CN-122013918-A - Building decoration energy-saving curtain wall

Abstract

The invention relates to the technical field related to buildings, in particular to an energy-saving curtain wall for building decoration, which comprises a keel frame, an inner glass curtain wall and a shell plate frame, wherein an outer glass curtain wall is arranged in front of the inner glass curtain wall in parallel, the inner glass curtain wall and the outer glass curtain wall are both arranged in the keel frame, a movable sealing frame integrally arranged on the outer glass curtain wall and a static sealing frame integrally arranged on the inner glass curtain wall are in sliding insertion connection, an air channel for adjusting heat exchange is formed by combining the movable sealing frame and the static sealing frame, a driving assembly capable of driving the outer glass curtain wall to slide and open and close is arranged in the shell plate frame, and the movable sealing frame is driven to synchronously move by the outer glass curtain wall, so that the opening and closing of the air channel are adaptively controlled. The building decoration energy-saving curtain wall can be adaptively regulated and controlled when coping with different meteorological environments, effectively adjusts heat exchange, reduces mechanical ventilation energy consumption, and realizes energy saving by utilizing natural force.

Inventors

• HE YANG
• LI JIANYING
• LU JUNNAN
• LU JUN
• ZHU WENBIN
• GAO XUELEI

Assignees

• 浙江新华建设集团有限公司

Dates

Publication Date

20260512

Application Date

20260403

Claims (9)

1. 1. A building decorative energy-saving curtain wall, comprising: the keel frame (1) is formed by combining and assembling vertical keels and transverse keels; Characterized by further comprising: The inner layer glass curtain wall (2), outer layer glass curtain wall (3) is arranged in parallel in front of the inner layer glass curtain wall (2), the inner layer glass curtain wall (2) and the outer layer glass curtain wall (3) are arranged in the dragon skeleton (1), a movable sealing frame (4) which is integrally arranged on the outer layer glass curtain wall (3) and a static sealing frame (5) which is integrally arranged on the inner layer glass curtain wall (2) are in sliding insertion connection, and an air channel for adjusting heat exchange is formed by combining the movable sealing frame (4) and the static sealing frame (5); Shell plate frame (6), shell plate frame (6) rigid coupling is on stull fossil fragments in fossil fragments frame (1), and shell plate frame (6) are in the same place with inlayer glass curtain wall (2) rigid coupling, be provided with in shell plate frame (6) and order about outer glass curtain wall (3) drive subassembly (7) that slide and open and shut, through outer glass curtain wall (3) drive movable seal frame (4) synchronous motion, the switching of adaptation regulation and control air channel.
2. 2. The energy-saving curtain wall for building decoration according to claim 1, wherein hole parts (8) are formed in the upper side and the lower side of the outer layer glass curtain wall (3) at equal intervals, the hole parts (8) are arranged corresponding to strip hole parts (9) formed in the static sealing frame (5), the strip hole parts (9) are symmetrically arranged up and down relative to the horizontal central axis of the static sealing frame (5), and the strip hole parts (9) and the hole parts (8) are used for communicating an air channel with the outside, and the strip hole parts (9) can be blocked by the passive sealing frame (4) to form a plug.
3. 3. The energy-saving curtain wall for building decoration according to claim 1, wherein the driving assembly (7) comprises a first bracket (10) and a second bracket (11) which are arranged in a crossing way, and is provided with an active pushing block (12) for driving the first bracket (10) and the second bracket to extend or fold, the outward end of the first bracket (10) is rotationally connected in the outer glass curtain wall (3), the inward end of the first bracket (10) is rotationally connected on the active pushing block (12), the middle part of the first bracket (10) is rotationally connected with the middle part of the second bracket (11), the outward end of the second bracket (11) forms a sliding structure in the outer glass curtain wall (3), and the inward end of the second bracket (11) is rotationally connected in the shell plate frame (6).
4. 4. The energy-saving curtain wall for building decoration according to claim 3, wherein the driving pushing block (12) forms a sliding structure in the shell plate frame (6), a connecting rod piece (13) is connected in a sliding mode in the driving pushing block (12), a first spring (14) is arranged at a sliding connection position of the driving pushing block and the connecting rod piece, the connecting rod piece (13) is assembled with an electric telescopic rod (15) fixedly connected in the shell plate frame (6), and the connecting rod piece (13) is driven by the electric telescopic rod (15) to form a sliding structure in the shell plate frame (6).
5. 5. The energy-saving curtain wall for building decoration according to claim 4, wherein a locating pin (16) for locking the connecting rod piece (13) and the driving pushing block (12) is arranged at the sliding connection position of the connecting rod piece and the driving pushing block (12), the locating pin (16) forms a telescopic sliding structure in the driving pushing block (12), a second spring (17) is arranged at the sliding connection position of the two, the pin head end of the locating pin (16) is connected with the connecting rod piece (13) in a clamping manner, and the pin tail end of the locating pin (16) is connected with an unlocking groove (18) formed in the shell plate frame (6) in a sliding pressing manner.
6. 6. The energy-saving curtain wall for building decoration according to claim 1, wherein the left side and the right side of the shell plate frame (6) are respectively provided with a ventilation mechanism (19) capable of controllably adjusting opening or closing, the ventilation mechanism (19) comprises a ventilation pipe frame (20) fixedly connected to a vertical keel in the keel frame (1), an arc-shaped baffle plate (21) integrally arranged in the ventilation pipe frame (20) and an arc-shaped filter plate (22) assembled at a ventilation hole in the arc-shaped baffle plate (21), the front side and the rear side of the ventilation pipe frame (20) are respectively provided with an air inlet notch and an air outlet net opening, fresh air is collected and conveyed indoors through the ventilation pipe frame (20), and sundries in the fresh air are filtered through the arc-shaped filter plate (22); The arc center of the arc baffle (21) and the pipe center of the ventilation pipe rack (20) are arranged in an eccentric state, and the pipe cavity of the ventilation pipe rack (20) is arranged in a vortex shape through the arc baffle (21).
7. 7. The energy-saving curtain wall for building decoration according to claim 6, wherein a sealing plate piece (23) for sealing and blocking the ventilation pipe rack (20) is arranged at an air inlet notch of the ventilation pipe rack (20), the sealing plate piece (23) forms a turnover structure on the ventilation pipe rack (20), a torsion spring (24) is arranged at a turnover connection position of the sealing plate piece and the ventilation pipe rack, an integrated shifting plate part (2301) is obliquely arranged on the sealing plate piece (23), and the shifting plate part (2301) is connected with a driven pushing block (25) in a sliding mode; The driven pushing block (25) forms a sliding structure in the shell plate frame (6), a third spring (26) is arranged at the sliding connection position of the driven pushing block and the shell plate frame, and the driven pushing block (25) is connected with the connecting rod piece (13) in a pressing and pushing mode.
8. 8. The energy-saving curtain wall for building decoration according to claim 7, wherein a linkage plate (27) for shielding is arranged at a gap formed between the ventilation pipe frame (20) and the outer layer glass curtain wall (3), the outward end of the linkage plate (27) is connected to the sealing plate (23) in a turnover manner, the inward end of the linkage plate (27) forms a sliding structure in the sliding rail frame (28) together with the roller, and the sliding rail frame (28) is fixedly connected to the outer layer glass curtain wall (3).
9. 9. The energy-saving curtain wall for building decoration according to claim 6, wherein the cleaning round holes in the ventilation pipe frame (20) are sequentially communicated with the cleaning round holes in the shell plate frame (6) and the cleaning round holes in the keel frame (1), cleaning ball pieces (29) which can be attached to the arc filter plates (22) are arranged in the ventilation pipe frame (20), the cleaning ball pieces (29) are sequentially movably inserted through the cleaning round holes in the ventilation pipe frame (20), the cleaning round holes in the shell plate frame (6) and the cleaning round holes in the keel frame (1), and sundries accumulated on the arc filter plates (22) can be scraped and cleaned by pulling the cleaning ball pieces (29).

Description

Building decoration energy-saving curtain wall Technical Field The invention relates to the technical field of building, in particular to an energy-saving building decoration curtain wall, which belongs to the technical field of building curtain walls. Background The building curtain wall is a decorative wall body which is hung and fixed on the outer side of a building main body like a curtain, is used as a peripheral protection structure of the building main body, and plays a non-negligible role in the aspects of safety protection, energy conservation, environmental protection, urban image shaping and the like although not bearing the load of the building main body structure; The building curtain wall mainly comprises panels and a supporting structure system which are mutually complemented, wherein the panels are used as the outer surface material of the curtain wall to directly face the external environment, influence the appearance and the performance of a building, and the supporting structure system is used for fixing the panels and transmitting the load of the panels to the main body of the building. If grant chinese patent of bulletin number CN114150801B, disclose a double-deck curtain of outer loop breathing formula, including supporting component, a plurality of unit curtain subassembly and ventilation module of installing on supporting component, supporting component includes outside support, inboard support and a plurality of vertical beam, unit curtain subassembly includes inlayer wall body, outer wall body and connecting piece, and the inlayer wall body is placed on the inboard support, and outer wall body is placed on the outside support, forms ventilation channel between inboard wall body and the outside wall body, and ventilation module sets up on the outside support. Based on the above patents and in combination with existing solutions and in combination with practical use processes, the current energy-saving curtain wall still has some problems, such as: In the above patent, a ventilation channel is arranged between the inner side wall body and the outer side wall body, the ventilation assembly is arranged on the outer side bracket and comprises an air inlet screen plate and an air outlet screen plate, and the ventilation assembly and the ventilation channel are matched to replace air flow in the ventilation channel, wherein the ventilation assembly cannot be opened and closed to adjust, so that the ventilation channel is always kept in an opened state; The two-layer glass curtain wall is the same as the existing two-layer glass curtain wall, the upper side and the lower side of the existing two-layer glass curtain wall are provided with ventilation channels which cannot be opened and closed, the ventilation channels are in a single mode, the setting of an opened state is always kept, heat exchange cannot be effectively regulated, and when different weather environments are handled, the advantages of energy conservation and environmental adaptability are reduced, for example, the ventilation channels in the opened state in cold seasons can not meet the use requirement of heat preservation. Therefore, we propose a building decoration energy-saving curtain wall so as to solve the above-mentioned problems. Disclosure of Invention The invention aims to provide an energy-saving curtain wall for building decoration, which solves the problems that the heat exchange cannot be effectively regulated, and the environmental adaptability is reduced and the energy conservation is affected when different meteorological environments are dealt with in the prior art. In order to achieve the purpose, the invention provides the following technical scheme that the energy-saving curtain wall for building decoration comprises the following components: The keel frame is formed by combining and assembling vertical keels and transverse keels; Further comprises: The inner layer glass curtain wall is provided with an outer layer glass curtain wall in parallel right in front of the inner layer glass curtain wall, the inner layer glass curtain wall and the outer layer glass curtain wall are both arranged in the keel frame, a movable sealing frame integrally arranged on the outer layer glass curtain wall and a static sealing frame integrally arranged on the inner layer glass curtain wall are in sliding insertion connection, and an air channel for adjusting heat exchange is formed by combining the movable sealing frame and the static sealing frame; the shell plate frame is fixedly connected to the middle transverse support keel of the keel frame, the shell plate frame is fixedly connected with the inner glass curtain wall, a driving assembly capable of driving the outer glass curtain wall to slide and open and close is arranged in the shell plate frame, and the outer glass curtain wall drives the movable sealing frame to synchronously move, so that the opening and closing of the air channel can be adaptively regulated an