CN219033688U - Connecting system of non-transparent ultralow energy consumption curtain wall - Google Patents

Abstract

A connecting system of a non-transparent ultra-low energy consumption curtain wall comprises a main body structure, a curtain wall structure, a connecting seat, a heat insulation backing plate and a steel adapter; the connecting seat is connected to the outer side surface of the main body structure and corresponds to the vertical keel and comprises a steel support and a supporting plate; the vertical plate section of the supporting plate is connected with the steel support; the heat insulation backing plate is arranged on the transverse plate section of the support connection plate; the steel adapter comprises an adapter plate and an adapter rod; the supporting plate, the heat insulation backing plate and the adapter plate are connected through a heat insulation bridge connecting piece; the heat-insulating bridge connecting piece comprises a heat-insulating sleeve and a screw; the heat insulation sleeve is arranged in the support plate in a penetrating way, the outer end of the heat insulation sleeve stretches into the heat insulation backing plate, and the inner end of the heat insulation sleeve is provided with an end plate; the screw rod passes in the keysets, and screw rod inner and thermal-insulated sleeve pipe threaded connection, screw rod outer end are pressed on the keysets lateral surface through the nut. The utility model solves the technical problems that the traditional connecting piece penetrating through the heat insulation layer can not effectively break heat transfer and the distribution of the connecting piece is dense, and the influence of a cold bridge and a hot bridge on the thermal performance of the whole curtain wall is great.

Description

Connecting system of non-transparent ultralow energy consumption curtain wall

Technical Field

The utility model belongs to the technical field of constructional engineering, and particularly relates to a connecting system of a non-transparent ultralow-energy-consumption curtain wall.

Background

At present, the energy-saving requirements of China on buildings are more and more strict, and the thermal performance requirements of curtain walls are improved. The common non-transparent curtain wall is mainly used for thickening an insulating layer or improving the performance of the insulating layer to improve the thermal performance of the curtain wall, but the connecting piece penetrating through the insulating layer cannot effectively break heat transfer. When the curtain wall is smaller in division or lower in layer height, the distribution of the connecting pieces is denser, and the influence of cold and hot bridges of the connecting pieces on the thermal performance of the whole curtain wall is larger.

Disclosure of Invention

The utility model aims to provide a connecting system of a non-transparent ultralow energy consumption curtain wall, which aims to solve the technical problems that a connecting piece penetrating through an insulating layer in a traditional non-transparent curtain wall can not effectively separate heat transfer and the connecting piece is densely distributed, and a cold-hot bridge has a great influence on the thermal performance of the whole curtain wall.

In order to achieve the above purpose, the present utility model adopts the following technical scheme.

The connecting system of the non-transparent ultra-low energy consumption curtain wall comprises a main body structure and a curtain wall structure; the heat insulation base plate is connected with the heat insulation base plate through a connecting hole; the connecting seat is connected to the outer side surface of the main body structure and corresponds to the position of the vertical keel of the curtain wall structure; the connecting seat comprises a steel support and a supporting plate; the steel support is connected with the main body structure through the embedded part; the longitudinal section of the supporting plate is L-shaped, and the vertical plate section of the supporting plate is connected with the outer side surface of the steel support; the longitudinal section of the heat insulation backing plate is L-shaped and is arranged on the transverse plate section of the supporting plate, and the vertical plate section of the heat insulation backing plate is attached to the outer side surface of the vertical plate section of the supporting plate; the steel adapter comprises an adapter plate and an adapter rod; the adapter plate is attached to the outer side face of the vertical plate section of the heat-insulating base plate, and the lower end of the adapter plate is supported on the transverse plate section of the heat-insulating base plate; the support plate, the heat insulation backing plate and the adapter plate are connected through a heat-insulating bridge connecting piece; the heat insulation bridge connecting piece comprises a heat insulation sleeve and a screw; the heat insulation sleeve is arranged in the support plate in a penetrating way, the outer end of the heat insulation sleeve extends into the heat insulation backing plate, and the inner end of the heat insulation sleeve is provided with an end plate; the end plate is in pressure connection with the inner side surface of the heat insulation backing plate; an internal thread is arranged on the inner wall of the pipeline of the heat insulation sleeve; the screw rod is arranged in the adapter plate in a penetrating way, the inner end of the screw rod is inserted in the heat insulation sleeve and is in threaded connection with the heat insulation sleeve, and the outer end of the screw rod is in compression joint with the outer side face of the adapter plate through a nut; the number of the switching rods is two, and the two switching rods are connected between the switching plate and the curtain wall structure at intervals.

Preferably, the curtain wall structure comprises curtain wall keels, curtain wall panels and curtain wall connecting components; the curtain wall keels are rectangular grid structures formed by transverse keels and vertical keels; the connecting system is arranged at a position corresponding to the vertical keel on the main body structure, and two switching rods of the connecting system are respectively clamped at the left side and the right side of the vertical keel; the switching rod is longitudinally and adjustably connected with the vertical keel through a first adjusting bolt.

Preferably, the embedded part comprises an embedded plate and an embedded rod; the embedded plate is attached to the outer side face of the main body structure, and the steel support is welded with the embedded plate; the buried rods are arranged in a group, are connected to the inner side face of the buried plate at intervals, and are buried in the main body structure longitudinally.

Preferably, the heat-insulating base plate and the supporting plate are bonded by adopting bonding glue, the top of the heat-insulating base plate is level with the top of the supporting plate, and the outer side surface of the transverse plate section of the heat-insulating base plate is vertically aligned with the outer side surface of the transverse plate section of the supporting plate; the adapter plate is bonded with the heat-insulating backing plate by adopting bonding glue, and the top of the heat-insulating backing plate is flush with the top of the adapter plate.

Preferably, the heat insulation sleeve is a polycarbonate tube or a hard rubber tube.

Compared with the prior art, the utility model has the following characteristics and beneficial effects.

1. The heat insulation backing plate is arranged between the connecting seat and the steel adaptor, and the heat insulation backing plate is adopted to block the cold-hot bridge between the connecting seat and the steel adaptor, so that the cold-hot bridge effect of the metal keel can be effectively reduced, and the energy consumption of the building is reduced.

2. According to the utility model, the traditional bolts are replaced by the heat-insulating bridge connecting pieces, so that the influence of a cold bridge and a heat bridge of a connecting system on the thermal performance of the whole curtain wall is further reduced, the thermal performance of the curtain wall is improved, and the energy-saving requirement of a building is met.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings.

Fig. 1 is a schematic view of a vertical cross-section of a connection system of a non-transparent ultra-low energy consumption curtain wall according to the present utility model.

FIG. 2 is a schematic view of the horizontal cross-sectional structure of the connection system of the non-transparent ultra-low energy consumption curtain wall of the present utility model.

FIG. 3 is a schematic view of the structure of the connecting seat and the heat insulation pad plate between the embedded part and the steel adapter part.

Fig. 4 is a schematic view of the structure of the break thermal bridge connector of the present utility model.

Reference numerals: 1-main body structure, 2-connecting seat, 2.1-steel support, 2.2-support plate, 3-heat insulation backing plate, 4-steel adapter, 4.1-adapter plate, 4.2-adapter rod, 5-embedded part, 5.1-embedded plate, 5.2-embedded rod, 6-heat insulation bridge connecting part, 6.1-heat insulation sleeve, 6.2-screw rod, 6.3-end plate, 6.4-nut, 7-curtain wall keel, 7.1-transverse keel, 7.2-vertical keel, 8-curtain wall panel, 8.1-panel unit, 9-first adjusting bolt, 10-rubber rod, 11-sealing glue, 12-clamping plate, 13-connecting bolt, 14-heat insulation rock wool and 15-second adjusting bolt.

Detailed Description

As shown in fig. 1-4, the connecting system of the non-transparent ultra-low energy consumption curtain wall comprises a main body structure 1 and a curtain wall structure; the heat insulation base plate comprises a connecting seat 2, a heat insulation base plate 3 and a steel adapter 4; the connecting seat 2 is connected to the outer side surface of the main body structure 1 and corresponds to the position of the vertical keel 7.2 of the curtain wall structure; the connecting seat 2 comprises a steel support 2.1 and a supporting plate 2.2; the steel support 2.1 is connected with the main body structure 1 through the embedded part 5; the longitudinal section of the supporting and connecting plate 2.2 is L-shaped, and the vertical plate section of the supporting and connecting plate 2.2 is connected with the outer side surface of the steel support 2.1; the longitudinal section of the heat insulation backing plate 3 is L-shaped and is arranged on the transverse plate section of the support connection plate 2.2, and the vertical plate section of the heat insulation backing plate 3 is attached to the outer side face of the vertical plate section of the support connection plate 2.2; the steel adapter 4 comprises an adapter plate 4.1 and an adapter rod 4.2; the adapter plate 4.1 is attached to the outer side face of the vertical plate section of the heat insulation base plate 3, and the lower end of the adapter plate 4.1 is supported on the transverse plate section of the heat insulation base plate 3; the support plate 2.2, the heat insulation backing plate 3 and the adapter plate 4.1 are connected through a heat-insulating bridge connecting piece 6; the thermal insulation bridge connecting piece 6 comprises a heat insulation sleeve 6.1 and a screw rod 6.2; the heat insulation sleeve 6.1 is arranged in the support plate 2.2 in a penetrating way, the outer end of the heat insulation sleeve 6.1 extends into the heat insulation base plate 3, and the end plate 6.3 is arranged at the inner end of the heat insulation sleeve 6.1; the end plate 6.3 is pressed and connected with the inner side surface of the heat insulation backing plate 3; an internal thread is arranged on the inner wall of the pipeline of the heat insulation sleeve 6.1; the screw rod 6.2 is arranged in the adapter plate 4.1 in a penetrating way, the inner end of the screw rod 6.2 is inserted in the heat insulation sleeve 6.1 and is in threaded connection with the heat insulation sleeve 6.1, and the outer end of the screw rod 6.2 is in pressure connection with the outer side face of the adapter plate 4.1 through the nut 6.4; the number of the switching rods 4.2 is two, and the two switching rods 4.2 are connected between the switching plate 4.1 and the curtain wall structure at intervals.

In this embodiment, the curtain wall structure includes a curtain wall keel 7, a curtain wall panel 8 and a curtain wall connecting assembly; the curtain wall keel 7 is of a rectangular grid structure formed by transverse keels 7.1 and vertical keels 7.2; the connecting system is arranged at a position corresponding to the vertical keel 7.2 on the main body structure, and two switching rods 4.2 of the connecting system are respectively clamped at the left side and the right side of the vertical keel 7.2; the transfer rod 4.2 is longitudinally and adjustably connected with the vertical keel 7.2 through a first adjusting bolt 9; and heat-insulating rock wool 14 is filled between the curtain wall keel 7 and the main body structure 1.

In this embodiment, the embedded part 5 includes an embedded plate 5.1 and an embedded rod 5.2; the buried plate 5.1 is attached to the outer side face of the main body structure 1, and the steel support 2.1 is welded with the buried plate 5.1; the embedded rods 5.2 are arranged in a group and are connected on the inner side surface of the embedded plate 5.1 at intervals, and each embedded rod 5.2 is embedded in the main body structure 1 along the longitudinal direction.

In this embodiment, the heat-insulating pad 3 and the supporting plate 2.2 are bonded by using adhesive, the top of the heat-insulating pad 3 is flush with the top of the supporting plate 2.2, and the outer side surface of the transverse plate section of the heat-insulating pad 3 is vertically aligned with the outer side surface of the transverse plate section of the supporting plate 2.2; the adapter plate 4.1 is bonded with the heat insulation backing plate 3 by adopting bonding glue, and the top of the heat insulation backing plate 3 is flush with the top of the adapter plate 4.1.

In this embodiment, the heat insulating sleeve 6.1 is a polycarbonate tube or a hard rubber tube.

In this embodiment, the curtain wall panel 8 is formed by connecting panel units 8.1; the panel unit 8.1 is a metal plate, and folds are respectively arranged on the inner side surface of the panel unit 8.1 along the peripheral edges; rubber bars 10 and sealant 11 are filled between the folds of adjacent panel units 8.1; the curtain wall panel 8 is connected with the vertical keel 7.2 through a connecting component; the connecting assembly comprises a clamping plate 12 and a connecting bolt 13; the horizontal section of the clamping plate 12 is U-shaped, and the clamping plate 12 is vertically and adjustably connected to the outer side surface of the vertical keel 7.2; the clamping plate 12 is vertically and adjustably connected with the vertical keel 7.2 through a second adjusting bolt 15, two side plates of the clamping plate 12 are respectively clamped on two sides of the vertical keel 7.2, and are connected with the vertical keel 7.2 through a connecting bolt 13. Of course, in other embodiments, the curtain wall panels 8 can also employ slate; the heat-insulating base plate 3 is a high-strength polyurethane heat-insulating base plate; the heat insulating sleeve 6.1 is made of a material with low heat conductivity coefficient, and in the embodiment, polycarbonate is adopted; of course, in other embodiments, the heat-conducting material can also be made of materials with high strength and low heat conductivity such as hard rubber.

In this embodiment, the adapter plate is rectangular, and the heat-insulating bridge connecting pieces 6 are disposed between the support plate 2.2, the heat-insulating pad 3 and the adapter plate 4.1, and are disposed at four corner positions respectively.

In this embodiment, the adapter plate 4.1 is welded to the adapter rod 4.2; the cross section of the switching rod 4.2 is L-shaped.

Claims (5)

1. A connecting system of a non-transparent ultra-low energy consumption curtain wall comprises a main body structure (1) and a curtain wall structure; the method is characterized in that: the heat insulation base plate also comprises a connecting seat (2), a heat insulation base plate (3) and a steel adapter (4); the connecting seat (2) is connected to the outer side surface of the main body structure (1) and corresponds to the position of the vertical keel (7.2) of the curtain wall structure; the connecting seat (2) comprises a steel support (2.1) and a supporting plate (2.2); the steel support (2.1) is connected with the main body structure (1) through the embedded part (5); the longitudinal section of the supporting and connecting plate (2.2) is L-shaped, and the vertical plate section of the supporting and connecting plate (2.2) is connected with the outer side surface of the steel support (2.1); the longitudinal section of the heat insulation backing plate (3) is L-shaped and is arranged on the transverse plate section of the supporting and connecting plate (2.2), and the vertical plate section of the heat insulation backing plate (3) is attached to the outer side face of the vertical plate section of the supporting and connecting plate (2.2); the steel adapter piece (4) comprises an adapter plate (4.1) and an adapter rod (4.2); the adapter plate (4.1) is attached to the outer side face of the vertical plate section of the heat insulation base plate (3), and the lower end of the adapter plate (4.1) is supported on the transverse plate section of the heat insulation base plate (3); the supporting plate (2.2), the heat insulation base plate (3) and the adapter plate (4.1) are connected through a heat-insulating bridge connecting piece (6); the heat insulation bridge connecting piece (6) comprises a heat insulation sleeve (6.1) and a screw rod (6.2); the heat insulation sleeve (6.1) is arranged in the support plate (2.2) in a penetrating way, the outer end of the heat insulation sleeve (6.1) extends into the heat insulation base plate (3), and the end plate (6.3) is arranged at the inner end of the heat insulation sleeve (6.1); the end plate (6.3) is pressed and connected on the inner side surface of the heat insulation backing plate (3); an internal thread is arranged on the inner wall of the pipeline of the heat insulation sleeve (6.1); the screw rod (6.2) is arranged in the adapter plate (4.1) in a penetrating way, the inner end of the screw rod (6.2) is inserted in the heat insulation sleeve (6.1) and is in threaded connection with the heat insulation sleeve (6.1), and the outer end of the screw rod (6.2) is in pressure connection with the outer side face of the adapter plate (4.1) through the nut (6.4); the number of the switching rods (4.2) is two, and the two switching rods (4.2) are connected between the switching plate (4.1) and the curtain wall structure at intervals.

2. The connection system of a non-transparent ultra-low energy consumption curtain wall according to claim 1, wherein: the curtain wall structure comprises curtain wall keels (7), curtain wall panels (8) and curtain wall connecting components; the curtain wall keels (7) are rectangular grid structures formed by transverse keels (7.1) and vertical keels (7.2); the connecting system is arranged at a position corresponding to the vertical keel (7.2) on the main body structure, and two switching rods (4.2) of the connecting system are respectively clamped at the left side and the right side of the vertical keel (7.2); the switching rod (4.2) is longitudinally and adjustably connected with the vertical keel (7.2) through a first adjusting bolt (9).

3. The connection system of a non-transparent ultra-low energy consumption curtain wall according to claim 1, wherein: the embedded part (5) comprises an embedded plate (5.1) and an embedded rod (5.2); the buried plate (5.1) is attached to the outer side face of the main body structure (1), and the steel support (2.1) is welded with the buried plate (5.1); the embedded rods (5.2) are arranged in a group and are connected to the inner side face of the embedded plate (5.1) at intervals, and each embedded rod (5.2) is embedded in the main body structure (1) along the longitudinal direction.

4. The connection system of a non-transparent ultra-low energy consumption curtain wall according to claim 1, wherein: the heat insulation backing plate (3) is bonded with the supporting and connecting plate (2.2) by adopting bonding glue, the top of the heat insulation backing plate (3) is flush with the top of the supporting and connecting plate (2.2), and the outer side surface of the transverse plate section of the heat insulation backing plate (3) is vertically aligned with the outer side surface of the transverse plate section of the supporting and connecting plate (2.2); the adapter plate (4.1) is bonded with the heat-insulating base plate (3) by adopting bonding glue, and the top of the heat-insulating base plate (3) is flush with the top of the adapter plate (4.1).

5. The connection system of a non-transparent ultra-low energy consumption curtain wall according to claim 1, wherein: the heat insulation sleeve (6.1) is a polycarbonate tube or a hard rubber tube.

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