tile body 10 are fastened to the composite buckling edge 102 through the single-layer buckling edge 101 and are assembled and connected with each other. At this time, in order to further improve the firmness of splicing between the composite tile body 10 and facilitate fixing the tile on the roof truss 100, as shown in fig. 2 and 3, the utility model also comprises a waterproof cover strip 8, a fixing member 9 and a screw 20; wherein, the top of the corrugated part 3 is also provided with a concave groove 31; the fixed code 9 is composed of a middle concave part 91 and extending wing parts 92 arranged at both sides of the middle concave part 91, the middle concave part 91 of the fixed code 9 is embedded in the concave groove 31 of the tile wave part 3, and the screw 20 penetrates from the middle concave part 91 and is sequentially locked into the single-layer buckling edge part 101 and the composite buckling edge part 102. In use, the bottom surface of the tile wave portion 3 is embedded in the roof truss 100 for positioning, and the screw 20 is simultaneously locked into the roof truss 100 to fix the tile, as shown in fig. 2. Elastic buckling edges 81 are respectively formed on two sides of the waterproof buckling cover strip 8, and the waterproof buckling cover strip 8 is buckled with the extension wing part 92 of the fixed code piece 9 through the elastic buckling edges 81 and is covered on the single-layer buckling edge part 101 and the composite buckling edge part 102.

One end of the vertical connecting lath 6 can be integrated with one of the surface layer plate 1 and the bottom layer plate 2, or integrally formed. Of course, the vertical connecting lath 6, the surface layer plate 1 and the bottom layer plate 2 can also be made into mutually independent split structures. In order to reduce the processing difficulty and make it easier to implement, the latter method is adopted in this embodiment, that is, as shown in fig. 1 or fig. 2, a plurality of nested groove bodies 30 are further respectively arranged on the bottom surface of the surface laminate 1 and the top surface of the bottom laminate 2, and the nested groove bodies 30 are in a connecting groove structure with a narrow notch and a wide groove body, wherein the upper portion of the nested groove body is narrow and the lower portion of the nested groove body is wide; correspondingly, the upper side and the lower side of the vertical connecting lath 6 along the length direction are respectively provided with a nesting head 61 with a wide outer side and a narrow inner side. The surface layer plate 1 and the bottom layer plate 2 are respectively connected with the nesting grooves 30 of the surface layer plate 1 and the bottom layer plate 2 in a nesting mode through nesting heads 61 on the upper side and the lower side of the vertical connecting lath 6, and a plurality of small spacing cavities are formed among the surface layer plate 1, the bottom layer plate 2 and the vertical connecting lath 6 in a surrounding mode.

In order to further increase the structural strength of the present invention, the impact resistance and the bearing capacity are further improved and strengthened, as shown in fig. 1 and 7, the present invention further comprises a cross connecting plate 40, the left side edge and the right side edge of the cross connecting plate 40 along the length direction thereof are respectively provided with an nesting head 61 which is wide at the outer side and narrow at the inner side, and the cross connecting plate 40 is further uniformly provided with a plurality of through holes 401; at this time, the side surface of the vertical connecting lath 6 is also provided with a nested groove body 30, and the nested groove body 30 is of a connecting groove structure with a narrow groove opening and a wide groove body, wherein the upper part of the connecting groove is narrow and the lower part of the connecting groove is wide; the transverse connecting plate 40 is respectively connected with the nesting grooves 30 of the vertical connecting laths 6 in a nesting mode through the nesting heads 61 on the two sides of the transverse connecting plate and is installed in the small-interval cavity, so that a balanced and tensioned tensioning connecting structure is formed for the vertical connecting laths 6 on the two sides in the small-interval cavity, and the foaming material 7 is filled in the small-interval cavity and invades into the through holes 401 penetrating through the transverse connecting plate 40. The foaming material 7 is coated and filled on the transverse connecting plate 40, so that the whole tile has better strength, higher deformation resistance and higher bearing capacity.

The utility model discloses a vertical connecting lath 6 can adopt plastic material, nylon materials processing to form, also can metal material, for example aluminum alloy materials processing forms. The two materials have the advantages that the plastic material and the nylon material can block the heat transfer effect, the heat conducting performance of the tile can be greatly reduced, the heat insulation performance of the tile product is improved, and the structural strength of the tile product is slightly lower than that of a metal material. The metal material has the advantages of high structural strength, difficult aging and good durability, but has the defects of faster heat transfer and poorer heat insulation of the tile. Therefore, in order to integrate the advantages of the two materials, the vertical connecting lath 6 of the present invention has high strength, and also has the function of blocking or reducing the efficiency of heat transfer, and improves the heat insulating performance of the tile, as shown in fig. 7, the vertical connecting lath 6 is composed of a metal frame member 62 and a plastic coating layer 63 coated on the surface of the metal frame member 62. The metal frame member 62 may be integrally formed, for example, by integrally drawing an aluminum alloy material, as shown in fig. 7, according to the functional configuration. In this embodiment, the metal frame 62 is composed of a vertical plate 621, an upper horizontal plate 622, and a lower horizontal plate 623, and an upper groove 624 and a lower groove 625 are symmetrically disposed on the side of the vertical plate 621. Through the design, the structural strength of each part can be greatly enhanced.

The surface layer plate 1 is an aluminum alloy plate, a stainless steel plate, an iron plate or a mixed plate of plastics and inorganic materials; the bottom layer plate 2 is an aluminum alloy plate, a stainless steel plate, an iron plate or a mixed plate of plastics and inorganic materials; the utility model discloses can adopt these texture panels, according to actual use's needs, according to preceding structural design, the compound composite tile product that includes these material boards of equipment out of complex. Moreover, the plates can be applied after being subjected to surface treatment of coloring, corrosion prevention and rust prevention by adopting the existing coloring, corrosion prevention and rust prevention processes, and then the service life of the utility model can be further prolonged.

The above description of the structural solution is an embodiment of the preferred embodiment of the present invention, but it does not represent a limitation to the protection scope of the technical solution of the present invention. It should be noted that, for those skilled in the art, a plurality of modifications and improvements can be made without departing from the concept of the present invention, and all of the modifications and improvements belong to the protection scope of the present invention, and all fall into the protection scope of the present invention.

Claims (7)

1. The utility model provides a thermal-insulated compound tile that keeps warm of taut assembly of foaming inflation padlock, includes surface laminate (1), bottom surface laminate (2), sets up tile ripples portion (3), tile hole portion (4) on surface laminate (1) and bottom surface laminate (2), its characterized in that:

the composite tile body is characterized in that the surface layer plate (1) and the bottom layer plate (2) are mutually stacked and arranged together, a spacing cavity (5) is formed between the surface layer plate (1) and the bottom layer plate (2), a plurality of vertical connecting battens (6) are further arranged in the spacing cavity (5), the upper side of each vertical connecting batten (6) is connected with the bottom surface of the surface layer plate (1) in a buckling and locking mode, the lower side of each vertical connecting batten (6) is connected with the top surface of the bottom layer plate (2) in a buckling and locking mode, the spacing cavity (5) is separated to form a plurality of small spacing cavities, foaming materials (7) are filled in each small spacing cavity, and the foaming expansion characteristics of the foaming materials (7) are utilized, so that the surface layer plate (1), the bottom layer plate (2) and the vertical connecting battens (6) are mutually tightly and firmly connected to form the integral composite tile body (10).

2. The foam expansion padlock-tensioned assembled heat-insulating composite tile according to claim 1, characterized in that: the composite tile comprises a composite tile body (10) and is characterized in that a single-layer buckling edge portion (101) which is integrated with a tile wave portion (3) is arranged on one side edge of the composite tile body (10), a composite buckling edge portion (102) which is integrated with the tile wave portion (3) is arranged on the other side edge of the composite tile body (10), and the composite tile body (10) are buckled on the composite buckling edge portion (102) through the single-layer buckling edge portion (101) and are assembled and connected with each other.

3. The foam expansion padlock-tensioned assembled heat-insulating composite tile according to claim 2, characterized in that: also comprises a waterproof buckle cover strip (8), a fixed code piece (9) and a screw (20), wherein

The top of the tile wave part (3) is also provided with a concave groove (31);

the fixed code piece (9) is composed of a middle concave part (91) and extending wing parts (92) arranged on two sides of the middle concave part (91), the middle concave part (91) of the fixed code piece (9) is embedded in a concave groove (31) of the tile wave part (3), and the screw (20) penetrates through the middle concave part (91) and is sequentially locked into the single-layer buckling edge part (101) and the composite buckling edge part (102);

elastic buckling edges (81) are respectively formed on two sides of the waterproof buckling cover strip (8), and the waterproof buckling cover strip (8) is buckled with the extension wing part (92) of the fixed code piece (9) through the elastic buckling edges (81) and covers the single-layer buckling edge part (101) and the composite buckling edge part (102).

4. The foam expansion padlock-tensioned assembled heat-insulating composite tile according to claim 1, characterized in that: a plurality of nested groove bodies (30) are respectively arranged on the bottom surface of the surface layer plate (1) and the top surface of the bottom layer plate (2), the nested groove bodies (30) are of a connecting groove structure with narrow groove openings and wide groove bodies, the upper part is narrow, and the lower part is wide,

the upper side edge and the lower side edge of the vertical connecting lath (6) along the length direction are respectively provided with an embedded head (61) with a wide outer side and a narrow inner side;

the surface layer plate (1) and the bottom layer plate (2) are respectively connected with the nesting groove bodies (30) of the surface layer plate (1) and the bottom layer plate (2) in a nesting mode through nesting heads (61) on the upper side and the lower side of the vertical connecting lath (6) and are assembled together, and a plurality of small-space cavities are formed between the surface layer plate (1), the bottom layer plate (2) and the vertical connecting lath (6) in a surrounding mode.

5. The foam expansion padlock-tensioned assembled heat-insulating composite tile according to claim 4, characterized in that: the device is characterized by also comprising a transverse connecting plate (40), wherein the left side edge and the right side edge of the transverse connecting plate (40) along the length direction are respectively provided with a nesting head (61) with a wide outer side and a narrow inner side, and the transverse connecting plate (40) is also uniformly provided with a plurality of through holes (401);

the side surface of the vertical connecting lath (6) is also provided with a nested groove body (30), and the nested groove body (30) is of a connecting groove structure with a narrow groove opening and a wide groove body, wherein the upper part of the connecting groove structure is narrow and the lower part of the connecting groove structure is wide;

the transverse connecting plate (40) is respectively connected with the nesting grooves (30) of the vertical connecting battens (6) in a nesting mode through the nesting heads (61) on the two sides of the transverse connecting plate and is installed in the small-interval cavity, a balanced and tensioned tensioning connecting structure is formed for the vertical connecting battens (6) on the two sides in the small-interval cavity, and the foaming materials (7) are filled in the small-interval cavity and penetrate into the through holes (401) of the transverse connecting plate (40).

6. The foam expansion padlock-tensioned assembled heat-insulating composite tile according to claim 4, characterized in that: the vertical connecting batten (6) consists of a metal framework piece (62) and a plastic coating layer (63) coated on the surface of the metal framework piece (62).

7. The foam expansion padlock-tensioned assembled heat-insulating composite tile according to claim 6, characterized in that: the metal framework piece (62) is composed of a vertical lath (621), an upper transverse lath (622) and a lower transverse lath (623), and an upper slotting strip (624) and a lower slotting strip (625) which are symmetrically arranged are further arranged on the side surface of the vertical lath (621).

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