CN115126133B - Intelligent high-rise building energy-saving curtain wall device - Google Patents

Intelligent high-rise building energy-saving curtain wall device Download PDF

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Publication number
CN115126133B
CN115126133B CN202210842575.2A CN202210842575A CN115126133B CN 115126133 B CN115126133 B CN 115126133B CN 202210842575 A CN202210842575 A CN 202210842575A CN 115126133 B CN115126133 B CN 115126133B
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China
Prior art keywords
connecting arm
rectangular frame
strip
adjusting plate
shaped adjusting
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CN202210842575.2A
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Chinese (zh)
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CN115126133A (en
Inventor
于卫萍
黄栋
高佩佩
李雪
姜伟
张靖
李峰强
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Qingdao Hewei Zhongji Information Technology Co ltd
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Qingdao Hewei Zhongji Information Technology Co ltd
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Priority to CN202210842575.2A priority Critical patent/CN115126133B/en
Publication of CN115126133A publication Critical patent/CN115126133A/en
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B2/00Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
    • E04B2/88Curtain walls
    • E04B2/96Curtain walls comprising panels attached to the structure through mullions or transoms
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/343Structures characterised by movable, separable, or collapsible parts, e.g. for transport
    • E04B1/34336Structures movable as a whole, e.g. mobile home structures
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/62Insulation or other protection; Elements or use of specified material therefor
    • E04B1/74Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02SGENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
    • H02S20/00Supporting structures for PV modules
    • H02S20/20Supporting structures directly fixed to an immovable object
    • H02S20/22Supporting structures directly fixed to an immovable object specially adapted for buildings
    • H02S20/26Building materials integrated with PV modules, e.g. façade elements

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Acoustics & Sound (AREA)
  • Power-Operated Mechanisms For Wings (AREA)

Abstract

The invention relates to the technical field of energy-saving curtain walls, in particular to an intelligent high-rise building energy-saving curtain wall device which comprises a total mounting frame and a plurality of groups of curtain wall components, wherein each group of curtain wall components comprises an outer rectangular frame, rectangular sealing strips, an inner rectangular frame, power generation glass, a driving device and two groups of adjusting devices, each group of adjusting devices comprises a strip-shaped adjusting plate, a transmission mechanism, a first connecting arm, a second connecting arm, a third connecting arm and a stabilizing arm, sliding mechanisms are fixedly connected to the end parts of the first connecting arm, the second connecting arm and the third connecting arm, a first sliding groove, a second sliding groove and a third sliding groove are formed in the strip-shaped adjusting plates, the inner rectangular frame can horizontally move away from a wall surface, external air can enter the inner side of the curtain wall through the periphery of the inner rectangular frame to exchange heat, and the inner rectangular frame can rotationally incline, so that the distance between the inner rectangular frame and the windward side of the outer rectangular frame is increased, and the air can enter the inner side of the curtain wall to exchange heat.

Description

Intelligent high-rise building energy-saving curtain wall device
Technical Field
The invention relates to the technical field of energy-saving curtain walls, in particular to an intelligent high-rise building energy-saving curtain wall device.
Background
The curtain wall is an outer wall enclosure of a building, is not bearing, is hung like a curtain, is also called as a curtain wall, and is a light wall with a decorative effect commonly used in modern large-scale and high-rise buildings. The building outer protective structure or the decorative structure is composed of a panel and a supporting structure system, can have certain displacement capacity or deformation capacity relative to the main structure, and does not bear the action of the main structure. Along with the high-speed development of national economy in China and the continuous improvement of the living standard of people and the improvement of the design concept of architects, namely 'humanized building', the building is increasingly developed to high-rise, high-grade and multifunctional directions. Therefore, the building curtain wall products are also inevitably developed to the directions of high and new technologies and multifunction, so that the building curtain wall products can adapt to the increasingly enhanced environmental protection and energy conservation consciousness of people and meet the requirements of the market on the functions of the building curtain wall. The existing curtain wall is fixedly installed, the air layer sealed between the curtain wall and the wall surface can prevent external heat from being transferred, indoor and outdoor temperature difference can be effectively controlled in summer and winter, but in spring and autumn, the outdoor temperature enables people to feel more comfortable, indoor heat with the air layer cannot be transferred to the outside, and indoor temperature can be improved to enable indoor people to feel less comfortable.
Disclosure of Invention
Based on the above, it is necessary to provide an intelligent energy-saving curtain wall device for high-rise buildings aiming at the problems in the prior art.
In order to solve the problems in the prior art, the invention adopts the following technical scheme: the utility model provides an intelligent high-rise building energy-saving curtain wall device, is including fixing the total mounting bracket on the wall, still includes a plurality of groups and is the curtain subassembly of matrix form fixing on total mounting bracket, and every group curtain subassembly all includes:
the outer rectangular frame is parallel to the wall surface and fixedly arranged on the total mounting frame, and a rectangular sealing strip is fixedly clamped on one side, far away from the wall surface, of the outer rectangular frame;
the power generation glass is fixed on the inner rectangular frame, the inner rectangular frame is positioned on one side of the outer rectangular frame far away from the wall surface, and the inner rectangular frame can be abutted against the rectangular sealing strip;
the driving device and the two groups of adjusting devices are fixedly arranged on one side of the outer rectangular frame, which is close to the wall surface, the driving device is fixed on the vertical side edge of the outer rectangular frame, the two groups of adjusting devices are symmetrically and fixedly arranged on two horizontal side edges of the outer rectangular frame respectively, each group of adjusting devices comprises a horizontal strip-shaped adjusting plate, a transmission mechanism fixed on the outer rectangular frame, a first connecting arm, a second connecting arm, a third connecting arm and a horizontal stabilizing arm, the length direction of the strip-shaped adjusting plate is consistent with the length direction of the horizontal side edge of the outer rectangular frame, the driving device drives the strip-shaped adjusting plate to slide along the length direction of the horizontal side edge of the outer rectangular frame through the transmission mechanism, the end parts of the first connecting arm, the second connecting arm and the third connecting arm are horizontally and rotationally connected with the inner rectangular frame and are positioned above the strip-shaped adjusting plate, the other ends of the first connecting arm, the second connecting arm and the third connecting arm are fixedly connected with sliding mechanisms, the three groups of sliding mechanisms are respectively and horizontally connected with the two ends and the middle part of the stabilizing arm in a rotating way, the first connecting arm, the second connecting arm and the third connecting arm are vertical to the outer rectangular frame, the second connecting arm is positioned between the first connecting arm and the second connecting arm, the third connecting arm is close to the driving device, the second connecting arm is in sliding connection with the outer rectangular frame along the length direction of the second connecting arm, the strip-shaped adjusting plate is provided with a first sliding groove, a second sliding groove and a third sliding groove, the first connecting arm is in sliding connection with the first sliding groove through the sliding mechanism, the second connecting arm is in sliding connection with the second sliding groove through the sliding mechanism, the third connecting arm is in sliding connection with the third sliding groove through the sliding mechanism, when the strip-shaped adjusting plate slides, the stabilizing arm is driven to slide close to the outer rectangular frame and then rotate around the middle sliding mechanism and then reversely rotate.
Further, the first spout is by first location portion, first tilting portion, first parallel portion, second tilting portion, second parallel portion and third tilting portion communicate in proper order and constitute, and first location portion, first parallel portion and second parallel portion all set up with strip regulating plate homolength direction, and the tip that first tilting portion is close to outer rectangular frame is kept away from the slope of second linking arm, and the second tilting portion is with the same direction slope of first tilting portion, and the tip that outer rectangular frame was kept away from to the third tilting portion is kept away from the slope of second linking arm.
Further, the second chute is formed by sequentially communicating a second positioning part, a fourth inclined part and a third parallel part, the second positioning part and the third parallel part are both in the same length direction as the strip-shaped adjusting plate, the second positioning part and the first positioning part are arranged in a collinear manner, the third parallel part and the first parallel part are arranged in a collinear manner, and the inclination angle of the third inclined part and the first inclined part is the same.
Further, the third chute is formed by sequentially communicating a third positioning part, a fifth inclined part, a fourth parallel part, a sixth inclined part, a fifth parallel part and a seventh inclined part, wherein the third positioning part, the fourth parallel part and the fifth parallel part are all arranged in the same length direction as the strip-shaped adjusting plate, the third positioning part and the first positioning part are arranged in a collinear way, the fifth parallel part and the first parallel part are arranged in a collinear way, the inclination angle of the fifth inclined part is the same as that of the first inclined part, the inclination direction of the sixth inclined part is opposite to that of the fifth inclined part, and the inclination direction of the seventh inclined part is the same as that of the fifth inclined part.
Further, the sliding mechanism includes:
the connecting sleeve is fixedly sleeved on the end part of the first connecting arm, and the upper end of the connecting sleeve is rotationally connected with the end part of the stabilizing arm through a vertical first connecting bolt;
the connecting frame is fixedly connected with the lower end of the connecting sleeve;
the two groups of ball mechanisms are symmetrically distributed about the strip-shaped adjusting plate and are respectively connected with the top end and the bottom end of the strip-shaped adjusting plate in a sliding manner, and the top end of the ball mechanism positioned above is contacted with the lower end of the connecting piece;
the vertical rectangular positioning sleeve is positioned in the first chute, the lower end of the rectangular positioning sleeve downwards passes through the ball mechanism positioned below, and the upper end of the rectangular positioning sleeve upwards passes through the ball mechanism positioned above and is inserted into the connecting piece;
the inner pipe sleeve is sleeved on the rectangular positioning sleeve and positioned in the first sliding groove, and two ends of the inner pipe sleeve are respectively abutted against the two groups of ball mechanisms;
the outer pipe sleeve is rotationally sleeved on the inner pipe sleeve and is in sliding connection with the first sliding groove;
the vertical second connecting bolt passes the rectangle locating sleeve upwards and connects soon with the link and fix, and the cover is equipped with spacing gasket on the lower extreme of second connecting bolt, and the top of spacing gasket is inconsistent with the lower extreme of rectangle locating sleeve and the bottom of the ball mechanism that is located the below.
Further, the ball mechanism includes:
a vertical rectangular through groove is formed at the axis of the vertical cylindrical piece, and a rectangular positioning sleeve penetrates through the rectangular through groove;
the rolling balls are uniformly distributed along the circumferential direction of the cylindrical part, a plurality of accommodating grooves are formed in one side, close to the strip-shaped adjusting plate, of the cylindrical part, and the rolling balls are correspondingly positioned in the accommodating grooves one by one;
the limiting end cover is fixedly arranged on the end part, close to the strip-shaped adjusting plate, of the cylindrical piece, each ball penetrates through the limiting end cover to be in sliding connection with the strip-shaped adjusting plate, and the rectangular limiting sleeve penetrates through the limiting end cover.
Further, the transmission mechanism includes:
the rotary seat is fixed on the bottom of the strip-shaped adjusting plate and is arranged close to the driving device, a threaded rod which is in the same length direction as the strip-shaped adjusting plate is connected to the rotary seat in a rotary mode, two ends of the threaded rod are both connected with the outer rectangular frame in a shaft mode, and a first gear is fixedly sleeved on the end portion, close to the driving device, of the threaded rod;
the connecting shaft is connected with the threaded rod in the same length direction and the outer rectangular frame in a shaft mode, is located between the threaded rod and the outer rectangular frame, is fixedly sleeved with a second gear meshed with the first gear, is fixedly sleeved with a worm wheel connected with the driving device, and is located on one side, close to the driving device, of the second gear.
Further, the driving device includes:
the double-shaft motor is fixed on the outer rectangular frame through the mounting frame;
the two vertical worms are fixedly connected with two output shafts of the double-shaft motor respectively, both the two worms are connected with the outer rectangular frame in a shaft way, and the two worms are meshed with the worms in the two groups of adjusting devices respectively.
Further, the outside cover of drive arrangement is equipped with first shell, adjusting device's outside cover is equipped with the second shell, and second shell and first shell all are connected with outer rectangular frame fixed, and first linking arm, second linking arm and third linking arm wear out the second shell and are articulated with interior rectangular frame.
Compared with the prior art, the invention has the following beneficial effects: firstly, when the curtain wall is in a windless environment in spring and autumn, the inner rectangular frame can horizontally move away from the wall surface, and at the moment, the outside air can enter the inner side of the curtain wall through the periphery of the inner rectangular frame to exchange heat;
secondly, when the air conditioner is in windy environments in spring and autumn, the inner rectangular frame can rotate and incline, the distance between the windward sides of the inner rectangular frame and the outer rectangular frame is increased, air can enter the inner side of the curtain wall to exchange heat, and the comfort of indoor personnel is improved;
thirdly, in summer and winter, the inner rectangular frame is tightly abutted against the rectangular sealing strips, and an air layer between the curtain wall component and the wall surface can block external heat transfer, so that the temperature difference between the indoor and outdoor is improved, and the use frequency of an air conditioner is reduced;
fourth, the glass not only can be used for the double-shaft motor, but also can be used for users.
Drawings
FIG. 1 is a schematic perspective view of an embodiment;
FIG. 2 is a schematic perspective view of a curtain wall assembly of an embodiment;
FIG. 3 is a schematic perspective view of an outer rectangular frame and rectangular sealing strip of an embodiment;
FIG. 4 is a schematic perspective view of the embodiment shown in FIG. 3A;
FIG. 5 is a schematic perspective view of a second embodiment of a curtain wall assembly;
FIG. 6 is a schematic view of a partial perspective view of a curtain wall assembly of an embodiment;
FIG. 7 is a schematic perspective view of a strip-shaped adjusting plate according to an embodiment;
fig. 8 is a schematic perspective view of a sliding mechanism of the embodiment;
fig. 9 is a schematic diagram showing a perspective structure of a sliding mechanism according to the second embodiment;
FIG. 10 is an exploded schematic view of the slide mechanism of the embodiment;
FIG. 11 is a schematic perspective view of the drive mechanism and the strip adjustment plate of the embodiment;
FIG. 12 is a schematic view of a partial perspective view of a curtain wall assembly of an embodiment II;
FIG. 13 is a schematic view of a partial perspective view of a curtain wall assembly of an embodiment III;
FIG. 14 is a schematic view of a partial perspective view of a curtain wall assembly of an embodiment.
The reference numerals in the figures are: 1. a total mounting rack; 2. generating glass; 3. an outer rectangular frame; 4. rectangular sealing strips; 5. an inner rectangular frame; 6. a strip-shaped adjusting plate; 7. a transmission mechanism; 8. a first connecting arm; 9. a second connecting arm; 10. a third connecting arm; 11. a stabilizing arm; 12. a sliding mechanism; 13. a first positioning portion; 14. a first inclined portion; 15. a first parallel portion; 16. a second inclined portion; 17. a second parallel portion; 18. a third inclined portion; 19. a second positioning portion; 20. a fourth inclined portion; 21. a third parallel portion; 22. a third positioning portion; 23. a fifth inclined portion; 24. a fourth parallel portion; 25. a sixth inclined portion; 26. a fifth parallel portion; 27. a seventh inclined portion; 28. connecting sleeves; 29. a first connecting bolt; 30. a connecting frame; 31. rectangular positioning sleeve; 32. an inner tube sleeve; 33. an outer tube sleeve; 34. a second connecting bolt; 35. a limiting gasket; 36. a cylindrical member; 37. rectangular through grooves; 38. a ball; 39. an accommodating groove; 40. a limiting end cover; 41. a rotary joint seat; 42. a threaded rod; 43. a first gear; 44. a connecting shaft; 45. a second gear; 46. a worm wheel; 47. a biaxial motor; 48. a mounting frame; 49. a worm; 50. a first housing; 51. a second housing; 52. a first chute; 53. a second chute; 54. and a third chute.
Detailed Description
The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.
Referring to fig. 1 to 14, an intelligent energy-saving curtain wall device for high-rise building, comprising a total mounting frame 1 fixed on a wall surface, and a plurality of groups of curtain wall components fixed on the total mounting frame 1 in a matrix shape, wherein each group of curtain wall components comprises:
the outer rectangular frame 3 is parallel to the wall surface and fixedly arranged on the total mounting frame 1, and a rectangular sealing strip 4 is fixedly clamped on one side, away from the wall surface, of the outer rectangular frame 3;
the power generation glass 2 is fixed on the inner rectangular frame 5, the inner rectangular frame 5 is positioned on one side of the outer rectangular frame 3 away from the wall surface, and the inner rectangular frame 5 can be abutted against the rectangular sealing strip 4;
the driving device and two groups of adjusting devices are fixedly arranged on one side of the outer rectangular frame 3 close to the wall surface, the driving device is fixed on the vertical side edge of the outer rectangular frame 3, the two groups of adjusting devices are symmetrically and respectively and fixedly arranged on two horizontal side edges of the outer rectangular frame 3, each group of adjusting devices comprises a horizontal strip-shaped adjusting plate 6, a transmission mechanism 7 fixed on the outer rectangular frame 3, a first connecting arm 8, a second connecting arm 9, a third connecting arm 10 and a horizontal stabilizing arm 11, the length direction of the strip-shaped adjusting plate 6 is consistent with the length direction of the horizontal side edge of the outer rectangular frame 3, the driving device drives the strip-shaped adjusting plate 6 to slide along the length direction of the horizontal side edge of the outer rectangular frame 3 through the transmission mechanism 7, the ends of the first connecting arm 8, the second connecting arm 9 and the third connecting arm 10 are horizontally and rotationally connected with the inner rectangular frame 5 and are positioned above the strip-shaped adjusting plate 6, the other ends of the first connecting arm 8, the second connecting arm 9 and the third connecting arm 10 are fixedly connected with sliding mechanisms 12, the three groups of sliding mechanisms 12 are respectively connected with the two ends and the middle part of the stabilizing arm 11 in a horizontal rotating mode, the first connecting arm 8, the second connecting arm 9 and the third connecting arm 10 are vertical to the outer rectangular frame 3, the second connecting arm 9 is positioned between the first connecting arm 8 and the second connecting arm 9, the third connecting arm 10 is close to the driving device, the second connecting arm 9 is in sliding connection with the outer rectangular frame 3 along the length direction of the second connecting arm 9, the strip-shaped adjusting plate 6 is provided with a first sliding groove 52, a second sliding groove 53 and a third sliding groove 54, the first connecting arm 8 is in sliding connection with the first sliding groove 52 through the sliding mechanism 12, the second connecting arm 9 is in sliding connection with the second sliding groove 53 through the sliding mechanism 12, the third connecting arm 10 is in sliding connection with the third sliding groove 54 through the sliding mechanism 12, when the strip-shaped adjusting plate 6 slides, the stabilizing arm 11 is driven to slide close to the outer rectangular frame 3 and then rotate around the middle sliding mechanism 12 and then reversely rotate.
The intelligent high-rise building energy-saving curtain wall device further comprises a control terminal and a wind direction detection mark, wherein the control terminal and the wind direction detection mark are all in the prior art, are not shown in the figure, and are used for monitoring wind directions.
The power generation glass 2 converts solar energy into electric energy, so that the power generation glass can be used for driving devices in spring and autumn and can also supply power for users in winter and summer.
In winter and summer, drive arrangement need not start, and interior rectangular frame 5 is tight contradicting on rectangular sealing strip 4, and curtain subassembly separates external space, is confined air bed between curtain subassembly and the wall, and the air bed can isolate external heat's transmission, increases indoor and outdoor difference in temperature, reduces the frequency of use of air conditioner.
In spring and autumn, the control terminal controls the driving device to start, the transmission mechanism 7 drives the strip-shaped adjusting plate 6 to horizontally slide, the first sliding groove 52, the second sliding groove 53 and the third sliding groove 54 are different, the sliding of the strip-shaped adjusting plate 6 is divided into three sections of sliding, the three sections of sliding correspond to three moving states of the stabilizing arm 11 respectively, the stabilizing arm 11 horizontally moves close to the outer rectangular frame 3 during the first section of sliding, the end part, connected with the first connecting arm 8, of the stabilizing arm 11 horizontally moves close to the outer rectangular frame 3 during the second section of sliding, the sliding mechanism 12, connected with the first connecting arm 8, of the stabilizing arm 11 horizontally rotates close to the outer rectangular frame 3, and the end part, connected with the first connecting arm 8, of the stabilizing arm 11 horizontally slides away from the outer rectangular frame 3 around the sliding mechanism 12 in the middle.
When the strip-shaped adjusting plate 6 slides in the first section, the three groups of sliding mechanisms 12 slide in the first sliding groove 52, the second sliding groove 53 and the third sliding groove 54 respectively, the first connecting arm 8, the second connecting arm 9 and the third connecting arm 10 slide away from the wall surface along the length direction of the first connecting arm, the inner rectangular frame 5 is pushed out away from the wall surface, external air enters between the wall surface and the outer rectangular frame 3 through between the inner rectangular frame 5 and the outer rectangular frame 3, and the air entering between the wall surface and the outer rectangular frame 3 exchanges heat with the internal air, so that the temperature of the wall surface is adjusted, the temperature difference between the indoor and the outdoor is reduced, and the outer rectangular frame 3 and the inner rectangular frame 5 are parallel and are suitable for windless environments.
When the strip-shaped adjusting plate 6 slides to the first section, the strip-shaped adjusting plate 6 slides to the second section, at the moment, the second connecting arm 9 does not slide, because the second connecting arm 9 is in sliding connection with the outer rectangular frame 3 along the length direction of the outer rectangular frame 3, the first connecting arm 8 and the third connecting arm 10 are always parallel to the second connecting arm 9, the second connecting arm 9 starts a positioning function, at the moment, the stabilizing arm 11 rotates around the middle sliding mechanism 12, the first connecting arm 8 and the third connecting arm 10 slide close to the second connecting arm 9, meanwhile, the first connecting arm 8 slides far away from the wall surface, the third connecting arm 10 slides close to the wall surface, the inner rectangular frame 5 is driven to incline, at the moment, the gap between one side of the inner rectangular frame 5 and one side of the outer rectangular frame 3 is increased, inclined wind is facilitated to enter the outer rectangular frame 3 and the wall surface to perform heat exchange, and similarly, when the strip-shaped adjusting plate 6 slides to the third section, the second connecting arm 9 does not move, the stabilizing arm 11 rotates around the sliding mechanism 12 positioned in the middle, the first connecting arm 8 slides close to the wall surface, and the third connecting arm 10 slides far away from the wall surface, so that the inner rectangular frame 5 and the other side of the inner rectangular frame 5 can slide in opposite direction to the inclined wind direction, and the inner rectangular frame 5 can be inclined and inclined to the inner rectangular frame 5.
The first chute 52 is formed by sequentially communicating a first positioning portion 13, a first tilting portion 14, a first parallel portion 15, a second tilting portion 16, a second parallel portion 17 and a third tilting portion 18, wherein the first positioning portion 13, the first parallel portion 15 and the second parallel portion 17 are all arranged in the same length direction as the strip-shaped adjusting plate 6, the end portion of the first tilting portion 14, which is close to the outer rectangular frame 3, is inclined away from the second connecting arm 9, the end portion of the second tilting portion 16, which is inclined in the same direction as the first tilting portion 14, and the end portion of the third tilting portion 18, which is far away from the outer rectangular frame 3, is inclined away from the second connecting arm 9.
The second sliding groove 53 is formed by sequentially communicating a second positioning portion 19, a fourth inclined portion 20 and a third parallel portion 21, the second positioning portion 19 and the third parallel portion 21 are both in the same length direction as the strip-shaped adjusting plate 6, the second positioning portion 19 and the first positioning portion 13 are arranged in a collinear manner, the third parallel portion 21 and the first parallel portion 15 are arranged in a collinear manner, and the inclination angle of the third inclined portion 18 and the first inclined portion 14 is the same.
The third sliding groove 54 is formed by sequentially connecting a third positioning portion 22, a fifth inclined portion 23, a fourth parallel portion 24, a sixth inclined portion 25, a fifth parallel portion 26 and a seventh inclined portion 27, wherein the third positioning portion 22, the fourth parallel portion 24 and the fifth parallel portion 26 are all arranged in the same length direction as the strip-shaped adjusting plate 6, the third positioning portion 22 and the first positioning portion 13 are arranged in a collinear manner, the fifth parallel portion 26 and the first parallel portion 15 are arranged in a collinear manner, the inclination angle of the fifth inclined portion 23 and the first inclined portion 14 is the same, the inclination direction of the sixth inclined portion 25 and the inclination direction of the fifth inclined portion 23 are opposite, and the inclination direction of the seventh inclined portion 27 and the inclination direction of the fifth inclined portion 23 are the same.
When the inner rectangular frame 5 is abutted against the rectangular sealing strip 4, the first connecting arm 8 is located in the first positioning portion 13, the second connecting arm 9 is located in the second positioning portion 19, and the third connecting arm 10 is located in the third positioning portion 22.
When the strip-shaped adjusting plate 6 slides in the first section, the first connecting arm 8 slides into the first inclined portion 14 from the first positioning portion 13, the first connecting arm 8 slides away from the wall surface, when sliding into the first parallel portion 15, the first connecting arm 8 remains stationary, the second connecting arm 9 slides into the fourth inclined portion 20 from the second positioning portion 19, the second connecting arm 9 slides away from the wall surface, when sliding into the third parallel portion 21, the second connecting arm 9 remains stationary, the third connecting arm 10 slides into the fifth inclined portion 23 from the third positioning portion 22, the third connecting arm 10 slides away from the wall surface, and when sliding into the fourth parallel portion 24, the third connecting arm 10 remains stationary, and since the first parallel portion 15, the third parallel portion 21 and the fourth parallel portion 24 are collinear, the inner rectangular frame 5 remains parallel after being separated from the outer rectangular frame 3.
When the strip-shaped adjusting plate 6 slides in the second section, the first connecting arm 8 slides into the second inclined part 16 from the first parallel part 15, the first connecting arm 8 slides away from the wall surface, the holding state is not moved when the first connecting arm 8 slides into the second parallel part 17, the second connecting arm 9 continues to slide in the third parallel part 21, the holding state of the second connecting arm 9 is not moved, the third connecting arm 10 slides into the sixth inclined part 25 from the fourth parallel part 24, the third connecting arm 10 slides close to the wall surface, the holding state is not moved after the third connecting arm 10 slides into the fifth parallel part 26, at this time, the inner rectangular frame 5 is in an inclined state, the distance between the inner rectangular frame 5 and the outer rectangular frame 3 on the side close to the first connecting arm 8 is increased, and the distance between the inner rectangular frame 5 and the outer rectangular frame 3 on the side close to the third connecting arm 10 is reduced.
When the strip-shaped adjusting plate 6 slides in the third section, the first connecting arm 8 slides from the second parallel portion 17 into the third inclined portion 18, the first connecting arm 8 slides close to the wall surface until the first connecting arm 8 slides to the end of the third inclined portion 18, the second connecting arm 9 still slides in the third parallel portion 21, the second connecting arm 9 remains stationary, the third connecting arm 10 slides from the fifth parallel portion 26 into the seventh inclined portion 27, the third connecting arm 10 slides away from the wall surface until the third connecting arm 10 slides to the end of the seventh inclined portion 27, at this time, the inclination direction of the inner rectangular frame 5 is opposite to the inclination direction of the inner rectangular frame 5 at the time of the second sliding, the distance between the inner rectangular frame 5 and the outer rectangular frame 3 on the side close to the first connecting arm 8 decreases, and the distance between the inner rectangular frame 5 and the outer rectangular frame 3 on the side close to the third connecting arm 10 increases.
The slide mechanism 12 includes:
the connecting sleeve 28 is fixedly sleeved on the end part of the first connecting arm 8, and the upper end of the connecting sleeve 28 is rotationally connected with the end part of the stabilizing arm 11 through a vertical first connecting bolt 29;
the connecting frame 30 is fixedly connected with the lower end of the connecting sleeve 28;
the two groups of ball mechanisms are symmetrically distributed about the strip-shaped adjusting plate 6 and are respectively connected with the top end and the bottom end of the strip-shaped adjusting plate 6 in a sliding manner, and the top end of the ball mechanism positioned above is contacted with the lower end of the connecting piece;
the vertical rectangular positioning sleeve 31 is positioned in the first chute 52, the lower end of the rectangular positioning sleeve 31 downwards passes through the ball mechanism positioned below, and the upper end of the rectangular positioning sleeve 31 upwards passes through the ball mechanism positioned above and is inserted into the connecting piece;
the inner pipe sleeve 32 is sleeved on the rectangular positioning sleeve 31 and is positioned in the first sliding groove 52, and two ends of the inner pipe sleeve 32 are respectively abutted against the two groups of ball mechanisms;
the outer pipe sleeve 33 is rotatably sleeved on the inner pipe sleeve 32, and the outer pipe sleeve 33 is in sliding connection with the first sliding groove 52;
the vertical second connecting bolt 34 passes through the rectangular locating sleeve 31 upwards to be screwed and fixed with the connecting frame 30, the lower end of the second connecting bolt 34 is sleeved with a limiting gasket 35, and the top end of the limiting gasket 35 is in contact with the lower end of the rectangular locating sleeve 31 and the bottom end of the ball mechanism positioned below.
The ball mechanism includes:
a vertical column part 36, a vertical rectangular through groove 37 is formed at the axis, and the rectangular positioning sleeve 31 passes through the rectangular through groove 37;
the plurality of balls 38 are uniformly distributed along the circumferential direction of the cylindrical member 36, a plurality of accommodating grooves 39 are formed on one side of the cylindrical member 36, which is close to the strip-shaped adjusting plate 6, and the plurality of balls 38 are correspondingly positioned in the plurality of accommodating grooves 39 one by one;
the limiting end cover 40 is fixedly arranged on the end part, close to the strip-shaped adjusting plate 6, of the cylindrical piece 36, each ball 38 penetrates through the limiting end cover 40 to be in sliding connection with the strip-shaped adjusting plate 6, and the rectangular limiting sleeve penetrates through the limiting end cover 40.
When the strip-shaped adjusting plate 6 horizontally slides, the outer tube sleeve 33 can rotate on the inner tube sleeve 32, the sliding friction of the outer tube sleeve 33 can be reduced, the outer tube sleeve 33 slides in the first sliding groove 52, the rectangular positioning sleeve 31 is inserted into the rectangular through groove 37, the limiting cylinder piece 36 cannot rotate, two ends of the inner tube sleeve 32 respectively collide with the two groups of ball mechanisms, the two groups of ball mechanisms are fixed, the two groups of ball mechanisms are in sliding connection with two sides of the strip-shaped adjusting plate 6, and the sliding mechanism 12 can be prevented from sliding to start a limiting function.
Because the shapes of the first chute 52, the second chute 53, and the third chute 54 are not uniform, it is necessary to use a plurality of balls 38 to slide with the strip-shaped regulating plate 6 so that the slide mechanism 12 can slide on the strip-shaped regulating plate 6 in any direction.
The transmission mechanism 7 includes:
the rotary seat 41 is fixed on the bottom of the strip-shaped adjusting plate 6 and is arranged close to the driving device, a threaded rod 42 which is in the same length direction as the strip-shaped adjusting plate 6 is screwed on the rotary seat 41, two ends of the threaded rod 42 are both in shaft connection with the outer rectangular frame 3, and a first gear 43 is fixedly sleeved on the end part of the threaded rod 42 close to the driving device;
the connecting shaft 44 which is in the same length direction as the threaded rod 42 and is in shaft connection with the outer rectangular frame 3 is positioned between the threaded rod 42 and the outer rectangular frame 3, a second gear 45 meshed with the first gear 43 is fixedly sleeved on the connecting shaft 44, a worm gear 46 connected with the driving device is fixedly sleeved on the connecting shaft 44, and the worm gear 46 is positioned on one side, close to the driving device, of the second gear 45.
The driving device is started to drive the worm wheel 46 to rotate, the worm wheel 46 drives the connecting shaft 44 to rotate, the second gear 45 is driven to rotate, the second gear 45 drives the threaded rod 42 to rotate through the first gear 43, and the threaded rod 42 rotates to drive the rotary seat 41 and the strip-shaped adjusting plate 6 to horizontally move.
The driving device includes:
the double-shaft motor 47 is fixed on the outer rectangular frame 3 through a mounting frame 48;
two vertical worms 49 are fixedly connected with two output shafts of the double-shaft motor 47 respectively, the two worms 49 are both in shaft connection with the outer rectangular frame 3, and the two worms 49 are meshed with the worms 49 in the two groups of adjusting devices respectively.
The double-shaft motor 47 is started to drive the two worms 49 to rotate, thereby driving the two worm gears 46 to rotate.
The outside cover of drive arrangement is equipped with first shell 50, adjusting device's outside cover is equipped with second shell 51, and second shell 51 and first shell 50 are all with outer rectangular frame 3 fixed connection, and first linking arm 8, second linking arm 9 and third linking arm 10 wear out second shell 51 and articulated with interior rectangular frame 5, and first shell 50 and second shell 51 are used for dustproof.
Working principle: the wind direction detection indicator can detect the wind direction, and the control terminal controls the starting of the double-shaft motor 47 according to the information of the wind direction detection indicator, and the power generation glass 2 converts solar energy into electric energy, so that the solar energy can be used for driving devices in spring and autumn, and can also supply power for users in winter and summer.
In winter and summer, drive arrangement need not start, and interior rectangular frame 5 tightly contradicts on rectangular sealing strip 4, and curtain subassembly separates external space, is confined air bed between curtain subassembly and the wall, and the air bed can be isolated external heat's transmission, increases indoor and outdoor difference in temperature, reduces with human comfort, cooperates the variable frequency air conditioner to use, can effectually reduce the operating frequency and the operating duration of air conditioner, reduces the power consumption of air conditioner.
The double-shaft motor 47 is started to drive the worm 49 to rotate, so that the worm wheel 46 is driven to rotate, the worm wheel 46 drives the connecting shaft 44 to rotate, the second gear 45 is driven to rotate, the second gear 45 drives the threaded rod 42 to rotate through the first gear 43, and the threaded rod 42 rotates to drive the rotary seat 41 and the strip-shaped adjusting plate 6 to horizontally move.
When the strip-shaped adjusting plate 6 slides in the first section, the first connecting arm 8 slides into the first inclined portion 14 from the first positioning portion 13, the first connecting arm 8 slides away from the wall surface, when sliding into the first horizontal portion, the first connecting arm 8 remains stationary, the second connecting arm 9 slides into the fourth inclined portion 20 from the second positioning portion 19, the second connecting arm 9 slides away from the wall surface, when sliding into the third parallel portion 21, the second connecting arm 9 remains stationary, the third connecting arm 10 slides into the fifth inclined portion 23 from the third positioning portion 22, the third connecting arm 10 slides away from the wall surface, and when sliding into the fourth parallel portion 24, the third connecting arm 10 remains stationary, and since the first parallel portion 15, the third parallel portion 21 and the fourth parallel portion 24 are collinear, the inner rectangular frame 5 remains parallel after being separated from the outer rectangular frame 3.
When the strip-shaped adjusting plate 6 slides in the second section, the first connecting arm 8 slides into the second inclined part 16 from the first parallel part 15, the first connecting arm 8 slides away from the wall surface, the holding state is not moved when the first connecting arm 8 slides into the second parallel part 17, the second connecting arm 9 continues to slide in the third parallel part 21, the holding state of the second connecting arm 9 is not moved, the third connecting arm 10 slides into the sixth inclined part 25 from the fourth parallel part 24, the third connecting arm 10 slides close to the wall surface, the holding state is not moved after the third connecting arm 10 slides into the fifth parallel part 26, at this time, the inner rectangular frame 5 is in an inclined state, the distance between the inner rectangular frame 5 and the outer rectangular frame 3 on the side close to the first connecting arm 8 is increased, and the distance between the inner rectangular frame 5 and the outer rectangular frame 3 on the side close to the third connecting arm 10 is reduced.
When the strip-shaped adjusting plate 6 slides in the third section, the first connecting arm 8 slides from the second parallel portion 17 into the third inclined portion 18, the first connecting arm 8 slides close to the wall surface until the first connecting arm 8 slides to the end of the third inclined portion 18, the second connecting arm 9 still slides in the third parallel portion 21, the second connecting arm 9 remains stationary, the third connecting arm 10 slides from the fifth parallel portion 26 into the seventh inclined portion 27, the third connecting arm 10 slides away from the wall surface until the third connecting arm 10 slides to the end of the seventh inclined portion 27, at this time, the inclination direction of the inner rectangular frame 5 is opposite to the inclination direction of the inner rectangular frame 5 at the time of the second sliding, the distance between the inner rectangular frame 5 and the outer rectangular frame 3 on the side close to the first connecting arm 8 decreases, and the distance between the inner rectangular frame 5 and the outer rectangular frame 3 on the side close to the third connecting arm 10 increases.
The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (8)

1. The utility model provides an intelligent high-rise building energy-saving curtain wall device, is including fixing total mounting bracket (1) on the wall, its characterized in that still includes a plurality of groups and is the curtain subassembly of matrix-like fixing on total mounting bracket (1), and every group curtain subassembly all includes:
the outer rectangular frame (3) is parallel to the wall surface and is fixedly arranged on the total mounting frame (1), and a rectangular sealing strip (4) is fixedly clamped on one side, far away from the wall surface, of the outer rectangular frame (3);
the vertical inner rectangular frame (5) and the power generation glass (2), the power generation glass (2) is fixed on the inner rectangular frame (5), the inner rectangular frame (5) is positioned on one side, far away from the wall surface, of the outer rectangular frame (3), and the inner rectangular frame (5) can be abutted against the rectangular sealing strip (4);
the driving device and two groups of adjusting devices are fixedly arranged on one side, close to a wall surface, of the outer rectangular frame (3), the driving device is fixedly arranged on the vertical side edge of the outer rectangular frame (3), the two groups of adjusting devices are symmetrically and fixedly arranged on the two horizontal side edges of the outer rectangular frame (3) respectively, each group of adjusting devices comprises a horizontal strip-shaped adjusting plate (6), a transmission mechanism (7) fixedly arranged on the outer rectangular frame (3), a first connecting arm (8), a second connecting arm (9), a third connecting arm (10) and a horizontal stabilizing arm (11), the length direction of the strip-shaped adjusting plate (6) is consistent with the length direction of the horizontal side edge of the outer rectangular frame (3), the driving device drives the strip-shaped adjusting plate (6) to slide along the length direction of the horizontal side edge of the outer rectangular frame (3), the first connecting arm (8), the second connecting arm (9), the end part of the third connecting arm (10) are horizontally and rotatably connected with the inner rectangular frame (5) and are respectively arranged above the strip-shaped adjusting plate (6), the first connecting arm (8), the second connecting arm (9), the third connecting arm (10) and the other ends (12) are fixedly connected with the other ends (12) of the other connecting arm (12) in a sliding mode, and the other end (12) of the other connecting arm (12) is fixedly connected with the horizontal connecting arm (12) The second connecting arm (9) and the third connecting arm (10) are perpendicular to the outer rectangular frame (3), the second connecting arm (9) is positioned between the first connecting arm (8) and the second connecting arm (9), the third connecting arm (10) is close to the driving device, the second connecting arm (9) is in sliding connection with the outer rectangular frame (3) along the length direction of the second connecting arm (9), a first sliding groove (52), a second sliding groove (53) and a third sliding groove (54) are formed in the strip-shaped adjusting plate (6), the first connecting arm (8) is in sliding connection with the first sliding groove (52) through a sliding mechanism (12), the second connecting arm (9) is in sliding connection with the second sliding groove (53) through the sliding mechanism (12), the third connecting arm (10) is in sliding connection with the third sliding groove (54), and the strip-shaped adjusting plate (6) drives the stabilizing arm (11) to rotate around the middle sliding mechanism (12) after being close to the outer rectangular frame (3) to slide when sliding;
the slide mechanism (12) includes:
the connecting sleeve (28) is fixedly sleeved on the end part of the first connecting arm (8), and the upper end of the connecting sleeve (28) is rotationally connected with the end part of the stabilizing arm (11) through a vertical first connecting bolt (29);
the connecting frame (30) is fixedly connected with the lower end of the connecting sleeve (28);
the two groups of ball mechanisms are symmetrically distributed about the strip-shaped adjusting plate (6) and are respectively connected with the top end and the bottom end of the strip-shaped adjusting plate (6) in a sliding manner, and the top end of the ball mechanism positioned above is contacted with the lower end of the connecting piece;
the vertical rectangular positioning sleeve (31) is positioned in the first sliding groove (52), the lower end of the rectangular positioning sleeve (31) downwards passes through the ball mechanism positioned below, and the upper end of the rectangular positioning sleeve (31) upwards passes through the ball mechanism positioned above and is inserted into the connecting piece;
the inner pipe sleeve (32) is sleeved on the rectangular positioning sleeve (31) and positioned in the first sliding groove (52), and two ends of the inner pipe sleeve (32) are respectively abutted against the two groups of ball mechanisms;
the outer pipe sleeve (33) is rotatably sleeved on the inner pipe sleeve (32), and the outer pipe sleeve (33) is in sliding connection with the first sliding groove (52);
the vertical second connecting bolt (34) passes through the rectangular locating sleeve (31) upwards to be screwed and fixed with the connecting frame (30), a limiting gasket (35) is sleeved on the lower end of the second connecting bolt (34), and the top end of the limiting gasket (35) is abutted with the lower end of the rectangular locating sleeve (31) and the bottom end of the ball mechanism below.
2. The intelligent high-rise building energy-saving curtain wall device according to claim 1, wherein the first sliding groove (52) is formed by sequentially communicating a first positioning part (13), a first inclined part (14), a first parallel part (15), a second inclined part (16), a second parallel part (17) and a third inclined part (18), the first positioning part (13), the first parallel part (15) and the second parallel part (17) are all arranged in the same length direction with the strip-shaped adjusting plate (6), the end part of the first inclined part (14) close to the outer rectangular frame (3) is inclined away from the second connecting arm (9), the second inclined part (16) is inclined in the same direction with the first inclined part (14), and the end part of the third inclined part (18) far away from the outer rectangular frame (3) is inclined away from the second connecting arm (9).
3. The intelligent high-rise building energy-saving curtain wall device according to claim 2, wherein the second sliding groove (53) is formed by sequentially communicating a second positioning part (19), a fourth inclined part (20) and a third parallel part (21), the second positioning part (19) and the third parallel part (21) are both in the same length direction with the strip-shaped adjusting plate (6), the second positioning part (19) and the first positioning part (13) are arranged in a collinear manner, the third parallel part (21) and the first parallel part (15) are arranged in a collinear manner, and the inclination angle of the third inclined part (18) and the first inclined part (14) is the same.
4. An intelligent high-rise building energy-saving curtain wall device according to claim 3, wherein the third sliding groove (54) is formed by sequentially communicating a third positioning part (22), a fifth inclined part (23), a fourth inclined part (24), a sixth inclined part (25), a fifth parallel part (26) and a seventh inclined part (27), the third positioning part (22), the fourth parallel part (24) and the fifth parallel part (26) are all arranged in the same length direction as the strip-shaped adjusting plate (6), the third positioning part (22) and the first positioning part (13) are arranged in a collinear manner, the fifth parallel part (26) and the first parallel part (15) are arranged in a collinear manner, the inclined angle of the fifth inclined part (23) and the inclined angle of the first inclined part (14) are the same, the inclined direction of the sixth inclined part (25) and the inclined direction of the fifth inclined part (23) are opposite, and the inclined direction of the seventh inclined part (27) and the inclined direction of the fifth inclined part (23) are the same.
5. The intelligent high-rise building energy-saving curtain wall device according to claim 4, wherein the ball mechanism comprises:
a vertical column (36) with a vertical rectangular through groove (37) formed on the axis, and a rectangular positioning sleeve (31) passing through the rectangular through groove (37);
the rolling balls (38) are uniformly distributed along the circumferential direction of the cylindrical member (36), a plurality of accommodating grooves (39) are formed in one side, close to the strip-shaped adjusting plate (6), of the cylindrical member (36), and the plurality of rolling balls (38) are correspondingly positioned in the plurality of accommodating grooves (39) one by one;
the limiting end cover (40) is fixedly arranged on the end part, close to the strip-shaped adjusting plate (6), of the cylindrical piece (36), each ball (38) penetrates through the limiting end cover (40) to be in sliding connection with the strip-shaped adjusting plate (6), and the rectangular limiting sleeve penetrates through the limiting end cover (40).
6. An intelligent high-rise building energy-saving curtain wall device according to claim 1, characterized in that the transmission mechanism (7) comprises:
the rotary seat (41) is fixed at the bottom of the strip-shaped adjusting plate (6), is arranged close to the driving device, a threaded rod (42) which is in the same length direction as the strip-shaped adjusting plate (6) is connected to the rotary seat (41) in a rotary mode, two ends of the threaded rod (42) are both connected with the outer rectangular frame (3) in a shaft mode, and a first gear (43) is fixedly sleeved on the end portion, close to the driving device, of the threaded rod (42);
the connecting shaft (44) is positioned between the threaded rod (42) and the outer rectangular frame (3) in the same length direction and is in shaft connection with the threaded rod (42), a second gear (45) meshed with the first gear (43) is fixedly sleeved on the connecting shaft (44), a worm wheel (46) connected with the driving device is fixedly sleeved on the connecting shaft (44), and the worm wheel (46) is positioned on one side, close to the driving device, of the second gear (45).
7. The intelligent high-rise building energy-saving curtain wall device according to claim 6, wherein the driving device comprises:
the double-shaft motor (47) is fixed on the outer rectangular frame (3) through a mounting frame (48);
the two vertical worms (49) are fixedly connected with two output shafts of the double-shaft motor (47) respectively, the two worms (49) are both in shaft connection with the outer rectangular frame (3), and the two worms (49) are meshed with the worms (49) in the two groups of adjusting devices respectively.
8. The intelligent high-rise building energy-saving curtain wall device according to claim 1, wherein a first shell (50) is sleeved outside the driving device, a second shell (51) is sleeved outside the adjusting device, the second shell (51) and the first shell (50) are fixedly connected with the outer rectangular frame (3), and the first connecting arm (8), the second connecting arm (9) and the third connecting arm (10) penetrate out of the second shell (51) to be hinged with the inner rectangular frame (5).
CN202210842575.2A 2022-07-18 2022-07-18 Intelligent high-rise building energy-saving curtain wall device Active CN115126133B (en)

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CN115126133B true CN115126133B (en) 2023-11-21

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112922502A (en) * 2021-01-21 2021-06-08 武汉凌翔建筑装饰工程有限公司 Novel environment-friendly energy-saving glass curtain wall and mounting method thereof
CN113445885A (en) * 2021-07-31 2021-09-28 北京建磊国际装饰工程股份有限公司 Double-layer linkage opening and closing glass curtain wall capable of adjusting indoor temperature difference
CN114293692A (en) * 2022-01-11 2022-04-08 广西一成建筑有限公司 Hidden frame curtain wall unit and installation method thereof
CN114592622A (en) * 2022-03-26 2022-06-07 深圳市华宇泰幕墙工程有限公司 Energy-saving green building curtain wall and using method thereof

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112922502A (en) * 2021-01-21 2021-06-08 武汉凌翔建筑装饰工程有限公司 Novel environment-friendly energy-saving glass curtain wall and mounting method thereof
CN113445885A (en) * 2021-07-31 2021-09-28 北京建磊国际装饰工程股份有限公司 Double-layer linkage opening and closing glass curtain wall capable of adjusting indoor temperature difference
CN114293692A (en) * 2022-01-11 2022-04-08 广西一成建筑有限公司 Hidden frame curtain wall unit and installation method thereof
CN114592622A (en) * 2022-03-26 2022-06-07 深圳市华宇泰幕墙工程有限公司 Energy-saving green building curtain wall and using method thereof

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