CN218205274U - Energy-saving roof - Google Patents

Abstract

The utility model relates to an energy-saving roof, which relates to the field of energy-saving buildings and comprises a roof main body, polystyrene boards and a connecting layer which is used for fixing the polystyrene boards and is formed by pouring adhesive, wherein the roof main body is provided with an installation mechanism which is used for installing a plurality of polystyrene boards, the installation mechanism comprises a plurality of installation frames and a connecting component, the installation frames are arranged on the roof main body, the polystyrene boards are respectively clamped and arranged in the installation frames, and the connecting layer is poured on the installation frames and the polystyrene boards through the adhesive and is connected with the roof main body; the connecting assembly is arranged on the mounting frame and used for connecting the adjacent mounting frames. This application can be installed the roofing main part with polylith polystyrene board on, and can reduce and appear the too big probability in clearance between two adjacent polystyrene boards to improve the polystyrene board and to the heat preservation effect of building, consequently improved the energy-conserving effect of roofing.

Description

Energy-saving roof

Technical Field

The application relates to the field of energy-saving buildings, in particular to an energy-saving roof.

Background

The four seasons change, and indoor temperature also changes thereupon, and traditional air conditioning system can maintain indoor temperature, but uses the air conditioner to adjust indoor temperature not only can consume a large amount of energy, still can increase the destruction that freon was right, therefore the building itself has good heat preservation effect and has important meaning to energy-concerving and environment-protective.

In the prior art, a polystyrene board is usually bonded on a roof, then the polystyrene board is plastered and leveled according to the gradient, and finally concrete is poured on the polystyrene board to form a protective layer, wherein the protective layer is used for protecting the polystyrene board.

Because the larger the clearance between the polystyrene boards is, the poorer the heat preservation effect of the polystyrene boards is, and the staff only splices the polystyrene boards according to the work experience, so that the condition that the clearance between two adjacent polystyrene boards is too large is easy to occur, thereby reducing the heat preservation effect of the polystyrene boards on buildings and leading to the poor energy-saving effect of roofs.

SUMMERY OF THE UTILITY MODEL

In order to improve the heat preservation effect of roofing, this application provides an energy-conserving roofing.

The application provides an energy-conserving roofing adopts following technical scheme:

the utility model provides an energy-conserving roofing, includes roofing main part, polystyrene board and is used for the articulamentum of fixed polystyrene board, be provided with the installation mechanism that is used for installing a plurality of polystyrene boards in the roofing main part, installation mechanism includes:

the mounting frames are arranged on the roof main body, the polystyrene plates are respectively clamped in the mounting frames, and the connecting layers are arranged on the mounting frames and the polystyrene plates and connected with the roof main body;

and the connecting assembly is arranged on the mounting frame and is used for connecting the adjacent mounting frames.

Through adopting the above technical scheme, the staff installs the installing frame on the roofing main part earlier, and use coupling assembling to link together two adjacent installing frames, make two adjacent installing frames support tightly together, after a plurality of installing frames all link together with adjacent installing frame, pour the adhesive in the installing frame, then install a plurality of polystyrene boards respectively the joint in a plurality of installing frames, and form the articulamentum after the adhesive solidifies and fix the polystyrene board on the roofing main part, with this on having realized installing the roofing main part with polylith polystyrene board, and can reduce the too big probability in clearance appearance between two adjacent polystyrene boards, thereby improved the heat preservation effect of polystyrene board to the building, consequently, the energy-conserving effect of roofing has been improved.

Optionally, the mounting frame has been seted up the spread groove, coupling assembling includes:

the connecting elastic sheet is inserted into the connecting groove of the two adjacent mounting frames and has elasticity, so that the two adjacent mounting frames are abutted together;

and the two connecting blocks are arranged on the connecting elastic sheet and are respectively in plug-in connection with the two adjacent mounting frames under the action of elasticity and are used for positioning the connecting elastic sheet.

Through adopting above-mentioned technical scheme, the staff dials away the connection shell fragment, make two connecting blocks keep away from each other, then put connecting groove department with the connecting block, then loosen the connection shell fragment, two plug-in blocks are plugged into two adjacent installing frames respectively under the effect of elasticity in, make two adjacent installing frames link together, and two adjacent installing frames support tightly together, with this clearance between two adjacent installing frames has been reduced, thereby the clearance between two adjacent polystyrene boards has been reduced, consequently, the energy-conserving effect of roofing has been improved, the stability of installing a plurality of installing frames in the roofing main part has still been improved simultaneously.

Optionally, two the connecting block all is provided with the direction end of being convenient for insert the installing frame.

Through adopting above-mentioned technical scheme, during the staff inserted the installing frame with the direction end earlier, the connecting block was pegged graft under the effect of elasticity in the installing frame after that to this used time of staff's grafting connecting block in the installing frame has been reduced, thereby work efficiency has been improved.

Optionally, a protective layer which is formed by pouring concrete and used for protecting the installation frame and the polystyrene board is arranged on the installation frame, and a protection mechanism which prevents the concrete from entering the installation frame and protects the polystyrene board is arranged on the installation frame.

By adopting the technical scheme, the protective layer is formed by firstly arranging the protective mechanism on the mounting frame and pouring concrete, the protective layer protects the mounting frame and the polystyrene board, and the protective mechanism prevents the concrete from entering the mounting frame, so that the pressure of the polystyrene board from the protective layer is reduced, the deformation of the polystyrene board caused by compression is reduced, the heat insulation effect of the polystyrene board on a building is improved, and the energy-saving effect of a roof is improved.

Optionally, the protection mechanism includes:

the protective plate is erected on the mounting frame and used for preventing concrete from entering the mounting frame;

the fixing assembly is arranged on the protection plate and used for positioning the protection plate.

Through adopting above-mentioned technical scheme, the staff sets up the protective plate on the installing frame earlier, then the fixed subassembly of locking, make the protective plate fixed on the installing frame, concreting forms the protective layer on the protective plate again, the protective layer protects installing frame and polystyrene board, and the protective plate blocks in the concrete gets into the installing frame, the pressure that comes from the protective layer that the polystyrene board received with this has been reduced, thereby the deformation that the polystyrene board pressurized produced has been reduced, consequently, the heat preservation effect of polystyrene board to the building has been improved, the energy-conserving effect of roofing has been improved.

Optionally, the fixing assembly includes:

the fixing screw penetrates through the protective plate and is in threaded connection with the mounting frame;

and the rotating disc is arranged on the fixing screw and is convenient for rotating the fixing screw.

Through adopting above-mentioned technical scheme, the staff rotates a plurality of rolling discs respectively, and makes a plurality of set screws all pass the protection shield and with installing frame threaded connection to this has realized fixing a position the protection shield.

Optionally, the mounting frame is provided with a plurality of positioning rods connected with the roof main body.

Through adopting above-mentioned technical scheme, a plurality of locating levers are connected on the roofing main part to this has realized fixing a position the installing frame.

Optionally, the positioning rod is provided with a tip end which is convenient to insert into the roof main body.

Through adopting above-mentioned technical scheme, when the roofing main part not solidify the shaping completely, insert the roofing main part with most advanced earlier for during the locating lever inserts the roofing main part, the roofing main part solidifies shaping back locating lever and is fixed a position promptly, has realized fixing a position the installing frame with this, and most advanced is convenient for insert the roofing main part, labour saving and time saving, thereby has improved the installation effectiveness to the installing frame.

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

the staff is earlier at the installation installing frame in the roofing main part, and use coupling assembling to link together two adjacent installing frames, make two adjacent installing frames support tightly together, after a plurality of installing frames all link together with adjacent installing frame, pour the adhesive in the installing frame, then with a plurality of polystyrene boards respectively the joint install in a plurality of installing frames, and the adhesive solidifies the back and forms the articulamentum and fix the polystyrene board in the roofing main part, with this realized installing the polylith polystyrene board in the roofing main part, and can reduce the too big probability in clearance appearance between two adjacent polystyrene boards, thereby the heat preservation effect of polystyrene board to the building has been improved, consequently, the energy-conserving effect of roofing has been improved.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 isbase:Sub>A cross-sectional view taken along A-A of FIG. 1;

fig. 3 is an exploded view of the mounting frame and the protection plate in the present application;

fig. 4 is an enlarged schematic view of a portion B in fig. 3.

Reference numerals: 1. a roof main body; 2. a polystyrene board; 3. a connecting layer; 4. an installation mechanism; 41. installing a frame; 411. connecting grooves; 412. inserting grooves; 413. positioning a rod; 414. a tip; 415. a protective layer; 5. a connecting assembly; 51. connecting the elastic sheets; 52. connecting blocks; 521. a guide end; 6. a protection mechanism; 61. a protection plate; 7. a fixing assembly; 71. a fixing screw; 72. and (6) rotating the disc.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an energy-saving roof.

Referring to fig. 1 and 2, the energy-saving roof comprises a roof main body 1, a polystyrene board 2 and a connecting layer 3, wherein the roof main body 1 is formed by pouring concrete; polystyrene board 2 is installed on roofing main part 1, and polystyrene board 2 is used for improving roofing main part 1's heat preservation effect, is provided with installation mechanism 4 on roofing main part 1 simultaneously, and installation mechanism 4 is convenient for install polystyrene board 2 on roofing main part 1.

Referring to fig. 2 and 3, the mounting mechanism 4 includes a plurality of mounting frames 41 and a connecting assembly 5, the mounting frames 41 are all in a hollow cube shape, positioning rods 413 are vertically and fixedly mounted at four corners of the lower surface of the mounting frames 41, tips 414 are respectively disposed at the lower ends of the four positioning rods 413, the tips 414 are conveniently inserted into the roof main body 1, when the roof main body 1 is not solidified, the four positioning rods 413 are inserted into the roof main body 1, so that the lower surface of the mounting frames 41 abuts against the upper surface of the roof main body 1, and after the roof main body 1 is solidified, the mounting frames 41 are positioned.

Referring to fig. 2, the articulamentum 3 is pour by the adhesive and is formed, and the adhesive is formed after dry powder mortar and the even stirring of water by, the weight ratio of dry powder mortar and water is five to one simultaneously, articulamentum 3 sets up on installing frame 41, and articulamentum 3 is used for improving the connection stability between polystyrene board 2 and roofing main part 1, articulamentum 3 conflicts on four inside walls of installing frame 41 simultaneously, and articulamentum 3's upper surface is in the same place with polystyrene board 2 conflicts, while articulamentum 3's lower surface is in the same place with polystyrene board 2 conflicts.

Referring to fig. 2 and 3, a protection mechanism 6 is disposed on an upper surface of the mounting frame 41, and the protection mechanism 6 is used for protecting the polystyrene board 2, the protection mechanism 6 includes a protection board 61 and a fixing member 7, the protection board 61 is horizontally erected on the upper surface of the mounting frame 41, four side walls of the protection board 61 are respectively flush with four outer side walls of the mounting frame 41, and a protection layer 415 is disposed on the upper surface of the protection board 61, and the protection layer 415 is formed by pouring concrete, and the protection board 61 is used for blocking concrete from entering the mounting frame 41; the fixing member 7 is disposed on the protection plate 61, and the fixing member 7 is used to position the protection plate 61.

Referring to fig. 2 and 3, a plurality of fixing assemblies 7 are provided, each fixing assembly 7 includes a fixing screw 71 and a rotating disc 72, the fixing screw 71 vertically penetrates through the protection plate 61, and the fixing screw 71 is screwed on the mounting frame 41; the rotating disc 72 is fixedly installed on one end of the fixing screw 71 far away from the installation frame 41, and the rotating disc 72 is convenient for a worker to use force when rotating the fixing screw 71.

Referring to fig. 3 and 4, coupling assembling 5 sets up on installing frame 41, and coupling assembling 5 is used for connecting two adjacent installing frames 41, coupling assembling 5 is provided with a plurality ofly simultaneously, coupling assembling 5 is including connecting shell fragment 51 and two connecting blocks 52, the inside groove has all been seted up on four inside walls of installing frame 41, and four upper flutes have been seted up on the upper surface of installing frame 41, and four inside grooves and four upper flutes one-to-one, and the inside groove forms spread groove 411 with the upper flute intercommunication, connecting shell fragment 51 comprises integrative horizontal plate and two vertical boards that set up together, the horizontal plate is the horizontality, and the horizontal plate grafting is installed in the upper flute department of two adjacent installing frames 41, two vertical boards are vertical fixed mounting respectively on the wall of the both sides of the back of the body of horizontal plate simultaneously, and the shape of connecting shell fragment 51 is "the U type", two vertical boards are pegged graft respectively and are installed in the inside groove department of two adjacent installing frames 41 simultaneously, and the lateral wall of vertical board flushes with the inside wall of installing frame 41.

Referring to fig. 3 and 4, the inserting groove 412 has been seted up to four inside groove departments of installing frame 41 all level, two connecting blocks 52 are horizontal fixed mounting respectively at the lower extreme of two vertical boards, and the lateral wall that connecting block 52 kept away from another connecting block 52 flushes with the lateral wall of vertical board, the horizontal plate all has elasticity with vertical board simultaneously, and the staff can dial two vertical boards open, make two vertical boards keep away from each other, two connecting blocks 52 are inserted mounting respectively in the inserting groove 412 department of two adjacent installing frames 41 under the spring action, equal fixed mounting has the leading end 521 on the lateral wall that connecting block 52 is close to another connecting block 52 simultaneously, and the leading end 521 is convenient for connecting block 52 to insert inserting groove 412.

The working principle of the embodiment of the application is as follows:

when the roof main body 1 is not solidified and formed, a worker inserts four positioning rods 413 on a plurality of mounting frames 41 into the roof main body 1, and connects two adjacent mounting frames 41 by using a connecting assembly 5, when the roof main body 1 is solidified and formed, the mounting frames 41 are fixed on the roof main body 1, then an adhesive is poured into the mounting frames 41 to form a connecting layer 3, then polystyrene plates 2 are placed in the mounting frames 41, the polystyrene plates 2 are fixed on the roof main body 1, then a protection plate 61 is erected on the upper surface of the mounting frames 41, then the protection plate 61 is fixed by using a fixing assembly 7, and finally concrete is poured on the upper surface of the protection plate 61 to form a protection layer 415. With this on having realized installing roofing main part 1 with polylith polystyrene board 2, and having reduced the too big probability in clearance appearance between two adjacent polystyrene boards 2 to improved polystyrene board 2 to the heat preservation effect of building, consequently improved the energy-conserving effect of roofing, protection shield 61 blocks in the concrete gets into installing frame 41 simultaneously, has reduced polystyrene board 2 because of the compression deformation leads to the probability that the heat preservation effect descends, thereby further improved the energy-conserving effect of roofing.

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: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an energy-conserving roofing, includes roofing main part (1), polystyrene board (2) and is used for the articulamentum (3) of fixed polystyrene board (2), its characterized in that: be provided with installation mechanism (4) that are used for installing a plurality of polystyrene boards (2) on roofing main part (1), installation mechanism (4) include:

the installation frames (41) are arranged on the roof main body (1), the polystyrene boards (2) are respectively clamped in the installation frames (41), and the connecting layer (3) is arranged on the installation frames (41) and the polystyrene boards (2) and connected with the roof main body (1);

the connecting assembly (5) is arranged on the mounting frame (41) and used for connecting the adjacent mounting frames (41).

2. The energy saving roof covering according to claim 1, wherein: seted up on installing frame (41) connecting groove (411), coupling assembling (5) include:

the connecting elastic sheet (51) is inserted into the connecting groove (411) of the two adjacent mounting frames (41), has elasticity and enables the two adjacent mounting frames (41) to be tightly abutted together;

the elastic connecting structure comprises two connecting blocks (52), wherein the two connecting blocks (52) are arranged on the connecting elastic sheet (51) and are respectively in plug-in connection with the two adjacent mounting frames (41) under the action of elastic force and are used for positioning the connecting elastic sheet (51).

3. The energy saving roof covering according to claim 2, wherein: two all be provided with on connecting block (52) and be convenient for insert mounting frame (41) leading end (521).

4. The energy-saving roof covering according to claim 1, characterized in that: the concrete protection and protection integrated structure is characterized in that a protection layer (415) which is formed by pouring concrete and used for protecting the installation frame (41) and the polystyrene board (2) is arranged on the installation frame (41), and a protection mechanism (6) which prevents the concrete from entering the installation frame (41) and protects the polystyrene board (2) is arranged on the installation frame (41).

5. The energy saving roof covering according to claim 4, wherein: the protection mechanism (6) comprises:

the protective plate (61), the protective plate (61) is set up on the installation frame (41) and is used for preventing concrete from entering the installation frame (41);

the fixing component (7) is arranged on the protection plate (61) and used for positioning the protection plate (61).

6. The energy saving roof covering according to claim 5, wherein: the fixing assembly (7) comprises:

the fixing screw (71), the said fixing screw (71) passes on the protective plate (61) and connects with mounting frame (41) whorl;

a rotating disk (72), the rotating disk (72) being disposed on the set screw (71) and facilitating rotation of the set screw (71).

7. The energy-saving roof covering according to claim 1, characterized in that: and a plurality of positioning rods (413) connected with the roof main body (1) are arranged on the mounting frame (41).

8. The energy saving roof covering according to claim 7, wherein: the positioning rod (413) is provided with a tip (414) which is convenient to insert into the roof main body (1).

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