CN217734603U - Roof structure - Google Patents

Abstract

The utility model discloses a roof structure, which comprises a roof panel and a splicing assembly, wherein the roof panel comprises a first roof panel and a second roof panel; the splicing assembly comprises a first splicing piece and a second splicing piece, the first splicing piece is connected to the first roof panel and has a first clamping matching portion, the second splicing piece is connected to the second roof panel and has a second clamping matching portion, and the first clamping matching portion and the second clamping matching portion are in clamping matching. According to the roof structure with the structure, the first splicing piece and the second splicing piece are arranged and matched with each other through the first clamping matching part and the second clamping matching part in a clamping mode, so that the first roof panel and the second roof panel can be conveniently connected, and the overall installation efficiency of the roof structure is improved.

Description

Roof structure

Technical Field

The utility model relates to a building technical field, concretely relates to roofing structure.

Background

With the continuous falling of the green construction policy and the improvement of the mandatory degree, the BIPV becomes an important technical means for realizing green buildings and zero-carbon buildings, and the acceptance of the building industry to the BIPV is greatly improved. Photovoltaic enterprises have released multiple types of BIPV (building integrated photovoltaics) products, covering three major application scenarios, namely building facades, industrial and commercial roofs and household roofs. The development trend of the BIPV of the roof is to adopt standardized design, factory production and assembly type construction so as to improve the production efficiency, facilitate construction, shorten the construction period and reduce the cost.

The prior art discloses a roof structure, including first roof boarding, second roof boarding, splice plate, first screw and second screw. The splicing plate is arranged at the splicing groove, and is connected with the first roof plate through a first screw and connected with the second roof plate through a second screw.

However, when the roof panels are spliced, the first roof panel and the second roof panel are spliced through the screws, so that the roof structure is inconvenient to install, and wastes time and labor.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model discloses when splicing among the technical problem that will solve lies in prior art between the roof boarding, realize the concatenation of first roof boarding and second roof boarding through the screw respectively, the not convenient to detach wastes time and energy.

To this end, the utility model provides a roofing structure, include

The roof panel comprises a first roof panel and a second roof panel;

the splicing assembly comprises a first splicing piece and a second splicing piece, the first splicing piece is connected to the first roof panel and has a first clamping matching portion, the second splicing piece is connected to the second roof panel and has a second clamping matching portion, and the first clamping matching portion and the second clamping matching portion are in clamping matching.

Optionally, one of the first and second snap-fit portions is provided in a protruding manner, and the other of the first and second snap-fit portions is provided in a recessed manner.

Optionally, the first splicing element is a first insulating splicing element.

Optionally, the roof panel comprises a bottom panel; the first clamping matching part is connected to the first bottom plate of the first roof panel, and/or the second clamping matching part is connected to the second bottom plate of the second roof panel.

Optionally, the roof panel further comprises a heat insulation board, and the heat insulation board is arranged on one side of the bottom plate far away from the indoor space; the first splicing piece is provided with a plurality of first extending connecting parts, the first extending connecting parts extend towards the first roof board, the first extending connecting parts are connected to the first heat-insulating plate of the first roof board, and/or the second splicing piece is provided with a plurality of second extending connecting parts, the second extending connecting parts extend towards the second roof board, and the second extending connecting parts are connected to the second heat-insulating plate of the second roof board.

Optionally, the roof panel further includes a top plate, the top plate is disposed on a side of the insulation board far away from the indoor space, and the top plate has a locking edge portion; the second splicing piece is provided with a serging matching part, and the serging matching part is positioned in a first serging part of a first top plate of the first roof panel and a second serging part of a second top plate of the second roof panel.

Optionally, the second splicing piece includes the second concatenation body and assembles joint spare, the second is assembled the body and is had the second extends connecting portion the lockstitch cooperation portion, assemble joint spare connect in the second concatenation body just it has to assemble joint spare second joint cooperation portion.

Optionally, the second splicing body is arranged in a split manner and comprises a second heat insulation splicing split body and a reinforcing support splicing split body which are sequentially arranged in a direction away from the indoor space, the second heat insulation splicing split body is connected to the reinforcing support splicing split body and is provided with the second extending connecting part, and the reinforcing support splicing split body is provided with the second extending connecting part and the lockstitching matching part; or, the second concatenation body sets up for integrated into one piece, the second concatenation body is the thermal-insulated concatenation body of second.

Optionally, the roof boarding still includes the photovoltaic board, the photovoltaic board is located the roof keeps away from indoor one side.

Optionally, the roof panel further comprises an edge sealing member, and the edge sealing member is arranged at the splicing position of the roof panel.

The technical scheme provided by the utility model, following advantage has:

1. the utility model discloses a roof structure, which comprises a roof panel and a splicing component, wherein the roof panel comprises a first roof panel and a second roof panel; the splicing assembly comprises a first splicing piece and a second splicing piece, the first splicing piece is connected to the first roof panel and has a first clamping matching portion, the second splicing piece is connected to the second roof panel and has a second clamping matching portion, and the first clamping matching portion and the second clamping matching portion are in clamping matching. According to the roof structure with the structure, the first splicing piece and the second splicing piece are arranged and matched with each other through the first clamping matching part and the second clamping matching part in a clamping mode, so that the first roof panel and the second roof panel can be conveniently connected, and the overall installation efficiency of the roof structure is improved.

2. The utility model discloses a roofing structure, first joint cooperation portion with one of them of second joint cooperation portion between the two is the protrusion setting, and another between the two is sunken setting. A roofing structure of this structure through adopting sunken, convex cooperation joint, can improve the joint fastness of first joint cooperation portion and second joint cooperation portion joint department.

3. The utility model discloses a roofing structure, first splice is the first thermal-insulated splice. The roof structure of the structure is provided with the first splicing pieces, so that heat transfer between the first roof panel and the first splicing pieces can be cut off, and the heat on the first roof panel is prevented from being transferred to the first bottom plate through the first splicing pieces to influence the temperature of the space below the roof structure.

4. The utility model discloses a roof structure, the roof board also comprises a heat-insulating board which is arranged on one side of the bottom board far away from the room; the first splicing piece is provided with a plurality of first extending connecting parts, the first extending connecting parts extend towards the first roof board, the first extending connecting parts are connected to the first heat-insulating plate of the first roof board, and/or the second splicing piece is provided with a plurality of second extending connecting parts, the second extending connecting parts extend towards the second roof board, and the second extending connecting parts are connected to the second heat-insulating plate of the second roof board. According to the roof structure, the heat insulation performance of the roof structure can be improved by arranging the heat insulation plate; the first roof board extends through the first extending connecting portion and the first extending connecting portion, the second roof board extends through the second extending connecting portion and the second extending connecting portion, the reliability of the connection of the first splicing piece and the second splicing piece to the heat insulation board can be improved, and the reliability of the connection of the first splicing piece and the second splicing piece to the roof board is further improved.

5. The utility model discloses a roof structure, the roof board also comprises a top board, the top board is arranged on one side of the heat-insulating board far away from the room, and the top board is provided with a locking edge part; the second splicing piece is provided with a serging matching part, and the serging matching part is positioned in a first serging part of a first top plate of the first roof panel and a second serging part of a second top plate of the second roof panel. A roofing structure of this structure is through being equipped with lockstitch portion for it is more tight to connect between the adjacent roof.

6. The utility model discloses a roof structure, the second concatenation body is split set up, and it includes along keeping away from indoor direction set gradually second thermal-insulated concatenation components of a whole that can function independently and enhancement support concatenation components of a whole that can function independently, the second thermal-insulated concatenation components of a whole that can function independently connect in the enhancement support concatenation components of a whole that can function independently and have the second extension connecting portion, the enhancement support concatenation components of a whole that can function independently have the second extension connecting portion and the lockrand cooperation portion; or, the second concatenation body sets up for integrated into one piece, the second concatenation body is the thermal-insulated concatenation body of second. According to the roof structure, the reinforcing support splicing split bodies are arranged, so that the strength of the second splicing body can be improved, the problem that the wind uncovering resistance of the roof structure is low due to the fact that the strength of the second splicing body is insufficient, and the roof structure is damaged in strong wind weather is avoided; through setting up the thermal-insulated concatenation components of a whole that can function independently of second, perhaps, set up the second concatenation body and be the thermal-insulated concatenation body of second, can cut off the heat transfer between second roof boarding and the second concatenation, prevent that heat from transmitting the second bottom plate through the second concatenation on the second roof boarding, influence the temperature in roofing structure below space.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following descriptions are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a roof structure in the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view of the first splicing element and the second splicing element of FIG. 1;

FIG. 4 is a schematic structural view of the present invention including a second heat-insulating split body and a reinforcing support split body;

FIG. 5 is a schematic structural view of the first splicing element and the second splicing element of FIG. 4;

description of the reference numerals: 11-a first roof panel; 111-a first backplane; 112-a first thermal insulation plate; 113-a first top panel; 114-a first photovoltaic panel; 141-a first locklip portion; 12-a second roof panel; 121-a second base plate; 122-a second insulation board; 123-a second top panel; 124-a second photovoltaic panel; 151-a second locklip portion; 2-splicing the components; 21-a first splice; 211-a first snap-fit portion; 212-a first extension connection; 22-a second splice; 221-a second snap fit section; 222-a second extension connection; 223-a lockrand mating portion; 23-a second splice body; 231-a second heat-insulating splicing split body; 232-reinforcing support splicing split body; 24-assembling the clamping pieces; and 3, sealing edge parts.

Detailed Description

The technical solutions of the present invention will be described more clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

The present embodiment provides a roofing structure, as shown in fig. 1 to 5, comprising a roof panel 1, a splice assembly 2 and a edging 3. Wherein the roof panels 1 comprise a first roof panel 11 and a second roof panel 12; the splicing component 2 is arranged at the splicing position between the first roof panel 11 and the second roof panel 12, and the splicing of the first roof panel 11 and the second roof panel 12 is realized through the splicing component 2.

As shown in fig. 1, the first roof panel 11 includes a first bottom panel 111, a first thermal insulation panel 112, a first top panel 113 and a first photovoltaic panel 114, which are sequentially arranged along a direction far from the indoor, wherein the first thermal insulation panel 112 includes a first rock wool panel, a first vacuum insulation panel and a second rock wool panel, which are sequentially arranged along a direction far from the indoor; and the second roof panel 12 includes a second bottom plate 121, a second insulation board 122, a second top plate 123 and a second photovoltaic panel 124 that are sequentially arranged along a direction away from the room, wherein the second insulation board 122 includes a third rock wool board, a second vacuum insulation board and a fourth rock wool board that are sequentially arranged along a direction away from the room. The photovoltaic panel comprises a first photovoltaic panel 114 and a second photovoltaic panel 124, the top panel comprises a first top panel 113 and a second top panel 123, and the top panel is provided with a locking edge part; the insulation board includes a first insulation board 112 and a second insulation board 122, and the base board includes a first base board 111 and a second base board 121. The heat insulation performance of the roof structure can be improved by arranging the heat insulation plate.

As shown in fig. 1 and 3, the splicing assembly 2 includes a first splicing member 21 and a second splicing member 22, the first splicing member 21 is connected to the first roof panel 11 and the first splicing member 21 has a first clamping fit portion 211, the second splicing member 22 is connected to the second roof panel 12 and the second splicing member 22 has a second clamping fit portion 221, and the first clamping fit portion 211 and the second clamping fit portion 221 are in clamping fit.

Through being equipped with first splice 21 and second splice 22, first splice 21 and second splice 22 cooperate through first joint cooperation portion 211 and second joint cooperation portion 221 joint, can make things convenient for the connection of first roof boarding 11 and second roof boarding 12 to improve the holistic installation effectiveness of roofing structure.

As shown in fig. 3, the first snap-fit portion 211 may be connected to the first bottom plate 111 of the first roof panel 11 by riveting, bonding, or the like, and the second snap-fit portion 221 may be connected to the second bottom plate 121 of the second roof panel 12 by riveting, bonding, or the like. As an alternative embodiment, it is also possible to provide: the first snap-fit part 211 is connected to the first bottom plate 111 of the first roof panel 11 or the second snap-fit part 221 is connected to the second bottom plate 121 of the second roof panel 12. Connect in first bottom plate 111 through first joint cooperation portion 211, second joint cooperation portion 221 is connected in second bottom plate 121 for first splice 21 and second splice 22 are connected more firmly to first roof boarding 11 and second roof boarding 12.

Referring specifically to fig. 3, the first snap-fit portion 211 is protruded, and the second snap-fit portion 221 is recessed. As an alternative embodiment, it is also possible to provide: the second clamping matching part 221 is protruded, and the first clamping matching part 211 is recessed. Through adopting sunken, convex cooperation joint, can improve the joint fastness of first joint cooperation portion 211 and second joint cooperation portion 221 joint department.

The first splicing element 21 in this embodiment is a first insulating splicing element. Through setting up first splice 21 and being the first thermal-insulated splice, can cut off the heat transfer between first roof boarding 11 and the first splice 21, prevent that the heat on the first roof boarding 11 from transmitting first bottom plate 111 through first splice 21, influence the temperature in roofing structure below space.

As shown in fig. 1, 3 and 4, the first splicing member 21 has a plurality of first extension connecting parts 212, the first extension connecting parts 212 extend towards the first roof panel 11, and the first extension connecting parts 212 can be connected to the first heat insulation plate 112 of the first roof panel 11 by bonding or other means. Through being equipped with first extension connecting portion 212 and extending towards first roof boarding 11, can improve the reliability that first splice 21 is connected the heated board, and then improve the reliability that first splice 21 is connected the roof boarding.

As shown in fig. 3 and 5, the second splicing member 22 includes a second splicing body 23 and a splicing snap-in member 24, the second splicing body 23 has a second extending connection portion 222 and a locking edge matching portion 223, the splicing snap-in member 24 can be connected to the second splicing body 23 by fastening connection such as screws or other methods, and the splicing snap-in member 24 has a second snap-in matching portion 221. Wherein, assemble joint spare 24 bottom and can open and be equipped with the mounting hole, the fastener that can be equipped with screw or bolt etc. in the mounting hole will assemble joint spare 24 and roof crossbeam or purlin fixed connection. The splicing and clamping piece 24 can also be welded and fixed with a roof beam or a purline.

As shown in fig. 3, the second extension connection 222 extends toward the second roof panel 12, and the second extension connection 222 may be bonded or otherwise connected to the second insulation panel 122 of the second roof panel 12. Through being equipped with second extension connecting portion 222 and extending towards second roof boarding 12, can improve the reliability that second splice 22 is connected to second heated board 122, and then improve the reliability that second splice 22 is connected to second roof boarding 12. As an alternative embodiment, it is also possible to provide: the first extension connection 212 may be attached to the first insulation panel 112 of the first roof panel 11 by bonding or other means. And as shown in fig. 1 and 2, the lockstitch engagement portion 223 is located within the first lockstitch portion 141 of the first top panel 113 and within the second lockstitch portion 151 of the second top panel 123. By providing the lockstitch mating portion 223, the first lockstitch portion 141, and the second lockstitch portion 151, the connection between the first top panel 113 and the second top panel 123 is more secure.

As shown in fig. 5, the second split body 23 may be a split body, and includes a second heat insulation split body 231 and a reinforcing support split body 232 sequentially arranged in a direction away from the indoor space, the second heat insulation split body 231 may be connected to the reinforcing support split body 232 by riveting or other methods and has a second extending connection portion 222, and the reinforcing support split body 232 has a second extending connection portion 222 and a locking edge matching portion 223. Support concatenation components of a whole that can function independently 232 through setting up the enhancement, can improve the intensity of second concatenation body 23 to the intensity of avoiding second concatenation body 23 is not enough to make roofing structure's anti-wind take off the performance low, causes roofing structure's damage at strong wind weather. As an alternative embodiment, as shown in fig. 3, the second splice body 23 may be integrally formed, and the second splice body 23 may be a second heat insulation splice body. Through setting up the thermal-insulated concatenation components of a whole that can function independently 231 of second, perhaps, set up second concatenation body 23 and be the thermal-insulated concatenation body of second, can cut off the heat transfer between second roof boarding 12 and the second concatenation piece 22, prevent that heat from transmitting second bottom plate 121 through second concatenation piece 22 on the second roof boarding 12, influence the temperature of roofing structure below space.

The banding piece 3 in this embodiment locates the concatenation department of roof boarding. Referring specifically to fig. 4, the edge sealing member 3 is disposed in a gap where the second insulation board 122, the second roof panel 12 and the splicing assembly 2 are connected. Wherein, the edge sealing member 3 is a polyurethane edge sealing member or other members. Through being equipped with banding piece 3, banding piece 3 is in the clearance that second heated board 122, second roof boarding 12 and concatenation subassembly 2 are connected to prevent to have the clearance and lead to the condition appearance of leaking water.

In the installation process of the roof structure in this embodiment, during field installation, first, the installation position of the assembly clamping piece 24 is determined, the assembly clamping piece 24 is fixedly connected with a roof beam or a purlin through fixing pieces such as bolts, after the assembly clamping piece 24 is installed on all roof beams or purlins from a ridge to an eave, the second roof panel 12 is hoisted to a preset position, the assembly clamping piece 24 is connected with the second assembly body 23 through fixing pieces such as screws, and then the first assembly piece 21 on the first roof panel 11 is clamped with the assembly clamping piece 24 on the second roof panel 12, so that the bottoms of the two roof panels are connected, and then the first locking edge portion 141 and the second locking edge portion 151 on the first roof panel 11 and the second roof panel 12 are connected, so that the tops of the first roof panel 11 and the second roof panel 12 are connected.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. A roofing structure comprising:

the roof panel comprises a first roof panel and a second roof panel;

the splicing assembly comprises a first splicing piece and a second splicing piece, the first splicing piece is connected to the first roof panel and has a first clamping matching portion, the second splicing piece is connected to the second roof panel and has a second clamping matching portion, and the first clamping matching portion and the second clamping matching portion are in clamping matching.

2. A roofing structure according to claim 1 wherein one of the first and second snap-fit portions is convex and the other of the first and second snap-fit portions is concave.

3. A roofing structure according to claim 1 or 2 wherein the first splice is a first insulating splice.

4. A roofing structure according to claim 1 or 2 wherein said roofing panel includes a bottom panel; the first clamping matching part is connected with the first bottom plate of the first roof panel, and/or the second clamping matching part is connected with the second bottom plate of the second roof panel.

5. A roofing structure according to claim 4 wherein the roofing panel further includes insulation panels provided on a side of the base panel remote from the interior of the chamber; the first splicing piece is provided with a plurality of first extending connecting portions, the first extending connecting portions extend towards the first roof board, the first extending connecting portions are connected to the first heat-insulating plate of the first roof board, and/or the second splicing piece is provided with a plurality of second extending connecting portions, the second extending connecting portions extend towards the second roof board, and the second extending connecting portions are connected to the second heat-insulating plate of the second roof board.

6. A roofing structure according to claim 5 wherein the roof panels further include a roof panel, the roof panel being provided on a side of the insulation panel remote from the room and the roof panel having a lockdown portion; the second splicing piece is provided with a serging matching part, and the serging matching part is positioned in a first serging part of a first top plate of the first roof panel and a second serging part of a second top plate of the second roof panel.

7. A roofing structure according to claim 6 wherein the second splice includes a second splice body and an assembly clip, the second splice body having the second extension connection, the lockrand engagement portion, the assembly clip being connected to the second splice body and the assembly clip having the second clip engagement portion.

8. The roofing structure according to claim 7, wherein the second split body is provided as a split body, and includes a second heat insulation split body and a reinforcing support split body sequentially provided in a direction away from the indoor space, the second heat insulation split body is connected to the reinforcing support split body and has the second extension connection portion, and the reinforcing support split body has the second extension connection portion and the lockstitching portion; or, the second concatenation body sets up for integrated into one piece, the second concatenation body is the thermal-insulated concatenation body of second.

9. A roofing structure according to claim 6 wherein the roof panels further include photovoltaic panels provided on the side of the roof panel remote from the room.

10. A roofing structure according to claim 1 or 2 further comprising edge sealing members provided at the splice of the roof panels.

Images