CN112982759B

CN112982759B - Ultrahigh-rise unit type curtain wall energy-saving system

Info

Publication number: CN112982759B
Application number: CN202110271097.XA
Authority: CN
Inventors: 张聘; 张昌奇; 郑皓升; 赵洪朋; 范海超
Original assignee: Second Construction Co Ltd of China Construction Eighth Engineering Division Co Ltd
Current assignee: China Construction Eighth Bureau Construction Technology (Shandong) Co.,Ltd.; Second Construction Co Ltd of China Construction Eighth Engineering Division Co Ltd
Priority date: 2021-03-12
Filing date: 2021-03-12
Publication date: 2021-09-07
Anticipated expiration: 2041-03-12
Also published as: CN112982759A

Abstract

The invention discloses a super high-rise unitized curtain wall energy-saving system, wherein all parts are processed and assembled in a factory, assembled in a plate on site, mechanically connected, convenient to hoist and positioned in a one-time defensive line way; experiments prove that the system not only has strong physical performance, but also can reduce the cost, realize energy conservation from multiple aspects and be safer, thereby meeting the requirements of environmental protection, energy conservation, safety and environmental protection of curtain wall engineering; the fixed leakproofness of curtain installation can be improved through rubber fixed plate, the L type fixed strip that set up and connection strengthening mechanism, complementary unit, and then ensure that its indoor temperature is difficult for running off to can carry out corresponding regulation and control to it according to the ageing degree of sealing strip to the later stage, ensure the holistic sealing performance of curtain, have good energy-conserving effect.

Description

Ultrahigh-rise unit type curtain wall energy-saving system

Technical Field

The invention relates to the technical field of building curtain walls, in particular to an ultrahigh-rise unit type curtain wall energy-saving system.

Background

The modern society is green, energy-saving, safe and environment-friendly, and becomes a pronoun of all walks of life, and the building curtain wall is no exception; the building curtain wall is used as an external maintenance structure and a decoration structure of a building main body structure, not only needs to realize the maintenance effect on the main body structure, but also needs to realize the decoration effect of the building; the unitized curtain wall is the most common curtain wall system for realizing the external maintenance and decoration functions of the super high-rise building structure; along with the emergence of terms such as green, energy-saving, environmental protection, safety and the like.

The design concept of the prior unit type curtain wall is sealing and plugging; the novel material and the physical principle of make full use of do not, cause serious wasting of resources, also be accompanied with more environmental pollution simultaneously, so move towards the edge of being eliminated, and prior art's curtain is to its sealed during operation, the work of sealing up is carried out to simple use sealing strip usually, can cause ageing under the long-time use, reduce its sealed work, and then discount greatly to indoor heat preservation effect, energy-conserving effect is relatively poor, or traditional unit formula curtain needs research and development and upgrade urgently, satisfy the demand that social development is green, energy-conservation, environmental protection, safety.

Therefore, the invention provides an energy-saving system of a super high-rise unitized curtain wall, which is used for solving the problems.

Disclosure of Invention

The invention aims to provide an energy-saving system for a super high-rise unitized curtain wall, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving system for a super high-rise unit type curtain wall comprises an aluminum alloy heat-insulated male vertical frame, an aluminum alloy heat-insulated female vertical frame, an aluminum alloy heat-insulated upper transverse frame, an aluminum alloy heat-insulated lower transverse frame, an aluminum alloy window board core insert, an aluminum alloy vertical frame clamping strip, an aluminum alloy buckle cover, an aluminum alloy core insert, a silica gel strip, a galvanized steel back plate, heat-insulating rock wool, stainless steel hardware, sealant, a closed-cell sponge, glass, a gypsum board, a rubber fixing plate, a connection strengthening mechanism and an auxiliary mechanism;

an aluminum alloy heat insulation female vertical frame is arranged on one side of the aluminum alloy heat insulation male vertical frame, an aluminum alloy heat insulation upper transverse frame is arranged on one side of the aluminum alloy heat insulation female vertical frame, an aluminum alloy heat insulation lower transverse frame is arranged on one side of the aluminum alloy heat insulation upper transverse frame, the aluminum alloy heat insulation lower transverse frame is arranged on one side of an aluminum alloy window board, and an aluminum alloy window board inserting core is arranged in the aluminum alloy window board;

the aluminum alloy heat insulation female vertical frame is provided with an aluminum alloy vertical frame clamping strip, the aluminum alloy vertical frame clamping strip is connected with the aluminum alloy heat insulation male vertical frame in a clamping mode, the aluminum alloy heat insulation male vertical frame and the aluminum alloy heat insulation female vertical frame are arranged on one side of glass, the glass is symmetrically arranged on two sides of the silica gel strip, the silica gel strip is connected with a support frame, and an aluminum alloy buckle cover is arranged in the support frame in a buckling mode;

the aluminum alloy heat-insulated upper transverse frame is inserted and provided with an aluminum alloy inserting core, one side of the aluminum alloy heat-insulated upper transverse frame is provided with a galvanized steel back plate, one side of the galvanized steel back plate is provided with heat-preservation rock wool, stainless steel hardware is connected and arranged in the supporting frame, sealant is bonded and arranged on two sides of the glass, closed-cell sponge is filled in the alloy heat-insulated lower transverse frame, and a gypsum board is filled in the aluminum alloy window board;

the rubber fixing plates are integrally formed on the silica gel strip at equal intervals, the L-shaped fixing strips are integrally formed on one side of the supporting frame, slots are formed in the rubber fixing plates, movable extrusion strips are symmetrically and movably arranged on two sides of each slot, a slope is arranged at one end of each movable extrusion strip, first extrusion springs are arranged at the other end of each movable extrusion strip at equal intervals, the other ends of the first extrusion springs are arranged in the rubber fixing plates, and fixing circular grooves are formed in the L-shaped fixing strips at equal intervals;

the connection strengthening mechanism is connected and arranged on the supporting frame and the rubber fixing plate, and an auxiliary mechanism is connected and arranged in the connection strengthening mechanism.

Preferably, the connection strengthening mechanism comprises a fixed body, a plug board, a clamping board, a movable rotating shaft, a first movable disc, a locking circular groove, a second movable disc, an arc chute, a movable clamping column, a first connecting rod, a connecting plug shaft, a fixed block, a movable groove, a second connecting rod, a first extrusion chute, a movable board, a second extrusion chute, an extrusion column, an elastic circular block, a first driving gear, a second driving gear, a transmission rack, a third extrusion chute, an extrusion block and an extrusion plate, wherein the fixed body is provided with the plug board and is symmetrically provided with the clamping board, the fixed body is movably provided with the movable rotating shaft, one end of the movable rotating shaft is provided with the first movable disc, the first movable disc is movably arranged in the fixed body, the first movable disc is equidistantly provided with the locking circular groove, the fixed body is symmetrically provided with a thread groove, and the thread connection in the thread groove is provided with a locking screw, and a second movable disk is also arranged on the movable rotating shaft, an arc chute is equidistantly arranged on one side of the second movable disk, a movable clamping column is movably arranged in the arc chute, a first connecting rod is arranged at one end of the movable clamping column, a connecting inserting shaft is arranged at one end of the second movable disk, a fixed block is arranged at the other end of the first connecting rod, the fixed block is movably arranged in the movable groove, a first reset spring is arranged on one side of the fixed block, the other end of the first reset spring is arranged in the movable groove, a second connecting rod is arranged on one side of the fixed block, a first extrusion chute is arranged in the fixed block, a movable plate is arranged at the other end of the second connecting rod, a second extrusion chute is equidistantly arranged on the movable plate, the movable plate is movably arranged in the clamping plate, extrusion columns are equidistantly arranged on one side of the movable plate, and one ends of the extrusion columns are movably arranged in the second extrusion chute, the other end is provided with elasticity circle piece, elasticity circle piece is being connected the end with the extrusion post and is being provided with second reset spring, connect to cup joint on the spiale and be provided with first driving gear, the tip is provided with the second driving gear, the both sides meshing of second driving gear is connected and is provided with the drive rack, the drive rack activity sets up in the picture peg to one side of drive rack is provided with third extrusion chute, the avris position activity in third extrusion chute in the picture peg is provided with the extrusion piece, the one end activity of extrusion piece sets up in third extrusion chute, and the other end is provided with the stripper plate, the stripper plate is being connected the end symmetry with the extrusion piece and is provided with third reset spring, and third reset spring sets up in the picture peg, one side connection of first driving gear is provided with complementary unit, and complementary unit sets up in the solid fixed body.

Preferably, complementary unit includes drive gear, spliced pole, connecting plate, recess, rubber movable block, second extrusion spring, the drive gear meshing is connected and is set up in one side of first driving gear to the drive gear activity sets up in the fixed body, and drive gear's one end is provided with the spliced pole, the other end of spliced pole is provided with the connecting plate, the connecting plate activity sets up in circular standing groove, and circular standing groove sets up in the fixed body to the other end of connecting plate is provided with the recess, the bilateral symmetry of recess is provided with the sliding tray, and the slip is provided with the slider in the sliding tray, and the slider symmetry sets up the both sides at the rubber movable block to be provided with second extrusion spring on the slider, the second extrusion spring other end sets up in the sliding tray.

Preferably, the insertion plates correspond to the slots in arrangement positions and are arranged in the same number of groups, and the cross sections of the insertion plates and the slots are the same in shape, that is, the cross sections of the insertion plates and the slots are equal in length and width.

Preferably, the movable plate corresponds to the movable clamping column and the arc chute in arrangement position, has the same number of sets, and is provided with two sets.

Preferably, the connecting plate does circular motion, the grooves in the connecting plate correspond to the connecting insertion shafts in arrangement positions and are arranged in the same number, and the length of the groove openings of the grooves is equal to the diameter of the connecting insertion shafts.

Compared with the prior art, the invention has the beneficial effects that:

1. all parts are processed and assembled in a factory, the plates are assembled on site, and are all mechanically connected, so that the hoisting is convenient, and the wire-proof positioning is realized at one time; experiments prove that the system not only has strong physical performance, but also can reduce the cost, realize energy conservation from multiple aspects and be safer, thereby meeting the requirements of environmental protection, energy conservation, safety and environmental protection of curtain wall engineering;

2. the fixed leakproofness of curtain installation can be improved through rubber fixed plate, the L type fixed strip that set up and connection strengthening mechanism, complementary unit, and then ensure that its indoor temperature is difficult for running off to can carry out corresponding regulation and control to it according to the ageing degree of sealing strip to the later stage, ensure the holistic sealing performance of curtain, have good energy-conserving effect.

Drawings

FIG. 1 is a top view of the curtain wall structure connection of the present invention;

FIG. 2 is an enlarged partial view of the structural joint of FIG. 1 according to the present invention;

FIG. 3 is a right side schematic view of the curtain wall construction of the present invention;

FIG. 4 is an enlarged partial view of the structural joint of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the connection reinforcing mechanism of the present invention, the rubber fixing plate and the L-shaped fixing strip;

FIG. 6 is a schematic view of the connection reinforcing mechanism of the present invention, the rubber fixing plate and the L-shaped fixing strip;

FIG. 7 is a schematic view of the connection strengthening mechanism of the present invention showing the front side of the internal structure;

FIG. 8 is an enlarged partial view of the structural joint of FIG. 7 according to the present invention;

FIG. 9 is a left side view of the connection strengthening mechanism of the present invention;

FIG. 10 is an enlarged partial view of the structural joint of FIG. 9 according to the present invention;

FIG. 11 is a rear view of the connection reinforcing mechanism according to the present invention;

FIG. 12 is an enlarged partial schematic view of the structural joint of FIG. 11 according to the present invention;

FIG. 13 is a schematic view of the structural connection of the auxiliary mechanism of the present invention.

In the figure: the aluminum alloy heat-insulating male vertical frame 1, the aluminum alloy heat-insulating female vertical frame 2, the aluminum alloy heat-insulating upper transverse frame 3, the aluminum alloy heat-insulating lower transverse frame 4, the aluminum alloy window board 5, the aluminum alloy window board core insert 6, the aluminum alloy vertical frame clamping strip 7, the aluminum alloy buckle cover 8, the aluminum alloy core insert 9, the silica gel strip 10, the galvanized steel back plate 11, the heat-insulating rock wool 12, the stainless steel hardware 13, the sealant 14, the closed cell sponge 15, the glass 16, the gypsum board composition 17, the rubber fixing plate 18, the L-shaped fixing strip 19, the supporting frame 20, the slot 21, the movable extrusion strip 22, the first extrusion spring 23, the connection strengthening mechanism 24, the fixing body 2401, the inserting plate 2402, the clamping plate 2403, the movable rotating shaft 2404, the first movable plate 2405, the locking circular slot 2406, the second movable plate 2407, the arc chute 2408, the movable clamping column 2409, the first connecting rod 2410, the connection inserting shaft 2411, the 2412, the movable slot 2413, the second connecting rod 2414, the first extrusion chute 2415, the fixing block 2415, The movable plate 2416, the second extrusion chute 2417, the extrusion column 2418, the elastic circular block 2419, the first driving gear 2420, the second driving gear 2421, the transmission rack 2422, the third extrusion chute 2423, the extrusion block 2424, the extrusion plate 2425, the auxiliary mechanism 25, the transmission gear 2501, the connection column 2502, the connection plate 2503, the groove 2504, the rubber movable block 2505, the second extrusion spring 2506 and the fixed circular groove 26.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 13, the present invention provides a technical solution: the invention relates to an energy-saving system of a super high-rise unit type curtain wall, which comprises an aluminum alloy heat-insulated male vertical frame 1, an aluminum alloy heat-insulated female vertical frame 2, an aluminum alloy heat-insulated upper transverse frame 3, an aluminum alloy heat-insulated lower transverse frame 4, an aluminum alloy window board 5, an aluminum alloy window board core insert 6, an aluminum alloy vertical frame clamping strip 7, an aluminum alloy buckle cover 8, an aluminum alloy core insert 9, a silica gel strip 10, a galvanized steel back plate 11, heat-insulating rock wool 12, stainless steel hardware 13, sealant 14, a closed pore sponge 15, glass 16, a gypsum board composition 17, a rubber fixing plate 18, a connection strengthening mechanism 24 and an auxiliary mechanism 25;

an aluminum alloy heat insulation female vertical frame 2 is arranged on one side of the aluminum alloy heat insulation male vertical frame 1, an aluminum alloy heat insulation upper transverse frame 3 is arranged on one side of the aluminum alloy heat insulation female vertical frame 2, an aluminum alloy heat insulation lower transverse frame 4 is arranged on one side of the aluminum alloy heat insulation upper transverse frame 3, the aluminum alloy heat insulation lower transverse frame 4 is arranged on one side of an aluminum alloy window board 5, and an aluminum alloy window board inserting core 6 is arranged in the aluminum alloy window board 5;

an aluminum alloy vertical frame clamping strip 7 is arranged on the aluminum alloy heat insulation female vertical frame 2, the aluminum alloy vertical frame clamping strip 7 is connected with an aluminum alloy heat insulation male vertical frame 1 in a clamping mode, the aluminum alloy heat insulation male vertical frame 1 and the aluminum alloy heat insulation female vertical frame 2 are arranged on one side of glass 16, the glass 16 is symmetrically arranged on two sides of a silica gel strip 10, the silica gel strip 10 is connected with a support frame 20, and an aluminum alloy buckle cover 8 is arranged in the support frame 20 in a buckling mode;

an aluminum alloy inserting core 9 is inserted into the aluminum alloy adiabatic upper transverse frame 3, a galvanized steel back plate 11 is arranged on one side of the aluminum alloy adiabatic upper transverse frame 3, heat-preservation rock wool 12 is arranged on one side of the galvanized steel back plate 11, stainless steel hardware 13 is connected and arranged in the supporting frame 20, sealant 14 is adhered and arranged on two sides of glass 16, closed-cell sponge 15 is filled in the alloy adiabatic lower transverse frame 4, and a gypsum board composition 17 is filled in the aluminum alloy window board 5;

the silica gel strip 10 is integrally formed with rubber fixing plates 18 at equal intervals, one side of the support frame 20 is integrally formed with an L-shaped fixing strip 19, the rubber fixing plate 18 is provided with a slot 21, two sides of the slot 21 are symmetrically and movably provided with movable extrusion strips 22, one end of each movable extrusion strip 22 is provided with a slope, the other end of each movable extrusion strip is provided with first extrusion springs 23 at equal intervals, the other end of each first extrusion spring 23 is arranged in the rubber fixing plate 18, and the L-shaped fixing strip 19 is provided with fixing circular grooves 26 at equal intervals;

the connection reinforcing mechanism 24 is connected to the support frame 20 and the rubber fixing plate 18, and the connection reinforcing mechanism 24 is connected to the auxiliary mechanism 25.

Preferably, the connection strengthening mechanism 24 includes a fixed body 2401, an inserting plate 2402, a clamping plate 2403, a movable rotating shaft 2404, a first movable plate 2405, a locking circular slot 2406, a second movable plate 2407, an arc-shaped chute 2408, a movable clamping column 2409, a first connecting rod 2410, a connecting shaft 2411, a fixed block 2412, a movable slot 2413, a second connecting rod 2414, a first extrusion chute 2415, a movable plate 2416, a second extrusion chute 2417, an extrusion column 2418, an elastic circular block 2419, a first driving gear 2420, a second driving gear 2421, a transmission rack 2422, a third extrusion chute 3, an extrusion block 2424 and an extrusion plate 2425, the inserting plate 2402 is disposed on the fixed body 2401, the clamping plate 2403 is symmetrically disposed, the inserting plate 2402 is required to be disposed at a position corresponding to the slot 21, the number of the groups of the inserting plate 2402 is the same, the cross-sectional shapes of the two are the same, that the length and the width of the two are the cross-sections are the same, the movable rotating shaft 2404 is movably disposed in the fixed body 2401, one end of the movable rotating shaft 2404 is provided with a first movable disc 2405, the first movable disc 2405 is movably arranged in the fixed body 2401, locking circular grooves 2406 are equidistantly arranged on the first movable disc 2405, threaded grooves are symmetrically arranged in the fixed body 2401, locking screws are arranged in the threaded grooves in a threaded connection manner, a second movable disc 2407 is further arranged on the movable rotating shaft 2404, an arc-shaped chute 2408 is equidistantly arranged on one side of the second movable disc 2407, a movable clamping column 2409 is movably arranged in the arc-shaped chute 2408, one end of the movable clamping column 2409 is provided with a first connecting rod 2410, one end of the second movable disc 2407 is provided with a connecting inserting shaft 2411, the other end of the first connecting rod 2410 is provided with a fixed block 2412, the fixed block 2412 is movably arranged in the movable groove 2413, one side of the fixed block 2412 is provided with a first return spring, the other end of the first return spring is arranged in the movable groove 2413, and one side of the fixed block 2412, a first extrusion chute 2415 is arranged in the fixed block 2412, a movable plate 2416 is arranged at the other end of the second connecting rod 2414, second extrusion chutes 2417 are equidistantly arranged on the movable plate 2416, the movable plate 2416 is movably arranged in the clamping plate 2403, the movable plate 2416 is corresponding to the movable clamping columns 2409 and the arc chutes 2408 in arrangement and has the same number of sets, two sets are arranged, extrusion columns 2418 are movably and equidistantly arranged at one side of the movable plate 2416, one end of each extrusion column 2418 is movably arranged in the second extrusion chute 2417, the other end of each extrusion column 2418 is provided with an elastic round block 2419, a second return spring is arranged at the end connected with the extrusion columns 2418 of the elastic round block 2419, a first driving gear 2420 is sleeved on the connecting plug shaft 2411, a second driving gear 2421 is arranged at the end, a transmission rack 2422 is engaged and connected at two sides of the second driving gear 2421, the rack 2422 is movably arranged in the plug plate 2402, and a third extrusion chute 2423 is arranged at one side of the transmission rack 2422, a squeezing block 2424 is movably arranged at the side position of the third extrusion chute 2423 in the inserting plate 2402, one end of the squeezing block 2424 is movably arranged in the third extrusion chute 2423, the other end is provided with a squeezing plate 2425, a third return spring is symmetrically arranged at the end connected with the squeezing block 2424 of the squeezing plate 2425, the third return spring is arranged in the inserting plate 2402, an auxiliary mechanism 25 is connected and arranged at one side of the first driving gear 2420, the auxiliary mechanism 25 is arranged in the fixed body 2401, the auxiliary mechanism 25 comprises a transmission gear 2501, a connecting column 2502, a connecting plate 2503, a groove 2504, a rubber movable block 2505 and a second extrusion spring 2506, the transmission gear 2501 is engaged and arranged at one side of the first driving gear 2420, the transmission gear 2501 is movably arranged in the fixed body 2401, one end of the transmission gear 2501 is provided with the connecting column 2, the other end of the connection column 2502 is provided with a connection plate 2503, wherein the connection plate 2503 is required to do circular motion, a groove 2504 on the connection plate 2503 corresponds to the arrangement position of the connection insertion shaft 2411, the arrangement number of the grooves is the same, the length of a notch of the groove 2504 is equal to the diameter of the connection insertion shaft 2411, the connection plate 2503 is movably arranged in a circular placing groove, the circular placing groove is arranged in the fixed body 2401, the other end of the connection plate 2503 is provided with the groove 2504, sliding grooves are symmetrically arranged on two sides of the groove 2504, a sliding block is arranged in each sliding groove in a sliding mode, the sliding blocks are symmetrically arranged on two sides of the rubber movable block 2505, a second extrusion spring 2506 is arranged on each sliding block, and the other end of the second extrusion spring 2506 is arranged in each sliding groove.

The working principle is as follows: the invention relates to a curtain wall system which is formed by 17 components of an aluminum alloy heat-insulated male vertical frame 1, an aluminum alloy heat-insulated female vertical frame 2, an aluminum alloy heat-insulated upper transverse frame 3, an aluminum alloy heat-insulated lower transverse frame 4, an aluminum alloy window board 5, an aluminum alloy window board insertion core 6, an aluminum alloy vertical frame clamping strip 7, an aluminum alloy buckle cover 8, an aluminum alloy insertion core 9, a silica gel strip 10, a galvanized steel back plate 11, heat-insulating rock wool 12, stainless steel hardware 13, sealant 14, closed-cell sponge 15, glass 16 and a gypsum board, and has a unique exposed frame buckle cover design, a mechanical matching connection form and safer falling prevention; the utilization of novel materials, the double heat-insulation design and the full utilization of the physical properties of the materials, namely heat insulation and participation in a system stress system; the unique section design of the section bar, different section bar sections are matched together, and the requirements of people on various performances of the building curtain wall in daily life are completely met; different materials and different section sections of the section are combined together through a scientific method, so that a greater effect is exerted, and the green, energy-saving, safe and environment-friendly effects are fully achieved; when the silicone rubber strip 10 is hermetically connected and fixed with the glass 16 and the supporting frame 20, the inserting plate 2402 on the fixing body 2401 is aligned and inserted into the slot 21 on the rubber fixing plate 18, the inserting plate 2402 extrudes the movable extrusion strip 22 in the rubber fixing plate 18, meanwhile, the clamping plate 2403 arranged on the fixing body 2401 is clamped in the L-shaped fixing strip 19 on the supporting frame 20, and then the movable rotating shaft 2404 is rotated, on one hand, the movable rotating shaft 2404 drives the arc-shaped chute 2408 on the second movable disk 2407 to drive the movable clamping column 2409 to move, the movable clamping column 2409 pushes the first connecting rod 2410 to enter the first extrusion chute 2415 on the 241fixing block 2, and further extrudes the fixing block 2412, the fixing block 2412 drives the second connecting rod 2414 to push the movable plate 6, so that the second extrusion chute 2417 on the movable plate 2416 extrudes the extrusion column 2418, the extrusion column 2418 pushes the elastic round block 2419 to be clamped in the fixing round slot 26 on the L-shaped fixing strip 19, on the other hand, the movable rotating shaft 2404 drives the second driving gear 2421 to rotate, and further drives the second driving gear 2421 to engage with the transmission rack 2422 for transmission, so that the third pressing chute 2423 on the transmission rack 2422 presses the pressing block 2424, the pressing block 2424 further pushes the pressing plate 2425 to press the movable pressing strip 22 in the rubber fixing plate 18 again, and meanwhile, the first driving gear 2420 arranged on the connection shaft 2411 drives the auxiliary mechanism 25 to operate, the engagement transmission of the first driving gear 2420 and the transmission gear 2501 drives the connection column 2502 to rotate, and further drives the connection plate 2503 to rotate, so that the groove 2504 on the connection plate 2503 is clamped on the connection shaft 2411, and the rubber movable block 2505 is pressed, so as to have a good locking auxiliary effect on the connection shaft 2411, prevent the connection shaft 2411 from loosening, and finally, the connection shaft is inserted into a threaded hole in the fixed body 2401 through a locking screw, the locking screws are screwed up and enter the locking circular grooves 2406 at the corresponding positions of the first movable discs 2405, and the sealing strengthening work of the curtain wall can be finished; through the rubber fixed plate 18 that sets up, L type fixed strip 19 and connect strengthening mechanism 24, complementary unit 25 can improve the fixed leakproofness of curtain installation, and then ensure that its indoor temperature is difficult for running off to can carry out corresponding regulation and control to it according to the ageing degree of sealing strip to the later stage, ensure the holistic sealing performance of curtain, have good energy-conserving effect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a superelevation layer unitized curtain wall economizer system which characterized in that: the heat insulation aluminum alloy window frame comprises an aluminum alloy heat insulation male vertical frame (1), an aluminum alloy heat insulation female vertical frame (2), an aluminum alloy heat insulation upper transverse frame (3), an aluminum alloy heat insulation lower transverse frame (4), an aluminum alloy window board (5), an aluminum alloy window board inserting core (6), an aluminum alloy vertical frame clamping strip (7), an aluminum alloy buckle cover (8), an aluminum alloy inserting core (9), a silica gel strip (10), a galvanized steel back plate (11), heat insulation rock wool (12), stainless steel hardware (13), sealant (14), a closed pore sponge (15), glass (16), a gypsum board composition (17), a rubber fixing plate (18), a connection strengthening mechanism (24) and an auxiliary mechanism (25);

an aluminum alloy heat insulation female vertical frame (2) is arranged on one side of the aluminum alloy heat insulation male vertical frame (1), an aluminum alloy heat insulation upper transverse frame (3) is arranged on one side of the aluminum alloy heat insulation female vertical frame (2), an aluminum alloy heat insulation lower transverse frame (4) is arranged on one side of the aluminum alloy heat insulation upper transverse frame (3), the aluminum alloy heat insulation lower transverse frame (4) is arranged on one side of an aluminum alloy window board (5), and an aluminum alloy window board inserting core (6) is arranged in the aluminum alloy window board (5);

an aluminum alloy vertical frame clamping strip (7) is arranged on the aluminum alloy heat-insulating female vertical frame (2), the aluminum alloy vertical frame clamping strip (7) is connected with an aluminum alloy heat-insulating male vertical frame (1) in a clamping mode, the aluminum alloy heat-insulating male vertical frame (1) and the aluminum alloy heat-insulating female vertical frame (2) are arranged on one side of glass (16), the glass (16) is symmetrically arranged on two sides of a silica gel strip (10), the silica gel strip (10) is connected with a support frame (20), and an aluminum alloy buckle cover (8) is arranged in the support frame (20) in a buckling mode;

an aluminum alloy inserting core (9) is arranged in the aluminum alloy adiabatic upper transverse frame (3) in an inserting mode, a galvanized steel back plate (11) is arranged on one side of the aluminum alloy adiabatic upper transverse frame (3), heat-preservation rock wool (12) is arranged on one side of the galvanized steel back plate (11), stainless steel hardware (13) is connected and arranged in the supporting frame (20), sealant (14) is arranged on two sides of glass (16) in a bonding mode, closed-cell sponge (15) is filled in the alloy adiabatic lower transverse frame (4), and a gypsum board composition (17) is filled in the aluminum alloy window board (5);

the rubber fixing plates (18) are integrally formed on the silica gel strip (10) at equal intervals, the L-shaped fixing strips (19) are integrally formed on one side of the supporting frame (20), slots (21) are formed in the rubber fixing plates (18), movable extrusion strips (22) are symmetrically and movably arranged on two sides of the slots (21), one ends of the movable extrusion strips (22) are provided with slopes, the other ends of the movable extrusion strips are provided with first extrusion springs (23) at equal intervals, the other ends of the first extrusion springs (23) are arranged in the rubber fixing plates (18), and the L-shaped fixing strips (19) are provided with fixing circular grooves (26) at equal intervals;

the connection strengthening mechanism (24) is connected and arranged on the supporting frame (20) and the rubber fixing plate (18), and an auxiliary mechanism (25) is connected and arranged in the connection strengthening mechanism (24).

2. The ultra-high-rise unitized curtain wall energy saving system of claim 1, wherein: the connection strengthening mechanism (24) comprises a fixed body (2401), an inserting plate (2402), a clamping plate (2403), a movable rotating shaft (2404), a first movable disc (2405), a locking circular groove (2406), a second movable disc (2407), an arc-shaped chute (2408), a movable clamping column (2409), a first connecting rod (2410), a connecting inserting shaft (2411), a fixed block (2412), a movable groove (2413), a second connecting rod (2414), a first extrusion chute (2415), a movable plate (2416), a second extrusion chute (2417), an extrusion column (2418), an elastic circular block (2419), a first driving gear (2420), a second driving gear (2421), a transmission rack (2422), a third extrusion chute (2423), an extrusion block (2424) and an extrusion plate (2425), wherein the inserting plate (2402) is arranged on the fixed body (2401), the clamping plate (2403) is symmetrically arranged, the movable rotating shaft (2404) is arranged in the fixed body (2401), one end of the movable rotating shaft (2404) is provided with a first movable disc (2405), the first movable disc (2405) is movably arranged in the fixed body (2401), locking circular grooves (2406) are equidistantly arranged on the first movable disc (2405), thread grooves are symmetrically arranged in the fixed body (2401), locking screws are arranged in the thread grooves in a threaded connection mode, a second movable disc (2407) is further arranged on the movable rotating shaft (2404), arc-shaped chutes (2408) are equidistantly arranged on one side of the second movable disc (2407), movable clamping columns (2409) are movably arranged in the arc-shaped chutes (2408), one end of each movable clamping column (2409) is provided with a first connecting rod (2410), one end of each second movable disc (2407) is provided with a connecting inserting shaft (2411), the other end of each first connecting rod (2410) is provided with a fixed block (2412), and the fixed block (2412) is movably arranged in a movable groove (2413), a first return spring is arranged on one side of the fixed block (2412), the other end of the first return spring is arranged in the movable groove (2413), a second connecting rod (2414) is arranged on one side of the fixed block (2412), a first extrusion chute (2415) is arranged in the fixed block (2412), a movable plate (2416) is arranged on the other end of the second connecting rod (2414), a second extrusion chute (2417) is arranged on the movable plate (2416) at equal intervals, the movable plate (2416) is movably arranged in the clamping plate (2403), extrusion columns (2418) are movably arranged on one side of the movable plate (2416) at equal intervals, one end of each extrusion column (2418) is movably arranged in the second extrusion chute (2417), an elastic round block (2419) is arranged on the end connected with the extrusion column (2418), a second return spring is arranged on the connection inserting shaft (2411), a first driving gear (2420) is sleeved and arranged on the connection inserting shaft (2411), a second driving gear (2421) is arranged at the end part, a transmission rack (2422) is arranged on the two sides of the second driving gear (2421) in a meshed connection mode, the transmission rack (2422) is movably arranged in the inserting plate (2402), and one side of the transmission rack (2422) is provided with a third extrusion chute (2423), the side position of the third extrusion chute (2423) in the flashboard (2402) is movably provided with an extrusion block (2424), one end of the extrusion block (2424) is movably arranged in the third extrusion chute (2423), the other end is provided with an extrusion plate (2425), the extrusion plate (2425) is symmetrically provided with a third return spring at the end connected with the extrusion block (2424), the third return spring is arranged in the insertion plate (2402), one side of the first driving gear (2420) is connected with an auxiliary mechanism (25), and the auxiliary mechanism (25) is arranged in the fixed body (2401).

3. The ultra-high-rise unitized curtain wall energy saving system of claim 2, wherein: the auxiliary mechanism (25) comprises a transmission gear (2501), a connecting column (2502), a connecting plate (2503), a groove (2504), a rubber movable block (2505) and a second extrusion spring (2506), the transmission gear (2501) is meshed with and arranged on one side of a first driving gear (2420), the transmission gear (2501) is movably arranged in a fixed body (2401), the connecting column (2502) is arranged at one end of the transmission gear (2501), the connecting plate (2503) is arranged at the other end of the connecting column (2502), the connecting plate (2503) is movably arranged in a circular placing groove, the circular placing groove is arranged in the fixed body (2401), the groove (2504) is arranged at the other end of the connecting plate (2503), sliding grooves are symmetrically arranged on two sides of the groove (2504), sliding blocks are slidably arranged in the sliding grooves, and are symmetrically arranged on two sides of the rubber movable block (2505), and a second pressing spring (2506) is provided on the slider, and the other end of the second pressing spring (2506) is provided in the sliding groove.

4. The ultra-high-rise unitized curtain wall energy saving system of claim 2, wherein: the inserting plates (2402) correspond to the inserting grooves (21) in arrangement positions and are arranged in the same number, and the cross sections of the inserting plates and the inserting grooves are the same in shape, namely the cross sections of the inserting plates and the inserting grooves are equal in length and width.

5. The ultra-high-rise unitized curtain wall energy saving system of claim 2, wherein: the movable plates (2416) correspond to the movable clamping columns (2409) and the arc chutes (2408) in arrangement position, are arranged in the same number of groups, and are provided with two groups.

6. The ultra-high-rise unitized curtain wall energy saving system of claim 3, wherein: the connecting plate (2503) does circular motion, the grooves (2504) on the connecting plate (2503) correspond to the arrangement positions of the connecting inserting shafts (2411) in the same number, and the length of the notches of the grooves (2504) is equal to the diameter of the connecting inserting shafts (2411).