CN114108938A - Prefabricated ultralow energy consumption insulation construction decorates integral structure - Google Patents

Abstract

The invention relates to the field of fabricated buildings, and discloses a prefabricated ultralow-energy-consumption heat-insulation structure and decoration integrated structure which comprises a prefabricated outer leaf plate layer, a first heat-insulation plate layer, a second heat-insulation plate layer, a cavity layer, a prefabricated inner leaf plate layer, a first truss and a connecting piece, wherein the first truss and the connecting piece are used for connecting all the layers into a whole. The invention has simple processing and convenient installation. Meanwhile, the heat insulation structure has the advantages of ultralow energy consumption, integration of heat insulation structure decoration and the like.

Description

Prefabricated ultralow energy consumption insulation construction decorates integral structure

Technical Field

The invention belongs to the field of assembly type buildings, and particularly relates to a prefabricated ultra-low energy consumption heat insulation structure decoration integrated structure.

Background

The building outer wall generally needs heat preservation treatment and decoration treatment. Traditional decoration is handled at the heat preservation after, utilizes bonding mortar to paste the decorative board in the building outer wall through artificial mode, but has a lot of drawbacks, especially if adopt double-deck heat preservation to add to decorate and involve 3 adhesive linkage, no matter which adhesive linkage suffers destruction, all can arouse to drop, and artifical mode bonds in addition, all can arouse to spread pastes the error, influences wholly pleasing to the eye.

For the prefabricated building outer wall, the more ingenious decoration treatment is that the decorative plate to be paved is reversely paved in the concrete mold, then concrete is directly poured on the decorative plate and formed by vibration, but problems also exist, for example, during vibration, the decorative plate can move, the whole contact surface of the decorative plate is large, and demolding is not good.

Meanwhile, a method of utilizing the assembled integral type superposed shear wall to sandwich and preserve heat, additionally arranging a prefabricated outer leaf plate outside the heat preservation layer and then pasting the prefabricated outer leaf plate and a decorative plate is also provided. The method utilizes the advantage that the superposed shear wall has good waterproof performance as the building outer wall, but has the defects that the prefabricated outer leaf plate increases the volume and the overall cost of the outer wall, the connecting piece needs to select a very expensive product due to large connecting thickness, and the production of the conventional superposed shear wall needs to use a turnover machine and needs to be processed in a specific factory.

Disclosure of Invention

Aiming at the problems in the prior art, one of the purposes of the invention is to solve the integrity problem of the superposed sandwich shear wall by utilizing a novel truss matched connecting piece without using a turnover machine;

the second purpose of the invention is to utilize the double-layer insulation board to achieve the requirement of ultra-low energy consumption;

the invention also aims to replace a decorative plate for paving with a UHPC decorative plate and simultaneously can be used as a protective outer page plate.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a prefabricated ultralow energy consumption insulation construction decorates integral structure which characterized in that includes: prefabricating an outer leaf plate layer, a first heat preservation plate layer, a second heat preservation plate layer, a cavity layer, a prefabricated inner leaf plate layer, a first truss and a connecting piece, wherein the first truss and the connecting piece are integrally connected with each layer;

the outer prefabricated leaf plate layer is located the outside, and first heat preservation lamellar position is between outer prefabricated leaf plate layer and second heat preservation lamellar, and second heat preservation lamellar position is between first heat preservation lamellar and cavity layer, and the leaf plate layer is located the cavity layer inboard in the prefabrication.

The first truss comprises an upper chord member, corrugated web member steel bars and two lower chord steel bars; compared with the conventional truss steel bar, the upper chord is made of common concrete or UHPC with the diameter of 20-50 mm. The upper chord can be used as a reliable intermediate member to connect the prefabricated outer leaf plate layer, the first heat-insulating plate layer, the second heat-insulating plate layer, the cavity layer and the prefabricated inner leaf plate layer.

And a first reinforcing mesh is arranged in the prefabricated inner sheet layer, a second reinforcing mesh is arranged in the cavity layer, the lower chord reinforcing steel bar of the first truss is welded or bound with the first reinforcing mesh, and the second reinforcing mesh is embedded in the upper chord of the first truss.

The connecting piece passes through the first heat preservation sheet layer and the second heat preservation sheet layer, and both ends are buried respectively in the upper chord of first truss and prefabricated outer page or leaf sheet layer. The connecting piece is made of metal with lower heat conductivity coefficient than carbon steel.

The prefabricated outer leaf plate layer is made of UHPC and has the thickness of 20mm-30 mm;

the first heat insulation plate layer is a vacuum heat insulation plate with the thickness of 20-40 mm;

the material of the second heat insulation board layer is one of polyurethane or polystyrene board, and the thickness of the second heat insulation board layer is 60-100 mm;

the prefabricated inner leaf plate layer is made of common concrete or UHPC, the thickness is 30-50mm, and the thickness of the cavity layer is 150-200 mm.

First reinforcing bar net piece, second reinforcing bar net piece, first truss are replaced by embedded steel skeleton, and this embedded steel skeleton is formed with the reinforcing bar net piece in the prefabricated interior page or leaf sheet layer and the structure reinforcing bar net piece in the cavity respectively by passing perpendicularly the interface between cavity layer and the prefabricated interior page or leaf sheet layer and along the many interface reinforcing bars of vertical setting.

The prefabricated ultra-low energy consumption heat insulation structure decoration integrated structure provided by the invention is simple to process and convenient to install. Meanwhile, the composite shear wall has the advantages of ultralow energy consumption, integration of decoration of a heat insulation structure and the like, and avoids the adoption of a turnover process while utilizing the advantage of good waterproof performance of the composite shear wall. The UHPC material is adopted, so that the performance of key parts is effectively improved, and the weight of the whole component is reduced.

Drawings

FIG. 1 is a schematic view of a prefabricated ultra-low energy consumption insulation structure integrated decoration structure;

FIG. 2 is a schematic view of a first truss;

FIG. 3 is a schematic view of a mold for laying a prefabricated inner leaf layer;

FIG. 4 is a schematic view of a poured prefabricated inner leaf layer;

fig. 5 is a schematic view of installation of an insulation board.

In the figure, 1-prefabricate the outer leaf layer; 2-a first insulation board layer; 3-a second insulation board layer; 4-a cavity layer; 5-prefabricating an inner leaf layer; 6-a first truss; 7-a connector; 8-upper chord; 9-corrugated web member steel bars; 10-lower chord steel bar; 11-a first rebar mesh; 12-a second rebar mesh; 13-mould.

Detailed Description

The present disclosure will be described in further detail with reference to the drawings and embodiments. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the present disclosure. It should be further noted that, for the convenience of description, only the portions relevant to the present disclosure are shown in the drawings.

In one disclosed embodiment of the present invention, referring to fig. 1 and 2, a prefabricated ultra-low energy consumption insulation structure decoration integrated structure includes: prefabricating an outer leaf plate layer 1, a first heat-insulation plate layer 2, a second heat-insulation plate layer 3, a cavity layer 4, a prefabricated inner leaf plate layer 5, a first truss 6 and a connecting piece 7 which connect the layers into a whole;

the outer prefabricated leaf plate layer 1 is located the outermost side, the first heat-preservation plate layer 2 is located between the outer prefabricated leaf plate layer 1 and the second heat-preservation plate layer 3, the second heat-preservation plate layer 3 is located between the first heat-preservation plate layer 2 and the cavity layer 4, and the inner prefabricated leaf plate layer 5 is located on the inner side of the cavity layer 4.

The first truss 6 comprises an upper chord 8, corrugated web member steel bars 9 and two lower chord steel bars 10; the upper chord 8 is made of common concrete or UHPC and has a diameter of 20-50 mm.

A first steel bar net piece 11 is arranged in the prefabricated inner leaf plate layer 5, a second steel bar net piece 12 is arranged in the cavity layer 4, the lower chord steel bars 10 of the first truss 6 are connected with the first steel bar net piece 11 in a welding or binding mode, and the second steel bar net piece 12 is embedded in the upper chord 8 of the first truss 6.

The connecting piece 7 penetrates through the first heat-insulation plate layer 2 and the second heat-insulation plate layer 3, and two ends of the connecting piece are respectively embedded in the upper chord 8 of the first truss 6 and the prefabricated outer leaf plate layer 1.

The prefabricated outer leaf plate layer 1 is made of UHPC and has the thickness of 20mm-30 mm;

the first heat insulation board layer 2 is a vacuum heat insulation board with the thickness of 20-40 mm;

the second heat-insulation board layer 3 is made of one of polyurethane or polystyrene board and has the thickness of 60-100 mm;

the prefabricated inner leaf layer 5 is made of common concrete or UHPC, the thickness is 30-50mm, and the thickness of the cavity layer 4 is 150-200 mm;

the connecting piece 7 is made of metal with lower heat conductivity coefficient than carbon steel.

In a disclosed embodiment of the invention, the first reinforcing mesh 11, the second reinforcing mesh 12 and the first truss 6 are replaced by an embedded steel skeleton, and the embedded steel skeleton is formed by respectively welding a plurality of interface reinforcing bars which vertically penetrate through an interface between the cavity layer 3 and the prefabricated inner leaf layer 4 and are vertically arranged with a reinforcing mesh in the prefabricated inner leaf layer 5 and a structural reinforcing mesh in the cavity.

In one disclosed embodiment of the invention, referring to fig. 3-5, the manufacturing method of the prefabricated ultra-low energy consumption heat insulation structure decoration integrated structure comprises the following steps:

s1: producing a first reinforcing mesh, a second reinforcing mesh, corrugated web member reinforcing steel bars of a first truss and lower chord reinforcing steel bars according to drawings;

s2: erecting a second steel bar mesh and a connecting piece on an upper chord mold of the first truss, and pouring an upper chord;

s3: binding or welding the first reinforcing mesh with the first truss;

s4: laying a prefabricated inner leaf plate layer die, placing a formed reinforcement cage formed by combining a first reinforcement mesh, a second reinforcement mesh and a first truss into a designated position, and placing other embedded parts;

s5: pouring the prefabricated inner leaf plate layer, and maintaining to the specified strength;

s6: placing a second insulation board and a first insulation board on the second steel bar mesh and the first truss, and laying a prefabricated outer leaf plate layer mold;

s7: pouring the prefabricated outer leaf plate layer; maintaining to the specified strength;

s8: and (5) grinding and polishing the surface.

It should be noted that the embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict. The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

In the description herein, reference to the description of the terms "one embodiment/mode," "some embodiments/modes," "example," "specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment/mode or example is included in at least one embodiment/mode or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to be the same embodiment/mode or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments/modes or examples. Furthermore, the various embodiments/aspects or examples and features of the various embodiments/aspects or examples described in this specification can be combined and combined by one skilled in the art without conflicting therewith.

It will be understood by those skilled in the art that the foregoing embodiments are merely for clarity of illustration of the disclosure and are not intended to limit the scope of the disclosure. Other variations or modifications may occur to those skilled in the art, based on the foregoing disclosure, and are still within the scope of the present disclosure.

Claims (9)

1. The utility model provides a prefabricated ultralow energy consumption insulation construction decorates integral structure which characterized in that includes: prefabricating an outer leaf plate layer (1), a first heat-insulation plate layer (2), a second heat-insulation plate layer (3), a cavity layer (4), a prefabricated inner leaf plate layer (5), a first truss (6) and a connecting piece (7) which connect all the layers into a whole;

the outer prefabricated leaf plate layer (1) is located the outermost side, the first heat-insulation plate layer (2) is located between the outer prefabricated leaf plate layer (1) and the second heat-insulation plate layer (3), the second heat-insulation plate layer (3) is located between the first heat-insulation plate layer (2) and the cavity layer (4), and the inner prefabricated leaf plate layer (5) is located on the inner side of the cavity layer (4).

2. The prefabricated ultra-low energy consumption insulation structure decoration integrated structure of claim 1, wherein the first truss (6) comprises an upper chord member (8), a corrugated web member reinforcing steel bar (9) and a lower chord reinforcing steel bar (10); the upper chord (8) is made of common concrete or UHPC and has a diameter of 20-50 mm.

3. The prefabricated ultra-low energy consumption heat preservation structure decoration integrated structure as claimed in claim 1, wherein a first steel mesh sheet (11) is arranged in the prefabricated inner leaf layer (5), a second steel mesh sheet (12) is arranged in the cavity layer (4), the lower chord steel bar (10) of the first truss (6) is connected with the first steel mesh sheet (11) in a welding or binding mode, and the second steel mesh sheet (12) is embedded in the upper chord (8) of the first truss (6).

4. The integrated structure of prefabricated ultra-low energy consumption insulation structure decoration according to claim 1, characterized in that the connecting piece (7) passes through the first insulation board layer (2) and the second insulation board layer (3), and both ends are respectively embedded in the upper chord (8) of the first truss (6) and the prefabricated outer leaf board layer (1).

5. The integrated structure of prefabricated ultra-low energy consumption insulation structure decoration according to claim 1, characterized in that the prefabricated outer leaf layer (1) is made of UHPC and has a thickness of 20mm-30 mm;

the first heat insulation plate layer (2) is a vacuum heat insulation plate with the thickness of 20-40 mm;

the second heat preservation plate layer (3) is made of one of polyurethane or polystyrene board, and the thickness is 60-100 mm.

6. The integrated structure of prefabricated ultra-low energy consumption heat preservation structure decoration according to claim 1, characterized in that the prefabricated inner leaf layer (5) is made of ordinary concrete or UHPC, the thickness is 30-50mm, and the thickness of the cavity layer (4) is 150-200 mm.

7. The integrated structure of prefabricated ultra-low energy consumption insulation structure decoration according to claim 1 is characterized in that the connecting piece (7) is made of metal with lower heat conductivity coefficient than carbon steel.

8. The integrated structure of prefabricated ultralow energy consumption insulation structure decoration according to claim 1, characterized in that first reinforcing mesh piece (11), second reinforcing mesh piece (12), first truss (6) are replaced by pre-buried steel skeleton, and this pre-buried steel skeleton is formed by the many interface reinforcing bars that pass perpendicularly between cavity layer (3) and prefabricated inside leaf layer (4) and along vertical setting respectively with the reinforcing mesh piece in prefabricated inside leaf layer (5) and the structure reinforcing mesh piece in the cavity welding.

9. The integrated structure of prefabricated ultra-low energy consumption thermal insulation structure decoration according to claim 1, which is manufactured by the following steps:

s1: producing a first reinforcing mesh, a second reinforcing mesh, corrugated web member reinforcing steel bars of a first truss and lower chord reinforcing steel bars according to drawings;

s2: erecting a second steel bar mesh and a connecting piece on an upper chord mold of the first truss, and pouring an upper chord;

s3: binding or welding the first reinforcing mesh with the first truss;

s4: laying a prefabricated inner leaf plate layer die, placing a formed reinforcement cage formed by combining a first reinforcement mesh, a second reinforcement mesh and a first truss into a designated position, and placing other embedded parts;

s5: pouring the prefabricated inner leaf plate layer, and maintaining to the specified strength;

s6: placing a second insulation board and a first insulation board on the second steel bar mesh and the first truss, and laying a prefabricated outer leaf plate layer mold;

s7: pouring the prefabricated outer leaf plate layer; maintaining to the specified strength;

s8: and (5) grinding and polishing the surface.

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