CN209975821U - Green assembled energy-saving board wall system - Google Patents

Abstract

The utility model discloses an energy-conserving board wall system of green assembled, include the building curtain that assembles by a plurality of wall body boards and be used for supporting the many metal joists of building curtain, all be fixed with disconnected cold and hot bridge aluminium alloy on every side wall of wall body board, be provided with the multiunit fastener between the disconnected cold and hot bridge aluminium alloy of adjacent wall body board, and form the installation space who is used for assembling metal joists between the adjacent disconnected cold and hot bridge aluminium alloy, straining each other through the fastener between adjacent disconnected cold and hot bridge aluminium alloy and the metal joists. The utility model adopts the wall surface assembled by a plurality of independent wall body plates and the metal keel, each wall body plate can be independently disassembled, thereby greatly improving the efficiency of maintaining and replacing the wall body plates; and the inner and outer panels adopt the anti-drop back-off process, so that the safety performance of the outer surface is greatly improved, and the single wall body plate is connected by adopting a cold and hot bridge cutoff aluminum profile structure, so that the heat insulation and energy saving effects are good, and the fireproof performance is good.

Description

Green assembled energy-saving board wall system

Technical Field

The utility model relates to a building material field, concretely relates to energy-conserving siding wall system of green assembled.

Background

In recent years, building energy-saving technology becomes a hot research subject of global attention, and a thermal insulation material is additionally arranged on an outer wall of a building, and then a decorative plate is arranged, so that a thermal insulation decorative plate integrating thermal insulation and decoration is used as an outer wall of the building, and the energy-saving and thermal insulation effect of an outer peripheral structure of the building is ensured.

The existing heat-insulating decorative wall body plate generally comprises a panel, a heat-insulating layer, a back plate, a connecting end and mounting accessories, and the structure has poor heat-insulating effect and is not energy-saving enough; the installation mode adopts a mode that the male and female ends are mutually inserted, the installation must be started from the first plate of a certain row or a certain column, and the last plate is finished, so that the installation is performed in sequence, and when one plate is replaced, the disassembly is quite inconvenient, and the replacement can be performed only by disassembling the whole row or the whole column.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving thermal-insulated and change convenient energy-conserving siding wall system of green assembled.

The utility model aims at realizing through the following technical scheme: the utility model provides an energy-conserving board wall system of green assembled, includes the building curtain of assembling by a plurality of wall body boards and is used for supporting many metal fossil fragments of building curtain, equal fixedly connected with cold and hot bridge aluminium alloy of breaking of wall body board on every side wall of wall body board is provided with the multiunit fastener between the cold and hot bridge aluminium alloy of breaking of adjacent wall body board, and forms the installation space who is used for assembling metal fossil fragments between the cold and hot bridge aluminium alloy of adjacent breaking, it has a plurality of knot holes that match with the fastener to process on cold and hot bridge aluminium alloy of breaking and the metal fossil fragments, buckle each other through the fastener between adjacent cold and hot bridge aluminium alloy of breaking and the metal.

Furthermore, the fastener is two independent fasteners, and the two fasteners fasten the two adjacent cold/hot bridge cutoff aluminum profiles and the metal keel mutually respectively.

Furthermore, the metal keels are connected in a grid form in a transverse and longitudinal connection mode.

Further, the wall body board includes corner board, the window board that is used for installing the window and is used for the connecting plate that the wall constitutes that are used for the corner to connect.

Furthermore, the corner plate is an L-shaped metal composite integrated plate, the window comprises tempered glass and a heat-insulated bridge aluminum window frame profile connected to the side of the tempered glass, and the heat-insulated bridge aluminum window frame profile and the heat-insulated bridge aluminum profile on one side of the window board are fastened on the metal keel through fasteners.

Furthermore, at least one side wall surface formed by the connecting plates is provided with a gate for passing.

Furthermore, the cross section of the aluminum profile for the broken cold and hot bridge is L-shaped, the adjacent aluminum profiles for the broken cold and hot bridge are in a groove-shaped plate shape in an abutting combination mode, the metal keel is located in a U-shaped groove space formed by combining the groove-shaped plates, and the fastener is located at the abutting joint position between the adjacent aluminum profiles for the broken cold and hot bridge.

Furthermore, a support plate extends from one side of the adjacent broken cold and hot bridge aluminum profiles, a buckling hole matched with the fastener is formed in the support plate, and the support plate and the metal keel of the broken cold and hot bridge aluminum profiles are fastened through the fastener.

Furthermore, a decorative strip used for sealing the fastener and the support plate is arranged between the adjacent cold and hot bridge cutoff aluminum profiles.

Furthermore, the decorative strip is made of butyl rubber or ethylene propylene diene monomer. .

The utility model has the advantages that:

1. the wall surface is formed by assembling and splicing a plurality of independent wall body plates and metal keels, each wall body plate can be independently disassembled, the maintenance and replacement efficiency of the wall body plates is greatly improved, and the wall body plates can be combined into wall surface forms of different types by adopting a plurality of structural forms such as corner plates, window boards, connecting plates and the like, so that the wall body system is more perfect;

2. the wall body plate is provided with the broken cold and hot bridge aluminum profile on the side wall, and the broken cold and hot bridge aluminum profile is connected with the metal keel by the fastening nails, so that the broken cold and hot bridge aluminum profile not only plays a role of a connecting piece, but also has good heat insulation effect, can prevent the wall body plate from further expanding, plays a good energy-saving effect, and has good fireproof performance;

3. through the form of combining adjacent cold and hot bridge aluminium alloy of breaking into the channel plate, the U type groove space of channel plate inboard is used for assembling with metal joist, and the side seam that the outside was inarched department adopts the ornamental strip to seal, and compact structure not only, exterior facing elegant appearance moreover makes whole wall body look different with traditional heat preservation wall mutually not have, more accords with modern building aesthetic feeling.

Drawings

FIG. 1 is a schematic structural view of one side wall of the combination of the present invention;

FIG. 2 is a schematic structural view of a transfer corner plate according to the present invention;

FIG. 3 is a schematic structural view of the middle connection plate of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3 at A;

fig. 5 is a schematic structural view of the middle window board of the present invention.

The labels in the figure are: 1-connecting plate; 2-corner plates; 3-window board; 4-a window; 5-decorating strips; 6-a gate; 7-a metal keel; 8-cold and hot bridge cutoff aluminum profile; 9-breaking the heat bridge aluminum window frame section bar; 10-a fastener; 81-support plate.

Detailed Description

As shown in fig. 1 to 5, the green assembled energy-saving panel wall system provided in this embodiment includes a building curtain wall assembled by a plurality of wall panels and a plurality of metal keels 7 for supporting the building curtain wall, in this embodiment, in order to form a complete wall system, the plurality of metal keels 7 are connected in a grid frame form connected in a transverse and longitudinal direction, the wall panels are in various forms, and mainly include a corner board 2 for connecting a corner, a window board 3 for installing a window 4, and a connecting board 1 for forming a wall surface, the corner board 2 is an L-shaped metal composite integrated board, and is similar to an angle steel structure, and the metal composite integrated board is in a structure form of an inner metal panel, an outer metal panel, and a heat insulating material interlayer.

The connecting plate 1 and the window board 3 are both rectangular plate structural forms, each side wall of three types of wall body plates is fixedly bonded with a cold and hot bridge cutoff aluminum profile 8, the side walls refer to the side walls of the upper, lower, left and right sides of the wall body plates, adjacent wall body plates in a wall body system are connected together through the cold and hot bridge cutoff aluminum profiles 8, in the embodiment, the cross section of the cold and hot bridge cutoff aluminum profiles 8 is L-shaped, the adjacent cold and hot bridge cutoff aluminum profiles 8 are combined into a groove-shaped plate in an abutting joint mode, the structure is similar to that of groove-shaped steel, and the metal keel 7 which is transversely and longitudinally connected is assembled in a U-shaped groove space which is combined into the groove-shaped plate, so that the metal keel 7 can be coated on the inner side of the cold and hot bridge cutoff aluminum profiles 8 through the structural form.

The utility model discloses a wall body plate, including the wall body plate, the adjacent cold and hot bridge aluminium alloy 8 of absolutely and assemble between it is adjacent cold and hot bridge aluminium alloy 8 and the metal fossil fragments 7 of assembling, as a structure tie point, in order to improve the stability of structure tie point, make adjacent cold and hot bridge aluminium alloy 8 of absolutely and metal fossil fragments 7 stable connection, be provided with multiunit fastener 10 between the cold and hot bridge aluminium alloy 8 of absolutely of adjacent wall body plate, fastener 10 preferred is two independent cramps, it has a plurality of knot holes that match with the cramp to process on cold and hot bridge aluminium alloy 8 of absolutely and the metal fossil fragments 7, the cramp lock joint is in the knot hole that corresponds, makes between the adjacent cold and hot bridge aluminium alloy 8 of absolutely and the metal fossil fragments 7 of a structure tie point buckle each other between, through taking off corresponding cramp, the wall.

As shown in fig. 1, the wall surface on one side of the wall body at least comprises a window 4 and a gate 6, specifically, the window 4 comprises tempered glass and a heat-insulation bridge aluminum window frame profile 9 connected to the edge side of the tempered glass, the heat-insulation bridge aluminum window frame profile 9 and the heat-insulation bridge aluminum profile 8 on one side of the window board 3 are fastened to the metal keel 7 through fasteners, preferably, the heat-insulation bridge aluminum profile 8 is fastened to the metal keel 7 through fasteners, and the heat-insulation bridge aluminum window frame profile 9 is connected to the other side of the metal keel 7 through welding or fastening. The way of the gate 6 allows to create a gap for passage by mounting a small number of plates 1.

In order to improve the aesthetic property of the wall surface, the wall surface is different from the traditional heat insulation wall surface, the fastener 10 is located at the joint between the adjacent cold and hot bridge aluminum profiles 8, the support plate 81 is extended on one side of the adjacent cold and hot bridge aluminum profiles 8, the fastening holes matched with the fastener 10 are located on the support plate 81 and are arranged in a vertical mode side by side, and the support plate 81 of the cold and hot bridge aluminum profiles 8 is fastened with the metal keel 7 through fastening nails. And a decorative strip 5 for sealing the fastener 10 and the support plate 81 is arranged between the adjacent cold-hot bridge cutoff aluminum profiles 8, and the decorative strip is made of butyl rubber or ethylene propylene diene monomer. The manufacturing method has good plasticity and good waterproof performance, and simultaneously has certain shielding and decorating functions on the adjacent joint seams and the fasteners between the adjacent cold and hot bridge cutoff aluminum profiles 8, so that the whole wall surface looks more beautiful and elegant.

The above is only the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any modification and replacement based on the technical solution and the utility model should be covered in the protection scope of the present invention.

Claims (10)

1. The utility model provides an energy-conserving siding wall system of green assembled which characterized in that: including the building curtain who assembles by a plurality of wall body boards and be used for supporting many metal joists of building curtain, equal fixedly connected with cold and hot bridge aluminium alloy of breaking of wall body board is provided with the multiunit fastener on every limit wall of wall body board, and forms the installation space who is used for assembling the metal joists between the cold and hot bridge aluminium alloy of breaking of adjacent wall body board, it has a plurality of knot holes that match with the fastener to process on cold and hot bridge aluminium alloy of breaking and the metal joists, fasten each other through the fastener between adjacent cold and hot bridge aluminium alloy of breaking and the metal joists.

2. The green fabricated energy saving panel wall system of claim 1, wherein: the fastener is two independent fasteners, and two fasteners fasten two adjacent cold and hot bridge-cut aluminum profiles and the metal keel mutually respectively.

3. The green fabricated energy saving panel wall system of claim 2, wherein: the metal keels are connected in a grid form in a transverse and longitudinal connection mode.

4. The green fabricated energy saving panel wall system of claim 1 or 3, wherein: the wall body board includes the corner board that is used for the corner to connect, is used for installing the window board of window and is used for the connecting plate that the wall constitutes.

5. The green fabricated energy saving panel wall system of claim 4, wherein: the corner plate is an L-shaped metal composite integrated plate, the window comprises tempered glass and a heat-insulated bridge aluminum window frame profile connected to the side of the tempered glass, and the heat-insulated bridge aluminum window frame profile and the cold-insulated bridge aluminum profile on one side of the window board are fastened on the metal keel through fasteners.

6. The green fabricated energy saving panel wall system of claim 5, wherein: and a gate for passing is formed on at least one side wall surface formed by the connecting plates.

7. The green fabricated energy saving panel wall system of claim 1, wherein: the cross section of the broken cold and hot bridge aluminum profile is L-shaped, the adjacent broken cold and hot bridge aluminum profiles are in butt joint combination to form a groove-shaped plate, the metal keel is positioned in a U-shaped groove space formed by combining the groove-shaped plates, and the fastener is positioned at the butt joint between the adjacent broken cold and hot bridge aluminum profiles.

8. The green fabricated energy saving panel wall system of claim 7, wherein: an extension plate extends from one side of the adjacent broken cold and hot bridge aluminum profiles, a buckling hole matched with the fastener is formed in the extension plate, and the extension plate of the broken cold and hot bridge aluminum profiles is buckled with the metal keel through the fastener.

9. The green fabricated energy saving panel wall system of claim 8, wherein: and a decorative strip for sealing the fastener and the support plate is arranged between the adjacent cold and hot bridge-cutoff aluminum profiles.

10. The green fabricated energy saving panel wall system of claim 9, wherein: the decorative strip is made of butyl rubber or ethylene propylene diene monomer.

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