WO2023115963A1

WO2023115963A1 - Curtain wall for ultra-low energy consumption building and construction method

Info

Publication number: WO2023115963A1
Application number: PCT/CN2022/110037
Authority: WO
Inventors: 矫振清
Original assignee: 广东鑫铭格节能科技有限公司; 矫振清
Priority date: 2021-12-24
Filing date: 2022-08-03
Publication date: 2023-06-29
Also published as: CN114351910A

Abstract

A curtain wall for an ultra-low energy consumption building and a construction method. The curtain wall for the ultra-low energy consumption building comprises: a clamping mechanism, comprising a first clamping member (100), a second clamping member (110), and a bolt assembly, the bolt assembly being connected to the first clamping member (100) and the second clamping member (110), and the first clamping member (100) and the second clamping member (110) clamping a glass panel (310); and a thermal insulation frame (120), provided between the first clamping member (100) and the second clamping member (110), the first clamping member (100) being provided with a semi-enclosed cavity (150), the thermal insulation frame (120) being provided with a first limiting portion (160), and the semi-enclosed cavity (150) accommodating the first limiting portion (160). The bolt assembly has a first screw rod (130) and a locking nut (140), and a rod portion of the first screw rod (130) passes through the thermal insulation frame (120) and the second clamping member (110) and then is locked with the locking nut (140). The structural strength is improved, good thermal insulation and heat-retaining effects are achieved, and an index requirement of ultra-low energy consumption is met.

Description

Curtain wall for an ultra-low energy building and its construction method

technical field

The invention relates to the technical field of building curtain walls, in particular to an ultra-low energy consumption building curtain wall and a construction method.

Background technique

With the development of society, ultra-low energy consumption buildings have attracted more and more attention from the state because of their energy-saving, environmental protection and lower carbon emission indicators.

As the main component of the outer protective structure of the main body of the building, the doors, windows and curtain walls account for more than 50% of the energy consumption of the building. Reducing the energy consumption of doors and windows can make an important contribution to the reduction of the total energy consumption of the building.

The indicators of ultra-low energy consumption buildings include low heat transfer coefficient, high air tightness, water tightness and wind pressure resistance. The development direction of doors, windows and curtain walls is developed towards the requirements of ultra-low energy consumption buildings, so that it can contribute to the reduction of the total energy consumption of buildings. make an important contribution.

The mainstream door and window frame materials in the existing door, window and curtain wall industry are broken bridge aluminum alloy, plastic steel, aluminum-clad wood, etc. However, broken bridge aluminum alloy door and window frames occupy most of the market and are highly recognized.

The existing broken bridge aluminum alloy frame has an inner profile and an outer profile, and the inner profile and the outer profile carry the glass panel. Since the inner profile and the outer profile are made of aluminum alloy, the inner profile and the outer profile will conduct heat transfer, which cannot meet the insulation requirements of doors, windows and curtain walls. Heat and insulation requirements.

Therefore, a heat-insulating rubber strip needs to be installed between the inner profile and the outer profile. Usually, the heat-insulating rubber strip is made of PA66 material, and the PA66 material has a heat-insulating effect, so that heat transfer between the inner and outer profiles cannot be performed. However, In order to meet the low heat transfer coefficient index of the ultra-low energy consumption building required by the design, the cross-sectional area of the insulation material must be increased, but the strength of the PA66 material is not high, and it is difficult to support the weight of multi-layer glass panels and thicker insulation materials.

Based on the above defects, design a curtain wall with high strength and good heat insulation effect, which can meet the index requirements of ultra-low energy consumption buildings.

Contents of the invention

The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, the present invention proposes a curtain wall for an ultra-low energy consumption building and a construction method, which can improve structural strength, have good heat insulation and heat preservation effects, and have a simple manufacturing process, thereby meeting the index requirements of ultra-low energy consumption.

A curtain wall for an ultra-low energy building according to an embodiment of the first aspect of the present invention, comprising: a clamping mechanism for connecting glass panels, including a first clamping piece, a second clamping piece and a bolt assembly, the first A clamping part is arranged on the building main body, the bolt assembly connects the first clamping part and the second clamping part, and the first clamping part and the second clamping part clamp the glass panel ; a heat insulating frame, arranged between the first clamping part and the second clamping part, used to carry the glass panel, one side is in contact with the first clamping part, and the other side is in contact with the said first clamping part The second clamping part abuts; wherein, the first clamping part has a semi-enclosed cavity, and the heat insulating frame is provided with a first limiting part, and the first limiting part is located in the semi-enclosing cavity, The semi-enclosed cavity accommodates the first limiting portion, and resin foam material is filled between the semi-enclosed cavity and the first limiting portion; wherein, the bolt assembly has a first screw rod and a locking Nut, the head of the first screw rod is located in the semi-enclosed cavity, the locking nut is located on the side of the second clamping member away from the heat insulation frame, and the rod part of the first screw rod passes through The heat insulating frame and the second clamping piece are then locked with the locking nut.

A curtain wall for an ultra-low energy consumption building according to an embodiment of the present invention has at least the following beneficial effects:

Firstly, by setting the first screw rod and the locking nut and locking the locking nut, the present invention can make the first clamping part and the second clamping part firmly clamp the glass panel, ensuring that the glass panel does not loosen. At the same time, The first screw rod is arranged on the heat insulating frame, which can further improve the load-bearing capacity of the heat insulating frame, so that the heat insulating frame can carry multiple glass panels, thereby improving the overall strength of the door, window and curtain wall.

At the same time, the present invention can greatly reduce the heat transfer from the external environment through the first clamping piece and the second clamping piece to the In the interior, the curtain wall has a good thermal insulation effect, thereby maintaining a relatively stable temperature indoors and meeting the low heat transfer coefficient requirements of the ultra-low energy consumption index.

Secondly, the semi-enclosed cavity cooperates with the first limiting part, so that, on the one hand, it is convenient to install the heat insulating frame on the first clamping part, and on the other hand, the heat insulating frame is firmly limited in the first clamping part. At the same time, the resin foam material can further strengthen the connection strength between the heat insulating frame and the first clip.

Furthermore, the heat insulation frame has high strength, which can increase the cross section of the heat insulation frame, so that the heat insulation frame can directly carry multi-layer glass panels and thicker insulation materials, and it is not easy to be damaged. At the same time, it also makes the curtain wall have Very good insulation.

According to some embodiments of the present invention, the first limiting part is provided with a first groove, and the first groove accommodates the resin foam material.

It is beneficial that: by setting the first groove, the first groove is filled with a resin foam material, specifically, the resin foam material can be polyurethane rigid foam, so that, on the one hand, the resin foam material can improve the The connection strength between the holder and the heat insulation frame, on the other hand, makes the doors, windows and curtain walls have a good heat insulation effect and reduces the heat transfer coefficient.

According to some embodiments of the present invention, the heat insulating frame is provided with a first reinforcing member, the first screw rod is arranged between the first reinforcing member and the heat insulating frame, and the first reinforcing member and the The width direction of the first groove matches.

It is beneficial that: by setting the first reinforcement, the strength of the heat insulation frame can be improved, so that the heat insulation frame has a better load-bearing capacity, and at the same time, the first reinforcement is arranged on the first screw rod, even if the heat insulation frame If the joint of the clamping part is damaged, the first reinforcing part can replace the heat insulating frame and be connected with the first clamping part to ensure that the curtain wall can be used normally.

At the same time, the first reinforcement is located in the first groove, and the resin foam material can further fix the first reinforcement, and the resin foam can also separate the first reinforcement from the first clamping part, avoiding the first reinforcement. The part conducts heat with the first clamping part.

According to some embodiments of the present invention, the second clamping member is provided with a first limiting groove, and one side of the heat shield fits with the first limiting groove.

It is beneficial that by setting the first limiting groove, it is easier to locate and install the second clamping member in the heat insulating frame, and at the same time, the first limiting groove can quickly align the first screw rod with the hole of the heat insulating frame , thereby facilitating the installation of the first screw through.

According to some embodiments of the present invention, the second clamping member is provided with a second limiting portion, the second limiting portion abuts on the second reinforcing member for limiting, and the second limiting portion is symmetrical There are two, the two second limiting parts cooperate to form a second groove, the second groove accommodates the locking nut, and the second groove is filled with a resin foam material.

It is beneficial that: by providing the second limiting part, the second limiting part can abut against and limit the second reinforcing member, so that the second reinforcing member can be placed on the second clamping member conveniently.

At the same time, by setting the second groove, the second groove is filled with resin foam material, which can isolate the second clamping part from the outside, reduce the heat transfer coefficient, and improve the heat insulation effect of the door, window and curtain wall. At the same time, the lock The lock nut is located in the second groove, so that the lock nut is covered by the resin foam material, so as to prevent water vapor from infiltrating into the joint between the first screw rod and the lock nut, which will cause the joint to rust, so that the first screw rod and the lock nut can be Normal use for a long time.

According to some embodiments of the present invention, a second reinforcing member is provided on the side of the second clamping member far away from the heat insulating frame, and the contour of the second reinforcing member is the same as the contour of the side of the second clamping member. match.

It is beneficial that the strength of the second clamping part can be improved by providing the second reinforcing part, and at the same time, the profile of the second reinforcing part matches the profile of one side of the second clamping part, so that the second clamping part clips It is not easy to damage and deform when holding the glass panel.

According to some embodiments of the present invention, the second clamping member is provided with a pressing plate, and the pressing plate is snapped into the second slot.

It is beneficial that: in order to compress the resin foam material in the second groove, a pressing plate can be provided, and the pressure plate is buckled in the second groove, so that the resin foam material is tightly compacted in the second groove, and the resin foam can also be avoided. The foamed material is in direct contact with the external environment.

Preferably, the material of the pressing plate is a glass fiber reinforced pultrusion profile, which can further enhance the effect of heat insulation of the curtain wall.

According to some embodiments of the present invention, the heat insulating frame is a glass fiber reinforced composite material profile.

It is beneficial that: the glass fiber reinforced composite profile has the characteristics of good heat insulation effect, high fire performance and high strength, and is very suitable as a connecting piece connecting the first clamping part and the second clamping part.

A construction method according to the embodiment of the second aspect of the present invention, it includes the following steps: Step 1, install the first screw rod on the heat insulation frame, the first limiting part is inserted into the semi-enclosed cavity, and The semi-enclosed cavity is filled with the resin foam material to form a first assembly; step 2, after the resin foam material is cured, the first assembly is used to make upright columns and beams, and the upright columns and the described The ends of the beams are sequentially connected to form a curtain wall frame; Step 3, fixing the curtain wall frame to the main body of the building, and then placing the glass panel on the heat insulating frame; Step 4, the second clamping member passes through The first screw rod is screwed with the first screw rod by using the locking nut, so that the first clamping part and the second clamping part clamp and fix the glass panel.

A construction method according to an embodiment of the present invention has at least the following beneficial effects:

The resin foam material can be injected into the semi-enclosed cavity. When the resin foam material is cured, the first clamping part and the heat insulation frame can form a firm first combination. Then, according to the needs of actual engineering construction, the The first assembly forms columns and beams of a certain size, and then the columns and beams are connected to the profile curtain wall frame, so that the curtain wall frame does not need to be manufactured on the construction site, and the production efficiency of the curtain wall frame is improved.

By forming the first assembly into columns and beams of a certain size, there is no need to separately design and process the columns and beams, thereby greatly reducing and simplifying the processing procedures and reducing the cost of curtain wall products.

At the construction site, the glass panel is placed in the heat insulation frame, the second clamping piece is installed, and the first screw rod is screwed with the lock nut, so that the glass panel is fixed, and the construction process is simple. Improve the construction efficiency of the curtain wall.

Additional aspects and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Description of drawings

The above and/or additional aspects and advantages of the present invention will become apparent and understandable from the description of the embodiments in conjunction with the following drawings, wherein:

Fig. 1 is a structural schematic diagram of a curtain wall for an ultra-low energy building according to an embodiment of the present invention;

Fig. 2 is a structural schematic diagram of another viewing angle of a curtain wall for an ultra-low energy consumption building shown in Fig. 1;

Fig. 3 is a schematic diagram of a construction method according to an embodiment of the present invention.

Reference numerals: 100-first clamping piece, 110-second clamping piece, 120-insulation frame, 130-first screw rod, 140-lock nut, 150-half surrounding cavity, 160-first limit Department, 170-the first groove, 190-the first reinforcement, 200-the second limit part, 210-the first limit groove, 220-the second reinforcement, 230-the second groove, 240-press plate, 250- The first insulation strip, 260-the second insulation strip, 270-column, 280-beam, 290-curtain wall frame, 310-glass panel.

Detailed ways

Embodiments of the present invention are described in detail below, examples of which are shown in the drawings, wherein the same or similar reference numerals designate the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the figures are exemplary only for explaining the present invention and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation descriptions, such as up, down, front, back, left, right, etc. indicated orientations or positional relationships are based on the orientations or positional relationships shown in the drawings, and are only In order to facilitate the description of the present invention and simplify the description, it does 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.

In the description of the present invention, several means one or more, and multiple means more than two. Greater than, less than, exceeding, etc. are understood as not including the original number, and above, below, within, etc. are understood as including the original number. If the description of the first and second is only for the purpose of distinguishing the technical features, it cannot be understood as indicating or implying the relative importance or implicitly indicating the number of the indicated technical features or implicitly indicating the order of the indicated technical features relation.

In the description of the present invention, it should be noted that unless otherwise specified and limited, the terms "installation", "connection" and "connection" should be understood in a broad sense, for example, it can be a fixed connection or a detachable connection. Connected, or integrally connected; it can be mechanically connected or electrically connected; it can be directly connected or indirectly connected through an intermediary, and it can be the internal communication of two components. Those of ordinary skill in the art can understand the specific meanings of the above terms in the present invention in specific situations.

A curtain wall for an ultra-low energy consumption building and a construction method according to an embodiment of the present invention will be described below with reference to the accompanying drawings.

Referring to FIG. 1 , an ultra-low energy consumption building curtain wall according to an embodiment of the present invention includes a clamping assembly and a thermal insulation frame 120 .

Wherein, the clamping mechanism is used to connect the glass panel 310, comprising a first clamping part 100, a second clamping part 110 and a bolt assembly, the first clamping part 100 is arranged on the building main body, and the bolt assembly connects the first clamping The first clamping piece 100 and the second clamping piece 110 clamp the glass panel 310 .

Wherein, the heat insulating frame 120 is arranged between the first clamping part 100 and the second clamping part 110, and is used for carrying the glass panel 310. One side is in contact with the first clamping part 100, and the other side is in contact with the second The clamping pieces 110 abut against each other; wherein, the first clamping piece 100 is provided with a semi-surrounding cavity 150 , and the heat insulating frame 120 is provided with a limiting portion matched with the semi-enclosed cavity 150 .

In detail, the first clip 100 has a semi-enclosed cavity 150, and the heat insulating frame 120 is provided with a first limiting portion 160, the first limiting portion 160 is located in the semi-enclosed cavity 150, and the semi-enclosed cavity 150 accommodates the first limiting portion. Resin foam material is filled between the position portion 160 , the semi-enclosed cavity 150 and the first limiting portion 160 .

In more detail, the bolt assembly has a first screw 130 and a locking nut 140, the head of the first screw 130 is located in the semi-enclosed cavity 150, and the locking nut 140 is located on the side of the second clamping member 110 away from the heat insulating frame 120 , the rod portion of the first screw rod 130 is locked with the locking nut 140 after passing through the heat insulating frame 120 and the second clamping member 110 .

Firstly, by setting the first screw rod 130 and the locking nut 140 in the present invention, and locking the locking nut 140, the first clamping part 100 and the second clamping part 110 can firmly clamp the glass panel 310 to ensure that the glass panel 310 There is no looseness, and at the same time, the first screw 130 is arranged on the heat insulating frame 120, which can further improve the load-bearing capacity of the heat insulating frame 120, so that the heat insulating frame 120 can carry the multi-layer glass panel 310, thereby improving the overall strength of the door, window and curtain wall.

At the same time, the present invention sets the heat insulating frame 120 so that the heat insulating frame 120 separates the first clamping part 100 and the second clamping part 110, which can greatly reduce the heat of the external environment passing through the first clamping part 100 and the second clamping part 100. The clamping part 110 is transmitted to the room, so that the curtain wall has a good thermal insulation effect, thereby maintaining a relatively stable temperature in the room and meeting the low heat transfer coefficient requirement of the ultra-low energy consumption index.

Secondly, the semi-surrounding cavity 150 cooperates with the first limiting part 160, so that, on the one hand, it is convenient to install the heat insulating frame 120 on the first clamping part 100, and on the other hand, the heat insulating frame 120 is firmly limited in the first clamping part 100. In the clamping part 100 , at the same time, the resin foam material can further strengthen the connection strength between the heat insulating frame 120 and the first clamping part 100 .

Furthermore, the heat insulating frame 120 has high strength, which can increase the cross section of the heat insulating frame 120, so that the heat insulating frame 120 can directly carry the multi-layer glass panel 310 and thicker thermal insulation material, and is not easy to be damaged. At the same time, It also makes the curtain wall have a good heat insulation effect.

In some embodiments of the present invention, the insulation frame 120 is a glass fiber reinforced composite material profile.

The heat insulating frame 120 is a glass fiber reinforced composite material profile formed by pultrusion of thermosetting resin or thermoplastic base resin and glass fiber. The glass fiber reinforced composite material profile has good heat insulation effect, high fire resistance and high strength. Features, it is very suitable as a connecting piece connecting the first clamping piece 100 and the second clamping piece 110 .

In some embodiments of the present invention, the first limiting part 160 is provided with a first groove 170, and the first groove 170 accommodates a resin foam material.

It can be understood that, by setting the first groove 170, the first groove 170 is filled with a resin foam material, specifically, the resin foam material can be polyurethane rigid foam, so that, on the one hand, the resin foam material can improve The connection strength between the first clamping member 100 and the heat insulating frame 120, on the other hand, makes the doors, windows and curtain walls have a good heat insulation effect and reduces the heat transfer coefficient.

In some embodiments of the present invention, the heat insulating frame 120 is provided with a first reinforcing member 190, and a first screw 130 is arranged between the first reinforcing member 190 and the heat insulating frame 120, and the first reinforcing member 190 and the first slot 170 fit in the width direction.

It can be understood that by arranging the first reinforcing member 190, the strength of the heat insulating frame 120 can be improved, so that the heat insulating frame 120 has better load-bearing capacity, and at the same time, the first reinforcing member 190 is arranged on the first screw rod 130, even if If the connection between the heat insulating frame 120 and the first clamping part 100 is damaged, the first reinforcing part 190 can replace the heat insulating frame 120 and connect with the first clamping part 100 to ensure that the curtain wall can be used normally.

At the same time, the first reinforcement 190 is located in the first groove 170, and the resin foam material can further fix the first reinforcement 190, and the resin foam can also separate the first reinforcement 190 from the first clip 100. , to avoid heat conduction between the first reinforcing member 190 and the first clamping member 100 .

In some embodiments of the present invention, the second clamping member 110 is provided with a first limiting groove 210 , and one side of the heat insulating frame 120 cooperates with the first limiting groove 210 .

Conveniently, by setting the first limiting groove 210, the second clamping member 110 is easier to locate and install in the heat insulating frame 120. At the same time, the first limiting groove 210 can quickly make the first screw rod 130 and the heat insulating frame The holes of 120 are aligned, so that the first screw rod 130 is conveniently installed and passed through.

In some embodiments of the present invention, the second clamping member 110 is provided with a second limiting portion 200, the second limiting portion 200 abuts against the second reinforcing member 220 for limiting, and the second limiting portion 200 is symmetrically provided with Two, the two second limiting parts 200 cooperate to form a second groove 230, the second groove 230 accommodates the locking nut 140, and the second groove 230 is filled with a resin foam material.

It can be understood that, by providing the second limiting portion 200 , the second limiting portion 200 can abut against and limit the second reinforcing member 220 , so as to facilitate the placement of the second reinforcing member 220 on the second clamping member 110 .

At the same time, by setting the second groove 230, the resin foam material is filled on the second groove 230, and the resin foam material can isolate the second clamping member 110 from the outside, reduce the heat transfer coefficient, and improve the heat insulation effect of the door, window and curtain wall. At the same time, the lock nut 140 is located in the second groove 230, so that the lock nut 140 is covered by the resin foam material, so as to prevent water vapor from infiltrating into the connection between the first screw rod 130 and the lock nut 140, causing the connection to rust, thereby, The first screw rod 130 and the locking nut 140 can be used normally for a long time.

In some embodiments of the present invention, the second clamping member 110 is provided with a second reinforcing member 220 on the side away from the heat insulating frame 120 , and the contour of the second reinforcing member 220 matches the contour of the side of the second clamping member 110 .

It can be understood that, by providing the second reinforcing member 220, the strength of the second clamping member 110 can be improved, and at the same time, the contour of the second reinforcing member 220 matches the contour of one side of the second clamping member 110, so that the first When the second clamping member 110 clamps the glass panel 310, it is not easy to be damaged or deformed.

Referring to FIG. 1 and FIG. 2 , in some embodiments of the present invention, the second clamping member 110 is provided with a pressing plate 240 , and the pressing plate 240 is engaged in the second slot 230 .

In order to compress the resin foam material in the second groove 230, a pressing plate 240 can be provided, and the pressing plate 240 is buckled and pressed in the second groove 230, so that the resin foam material is tightly compacted in the second groove 230, and can also avoid The resin foam material is in direct contact with the external environment.

Preferably, the material of the pressing plate 240 is a glass fiber reinforced pultrusion profile, which can further enhance the effect of heat insulation of the curtain wall.

In some embodiments of the present invention, the first clamping part 100 is provided with a first heat insulation strip 250, the second clamping part 110 is provided with a second heat insulation strip 260, and the first heat insulation strip 250 and the second heat insulation strip 250 Strip 260 clamps and abuts glass panel 310 .

In order to prevent the first clamping piece 100 and the second clamping piece 110 from directly contacting the glass panel 310, the first heat-insulating strip 250 and the second heat-insulating strip 260, the first heat-insulating strip 250 and the second heat-insulating strip 260 Clamp and abut against the glass panel 310, thereby, on the one hand, reduce the gap caused by thermal expansion and contraction between the glass panel 310, the first clamping part 100 and the second clamping part 110, and on the other hand, can isolate the second clamping part 110 The heat of the clamping member 110 is transferred to the glass panel 310 to break the glass panel 310 .

A kind of construction method of the embodiment of the present invention, comprises the following steps:

Step 1: Install the first screw rod 130 on the heat insulating frame 120, insert the first limiting part 160 into the semi-enclosed cavity 150, and fill the semi-enclosed cavity 150 with resin foam material to form a first assembly.

Step 2, after the resin foam material is cured, the first assembly is used to make the upright column 270 and the beam 280 , and the ends of the upright column 270 and the beam 280 are connected in sequence to form the curtain wall frame 290 .

Step 3, fixing the curtain wall frame 290 to the main body of the building, and then placing the glass panel 310 on the heat insulating frame 120 .

Step 4, the second clamping member 110 passes through the first screw rod 130 , and is screwed with the first screw rod 130 using the locking nut 140 , so that the first clamping member 100 and the second clamping member 110 clamp and fix the glass panel 310 .

To sum up, the resin foam material can be injected into the semi-enclosed cavity 150, and when the resin foam material is solidified, the first clamping member 100 and the heat insulating frame 120 can be formed into a firm first combination, and then, according to the actual According to the needs of engineering construction, the first assembly is formed into a column 270 and a beam 280 of a certain size, and then the column 270 and the beam 280 are connected to the profile curtain wall frame 290, so that the curtain wall frame 290 does not need to be manufactured on the construction site, and the curtain wall frame 290 is improved. production efficiency.

By forming the first assembly into a column 270 and a beam 280 of a certain size, there is no need to separately design and process the column 270 and the beam 280, thereby greatly reducing and simplifying the processing procedure and reducing the cost of curtain wall products.

At the construction site, the glass panel 310 is placed in the heat insulation frame 120, the second clamping member 110 is installed, and the first screw 130 is screwed with the lock nut 140, thereby fixing the glass panel 310, the construction process Simple, and in turn, greatly improves the construction efficiency of the curtain wall.

In the description of this specification, references to the terms "one embodiment," "some embodiments," "exemplary embodiments," "example," "specific examples," or "some examples" are intended to mean that the implementation A specific feature, structure, material, or characteristic described by an embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The embodiments of the present invention have been described in detail above in conjunction with the accompanying drawings, but the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those of ordinary skill in the art, various modifications can be made without departing from the gist of the present invention. kind of change.

Claims

A curtain wall for an ultra-low energy building, characterized by comprising:

The clamping mechanism is used for connecting the glass panels (310), comprising a first clamping part (100), a second clamping part (110) and a bolt assembly, the first clamping part (100) is arranged on the building main body , the bolt assembly connects the first clamping part (100) and the second clamping part (110), and the first clamping part (100) and the second clamping part (110) clamp holding a glass panel (310);

The heat insulating frame (120), arranged between the first clamping part (100) and the second clamping part (110), is used to carry the glass panel (310), and one side is connected with the first clamping part The holder (100) abuts, and the other side abuts against the second holder (110);

Wherein, the first clamping piece (100) has a semi-enclosed cavity (150), the heat insulation frame (120) is provided with a first limiting portion (160), and the first limiting portion (160) is located at In the semi-surrounding cavity (150), the semi-enclosed cavity (150) accommodates the first limiting portion (160), and the semi-enclosing cavity (150) and the first limiting portion (160) filled with resin foam material;

Wherein, the bolt assembly has a first screw rod (130) and a lock nut (140), the head of the first screw rod (130) is located in the semi-enclosed cavity (150), and the lock nut (140 ) is located on the side of the second clamping member (110) away from the heat insulating frame (120), and the rod portion of the first screw (130) passes through the heat insulating frame (120) and the second The clamping part (110) is then locked with the locking nut (140).
The curtain wall for ultra-low energy consumption buildings according to claim 1, characterized in that, the first limiting part (160) is provided with a first groove (170), and the first groove (170) accommodates the The above-mentioned resin foam material.
A curtain wall for an ultra-low energy consumption building according to claim 2, characterized in that, the heat insulation frame (120) is provided with a first reinforcement (190), and the first reinforcement (190) is connected to the The first screw rods (130) are arranged between the heat insulating frames (120), and the first reinforcing member (190) cooperates with the width direction of the first groove (170).
The curtain wall for an ultra-low energy building according to claim 1, characterized in that, the second clamping member (110) is provided with a first limiting groove (210), and the heat insulating frame (120) is a The side cooperates with the first limiting groove (210).
The curtain wall for an ultra-low energy consumption building according to claim 1, characterized in that, a second reinforcing member (220) is provided on the side of the second clamping member (110) away from the heat insulating frame (120) , the contour of the second reinforcing member (220) matches the contour of one side of the second clamping member (110).
A curtain wall for an ultra-low energy consumption building according to claim 5, characterized in that, the second clamping member (110) is provided with a second limiting portion (200), and the second limiting portion (200 ) and the second reinforcing member (220) are abutted and limited, and two second limiting parts (200) are symmetrically arranged, and the two second limiting parts (200) cooperate to form a second groove ( 230), the second groove (230) accommodates the locking nut (140), and the second groove (230) is filled with a resin foam material.
The curtain wall for ultra-low energy consumption buildings according to claim 6, characterized in that, the second clamping part (110) is provided with a pressing plate (240), and the pressing plate (240) is clamped on the second Slot (230).
The curtain wall for an ultra-low energy consumption building according to claim 1, characterized in that the heat insulating frame (120) is a glass fiber reinforced composite material profile.
A construction method, characterized in that it comprises the curtain wall for an ultra-low energy consumption building according to any one of claims 1 to 8.
A kind of construction method according to claim 9, is characterized in that, it comprises the following steps:

Step 1, install the first screw (130) on the heat insulating frame (120), insert the first stopper (160) into the semi-enclosed cavity (150), and fill the semi-enclosed cavity (150) The resin foam material forms a first assembly;

Step 2, after the resin foam material is cured, the first assembly is used to make upright columns (270) and beams (280), and the ends of the upright columns (270) and the beams (280) are sequentially connected , forming a curtain wall frame (290);

Step 3, fixing the curtain wall frame (290) to the main body of the building, and then placing the glass panel (310) on the heat insulating frame (120);

Step 4, the second clamping member (110) passes through the first screw rod (130), and the lock nut (140) is used to screw with the first screw rod (130), so that the first clamping The part (100) and the second clamping part (110) clamp and fix the glass panel (310).