CN117536364A

CN117536364A - Energy-saving ventilation building curtain wall structure and use method thereof

Info

Publication number: CN117536364A
Application number: CN202311471592.0A
Authority: CN
Inventors: 吴昊; 张宇威; 陈宁; 谢理融; 孟燕强; 曹加青
Original assignee: Age Accessorize Co ltd
Current assignee: Age Accessorize Co ltd
Priority date: 2023-11-07
Filing date: 2023-11-07
Publication date: 2024-02-09
Anticipated expiration: 2043-11-07
Also published as: CN117536364B

Abstract

The invention discloses an energy-saving and ventilating building curtain wall structure and a use method thereof, and belongs to the technical field of building curtain walls. According to the invention, after the through hole at the top of the rotary three-way pipe rotates to be communicated with the side sweeping pipe, air can be led between the two side glass curtain walls, the air is led to the inner side of the curtain wall frame through the guide frame and the rotary three-way pipe at the top, the temperature exchange efficiency between the glass curtain walls is improved through the flow of the air between the two side glass curtain walls, glass atomization caused by air stay is avoided, the air exchange efficiency is improved, meanwhile, mist is rapidly emitted, and the ventilation flow effect and maintainability in the inner side space cavities of the double-layer glass curtain walls and the curtain wall frame are improved.

Description

Energy-saving ventilation building curtain wall structure and use method thereof

Technical Field

The invention belongs to the technical field of building curtain walls, and particularly relates to an energy-saving and ventilating building curtain wall structure and a using method thereof.

Background

Building curtain walls refer to external wall enclosures in buildings which do not bear weight, and are usually formed by combining various panels (such as glass, metal plates, stone plates, ceramic plates and the like) and back supporting structures (such as aluminum beam columns, steel structures, glass ribs and the like). The panels and support structure together form a complete curtain wall system providing the desired exterior protection and decorative effect for the building.

The Chinese patent publication number is: the invention patent of CN106594948B discloses a curtain wall ventilator, which relates to the field of curtain wall ventilators and mainly comprises an outer frame fixed on a wall body, a movable sealing piece and a driving mechanism; the outer frame comprises an outer sealing port and an inner operating port, and the sealing port is communicated with the operating port through an inner frame cavity; the movable sealing piece is sleeved in the frame cavity, a plurality of strip-shaped inclined grooves are arranged on two sides of the movable sealing piece, opposite inclination directions of the strip-shaped inclined grooves on two sides are kept, and the inclination directions of the strip-shaped inclined grooves on the same side are consistent; the actuating mechanism is including setting up the gear and the sliding fit sliding strip in the operation mouth both sides between the operation mouth, be equipped with in the strip slider inboard with gear engagement's rack, still be equipped with in the strip slider inboard and extend to the strip in the chute and stir the round pin, above-mentioned scheme can realize opening of ventilation chamber, do not destroy the cavity integrality, but when in actual use, when the curtain is ventilated, because inside air's temperature is different, lead to the adhesion of hydrone on curtain glass surface easily, in double-deck glass curtain, the outside observation is influenced after accumulating to steam in the clearance, there is the space of improvement.

Disclosure of Invention

The invention aims at: in order to solve the problem that water molecules are easily adhered to the surface of curtain wall glass due to different temperatures of internal air, and water vapor in a gap in a double-layer glass curtain wall influences outward observation after accumulation, the energy-saving and ventilation building curtain wall structure and a use method thereof are provided.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides an energy-conserving ventilation's building curtain structure, includes the curtain frame, curtain frame both sides all are connected with the ventilation underframe, curtain frame inner chamber both sides all sliding connection has glass curtain, ventilation side slot has all been seted up at the both ends of curtain frame inner wall both sides, and is equipped with the intercommunication cavity between the ventilation side slot of both sides, glass curtain sliding connection is in ventilation side slot one side for the glass curtain moves the back and exposes ventilation side slot and circulate ventilation;

and ventilation underframe downside inner chamber is connected with the guide frame, and the guide frame inboard is connected with the circulation subassembly, and the circulation subassembly includes a plurality of circulating pipes, ventilation underframe both sides all are connected with and seal the curb plate, and circulating pipe one end extends to the curtain frame outside and seal in the curb plate, circulating pipe one side is connected with the bellows, and the bellows opposite side is connected with the pillar, and the pillar inlays and locate the guide frame inboard, and the pillar top is connected with the side-blown-off tube, the circulation subassembly includes rotatory three-way pipe, and rotatory three-way pipe rotatable arrangement is in the guide frame for be linked together through rotatory three-way pipe and the side-blown-off tube that the guide frame top was preset, the purge intensity of air in glass curtain wall is adjusted.

As a further description of the above technical solution:

the circulating pipe comprises a plurality of circulating pipes, wherein a movable plate is connected between the outer side walls of the circulating pipes, connecting blocks are connected to the two sides of the movable plate, through holes are formed in one side of each connecting block, a sliding rod is connected in each through hole in a sliding mode, one end of each sliding rod is connected to one side of each closed side plate, the other end of each sliding rod penetrates through one side of each guide frame and is connected with a handle, and ventilation holes are formed in the tail ends of the circulating pipes and used for driving the circulating pipes to adjust the ventilation holes to open and close on one side of each closed side plate through pulling the handles.

As a further description of the above technical solution:

the utility model discloses a curtain wall frame, including rotatory three-way pipe, rotatory three-way pipe outside is connected with the steering assembly, steering assembly includes the drive rack, and drive rack one side is connected with the telescopic link, and the telescopic link is connected in curtain frame inner chamber one side and is connected, and drive rack one side meshing has driven gear, and driven gear connects in rotatory three-way pipe outside, and drive rack one side meshing has drive gear, and drive gear one side is connected with the transfer line, and the transfer line wears to locate opposite side closed side board and is connected with rotatory piece.

As a further description of the above technical solution:

the rotary three-way pipe is characterized in that one side of the rotary three-way pipe is connected with an air inlet cover, the cross section of the air inlet cover is conical, the ventilation underframe at two sides is respectively connected with a circulating pipeline, and the circulating pipelines at two sides are connected with an external circulating fan to form air circulation.

As a further description of the above technical solution:

the curtain wall frame inner chamber downside is equipped with guide assembly, guide assembly includes the guide cover, and the guide cover is connected in the curtain wall frame inboard, and the guide cover is located the air-out groove one side that curtain wall frame inner chamber both sides were seted up, the air-out groove has all been seted up to the guide cover both sides for guide air inlet in the air-out groove flows to the air-out groove both sides.

As a further description of the above technical solution:

guide cover inner chamber top is connected with the guide board, guide board cross section shape is the arc, and the induced air groove has been seted up to the guide board bottom side, the air-out groove inner chamber rotates and is connected with the side backup pad, and two side backup pads are the contained angle setting, and articulates between two side backup pad opposite faces has the connecting rod, and has drive screw through bolt threaded connection in the connecting rod, and drive screw passes through pivot bearing rotation connection at guide board inner chamber bottom side.

As a further description of the above technical solution:

the sliding grooves are formed in two ends of one side of the top of the curtain wall frame, the sliding blocks are connected in the sliding grooves in a sliding mode, the sliding blocks are connected to the bottom side of the glass curtain wall at corresponding positions, the side sweeping pipes are connected to the other sides of the sliding blocks, penetrate through the other sides of the inner cavities of the sliding grooves and extend to the outer sides of the curtain wall frame, and the sliding blocks are used for pulling and controlling the corresponding positions of the glass curtain wall.

As a further description of the above technical solution:

the glass curtain wall comprises a curtain wall frame, wherein a transmission assembly used for controlling the glass curtain wall to move in opposite directions is arranged between the glass curtain walls on two sides, the transmission assembly comprises a first rack and a second rack which are arranged on two sides of the curtain wall frame in opposite directions, a transmission toothed roller is meshed between the first rack and the second rack, the top of the transmission toothed roller is rotationally connected with a supporting block, and the supporting block is connected to one side of the curtain wall frame.

As a further description of the above technical solution:

the application method of the energy-saving ventilation building curtain wall structure specifically comprises the following steps: the glass curtain wall slides in the curtain wall frame by pulling, and can move to one side of the ventilation side groove when moving;

the circulating air can flow to the rear side of the curtain wall frame through the gaps of the ventilation side grooves to perform ventilation circulation of air flow;

after the through hole at the top of the rotary three-way pipe is controlled to be communicated with the side sweeping pipe, air is led to the space between the two side glass curtain walls, the guide frame and the rotary three-way pipe at the top are led to the inner side of the curtain wall frame, and the temperature of the two side glass curtain walls is balanced through the flow of the air between the two side glass curtain walls, so that fog and water vapor accumulation are avoided.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. according to the invention, the glass curtain wall is pulled to slide in the curtain wall frame, the glass curtain wall can move to one side of the ventilation side groove when moving, at the moment, air can flow to the rear side of the curtain wall frame through a gap of the ventilation side groove to perform ventilation circulation of air flow, the rapid introduction of air is facilitated through the circulating pipe independent of the outer side of the curtain wall frame, air fed or discharged through pumping of a fan can flow to the rotary three-way pipe through the corrugated pipe after entering the circulating pipe, when the through hole at the top of the rotary three-way pipe rotates to be communicated with the side sweeping pipe, the air can be guided between the glass curtain walls at two sides, the guide frame and the rotary three-way pipe at the top are guided to the inner side of the curtain wall frame, the temperature exchange efficiency between the glass curtain walls is improved through the air flowing between the glass curtain walls at two sides, the air is prevented from being stopped to cause glass atomization, the air exchange efficiency is improved, meanwhile, the mist is rapidly emitted, and the ventilation effect and maintainability in the space cavity inside the double-layer glass curtain wall and the curtain wall frame are improved.

2. According to the invention, through the designed moving plate, when the handle is pushed to drive the sliding rod and the connecting block to move, the connecting block can drive the moving plate and the circulating pipe to move outwards, when the tail end of the circulating pipe moves towards the outer side of the closed side plate, the circulating pipe can circulate air outwards through the opening at the tail end, and when the handle is pulled to drive the sliding rod and the circulating pipe to reset, the opening at the tail end of the circulating pipe can slide into the opening at one side of the closed side plate at the corresponding position, so that the circulation of external air towards the inner side can be avoided through the opening and the blocking of the inner cavity of the closed side plate, and the regulation and control of the installation depth can be realized through the axial arrangement position of the circulating pipe.

3. According to the invention, through the designed direction adjusting assembly, when the transmission rod is screwed to rotate, the transmission rod can rotate to drive the bottom side transmission rack to move, the transmission rack can drive the driven gear to rotate, the driven gear can rotate to drive the inner side rotation three-way pipe to rotate, the communication and the lamination of the rotation three-way pipe and the top side purging pipe are facilitated to be controlled, the synchronous rotation adjustment of the plurality of driven gears and the inner side rotation three-way pipe is realized through the transversely arranged transmission rack, the rapid purging is carried out when the air circulation interaction is required to be carried out between the glass curtain walls on two sides, and the rapid adjustment capability of a ventilation mode is improved.

4. According to the invention, through the designed guide assembly, after the circulation pipe moves into the closed side plate, the three-way pipe rotates to the communicating position, circulating gas input by the external fan can be purged to the glass curtain walls at two sides through the three-way pipe, at the moment, the purged gas can quickly balance the temperature between the glass curtain walls at two sides, the phenomenon of fogging is avoided, air entering the glass curtain walls can firstly contact with the guide plate at the inner side of the guide cover, and after the arc-shaped guide plate can guide the air to the air outlet grooves at two sides, the purged air can fully contact with the inner sides of the glass curtain walls at two sides under the condition of guiding, the contact temperature of the glass curtain walls at two sides can be quickly balanced during ventilation, and the phenomenon of water vapor atomization on the inner wall can be reduced during the double-side glass curtain wall device.

Drawings

FIG. 1 is a schematic view of the overall structure of an energy-saving and ventilating building curtain wall structure according to the present invention;

FIG. 2 is a schematic diagram of an exploded structure of an energy-efficient ventilated building curtain wall structure according to the present invention;

FIG. 3 is a schematic side view of an energy-saving ventilating building curtain wall structure according to the present invention;

FIG. 4 is an enlarged schematic view of the portion A in FIG. 3 according to the present invention;

FIG. 5 is an enlarged schematic view of the portion B in FIG. 3 according to the present invention;

FIG. 6 is a schematic view of the assembly structure of the circulating components of the energy-saving ventilating building curtain wall structure according to the present invention;

FIG. 7 is a schematic view of a partially disassembled structure of a circulating assembly of an energy-saving and ventilating building curtain wall structure according to the present invention;

FIG. 8 is a schematic view of a guide assembly disassembly structure of an energy-efficient ventilated building curtain wall structure according to the present invention;

FIG. 9 is a schematic view of the elevation view of a guide assembly of an energy-efficient ventilated building curtain wall structure according to the present invention;

fig. 10 is a schematic view of a transverse structure of an energy-saving ventilation building curtain wall structure according to the present invention.

Legend description:

1. a curtain wall frame; 2. a ventilation bottom frame; 3. a guide frame; 4. closing the side plates; 5. a circulation assembly; 501. a circulation pipe; 502. a moving plate; 503. a bellows; 504. a connecting block; 505. a slide bar; 506. a protective tube; 507. rotating the three-way pipe; 508. an air inlet cover; 6. a direction-adjusting component; 601. a drive rack; 602. a driven gear; 603. a drive gear; 604. a transmission rod; 605. a telescopic rod; 7. a guide assembly; 701. a guide cover; 702. an air outlet groove; 703. a guide plate; 704. an induced draft slot; 705. a side support plate; 706. a connecting rod; 707. a drive screw; 8. a transmission assembly; 801. a support block; 802. a first rack; 803. a driving toothed roller; 804. a second rack; 9. a ventilation side groove; 10. a wind passing groove; 11. a chute; 12. glass curtain wall; 13. side purge tube.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, 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.

Referring to fig. 1-10, the present invention provides a technical solution: the utility model provides an energy-conserving ventilation's building curtain structure, includes curtain frame 1, and curtain frame 1 both sides all are connected with ventilation underframe 2, and curtain frame 1 inner chamber both sides all sliding connection has glass curtain wall 12, and ventilation side slot 9 has all been seted up at the both ends of curtain frame 1 inner wall both sides, and is equipped with the intercommunication cavity between ventilation side slot 9 of both sides, and glass curtain wall 12 sliding connection is in ventilation side slot 9 one side for glass curtain wall 12 moves the back and exposes ventilation side slot 9 and carry out circulation ventilation;

and ventilation underframe 2 downside inner chamber is connected with guide frame 3, and guide frame 3 inboard is connected with circulation subassembly 5, and circulation subassembly 5 includes a plurality of circulating pipes 501, ventilation underframe 2 both sides all are connected with and seal curb plate 4, and circulating pipe 501 one end extends to curtain frame 1 outside and seal in curb plate 4, circulating pipe 501 one side is connected with bellows 503, and bellows 503 opposite side is connected with protection pipe 506, and protection pipe 506 inlays and locates guide frame 3 inboard, and protection pipe 506 top is connected with side and sweeps pipe 13, circulation subassembly 5 includes rotatory three-way pipe 507, and rotatory three-way pipe 507 rotatable arrangement is in guide frame 3 for be linked together through rotatory three-way pipe 507 and the side of predetermineeing at guide frame 3 top sweeps pipe 13, the purge intensity of air in glass curtain wall 12 is adjusted.

The implementation mode specifically comprises the following steps: when curtain wall frame 1 assembles the back, if need carry out the ventilation, can slide in curtain wall frame 1 through pulling glass curtain wall 12, can remove to ventilation side groove 9 one side when glass curtain wall 12 removes, this moment air can pass ventilation side groove 9's clearance and flow to curtain wall frame 1 rear side and carry out the ventilation circulation that the air flows, and through the circulation subassembly 5 of design, a plurality of circulating pipes 501 can carry out the circulation of flowing of air through arranging in the both sides of curtain wall frame 1, be favorable to realizing the quick introduction to the air through the circulating pipe 501 outside independent of curtain wall frame 1, and after getting into circulating pipe 501 through the fan is pumped, the air in the circulating pipe 501 can flow to rotatory three-way pipe 507 through bellows 503, after rotatory three-way pipe 507 top through-hole rotates to communicate with side-blowing pipe 13, can make the air be guided to between the both sides glass curtain wall 12, the inboard guide of three-way guide frame 3 and top rotatory pipe 507, thereby can be through the air flow between the glass curtain wall 12 of both sides, the temperature exchange efficiency between the glass curtain wall 12 improves, it leads to glass atomization to keep out through the circulation, improve the air, improve the quick processing efficiency of air exchange and the inside fog chamber and the inside of double-layer glass curtain wall frame 12 and can flow the maintenance effect of the inside cavity of the frame 1.

Referring to fig. 6-7, a moving plate 502 is connected between the outer side walls of the plurality of circulation pipes 501, two sides of the moving plate 502 are connected with a connecting block 504, a through hole is formed on one side of the connecting block 504, a sliding rod 505 is slidably connected in the through hole, one end of the sliding rod 505 is connected to one side of the closed side plate 4, the other end of the sliding rod 505 is arranged on one side of the guide frame 3 in a penetrating manner and is connected with a handle, and a vent hole is formed at the tail end of the circulation pipe 501 and used for driving the circulation pipe 501 to adjust the vent hole to open and close on one side of the closed side plate 4 by pulling the handle.

The implementation mode specifically comprises the following steps: through the movable plate 502 of design, when pushing the handle to drive slide bar 505 and connecting block 504 and remove, connecting block 504 can drive movable plate 502 and circulating pipe 501 and remove to the outside, when the circulating pipe 501 end is removed to the closed curb plate 4 outside, circulating pipe 501 can outwards carry out the circulation of air through terminal opening, and when pulling the handle and driving slide bar 505 and circulating pipe 501 and reset, the terminal opening of circulating pipe 501 can slide into the closed curb plate 4 one side opening of relevant position, thereby can avoid outside air to inboard circulation through the shutoff of opening and closed curb plate 4 inner chamber, be favorable to realizing the regulation and control to the installation depth through the axial arrangement position of circulating pipe 501, wherein, the open-ended angle should be towards glass curtain wall 12 one side and make the air that circulates sweep glass curtain wall 12 surface.

Referring to fig. 7, the outside of the rotating three-way pipe 507 is connected with a direction adjusting component 6, the direction adjusting component 6 comprises a transmission rack 601, one side of the transmission rack 601 is connected with a telescopic rod 605, the telescopic rod 605 is connected to one side of an inner cavity of the curtain wall frame 1, one side of the transmission rack 601 is meshed with a driven gear 602, the driven gear 602 is connected to the outside of the rotating three-way pipe 507, one side of the transmission rack 601 is meshed with a driving gear 603, one side of the driving gear 603 is connected with a transmission rod 604, the transmission rod 604 penetrates through the other side closed side plate 4 and is connected with a rotating block, one side of the rotating three-way pipe 507 is connected with an air inlet cover 508, the cross section of the air inlet cover 508 is conical, two sides of the ventilation bottom frames 2 are respectively connected with circulation pipes 501, and the two sides of the circulation pipes 501 are connected with an external circulation fan to form an air circulation.

The implementation mode specifically comprises the following steps: through the steering assembly 6 of design, when rotatory through twisting the transfer line 604, the transfer line 604 rotates and can drive bottom side drive rack 601 and remove, and drive rack 601 removes and can drive driven gear 602 and rotate, and driven gear 602 is rotatory and can drive inboard rotatory three-way pipe 507 and rotate, is favorable to controlling rotatory three-way pipe 507 and communicates the laminating with top side purge tube 13 fast, thereby can realize the synchronous rotatory regulation to a plurality of driven gears 602 and inboard rotatory three-way pipe 507, can sweep fast when needing to carry out the circulation of air interaction between the glass curtain wall 12 of both sides, improves ventilation mode's quick adjustment ability.

Referring to fig. 8-9, a guiding component 7 is arranged at the bottom side of an inner cavity of a curtain wall frame 1, the guiding component 7 comprises a guiding cover 701, the guiding cover 701 is connected to the inner side of the curtain wall frame 1, the guiding cover 701 is positioned at one side of an air passing groove 10 formed at two sides of the inner cavity of the curtain wall frame 1, air outlet grooves 702 are formed at two sides of the guiding cover 701 and are used for guiding air in the air passing groove 10 to flow to two sides of the air outlet grooves 702, a guiding plate 703 is connected to the top of the inner cavity of the guiding cover 701, the cross section of the guiding plate 703 is arc-shaped, an air guiding groove 704 is formed at the bottom side of the guiding plate 703, a side supporting plate 705 is rotatably connected to the inner cavity of the air outlet grooves 702, the two side supporting plates 705 are arranged at an included angle, a connecting rod 706 is hinged between opposite surfaces of the two side supporting plates 705, a driving screw 707 is connected to the inner side of the connecting rod 706 through a bolt in a threaded manner, and the driving screw 707 is rotatably connected to the bottom side of the inner cavity of the guiding plate 703 through a rotating shaft bearing;

the both ends of curtain frame 1 top one side have all been seted up spout 11, and the spout 11 sliding connection has the slider, and the slider is connected in the glass curtain wall 12 bottom side of corresponding position, and the slider opposite side is connected with the side and sweeps pipe 13, and the side sweeps pipe 13 wears to locate spout 11 inner chamber opposite side and extend to curtain frame 1 outside for the relevant position of pulling control glass curtain wall 12.

The implementation mode specifically comprises the following steps: through the guide assembly 7 designed, after the circulation pipe 501 moves into the closed side plate 4, the rotary three-way pipe 507 rotates to a communicating position, circulating gas input by an external fan can sweep between the two side glass curtain walls 12 through the rotary three-way pipe 507, the temperature between the two side glass curtain walls 12 can be quickly balanced by the sweeping gas at the moment, the fogging phenomenon is avoided, air entering the glass curtain walls 12 can be firstly contacted with the guide plate 703 at the inner side of the guide cover 701, the arc-shaped guide plate 703 can lead the air to be fully contacted with the inner side of the two side glass curtain walls 12 under the condition of guiding after the air is led to the two side air outlet grooves 702, the contact temperature of the two side glass curtain walls 12 can be quickly balanced during ventilation, the water vapor atomization phenomenon can be reduced during the installation of the two side glass curtain walls 12, and accumulated water vapor can be quickly dispersed through air circulation, so that the treatment effect of the installation is ensured;

wherein, the drive screw 707 can be screwed to rotate in the bearing through the tail end rotating shaft, at the moment, the screw cap outside the drive screw 707 can drive the connecting rod 706 to move, the connecting rod 706 can push the side support plates 705 at two sides to adjust the relative inclination angle, thereby being convenient for adjusting the guiding angle and improving the guiding treatment effect;

referring to fig. 3-5, a transmission assembly 8 for controlling the glass curtain wall 12 to move in opposite directions is disposed between the glass curtain walls 12 on two sides, the transmission assembly 8 includes a first rack 802 and a second rack 804 disposed on two opposite sides of the curtain wall frame 1, a transmission toothed roller 803 is meshed between the first rack 802 and the second rack 804, the top of the transmission toothed roller 803 is rotatably connected with a supporting block 801, and the supporting block 801 is connected to one side of the curtain wall frame 1.

Through the transmission subassembly 8 of design, when promoting glass curtain wall 12 and sliding in spout 11 through the bottom slider, glass curtain wall 12 can avoid taking place to rock the skew through the slip of slider in spout 11, simultaneously when unilateral glass curtain wall 12 removes, remove side glass curtain wall 12 can drive the first rack 802 of drive transmission fluted roller 803 through rear side second rack 804 and drive opposite side glass curtain wall 12 and remove, thereby can spill ventilation clearance through the quick control of the removal in opposite directions of both sides glass curtain wall 12, be favorable to carrying out ventilation treatment through glass curtain wall 12 and the inboard ventilation side slot 9 of curtain wall frame 1 and the clearance of air duct 10 when ventilating, improve ventilation effect.

Working principle: when the circulating pipe is used, when the handle is pushed to drive the sliding rod 505 and the connecting block 504 to move, the connecting block 504 can drive the moving plate 502 and the circulating pipe 501 to move outwards, when the tail end of the circulating pipe 501 moves towards the outer side of the closed side plate 4, the circulating pipe 501 can circulate air outwards through the opening at the tail end, and when the handle is pulled to drive the sliding rod 505 and the circulating pipe 501 to reset, the opening at the tail end of the circulating pipe 501 can slide into the opening at one side of the closed side plate 4 at the corresponding position, so that the circulation of external air towards the inner side can be avoided through the opening and the blocking of the inner cavity of the closed side plate 4;

when the handle is pushed to drive the slide bar 505 and the connecting block 504 to move, the connecting block 504 can drive the moving plate 502 and the circulating pipe 501 to move outwards, when the tail end of the circulating pipe 501 moves towards the outer side of the closed side plate 4, the circulating pipe 501 can circulate air outwards through the opening at the tail end, and when the handle is pulled to drive the slide bar 505 and the circulating pipe 501 to reset, the opening at the tail end of the circulating pipe 501 can slide into the opening at one side of the closed side plate 4 at the corresponding position, so that the circulation of external air towards the inner side can be avoided through the plugging of the opening and the inner cavity of the closed side plate 4, and the regulation and control of the installation depth can be realized through the axial arrangement position of the circulating pipe 501;

when the transmission rod 604 is screwed to rotate, the transmission rod 604 rotates to drive the bottom side transmission rack 601 to move, the transmission rack 601 moves to drive the driven gear 602 to rotate, the driven gear 602 rotates to drive the inner side rotation three-way pipe 507 to rotate, and the control of the rotation three-way pipe 507 to be communicated and attached with the top side purging pipe 13 is facilitated, so that synchronous rotation adjustment of the plurality of driven gears 602 and the inner side rotation three-way pipe 507 can be realized through the transversely arranged transmission rack 601, and rapid purging can be performed when air circulation interaction is required between the two side glass curtain walls 12;

after the circulation pipe 501 moves into the closed side plate 4, the rotary three-way pipe 507 rotates to a communicating position, and the circulating gas input by the external fan can sweep between the two glass curtain walls 12 through the rotary three-way pipe 507, so that the temperature between the two glass curtain walls 12 can be quickly balanced by the sweeping gas, and the air entering the glass curtain walls 12 can be firstly contacted with the guide plate 703 on the inner side of the guide cover 701, and the arc-shaped guide plate 703 can fully contact the sweeping air with the inner side of the two glass curtain walls 12 under the condition of guiding after guiding the air to the two air outlet grooves 702;

when the glass curtain wall 12 is pushed to slide in the sliding groove 11 through the bottom sliding block, the glass curtain wall 12 can avoid shaking and shifting through the sliding of the sliding block in the sliding groove 11, and meanwhile when the single-side glass curtain wall 12 moves, the moving-side glass curtain wall 12 can drive the transmission toothed roller 803 through the rear-side second rack 804 to drive the first rack 802 to drive the other-side glass curtain wall 12 to move, so that the leakage ventilation gap can be rapidly controlled through the opposite movement of the two-side glass curtain walls 12.

In the present disclosure, the terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more, unless expressly defined otherwise. The terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; "coupled" may be directly coupled or indirectly coupled through intermediaries. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides an energy-conserving ventilation's building curtain structure, includes curtain frame (1), its characterized in that, curtain frame (1) both sides all are connected with ventilation underframe (2), curtain frame (1) inner chamber both sides all sliding connection has glass curtain (12), ventilation side groove (9) have all been seted up at the both ends of curtain frame (1) inner wall both sides, and are equipped with the intercommunication cavity between ventilation side groove (9) in both sides, glass curtain (12) sliding connection is in ventilation side groove (9) one side for show ventilation side groove (9) and circulate ventilation after glass curtain (12) remove;

and ventilation underframe (2) downside inner chamber is connected with guide frame (3), and guide frame (3) inboard is connected with circulation subassembly (5), and circulation subassembly (5) are including a plurality of circulating pipes (501), ventilation underframe (2) both sides all are connected with sealed curb plate (4), and in circulating pipe (501) one end extends to curtain frame (1) outside sealed curb plate (4), circulating pipe (501) one side is connected with bellows (503), and bellows (503) opposite side is connected with pillar (506), and pillar (506) inlay and locate guide frame (3) inboard, and pillar (506) top is connected with side-blown pipe (13), circulation subassembly (5) are including rotatory three-way pipe (507), and rotatory three-way pipe (507) rotatable arrangement is in guide frame (3) for through rotatory three-way pipe (507) with guide frame (3) top pre-set side-blown and sweep pipe (13) be linked together, adjust the purge intensity of air in glass curtain (12).

2. The energy-saving and ventilation building curtain wall structure according to claim 1, wherein a movable plate (502) is connected between the outer side walls of the circulating pipes (501), two sides of the movable plate (502) are connected with connecting blocks (504), one side of each connecting block (504) is provided with a through hole, a sliding rod (505) is slidably connected in each through hole, one end of each sliding rod (505) is connected to one side of the closed side plate (4), the other end of each sliding rod (505) is arranged on one side of the corresponding guide frame (3) in a penetrating manner and is connected with a handle, and the tail end of each circulating pipe (501) is provided with a ventilation hole for driving the corresponding circulating pipe (501) to adjust the ventilation hole to open and close on one side of the closed side plate (4) by pulling the handle.

3. The energy-saving and ventilation building curtain wall structure according to claim 1, wherein the outer side of the rotary three-way pipe (507) is connected with a direction adjusting component (6), the direction adjusting component (6) comprises a transmission rack (601), one side of the transmission rack (601) is connected with a telescopic rod (605), the telescopic rod (605) is connected to one side of an inner cavity of the curtain wall frame (1), one side of the transmission rack (601) is meshed with a driven gear (602), the driven gear (602) is connected to the outer side of the rotary three-way pipe (507), one side of the transmission rack (601) is meshed with a driving gear (603), one side of the driving gear (603) is connected with a transmission rod (604), and the transmission rod (604) penetrates through the other side sealing side plate (4) and is connected with a rotary block.

4. The energy-saving ventilation building curtain wall structure according to claim 1, wherein one side of the rotary three-way pipe (507) is connected with an air inlet cover (508), the cross section of the air inlet cover (508) is conical, the ventilation bottom frames (2) on two sides are respectively connected with circulating pipes (501), and the circulating pipes (501) on two sides are connected with an external circulating fan to form air circulation.

5. The energy-saving and ventilation building curtain wall structure according to claim 1, wherein a guiding component (7) is arranged at the bottom side of an inner cavity of the curtain wall frame (1), the guiding component (7) comprises a guiding cover (701), the guiding cover (701) is connected to the inner side of the curtain wall frame (1), the guiding cover (701) is located at one side of an air passing groove (10) formed in two sides of the inner cavity of the curtain wall frame (1), and air outlet grooves (702) are formed in two sides of the guiding cover (701) and used for guiding air in the air passing groove (10) to flow to two sides of the air outlet grooves (702).

6. The energy-saving ventilation building curtain wall structure according to claim 5, wherein the top of the inner cavity of the guide cover (701) is connected with a guide plate (703), the cross section of the guide plate (703) is arc-shaped, the bottom side of the guide plate (703) is provided with an air guiding groove (704), the inner cavity of the air outlet groove (702) is rotationally connected with side support plates (705), the two side support plates (705) are arranged at an included angle, a connecting rod (706) is hinged between the opposite surfaces of the two side support plates (705), a driving screw (707) is connected in the connecting rod (706) through a bolt thread, and the driving screw (707) is rotationally connected to the bottom side of the inner cavity of the guide plate (703) through a rotating shaft bearing.

7. The energy-saving and ventilation building curtain wall structure according to claim 1, wherein sliding grooves (11) are formed in two ends of one side of the top of the curtain wall frame (1), sliding blocks are connected in the sliding grooves (11) in a sliding mode and connected to the bottom side of a glass curtain wall (12) at corresponding positions, side sweeping pipes (13) are connected to the other side of the sliding blocks, and the side sweeping pipes (13) penetrate through the other side of an inner cavity of the sliding grooves (11) and extend to the outer side of the curtain wall frame (1) and are used for pulling and controlling the corresponding positions of the glass curtain wall (12).

8. The energy-saving and ventilation building curtain wall structure according to claim 1, characterized in that a transmission assembly (8) for controlling the glass curtain wall (12) to move in opposite directions is arranged between the glass curtain walls (12) on two sides, the transmission assembly (8) comprises a first rack (802) and a second rack (804) which are arranged on two sides of the curtain wall frame (1) in opposite directions, a transmission toothed roller (803) is meshed between the first rack (802) and the second rack (804), the top of the transmission toothed roller (803) is rotationally connected with a supporting block (801), and the supporting block (801) is connected to one side of the curtain wall frame (1).

9. The method of using an energy-saving ventilating building curtain wall structure according to any of claims 1-8, characterized in that it comprises the following steps: the glass curtain wall (12) is pulled to slide in the curtain wall frame (1), and the glass curtain wall (12) can move to one side of the ventilation side groove (9) when moving;

the circulating air can flow to the rear side of the curtain wall frame (1) through the gap of the ventilation side groove (9) to perform ventilation circulation of air flow;

after the through holes at the top of the rotary three-way pipe (507) are controlled to rotate to be communicated with the side sweeping pipe (13), air is led to the space between the two side glass curtain walls (12), the guide frame (3) and the rotary three-way pipe (507) at the top are led to the inner side of the curtain wall frame (1), and the temperature of the two side glass curtain walls (12) is balanced through the flow of the air between the two side glass curtain walls (12), so that fogging and water vapor accumulation are avoided.