CN117418634A - Passive aluminum-clad wood structure curtain wall - Google Patents

Passive aluminum-clad wood structure curtain wall Download PDF

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Publication number
CN117418634A
CN117418634A CN202311742818.6A CN202311742818A CN117418634A CN 117418634 A CN117418634 A CN 117418634A CN 202311742818 A CN202311742818 A CN 202311742818A CN 117418634 A CN117418634 A CN 117418634A
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CN
China
Prior art keywords
locking
linkage
plate
extrusion
aluminum
Prior art date
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Granted
Application number
CN202311742818.6A
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Chinese (zh)
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CN117418634B (en
Inventor
高东飞
刘德财
焦继伟
张芳
刘先威
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Tianjin Feiyu Curtain Wall Decoration Engineering Co ltd
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Tianjin Feiyu Curtain Wall Decoration Engineering Co ltd
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Priority to CN202311742818.6A priority Critical patent/CN117418634B/en
Publication of CN117418634A publication Critical patent/CN117418634A/en
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Publication of CN117418634B publication Critical patent/CN117418634B/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
    • 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
    • E04B1/66Sealings
    • E04B1/68Sealings of joints, e.g. expansion joints
    • E04B1/6801Fillings therefor
    • 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

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Load-Bearing And Curtain Walls (AREA)

Abstract

The invention discloses a passive aluminum-clad wood structure curtain wall, which belongs to the technical field of curtain walls and mainly comprises a wood plate, wherein a linkage locking frame plate is arranged on one side of the wood plate, and a uniform force locking mechanism is arranged in the linkage locking frame plate; the uniform force locking mechanism comprises a plurality of threaded sleeve joint linkage blocks which are sequentially and equidistantly arranged from top to bottom in the linkage locking frame plate. According to the invention, the uniform force locking mechanism is adopted to drive the linkage locking screw rod to rotate in the linkage locking frame plate, when the extruding force on the pressure sensor is the same as the set force on the external button, the wireless controller is used for closing the drive of the reduction locking motor, and synchronously locking the aluminum-clad wood structure curtain wall under the same pressure, so that the stress of each point of the aluminum-clad wood structure curtain wall is more uniform, the aluminum-clad wood structure curtain wall is prevented from tilting, the aluminum-clad wood structure curtain wall is not required to be disassembled and repaired in the later period, the waste of energy consumption and consumables is reduced, and the energy saving performance of a passive building is effectively improved.

Description

Passive aluminum-clad wood structure curtain wall
Technical Field
The invention relates to the technical field of curtain walls, in particular to a passive aluminum-clad wood structure curtain wall.
Background
At present, the passive buildings in the market are more and more, the low-energy-consumption buildings are deeply accepted, the technology of the passive door and window curtain wall matched with the low-energy-consumption buildings is not mature enough, the mainstream curtain wall in the market at present is still an aluminum alloy curtain wall, and the energy-saving heat preservation coefficient of the product can not meet the requirements of the passive buildings, so that the passive curtain wall is generated.
According to the technical scheme, the patent of Chinese patent publication No. CN205242769U discloses an aluminum-clad wood passive curtain wall, and aims at the defects that when the existing lighting exposed frame curtain wall in China is provided with an aluminum alloy curtain wall and a pure wood curtain wall, when a door and window curtain wall of a high-grade building tray adopts an aluminum wood or pure wood structure, the aluminum alloy curtain wall cannot meet the design requirement and the decoration effect, the material splicing process of the pure wood curtain wall cannot meet the attractive requirement, and the material of the pure wood curtain wall is easy to deform and not enough in strength; this curtain is through setting up the PVC connecting piece on aluminium alloy and wood section, links together the PVC connecting piece on PVC connecting piece and the aluminum product clamp plate on the wood section through the I-type PVC board, simultaneously with cavity glass centre gripping between PVC connecting piece and the aluminum product clamp plate on PVC connecting piece on the wood section, installation dismantlement convenient and fast. The curtain wall also has the following problems:
this aluminium packet of wooden structure curtain when carrying out construction installation, need personnel to assemble the back and realize vertical installation and horizontal locking through a plurality of bolts, the extrusion locking force that every bolt adopted all is the difference like this in the installation, be difficult to form synchronous with pressure installation locking, can cause aluminium packet of wooden structure curtain to appear that each point position atress is uneven and produce the slope later stage still need dismantle the repair, can cause aluminium packet of wooden structure curtain cost to improve by a wide margin, the energy consumption consumptive material is extravagant more, passive building energy-conserving nature is relatively poor, consequently, need a passive form aluminium packet of wooden structure curtain.
Disclosure of Invention
Therefore, the invention provides a passive aluminum-clad wood curtain wall, which aims to solve the technical problems in the prior art.
In order to achieve the above object, the present invention provides the following technical solutions: the passive aluminum-clad wood structure curtain wall comprises a wood plate, wherein a linkage locking frame plate is arranged on one side of the wood plate, and a uniform force locking mechanism is arranged in the linkage locking frame plate;
the uniform force locking mechanism comprises a plurality of threaded sleeve joint linkage blocks which are sequentially arranged from top to bottom in an equidistant manner in the linkage locking frame plate, the internal threads of the threaded sleeve joint linkage blocks are connected with a linkage locking screw rod, the bottom end of the linkage locking screw rod is coaxially and in transmission connection with a speed reduction locking motor, two sides of each threaded sleeve joint linkage block are respectively provided with a hinged concave plate which is vertically and slidably connected with the linkage locking frame plate, and the inside of each hinged concave plate is fixedly connected with a supporting column;
the outer wall of support column articulates there is a plurality of articulates and cup joints the support, the articulated inner wall that cup joints the support just is close to its bottom position department and installs the linkage axostylus axostyle, the welding of one end welding of linkage axostylus axostyle has the spill articulated push pedal, the inside of spill articulated push pedal just is close to its middle part position department and runs through and be fixed with pressure sensor, pressure sensor's an tip fixedly connected with extrusion extension board, a plurality of the screw thread cup joints sliding connection between linkage block and the linkage locking frame board, two the articulated concave plate cup joints linkage block symmetry setting about the screw thread, two the welding between the linkage block is cup jointed with the screw thread to the articulated concave plate, the articulated support that cup joints rotates between support and linkage axostylus axostyle and the support column respectively, a plurality of articulated support that cup joints all rotates with the spill articulated push pedal between be connected.
Preferably, one side of the extrusion support plate is fixedly adhered with a foaming rubber plate, the foaming rubber plate and the extrusion support plate are both in sliding connection with the wood plate, a storage battery is fixedly connected to the inside of the linkage locking frame plate and located in front of the speed reduction locking motor, and a wireless controller for driving the speed reduction locking motor is arranged in front of the storage battery.
According to the technical scheme, the linkage locking frame plate is located at the middle position of one side of the wood plate, the deceleration locking motor drives the linkage locking screw rod to rotate in the linkage locking frame plate, the linkage locking screw rod drives the plurality of thread sleeve joint linkage blocks to move downwards along the inside of the wood plate under the action of threads, the plurality of thread sleeve joint linkage blocks simultaneously move downwards along the inside of the linkage locking frame plate, the thread sleeve joint linkage blocks drive two hinge concave plates to move downwards, the hinge concave plates drive support columns to move downwards, the support columns drive hinge sleeve joint support tops to move downwards, the bottoms of the hinge sleeve joint support columns drive the linkage shaft rod to move horizontally and extrude, the linkage shaft rod drives the concave hinge push plates to extrude a pressure sensor, the pressure sensor drives the extrusion support plates to extrude the foam rubber plates to extrude and lock on the right sides of the aluminum alloy tooth buckle plates.
Preferably, the rear of each threaded sleeve joint linkage block is fixedly connected with a vertical locking block, and one side of each vertical locking block is provided with a linkage locking assembly;
the linkage locking assembly comprises an extrusion embedded block arranged on one side of the vertical locking block, a plurality of vertical locking grooves are sequentially embedded from top to bottom in the wood plate, a butt joint groove which is communicated with one side of the vertical locking grooves is formed, a guide limiting block and a vertical pressure sensor are sequentially fixedly connected with the bottom end of the inner wall of the vertical locking groove from left to right, an extrusion positioning block is fixedly connected with the bottom end of the extrusion embedded block, the vertical locking block is vertically inserted between the wood plate which belongs to the vertical locking groove, and the extrusion positioning block is vertically inserted between the wood plate which belongs to the butt joint groove.
According to the technical scheme, the threaded sleeve joint linkage block drives the vertical locking block to move downwards, the vertical locking block drives the extrusion embedding block to move downwards, the extrusion embedding block drives the extrusion positioning block to move downwards along the internal guide of the butt joint groove, the extrusion positioning block can be inserted into the limiting groove of the butt joint groove, the vertical locking block drives the vertical pressure sensor to carry out extrusion limiting, the extrusion of the bottom end of the vertical locking block realizes pressure sensing on the vertical pressure sensor, and when the pressure of the vertical locking block in the wood board is the same as the pressure value set on the wireless controller, the speed reduction locking motor driving is stopped.
Preferably, a proofreading locking assembly is connected to the front of the linkage locking frame plate;
the utility model provides a locking subassembly is proofreaded, locking subassembly includes that fixed connection locks the aluminium knot package board in linkage the front of the frame board the top of aluminium knot package board runs through the direction extrusion groove of having seted up two symmetries settings, the internally connected of direction extrusion groove has direction extrusion sleeve board, one side fixedly connected with direction extrusion sleeve board extrusion tooth buckle plate two toughened glass are consolidated the frame board to one side of extrusion tooth buckle install two toughened glass between the frame board is consolidated to toughened glass, and meshing grafting in one of them toughened glass has aluminium alloy tooth buckle plate, two fixed connection between aluminium alloy tooth buckle plate and the timber board, the outer wall of direction extrusion sleeve board just is located adjacent one side of extrusion tooth buckle and installs correction pressure sensor, correction pressure sensor's below is equipped with a plurality of guide sliding columns with direction extrusion sleeve board sliding connection, correction pressure sensor respectively with aluminium knot package board and direction extrusion sleeve board between fixedly connected with the aluminium inclusion board, sliding connection between direction extrusion sleeve board and the aluminium inclusion board that the direction groove belonged, a plurality of direction extrusion sleeve boards have aluminium alloy tooth buckle plate, two aluminium alloy tooth buckle plate in proper order, a plurality of guide sliding columns are arranged from the top down.
According to the technical scheme, the foaming rubber plate extrudes two toughened glass reinforced frame plates, the toughened glass reinforced frame plates drive toughened curtain wall glass to horizontally move, the toughened glass reinforced frame plates at the rear can be meshed with the aluminum alloy tooth buckle plates to be extruded and locked, meanwhile, the toughened glass reinforced frame plates at the front are meshed with the extrusion tooth buckle plates to be locked, the extrusion tooth buckle plates drive the guide extrusion sleeve plates to slide in the guide extrusion grooves, the guide extrusion sleeve plates slide along the outer walls of the guide extrusion grooves, the correction pressure sensor can sense dislocation extrusion force of the toughened glass reinforced frame plates, and when the dislocation locking force of the toughened glass reinforced frame plates is identical to the set numerical value of the wireless controller, the speed reduction locking motor is closed through the wireless controller.
The invention has the following advantages:
1. according to the invention, the uniform force locking mechanism is adopted to drive the linkage locking screw rod to rotate in the linkage locking frame plate, the plurality of screw socket joint linkage blocks simultaneously move downwards along the interior of the linkage locking frame plate, the hinge concave plate drives the support column to move downwards, the support column drives the top of the hinge socket joint support to move downwards, when the extrusion force on the pressure sensor is the same as the set force on the external button, the wireless controller is used for closing the drive of the reduction locking motor, so that the transverse multi-point uniform force locking can be carried out in the curtain wall structure according to the designated pressure, the synchronous same-pressure installation locking is formed, the stress of each point of the aluminum-clad wood structure curtain wall is more uniform, the aluminum-clad wood structure curtain wall is prevented from tilting, the later stage of the aluminum-clad wood structure curtain wall does not need to be disassembled and repaired, the waste of energy consumption and consumables is reduced, and the energy conservation of a passive building is effectively improved.
2. According to the invention, when the linkage locking assembly is used for enabling the linkage locking screw to drive the plurality of screw thread sleeve joint linkage blocks to move downwards, the screw thread sleeve joint linkage blocks drive the vertical locking blocks to move downwards, the vertical locking blocks drive the extrusion embedded blocks to move downwards, the extrusion positioning blocks are guided downwards along the inside of the butt joint grooves, the vertical locking blocks are guided downwards along the inside of the vertical locking grooves, the guide limiting block can play a limiting locking role on the vertical locking blocks, the bottom ends of the vertical locking blocks are extruded on the vertical pressure sensor to realize pressure sensing, and the driving of the speed-reducing locking motor is stopped until the pressure of the vertical locking blocks extruded downwards in the wood plate is identical with the pressure value set on the wireless controller, so that the synchronous uniform force locking of the vertical direction between the linkage locking frame plate and the wood plate is ensured, the vertical stress of the curtain wall with the aluminum-clad wood structure is more uniform, and the inclination is prevented from generating gaps, thereby the later repairing is avoided, and the energy saving performance of the passive building is improved.
3. According to the invention, the correction assembly is adopted to enable the foaming rubber plates to extrude the two toughened glass reinforced frame plates, the toughened glass reinforced frame plates drive the toughened curtain wall glass to horizontally move, the toughened glass reinforced frame plates at the rear can be meshed with the aluminum alloy toothed buckle plates to be extruded and locked, the toughened glass reinforced frame plates at the front can be meshed and locked with the extruded toothed buckle plates, the guide extrusion sleeve plates slide in the guide extrusion grooves, meanwhile, the guide extrusion sleeve plates slide along the outer walls of the guide sliding columns, the correction pressure sensor can sense the dislocation extrusion force of the toughened glass reinforced frame plates until the dislocation sensing pressure is the same as the value set by the wireless controller, the dislocation locking force of the toughened glass reinforced frame plates is ensured to be locked uniformly within the specified locking force range, and the aluminum clad wooden curtain wall is not easy to generate inclined gaps, so that later maintenance is avoided.
Through the mutual influence of the effects, firstly, horizontal multi-point-position uniform force locking is carried out in the curtain wall structure according to specified pressure, vertical synchronous uniform force locking is carried out between the linkage locking frame plate and the wood plate by recycling, finally, the staggered extrusion force of the toughened glass reinforcing frame plate can be sensed by utilizing the correction pressure sensor until the staggered extrusion force is the same as the set numerical value of the wireless controller, when the aluminum-clad wood structure curtain wall is installed, all vertical point positions and horizontal stress of the aluminum-clad wood structure curtain wall are installed, the staggered locking force is uniform locking, the later stage of the aluminum-clad wood structure curtain wall is not required to be disassembled and repaired, the cost of the aluminum-clad wood structure curtain wall is greatly reduced, the waste of energy consumption and consumable materials is reduced, and the energy conservation of a passive building is effectively improved.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.
The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the invention, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present invention, should fall within the ambit of the technical disclosure.
FIG. 1 is a schematic diagram of a front view of a passive aluminum-clad wood curtain wall according to the present invention;
FIG. 2 is a schematic view of a vertical section of a passive aluminum-clad wood curtain wall according to a first embodiment of the present invention;
FIG. 3 is a schematic view of a vertical section cut-off partial structure of a joint of a threaded sleeve joint linkage block and a linkage locking frame plate;
FIG. 4 is a schematic top view of a portion of a support column of the present invention for use in a hinged recess plate connection;
FIG. 5 is a schematic view of a cut-off partial structure of the connection between a battery and a wireless controller according to the present invention;
FIG. 6 is a schematic view of a vertical section of a passive aluminum-clad wood curtain wall according to a second embodiment of the present invention;
FIG. 7 is an enlarged schematic view of the structure of FIG. 6B according to the present invention;
FIG. 8 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;
FIG. 9 is a schematic view of a vertical cross-section of an aluminum buckle inclusion plate according to the present invention;
in the figure: 1. a wood panel; 2. a linkage locking frame plate; 3. a linkage locking screw rod; 4. the screw is sleeved with a linkage block; 5. a motor is locked in a speed reducing way; 6. a hinged concave plate; 7. a support column; 8. a support is hinged and sleeved; 9. a linkage shaft lever; 10. a concave hinged push plate; 11. a pressure sensor; 12. extruding the support plate; 13. foaming glue board; 14. a storage battery; 15. a wireless controller; 16. a vertical locking block; 17. a vertical locking groove; 18. a butt joint groove; 19. a guide limiting block; 20. a vertical pressure sensor; 21. extruding the embedded block; 22. extruding the positioning block; 23. aluminum alloy tooth buckle plate; 24. tempering curtain wall glass; 25. tempered glass reinforced frame plates; 26. extruding the toothed buckle plate; 27. an aluminum buckle cladding plate; 28. a guide extrusion groove; 29. guiding and extruding the sleeve plate; 30. calibrating the pressure sensor; 31. and guiding the sliding column.
Detailed Description
Other advantages and advantages of the present invention will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
The passive aluminum-clad wood curtain wall is provided with the uniform force locking mechanism, the linkage locking assembly and the proofreading assembly, when the aluminum-clad wood curtain wall is installed, all the vertical point positions and the transverse stress of the aluminum-clad wood curtain wall are more uniform, the staggered locking force forms uniform locking, the aluminum-clad wood curtain wall is prevented from tilting, the later stage of the aluminum-clad wood curtain wall is not required to be disassembled and repaired, the cost of the aluminum-clad wood curtain wall is greatly reduced, the waste of energy consumption and consumables is reduced, the energy conservation of the passive building is effectively improved, and the specific structures of all the mechanisms and the assemblies are as follows.
In some embodiments, as shown in fig. 1-4, the uniform force locking mechanism comprises a plurality of screw socket linkage blocks 4 which are arranged in the linkage locking frame plate 2 from top to bottom at equal intervals, the internal screw threads of the screw socket linkage blocks 4 are connected with a linkage locking screw rod 3, the bottom end of the linkage locking screw rod 3 is coaxially and in transmission connection with a speed reduction locking motor 5, two sides of each screw socket linkage block 4 are respectively provided with a hinge concave plate 6 which is vertically and slidably connected with the linkage locking frame plate 2, and the inside of each hinge concave plate 6 is fixedly connected with a supporting column 7.
The outer wall of the support column 7 is hinged with a plurality of hinged sleeve joint brackets 8, a linkage shaft lever 9 is installed on the inner wall of each hinged sleeve joint bracket 8 and near the bottom end position of each hinged sleeve joint bracket, a concave hinged push plate 10 is welded at one end part of each linkage shaft lever 9, a pressure sensor 11 is fixedly penetrated in the concave hinged push plate 10 and near the middle position of each concave hinged push plate, and an extrusion support plate 12 is fixedly connected to one end part of each pressure sensor 11.
In some embodiments, as shown in fig. 3-5, a foam rubber plate 13 is fixedly adhered to one side of the extrusion support plate 12, the foam rubber plate 13 and the extrusion support plate 12 are both in sliding connection with the wood plate 1, so that the extrusion support plate 12 drives the foam rubber plate 13 to extrude on the right side of an aluminum alloy tooth buckle plate 23, the foam rubber plate 13 can extrude and seal toughened curtain wall glass 24 and a toughened glass reinforced frame plate 25, a storage battery 14 is fixedly connected to the inside of the linkage locking frame plate 2 and is positioned in front of the deceleration locking motor 5, a wireless controller 15 for driving the deceleration locking motor 5 is arranged in front of the storage battery 14, so that the deceleration locking motor 5 is started remotely through an external button, and after the storage battery 14 provides an electric power function for the wireless controller 15, the deceleration locking motor 5 drives the linkage locking screw 3 to rotate inside the linkage locking frame plate 2, and remote driving of the deceleration locking motor 5 can be realized.
In some embodiments, as shown in fig. 6-7, a vertical locking block 16 is fixedly connected to the rear of each threaded sleeve joint linkage block 4, and a linkage locking assembly is installed on one side of the vertical locking block 16;
the linkage locking assembly comprises an extrusion embedded block 21 arranged on one side of a vertical locking block 16, a plurality of vertical locking grooves 17 are sequentially embedded in the wood board 1 from top to bottom, a butt joint groove 18 which is communicated with one side of each vertical locking groove 17 is formed, a guide limiting block 19 and a vertical pressure sensor 20 are sequentially and fixedly connected with the bottom end of the inner wall of each vertical locking groove 17 from left to right, an extrusion positioning block 22 is fixedly connected with the bottom end of the extrusion embedded block 21, the vertical locking block 16 and the wood board 1 which the vertical locking groove 17 belongs to are vertically inserted, and the extrusion positioning block 22 and the wood board 1 which the butt joint groove 18 belongs to are vertically inserted.
In some embodiments, as shown in fig. 3-9, a collation lock assembly is attached to the front of the ganged lock frame plate 2.
The correction locking assembly comprises an aluminum buckle inclusion plate 27 fixedly connected to the front of a linkage locking frame plate 2, two symmetrically arranged guide extrusion grooves 28 are formed in the top end of the aluminum buckle inclusion plate 27 in a penetrating mode, guide extrusion sleeve plates 29 are connected to the inner side of the guide extrusion grooves 28, one side of each guide extrusion sleeve plate 29 is fixedly connected with each extrusion tooth buckle plate 26, two toughened glass reinforcement frame plates 25 are mounted on one side of each extrusion tooth buckle plate 26, toughened curtain wall glass 24 is fixedly connected between the two toughened glass reinforcement frame plates 25, aluminum alloy tooth buckle plates 23 are connected to one side of one toughened glass reinforcement frame plate 25 in an engaged mode, two aluminum alloy tooth buckle plates 23 are fixedly connected with a wood plate 1, correction pressure sensors 30 are mounted on the outer wall of each guide extrusion sleeve plate 29 and on the adjacent side of each extrusion tooth buckle plate 26, a plurality of guide sliding columns 31 which are connected with the guide extrusion sleeve plates 29 in a sliding mode are arranged below the corresponding guide extrusion pressure sensors 30, the guide extrusion sleeve plates 29 are fixedly connected with the corresponding aluminum buckle inclusion plates 27 and the corresponding guide extrusion sleeve plates 29, the guide sliding columns 31 are connected between the guide extrusion sleeve plates 29 and the aluminum buckle plates 27 which belong to the guide extrusion sleeve plates 28 in a meshed mode, and the guide sliding columns 31 are arranged at equal intervals from top to bottom in a welding mode.
The invention relates to a passive aluminum-clad wood structure curtain wall, which is used and installed according to the following principle:
firstly, when the invention is used for locking transversely uniform force, when the linkage locking frame plate 2 is positioned at the middle part of one side of the wood plate 1, the aluminum alloy toothed buckle plate 23 is meshed with the rear tempered glass reinforced frame plate 25 outside the tempered curtain wall glass 24, meanwhile, the tempered glass reinforced frame plate 25 in front of the tempered curtain wall glass 24 is meshed with the extrusion toothed buckle plate 26, after each position is positioned, the speed reducing locking motor 5 is remotely started through an external button, and the storage battery 14 provides the power function for the wireless controller 15, the speed reducing locking motor 5 drives the linkage locking screw rod 3 to rotate in the linkage locking frame plate 2, the linkage locking screw rod 3 drives a plurality of thread sleeve joint linkage blocks 4 to move downwards along the wood plate 1 under the action of threads, a plurality of thread sleeve joint linkage blocks 4 simultaneously move downwards along the inside of the linkage locking frame plate 2, the screw is sleeved with the linkage block 4 to drive the two hinged concave plates 6 to move downwards, the hinged concave plates 6 drive the supporting columns 7 to move downwards, the supporting columns 7 drive the tops of the hinged sleeved supports 8 to move downwards, the bottoms of the hinged sleeved supports 8 drive the linkage shaft rods 9 to move horizontally to extrude, the linkage shaft rods 9 drive the concave hinged push plates 10 to extrude the pressure sensors 11, the pressure sensors 11 drive the extruding support plates 12 to extrude, the extruding support plates 12 drive the foaming rubber plates 13 to extrude on the right sides of the aluminum alloy toothed plates 23, the reinforced curtain wall glass 24 between the two reinforced glass frame plates 25 is transversely expanded and extruded, and when the extruding force on the pressure sensors 11 is identical to the set force on the external buttons, the speed reduction locking motor 5 is turned off through the wireless controller 15 to drive.
Secondly, when the vertical uniform force locking is carried out, the linkage locking screw 3 drives the plurality of threaded sleeve joint linkage blocks 4 to move downwards, the threaded sleeve joint linkage blocks 4 drive the vertical locking blocks 16 to move downwards, the vertical locking blocks 16 drive the extrusion embedded blocks 21 to move downwards, the extrusion embedded blocks 21 drive the extrusion positioning blocks 22 to move downwards along the internal guide of the butt joint grooves 18, the extrusion positioning blocks 22 can be inserted into the limit grooves of the butt joint grooves 18, the vertical locking blocks 16 move downwards along the internal guide of the vertical locking grooves 17, the vertical locking blocks 16 drive the vertical pressure sensors 20 to carry out extrusion limit, the guide limiting blocks 19 can play a limiting locking role on the vertical locking blocks 16, the bottom ends of the vertical locking blocks 16 are extruded on the vertical pressure sensors 20 to realize pressure sensing, and when the pressure of the vertical locking blocks 16 extruded downwards in the wood board 1 is identical with the pressure value set on the wireless controller 15, the driving of the speed reducing locking motor 5 is stopped.
Finally, when the invention performs dislocation uniform force locking, the extrusion support plate 12 drives the foam rubber plate 13 to extrude, the foam rubber plate 13 extrudes two toughened glass reinforced frame plates 25, the toughened glass reinforced frame plates 25 drive the toughened curtain wall glass 24 to horizontally move, the toughened glass reinforced frame plates 25 at the rear can be engaged with the aluminum alloy toothed buckle plates 23 to be extrusion locked, meanwhile, the toughened glass reinforced frame plates 25 at the front are engaged with the extrusion toothed buckle plates 26 to be locked, the extrusion toothed buckle plates 26 drive the guide extrusion sleeve plates 29 to slide in the guide extrusion grooves 28, meanwhile, the guide extrusion sleeve plates 29 slide along the outer walls of the guide sliding columns 31, and the guide extrusion sleeve plates 29 drive the correction pressure sensors 30 to extrude, the correction pressure sensors 30 can sense the dislocation extrusion force of the toughened glass reinforced frame plates 25, when the dislocation locking force of the toughened glass reinforced frame plates 25 is the same as the numerical value set by the wireless controller 15, the uniform sensing of the dislocation locking force on the toughened glass reinforced frame plates 25 can be accurately realized by closing the speed reduction locking motor 5 by the wireless controller 15, and the dislocation locking force of the toughened glass reinforced frame plates 25 can be ensured to be kept within the specified locking force range.
The details not described in detail in the specification belong to the prior art known to those skilled in the art, and model parameters of each electric appliance are not specifically limited and can be determined by using conventional equipment.
While the invention has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the invention and are intended to be within the scope of the invention as claimed.

Claims (10)

1. The utility model provides a passive aluminum-clad wood structure curtain, includes timber board (1), linkage locking framed panel (2), its characterized in that are installed to one side of timber board (1): a uniform force locking mechanism is arranged in the linkage locking frame plate (2);
the uniform force locking mechanism comprises a plurality of threaded sleeve joint linkage blocks (4) which are sequentially arranged at equal intervals from top to bottom in the linkage locking frame plate (2), wherein the internal threads of the threaded sleeve joint linkage blocks (4) are connected with a linkage locking screw rod (3), the bottom end of the linkage locking screw rod (3) is coaxially connected with a speed reduction locking motor (5), two sides of each threaded sleeve joint linkage block (4) are respectively provided with a hinged concave plate (6) which is vertically and slidably connected with the linkage locking frame plate (2), and a support column (7) is fixedly connected in the hinged concave plate (6);
the outer wall of support column (7) articulates has a plurality of articulated support (8) that cup joints, articulated inner wall that cup joints support (8) just is close to its bottom position department and installs linkage axostylus axostyle (9), the welding of one end of linkage axostylus axostyle (9) has spill articulated push pedal (10), the inside of spill articulated push pedal (10) just is close to its middle part position department and runs through and be fixed with pressure sensor (11), one end fixedly connected with extrusion extension board (12) of pressure sensor (11).
2. The passive aluminum-clad wood structure curtain wall of claim 1, wherein: the screw-sleeved linkage blocks (4) are connected with the linkage locking frame plate (2) in a sliding mode, the two hinge concave plates (6) are symmetrically arranged about the screw-sleeved linkage blocks (4), and the two hinge concave plates (6) are welded with the screw-sleeved linkage blocks (4).
3. The passive aluminum-clad wood structure curtain wall of claim 1, wherein: the hinged sleeve joint supports (8) are respectively connected with the linkage shaft rod (9) and the support column (7) in a rotating mode, and the hinged sleeve joint supports (8) are all connected with the concave hinged pushing plate (10) in a rotating mode.
4. The passive aluminum-clad wood structure curtain wall of claim 1, wherein: one side of the extrusion support plate (12) is fixedly adhered with a foam rubber plate (13), and the foam rubber plate (13) and the extrusion support plate (12) are both in sliding connection with the wood plate (1).
5. The passive aluminum-clad wood structure curtain wall of claim 1, wherein: the inside of linkage locking framed board (2) and be located gear locking motor (5) the place ahead fixedly connected with battery (14) in the place ahead of battery (14) is installed wireless controller (15) that are used for driving gear locking motor (5).
6. The passive aluminum-clad wood structure curtain wall of claim 1, wherein: the rear of each threaded sleeve joint linkage block (4) is fixedly connected with a vertical locking block (16), and a linkage locking assembly is arranged on one side of each vertical locking block (16);
the linkage locking assembly comprises an extrusion embedded block (21) arranged on one side of a vertical locking block (16), a plurality of vertical locking grooves (17) are sequentially embedded from top to bottom in the wood board (1), a butt joint groove (18) which is communicated with one side of each vertical locking groove (17) is formed, a guide limiting block (19) and a vertical pressure sensor (20) are sequentially and fixedly connected to the bottom end of the inner wall of each vertical locking groove (17) from left to right, and an extrusion positioning block (22) is fixedly connected to the bottom end of the extrusion embedded block (21).
7. The passive aluminum-clad wood structure curtain wall of claim 6, wherein: the vertical locking blocks (16) are vertically inserted into the wood plates (1) to which the vertical locking grooves (17) belong, and the extrusion positioning blocks (22) are vertically inserted into the wood plates (1) to which the butt joint grooves (18) belong.
8. The passive aluminum-clad wood structure curtain wall of claim 1, wherein: a checking locking assembly is connected to the front of the linkage locking frame plate (2);
the correction locking assembly comprises an aluminum buckle inclusion plate (27) fixedly connected to the front of a linkage locking frame plate (2), two symmetrically arranged guide extrusion grooves (28) are formed in the top end of the aluminum buckle inclusion plate (27) in a penetrating mode, guide extrusion sleeve plates (29) are connected to the inner portions of the guide extrusion grooves (28), extrusion tooth buckle plates (26) are fixedly connected to one sides of the guide extrusion sleeve plates (29), two toughened glass reinforcement frame plates (25) are mounted on one sides of the extrusion tooth buckle plates (26), toughened curtain wall glass (24) are fixedly connected between the toughened glass reinforcement frame plates (25), aluminum alloy tooth buckle plates (23) are connected to one side of one toughened glass reinforcement frame plate (25) in a meshed mode in an inserted mode, two aluminum alloy tooth buckle plates (23) are fixedly connected with a wood plate (1), correction pressure sensors (30) are mounted on the outer walls of the guide extrusion sleeve plates (29) and on the adjacent sides of the extrusion tooth buckle plates (26), and a plurality of guide posts (31) are connected with the guide extrusion sleeve plates (29) in a sliding mode.
9. The passive aluminum-clad wood structure curtain wall of claim 8, wherein: the calibration pressure sensor (30) is fixedly connected with the aluminum buckle inclusion plate (27) and the guide extrusion sleeve plate (29) respectively, and the guide extrusion sleeve plate (29) is in sliding connection with the aluminum buckle inclusion plate (27) to which the guide extrusion groove (28) belongs.
10. The passive aluminum-clad wood structure curtain wall of claim 8, wherein: the guide sliding columns (31) are sequentially arranged from top to bottom at equal intervals, and the guide sliding columns (31) are welded with the aluminum buckle inclusion plates (27).
CN202311742818.6A 2023-12-18 2023-12-18 Passive aluminum-clad wood structure curtain wall Active CN117418634B (en)

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