CN113502925A - Large-span curtain wall combined structure and mounting method thereof - Google Patents

Abstract

The invention discloses a large-span curtain wall combined structure and an installation method thereof, belonging to the technical field of large-span curtain wall installation, the large-span curtain wall combined structure comprises a large steel beam arranged on a wall body and a glass block arranged on the large steel beam, pull rod hole aligning holes and a plurality of groups of bolt hole aligning holes are arranged at equal intervals on the top and the bottom of the large steel beam, one pull rod hole aligning hole corresponds to one group of bolt hole aligning holes, a first machine screw hole is arranged on one side of the large steel beam close to the wall body, a bent steel plate corresponding to the first machine screw hole is arranged on one side of the large steel beam far away from the wall body, and the first machine screw hole and the bent steel plate and the pull rod hole aligning holes and the bolt hole aligning holes are alternately distributed Convenient installation, good coordination, good economical efficiency and good aesthetic property.

Description

Large-span curtain wall combined structure and mounting method thereof

Technical Field

The invention relates to the technical field of installation of large-span curtain walls, in particular to a large-span curtain wall combined structure and an installation method thereof.

Background

The curtain wall span that current general glass curtain wall system can realize is little, and the atress is weak, and the security performance is poor can not adapt to the shortcoming of large-span curtain wall. And the conventional large-span glass curtain wall structure is an aluminum-clad steel upright post or a truss structure, so that the upright post has large depth, is heavy and not attractive, and occupies a large amount of indoor floor space. In conclusion, the existing glass curtain wall system is weak in stress, cannot realize large span, can realize the large-span glass curtain wall system, is large in depth, occupies a large amount of indoor ground, is not attractive and harmonious, and is not economical.

For example, a building structure with a large-piece large-grid large-span curtain wall system needs to be built, the vertical direction of the curtain wall is a large space with 20.8 m and four through layers, no floor slab or structural beam exists between the layers, the distance between structural columns is 8.4 m, the horizontal grid of the curtain wall glass is 1200mm, and the vertical direction of the curtain wall glass is large glass with the height of 5.2 m of the floor, and the structure of the through space structure is transparent. The architect considers the indoor effect and the actual use feeling, and the depth of the indoor curtain wall steel stand column is not too large easily. Aiming at the glass curtain wall system, the traditional conventional glass curtain wall system can not meet the stress requirement, the traditional aluminum-clad steel system is adopted, the stress requirement can be met only by calculating the depth of the upright column by 700-800 mm, the indoor depth is very large, and the glass curtain wall system is very heavy. And the curtain wall occupies a large amount of indoor space, wastes indoor area, is large in indoor upright post, is not harmonious, is not economical and attractive, and cannot meet the requirements of architects on lightness and attractiveness of the curtain wall.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a large-span curtain wall combined structure and an installation method thereof, which can meet the stress of a large-span through high-space curtain wall framework, reduce the occupation of the indoor space of a vertical framework, improve the utilization rate of the indoor area, and have the advantages of reasonable structural stress, convenience in installation, good coordination, good economical efficiency and good attractiveness.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A large-span curtain wall combined structure comprises a glass block, a steel through large cross beam, a plurality of groups of bolt hole pairs, a pull rod hole pair, a first machine screw hole, a bent steel plate, a pull rod hole pair and a bolt hole pair, wherein the steel through large cross beam is arranged on a wall body, the pull rod hole pair and the bolt hole pair are arranged on the top and the bottom sides of the steel through large cross beam at equal intervals, one side of the steel through large cross beam, which is close to the wall body, is provided with a first machine screw hole, one side of the steel through large cross beam, which is far away from the wall body, is provided with a bent steel plate corresponding to the first machine screw hole, the first machine screw hole and the bent steel plate are alternately distributed with the pull rod hole pair and the bolt hole pair, the steel through large cross beam is provided with a support connecting mechanism which is equidistantly distributed and is used for connecting an upper steel through large cross beam and a lower steel through large cross beam and an auxiliary fixing mechanism which is arranged on the two sides of the glass block through the bolt hole pair, the bottom side of the steel through large cross beam is provided with a diagonal support mechanism which is used for assisting the steel through large cross beam, the steel through large beam is also provided with horizontal supporting mechanisms which are distributed at intervals with the auxiliary fixing mechanism and are used for supporting the glass blocks through the first machine wire holes and the bent steel plates, and the horizontal supporting mechanisms are provided with bonding mechanisms used for bonding the glass blocks.

Further, support coupling mechanism including fixing the screw thread knot that corresponds to the hole with the pull rod in the big crossbeam both sides of steel expert, the pull rod is fixed with the connecting rod through the screw thread knot to the hole inside, the both ends of connecting rod are provided with the screw thread, are provided with the pin that is used for fixed connection pole on the screw thread knot and tighten up the screw thread, the both ends threaded connection of connecting rod has the threaded bush, the inside position threaded connection who keeps away from the connecting rod of threaded bush has the pull rod, threaded bush both ends all are provided with the screw fastener who is used for fixed pull rod and connecting rod, the pull rod both ends all are provided with the screw thread, the both ends of pull rod respectively with two threaded bush connections.

Further, the auxiliary fixing mechanism comprises U-shaped aluminum alloy upright post connecting pieces fixed on the upper side and the lower side of the steel through large cross beam through bolts, second machine thread holes are formed in the two sides of the U-shaped aluminum alloy upright post connecting piece below the auxiliary fixing mechanism at equal intervals, machine thread sliding long holes are formed in the two sides of the U-shaped aluminum alloy upright post connecting piece above the auxiliary fixing mechanism at equal intervals, a gasket is arranged between the U-shaped aluminum alloy upright post connecting piece and the steel through large cross beam, bayonets are formed in the two sides of the U-shaped aluminum alloy upright post connecting piece, aluminum alloy sections are clamped on the U-shaped aluminum alloy upright post connecting piece through the bayonets, the aluminum alloy sections and the U-shaped aluminum alloy upright post connecting piece are connected with the bolts or the machine thread sliding long holes through the second machine thread holes, one part of the aluminum alloy sections, which is close to the U-shaped aluminum alloy upright post connecting piece, is in a U shape, the other part of the aluminum alloy sections covers the connecting rod and the U-shaped aluminum alloy upright post connecting piece, the aluminum alloy section is characterized in that an aluminum alloy buckle cover is clamped on one side, close to the wall body, of the aluminum alloy section, a decoration strip buckle cover is arranged on one side, in the shape of a rectangular frame, of the aluminum alloy section, the glass blocks are arranged on two sides, in the shape of the rectangular frame, of the aluminum alloy section and fixed through the decoration strip buckle cover, and buckle plates are arranged on two sides of the decoration strip buckle cover.

Furthermore, the inclined strut mechanism comprises a connecting block fixed on the bottom side of the steel through large cross beam, a T-shaped sliding groove is formed in one side, close to the wall, of the connecting block, a sliding block is connected inside the T-shaped sliding groove in a sliding mode, an inclined strut is fixedly connected to the bottom side of the sliding block, a supporting plate is fixedly connected to one end, far away from the inclined strut, of the inclined strut, and the supporting plate is attached to the wall.

Further, the horizontal supporting mechanism comprises a specially-made pressing code fixed through a first machine screw hole by using a screw nail, two L-shaped base profiles coated on the upper portion and the lower portion of the steel through large cross beam are arranged between the specially-made pressing code and the steel through large cross beam, the L-shaped base profiles are clamped with the specially-made pressing code, a pressing cover is arranged between the two L-shaped base profiles and close to the specially-made pressing code, a front-end profile of the cover is clamped between the other sides of the two L-shaped base profiles, the front-end profile of the cover is connected with the bending steel plate through screws, notches and upper and lower convex teeth are arranged on the front-end profile of the cover, a supporting code is clamped on the front-end profile of the cover through notches and the upper and lower convex teeth, and the glass block is arranged above the supporting code.

Further, bonding mechanism includes the joint board of joint at the support sign indicating number top, the bonding groove has been seted up at the bonding board top, the U-shaped spout has been seted up between bonding tank bottom inner wall and the relative both sides inner wall, bonding inslot portion is provided with the plastic bag, the inside sliding connection of U-shaped spout has the cutting mechanism who is used for cutting the plastic bag.

Furthermore, the cutting mechanism comprises U-shaped sliding frames which are connected to two sides of the U-shaped sliding groove in a damping sliding mode, a knife handle is connected between the two U-shaped sliding frames in a damping sliding mode, a cutting edge is fixedly connected to the bottom side of the knife handle, and the cutting edge is matched with the U-shaped sliding groove.

Furthermore, one side of the glass block close to the steel through large cross beam is provided with a clamping column and a first inserting strip, the clamping column is clamped with upper and lower convex teeth on a profile at the front end of the buckle cover, one side of the aluminum alloy profile close to the glass block is provided with a first clamping strip, the first inserting strip is clamped with the first clamping strip, one side of the glass block, which is far away from the steel through large cross beam, is provided with a second inserting strip, one side of the decoration strip buckle cover, which is close to the glass block, is provided with a second clamping strip, the second inserting strip is clamped with the second clamping strip, and two adjacent glass blocks are sealed by injecting glue.

A method for installing a large-span curtain wall combined structure comprises the following steps:

s1: firstly, inserting a connecting rod into a pull rod hole, tightening a turnbuckle by using a pin on a threaded buckle to fix the pull rod hole, then connecting a threaded sleeve on the connecting rod, fixing the pull rod in the threaded sleeve, and then fixing the pull rod and the connecting rod by using a screw fastener;

s2: the U-shaped aluminum alloy upright post connecting piece is fixed through a bolt, then an aluminum alloy section is clamped on the U-shaped aluminum alloy upright post connecting piece through a bayonet and is connected with the bolt through a second machine wire hole and a bolt or a machine wire sliding long hole, the connecting rod and the U-shaped aluminum alloy upright post connecting piece are coated by the aluminum alloy section, and then an aluminum alloy buckle cover is clamped on the aluminum alloy section;

s3: coating the two L-shaped base profiles on the upper side and the lower side of the steel through large cross beam, then using profile clamping columns at the front ends of the buckling covers and tightly pressing the two L-shaped base profiles, then using special pressing codes and screws to tightly press the other sides of the two L-shaped base profiles, clamping the upper pressing codes and the buckling covers, and then clamping the support codes on the notches and the upper and lower convex teeth on the profile at the front end of the buckling cover;

s4: inserting a sliding block with an inclined stay bar into a T-shaped sliding groove, fixing a steel through large cross beam on a wall body, connecting the other end of a pull rod into another adjacent threaded sleeve, placing a glass block on a support, clamping a clamping column and a first inserting strip on the glass block with an upper convex tooth and a lower convex tooth on a profile at the front end of a buckle cover and a first clamping strip on an aluminum alloy profile respectively, positioning the glass block through the aluminum alloy profiles at two sides, clamping a second clamping strip on the buckle cover of a decoration strip with a second inserting strip on the glass block, clamping the buckle cover of the decoration strip on the front side of the aluminum alloy profile, and gluing and sealing two adjacent glass blocks;

s5: when the glass piece was placed on holding in the palm the sign indicating number, can push down the handle of a knife to drive the cutting edge and cut the plastic bag downwards and open, make the inside glue of plastic bag flow out and bond together with the glass piece, accomplished the installation like this.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme inserts the connecting rod earlier the pull rod to the hole in to use the pin on the screw thread to tighten up the screw thread and fix the pull rod to the hole, later at connecting rod connecting thread sleeve, and fix the pull rod in thread sleeve, later use screw fastener fixed pull rod and connecting rod, and be connected to inside another adjacent thread sleeve with the other end of pull rod, can make the pull rod of below play the supporting role to the steel of top leads to the big crossbeam like this, improves the stability of whole device.

(2) This scheme will have during the slider of diagonal brace inserts T shape spout for the diagonal brace passes through fagging and wall contact, leads to big crossbeam further to support the steel through reaction force, improves the stability of device.

(3) The U-shaped aluminum alloy stand column connecting piece is fixed through the bolt, then the aluminum alloy section is connected to the U-shaped aluminum alloy stand column connecting piece through the bayonet in a clamped mode, the second machine thread hole is connected with the bolt or the machine thread sliding long hole is connected with the bolt, the aluminum alloy section covers the connecting rod and the U-shaped aluminum alloy stand column connecting piece, then the aluminum alloy buckle cover is connected to the aluminum alloy section in a clamped mode, after the glass block is placed on the support, the aluminum alloy section located on two sides of the glass block can play a limiting and fixing role for the glass block, and the glass block is prevented from being tilted.

(4) This scheme is with two L type base section bar cladding downside on the steel leads to the crossbeam, then use buckle closure front end section bar card post and compress tightly two L type base section bars, later use special pressure sign indicating number and screw to press two L type base section bar another sides tightly, and press a yard buckle closure on the joint, later with holding in the palm the sign indicating number joint on notch and the upper and lower convex tooth on the buckle closure front end section bar again, later place the glass piece on the support sign indicating number, can play the horizontal support to the glass piece, make every layer of steel lead to the crossbeam support the glass piece alone, reduce vertical load, the atress that has satisfied the large-span and leads to high space curtain skeleton, the occupation of vertical skeleton indoor space has been reduced, the indoor area utilization ratio has been promoted.

(5) When this scheme glass piece was placed on holding in the palm the sign indicating number, can push down the handle of a knife to drive the cutting edge and cut the plastic bag downwards and open, make the inside glue of plastic bag flow come to bond together with the glass piece, further fix the glass piece.

Drawings

FIG. 1 is a schematic view of the overall mounting structure of the present invention;

FIG. 2 is a schematic view of a partial mounting structure of the present invention;

FIG. 3 is a side view of the FIG. 2 embodiment of the present invention;

FIG. 4 is a schematic cross-sectional structure view of the steel through beam of the invention;

FIG. 5 is a schematic view of the mounting structure of the support connection mechanism and the auxiliary fixing mechanism of the present invention;

FIG. 6 is a schematic top view of the U-shaped aluminum alloy pillar connector of the present invention;

FIG. 7 is a schematic view of a portion of the structure of FIG. 2 according to the present invention;

FIG. 8 is a side view of the FIG. 7 embodiment of the present invention;

FIG. 9 is an enlarged view of the structure of FIG. 8 at A in accordance with the present invention;

FIG. 10 is a bottom view of the structure of FIG. 8;

FIG. 11 is a front view of the horizontal support mechanism of the present invention;

FIG. 12 is a schematic side view of the stacking and bonding mechanism of the present invention;

FIG. 13 is a side view of the portion of FIG. 12;

FIG. 14 is an enlarged view of the structure of FIG. 13 at B in accordance with the present invention;

FIG. 15 is a schematic view of a portion of the structure of the handle and blade of the present invention;

FIG. 16 is a schematic view showing a connecting structure of glass blocks according to the present invention;

FIG. 17 is a side view of the structure of FIG. 16 according to the present invention.

The reference numbers in the figures illustrate:

1. a steel through large cross beam; 2. the pull rod is aligned with the hole; 3. aligning holes by using bolts; 4. a first wire hole; 5. bending the steel plate; 6. u-shaped aluminum alloy upright post connecting pieces; 7. a second wire hole; 8. the machine wire sliding long hole; 9. threading; 10. tightening the turnbuckle by the pin; 11. a connecting rod; 12. a threaded bushing; 13. a pull rod; 14. a bayonet; 15. an aluminum alloy profile; 16. an aluminum alloy buckle cover; 17. buckling a cover with the decorative strip; 18. buckling the plate; 19. connecting blocks; 20. a slider; 21. a diagonal brace; 22. a supporting plate; 23. an L-shaped base profile; 24. specially pressing codes; 25. pressing a code buckle cover; 26. covering the front end section bar; 27. supporting a code; 28. bonding the board; 29. a bonding groove; 30. a U-shaped chute; 31. a plastic bag; 32. a U-shaped sliding frame; 33. a knife handle; 34. a blade; 35. a glass block; 36. clamping the column; 37. a first slip; 38. and a second slip.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Example 1:

referring to fig. 1-17, a large-span curtain wall composite structure comprises a steel through large beam 1 arranged on a wall body and a glass block 35 arranged on the steel through large beam 1, pull rod hole pairs 2 and a plurality of groups of bolt hole pairs 3 are arranged on the top and the bottom of the steel through large beam 1 at equal intervals, one pull rod hole pair 2 corresponds to one group of bolt hole pairs 3, a first machine screw hole 4 is arranged on one side of the steel through large beam 1 close to the wall body, a bent steel plate 5 corresponding to the first machine screw hole 4 is arranged on one side of the steel through large beam 1 away from the wall body, the first machine screw hole 4 and the bent steel plate 5 are alternately distributed with the pull rod hole pairs 2 and the bolt hole pairs 3, a support connecting mechanism which is distributed at equal intervals and is used for connecting the upper and lower steel through large beams 1 and an auxiliary fixing mechanism which is arranged on two sides of the glass block 35 through the bolt hole pairs 3 are arranged on the steel through large beam 1, the bottom side of the large steel tube beam 1 is provided with an inclined support mechanism for assisting in supporting the large steel tube beam 1, the large steel tube beam 1 is further provided with horizontal support mechanisms which are distributed at intervals with the auxiliary fixing mechanism and used for supporting the glass blocks 35 through the first machine wire holes 4 and the bent steel plates 5, and the horizontal support mechanisms are provided with bonding mechanisms used for bonding the glass blocks 35.

Referring to fig. 5, 8 and 9, the supporting and connecting mechanism includes threaded buckles 9 fixed on both sides of the steel through-hole beam 1 corresponding to the pull rod hole pair 2, a connecting rod 11 fixed inside the pull rod hole pair 2 through the threaded buckles 9, threaded threads provided on both ends of the connecting rod 11, a pin tightening threaded buckle 10 for fixing the connecting rod 11 provided on the threaded buckles 9, threaded sleeves 12 threadedly connected to both ends of the connecting rod 11, a pull rod 13 threadedly connected to a position away from the connecting rod 11 inside the threaded sleeves 12, threaded sleeves 12 having screw fasteners for fixing the pull rod 13 and the connecting rod 11 at both ends, threaded threads provided on both ends of the pull rod 13, both ends of the pull rod 13 respectively connected to the two threaded sleeves 12, the connecting rod 11 is inserted into the pull rod hole pair 2 first, and the pull rod hole pair 2 is fixed by using the pin tightening threaded buckles 10 on the threaded buckles 9, and then the threaded sleeves 12 are connected to the connecting rod 11, and the pull rod 13 is fixed in the threaded sleeve 12, then the pull rod 13 and the connecting rod 11 are fixed by using a screw fastener, and the other end of the pull rod 13 is connected to the inside of the other adjacent threaded sleeve 12, so that the pull rod 13 below can support the steel through large beam 1 above, and the stability of the whole device is improved.

Referring to fig. 5, 8 and 9, the auxiliary fixing mechanism comprises U-shaped aluminum alloy upright post connecting pieces 6 fixed on the upper and lower sides of a steel through large beam 1 through bolts, second machine thread holes 7 are arranged on the two sides of the lower U-shaped aluminum alloy upright post connecting piece 6 at equal intervals, machine thread sliding long holes 8 are arranged on the two sides of the upper U-shaped aluminum alloy upright post connecting piece 6 at equal intervals, a gasket is arranged between the U-shaped aluminum alloy upright post connecting piece 6 and the steel through large beam 1, bayonets 14 are arranged on the two sides of the U-shaped aluminum alloy upright post connecting piece 6, an aluminum alloy section 15 is clamped on the U-shaped aluminum alloy upright post connecting piece 6 through the bayonets 14, the aluminum alloy section 15 is connected with the bolts or the machine thread sliding long holes 8 and the bolts through the second machine thread holes 7 between the aluminum alloy section 15 and the U-shaped aluminum alloy upright post connecting piece 6, one part of the aluminum alloy section 15 close to the U-shaped aluminum alloy upright post connecting piece 6 is U-shaped, the other part is rectangular frame-shaped, the connecting rod 11 and the U-shaped aluminum alloy upright post connecting piece 6 are coated by the aluminum alloy section 15, an aluminum alloy buckle cover 16 is clamped on one side of the aluminum alloy section 15 close to the wall body, a decoration strip buckle cover 17 is arranged on one side of the aluminum alloy section 15 in a rectangular frame shape, the glass blocks 35 are arranged on two sides of the rectangular frame shape of the aluminum alloy section 15 and are fixed through the decoration strip buckle cover 17, buckle plates 18 are arranged on two sides of the decoration strip buckle cover 17, the U-shaped aluminum alloy upright post connecting piece 6 is fixed through a bolt, then the aluminum alloy section 15 is clamped on the U-shaped aluminum alloy upright post connecting piece 6 through a bayonet 14, the bolt or a machine wire sliding long hole 8 is connected with the bolt through a second machine wire hole 7, the connecting rod 11 and the U-shaped aluminum alloy upright post connecting piece 6 are coated by the aluminum alloy section 15, then the aluminum alloy buckle cover 16 is clamped on the aluminum alloy section 15, then after the glass blocks 35 are placed on the support 27, the aluminum alloy sections 15 positioned on the two sides of the glass block 35 can play a role in limiting and fixing the glass block 35, so that the glass block 35 is prevented from tilting.

Referring to fig. 2, 7 and 10, the inclined strut mechanism includes a connecting block 19 fixed on the bottom side of the steel through large beam 1, the connecting block 19 is provided with a T-shaped chute on one side close to the wall, a sliding block 20 is slidably connected inside the T-shaped chute, an inclined strut 21 is fixedly connected on the bottom side of the sliding block 20, one end of the inclined strut 21 away from the inclined strut 21 is fixedly connected with a supporting plate 22, the supporting plate 22 is attached to the wall, the sliding block 20 with the inclined strut 21 is inserted into the T-shaped chute, so that the inclined strut 21 contacts with the wall through the supporting plate 22, the steel through large beam 1 is further supported through a reaction force, and the stability of the device is improved.

Referring to fig. 7, 8 and 11, the horizontal supporting mechanism comprises a special pressing bar 24 fixed by screws through a first machine screw hole 4, two L-shaped base profiles 23 coated on the upper and lower sides of a steel through large beam 1 are arranged between the special pressing bar 24 and the steel through large beam 1, the L-shaped base profiles 23 are clamped with the special pressing bar 24, a pressing buckle cover 25 is arranged between the two L-shaped base profiles 23 and close to the special pressing bar 24, a buckle cover front end profile 26 is clamped between the other sides of the two L-shaped base profiles 23, the buckle cover front end profile 26 is connected with a bent steel plate 5 through screws, a notch and upper and lower convex teeth are arranged on the buckle cover front end profile 26, a support 27 is clamped on the buckle cover front end profile 26 through the notch and the upper and lower convex teeth, a glass block 35 is arranged above the support 27, the two L-shaped base profiles 23 are coated on the upper and lower sides of the steel through large beam 1, then the buckle cover front end profile 26 is used for clamping columns and pressing the two L-shaped base profiles 23, then use special pressure sign indicating number 24 and screw to press two another sides of L type base section bar 23 tightly, and press a sign indicating number buckle closure 25 on the joint, later with holding in the palm sign indicating number 27 joint on notch and the upper and lower convex tooth on buckle closure front end section bar 26 again, later place on holding in the palm sign indicating number 27 with glass piece 35, can play the horizontal brace to glass piece 35, make every layer of steel lead to big crossbeam 1 and support glass piece 35 alone, reduce vertical load, the atress that has satisfied the large-span and has led to the high space curtain wall skeleton, the occupation of vertical skeleton indoor space has been reduced, the indoor area utilization ratio has been promoted.

Referring to fig. 12, 13 and 14, the bonding mechanism comprises a bonding plate 28 clamped on the top of the support 27, the top of the bonding plate 28 is provided with a bonding groove 29, a U-shaped sliding groove 30 is arranged between the inner wall of the bottom side of the bonding groove 29 and the inner walls of the two opposite sides, a glue bag 31 is arranged in the bonding groove 29, a cutting mechanism for cutting the glue bag 31 is slidably connected in the U-shaped sliding groove 30, the cutting mechanism comprises U-shaped sliding frames 32 connected on the two sides of the U-shaped sliding groove 30 in a damping sliding manner, a knife handle 33 is slidably connected between the two U-shaped sliding frames 32 in a damping manner, a knife edge 34 is fixedly connected on the bottom side of the knife handle 33, the knife edge 34 is matched with the U-shaped sliding groove 30, when the glass block 35 is placed on the support 27, the knife handle 33 is pressed downwards, and the knife edge 34 is driven to cut the plastic bag 31 downwards, so that the glue inside the plastic bag 31 flows out to be bonded with the glass block 35, and the glass block 35 is further fixed.

Referring to fig. 16 and 17, a clamping column 36 and a first insert 37 are arranged on one side of the glass block 35 close to the steel through large beam 1, the clamping column 36 is clamped with upper and lower convex teeth on the buckle cover front end section 26, a first clamp strip is arranged on one side of the aluminum alloy section 15 close to the glass block 35, the first insert 37 is clamped with the first clamp strip, a second insert 38 is arranged on one side of the glass block 35 away from the steel through large beam 1, a second clamp strip is arranged on one side of the decoration strip buckle cover 17 close to the glass block 35, the second insert 38 is clamped with the second clamp strip, glue is injected between two adjacent glass blocks 35 for sealing, and the glass block 35 is further fixed through clamping of the first insert 37 with the first clamp strip and clamping of the second insert 38 with the second clamp strip.

A method for installing a large-span curtain wall combined structure comprises the following steps:

s1: firstly, inserting a connecting rod 11 into a pull rod hole aligning 2, tightening a turnbuckle 10 by using a pin on a threaded buckle 9 to fix the pull rod hole aligning 2, then connecting a threaded sleeve 12 to the connecting rod 11, fixing a pull rod 13 in the threaded sleeve 12, and then fixing the pull rod 13 and the connecting rod 11 by using a screw fastener;

s2: the U-shaped aluminum alloy upright post connecting piece 6 is fixed through a bolt, then an aluminum alloy section 15 is clamped on the U-shaped aluminum alloy upright post connecting piece 6 through a bayonet 14 and is connected with the bolt or a machine wire sliding long hole 8 through a second machine wire hole 7, the connecting rod 11 and the U-shaped aluminum alloy upright post connecting piece 6 are coated by the aluminum alloy section 15, and then an aluminum alloy buckle cover 16 is clamped on the aluminum alloy section 15;

s3: coating two L-shaped base profiles 23 on the upper side and the lower side of a steel through large cross beam 1, clamping the columns by using a profile 26 at the front end of a buckle cover and pressing the two L-shaped base profiles 23, then pressing the other sides of the two L-shaped base profiles 23 by using a special pressing code 24 and screws, clamping an upper pressing code buckle cover 25, and then clamping a support code 27 on a notch and upper and lower convex teeth on the profile 26 at the front end of the buckle cover;

s4: inserting a sliding block 20 with an inclined stay bar 21 into a T-shaped sliding groove, fixing a steel through large beam 1 on a wall, connecting the other end of a pull rod 13 into another adjacent threaded sleeve 12, placing a glass block 35 on a support 27, clamping a clamping column 36 and a first insertion strip 37 on the glass block 35 with an upper convex tooth and a lower convex tooth on a buckle cover front end section 26 and a first insertion strip on an aluminum alloy section 15 respectively, positioning the glass block through the aluminum alloy sections 15 on two sides, clamping a second insertion strip on a decorative strip buckle cover 17 with a second insertion strip 38 on the glass block 35, clamping the decorative strip buckle cover 17 on the front side of the aluminum alloy section, and gluing and sealing two adjacent glass blocks 35;

s5: when the glass block 35 is placed on the support 27, the knife handle 33 is pressed downwards, and the knife edge 34 is driven to cut the plastic bag 31 downwards, so that the glue inside the plastic bag 31 flows out to be bonded with the glass block 35, and the installation is completed.

When in use: the hole 2 and the hole 3 are aligned through the pull rod, the first machine screw hole 4 and the bent steel plate 5 support the connecting mechanism, the auxiliary fixing mechanism and the horizontal supporting mechanism are fixed on the steel through large beam 1, the inclined supporting mechanism is installed well, the steel through large beam 1 is fixed on a wall, the glass block 35 is arranged on the horizontal supporting mechanism, the glass block 35 is further fixed through the bonding mechanism, the decorative strip buckling cover 17 is clamped to the front side of the aluminum alloy section, and the two adjacent glass blocks 35 are glued and sealed, so that each layer of steel through large beam 1 supports the glass block 35 independently, the vertical load is reduced, the stress of a large-span through high-space curtain wall framework is met, the occupation of the indoor space of the vertical framework is reduced, and the indoor area utilization rate is improved.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (9)

1. The utility model provides a large-span curtain integrated configuration, including setting up glass piece (35) on the big crossbeam of steel expert (1) on the wall body, the equidistant pull rod of having seted up of the big crossbeam of steel expert (1) top and bottom side is to hole (2) and multiunit bolt to hole (3), and a pull rod corresponds a set of bolt to hole (3) to hole (2), first screw hole (4) have been seted up to one side that the big crossbeam of steel expert (1) is close to the wall body, one side that the big crossbeam of steel expert (1) deviates from the wall body is provided with and is to hole (4) corresponding steel sheet (5) of bending of first screw hole (4), first screw hole (4) and steel sheet (5) of bending and pull rod are to hole (2) and bolt (3) distribution in turn, its characterized in that: the glass block fixing device is characterized in that a supporting and connecting mechanism which is used for connecting an upper steel through large cross beam (1) and a lower steel through large cross beam (1) and is equidistantly distributed and an auxiliary fixing mechanism which is used for fixing two sides of a glass block (35) and is arranged in a hole (3) through a bolt are arranged on the steel through large cross beam (1), an inclined supporting mechanism which is used for auxiliary supporting of the steel through large cross beam (1) is arranged on the bottom side of the steel through large cross beam (1), a horizontal supporting mechanism which is used for supporting the glass block (35) and is distributed at intervals with the auxiliary fixing mechanism is further arranged on the steel through large cross beam (1) through a first machine wire hole (4) and a bending steel plate (5), and the horizontal supporting mechanism is provided with a bonding mechanism which is used for bonding the glass block (35).

2. The large-span curtain wall composite structure of claim 1, wherein: the supporting and connecting mechanism comprises screw threads (9) which are fixed on both sides of the steel through large cross beam (1) and correspond to the pull rod hole pair (2), a connecting rod (11) is fixed in the pull rod hole (2) through a screw thread (9), both ends of the connecting rod (11) are provided with screw threads, the screw thread (9) is provided with a pin tightening screw thread (10) for fixing the connecting rod (11), both ends of the connecting rod (11) are in threaded connection with threaded sleeves (12), the position inside the threaded sleeves (12) far away from the connecting rod (11) is in threaded connection with a pull rod (13), both ends of the threaded sleeve (12) are provided with screw fasteners for fixing the pull rod (13) and the connecting rod (11), both ends of the pull rod (13) are provided with screw threads, and both ends of the pull rod (13) are connected with the two threaded sleeves (12) respectively.

3. The large-span curtain wall composite structure of claim 2, wherein: the auxiliary fixing mechanism comprises U-shaped aluminum alloy upright post connecting pieces (6) fixed on the upper side and the lower side of a steel through large cross beam (1) through bolts, second machine thread holes (7) are formed in the two sides of the U-shaped aluminum alloy upright post connecting piece (6) on the lower side at equal intervals, machine thread sliding long holes (8) are formed in the two sides of the U-shaped aluminum alloy upright post connecting piece (6) on the upper side at equal intervals, a gasket is arranged between the U-shaped aluminum alloy upright post connecting piece (6) and the steel through large cross beam (1), bayonets (14) are formed in the two sides of the U-shaped aluminum alloy upright post connecting piece (6), aluminum alloy sections (15) are clamped in the U-shaped aluminum alloy upright post connecting piece (6) through the bayonets (14), the aluminum alloy sections (15) are connected with the bolts or the machine thread sliding long holes (8) are connected with the bolts through the second machine thread holes (7) between the aluminum alloy sections (15) and the U-shaped aluminum alloy upright post connecting piece (6), aluminum alloy ex-trusions (15) are close to U type aluminum alloy stand connecting piece (6) partly and are the U-shaped, and another part is long square frame shape, aluminum alloy ex-trusions (15) are with connecting rod (11) and U type aluminum alloy stand connecting piece (6) cladding, one side joint that aluminum alloy ex-trusions (15) are close to the wall body has aluminum alloy buckle closure (16), one side that aluminum alloy ex-trusions (15) are long square frame shape is provided with ornamental strip buckle closure (17), glass piece (35) set up the both sides at the long square frame shape of aluminum alloy ex-trusions (15) to it is fixed through ornamental strip buckle closure (17), ornamental strip buckle closure (17) both sides are provided with buckle (18).

4. The large-span curtain wall composite structure of claim 1, wherein: the inclined strut mechanism comprises a connecting block (19) fixed to the bottom side of the steel through large cross beam (1), a T-shaped sliding groove is formed in one side, close to the wall, of the connecting block (19), a sliding block (20) is connected to the inside of the T-shaped sliding groove in a sliding mode, an inclined strut (21) is fixedly connected to the bottom side of the sliding block (20), a supporting plate (22) is fixedly connected to one end, far away from the inclined strut (21), of the inclined strut (21), and the supporting plate (22) is attached to the wall.

5. The large-span curtain wall composite structure of claim 1, wherein: the horizontal supporting mechanism comprises a special pressing code (24) fixed by a screw through a first machine screw hole (4), two L-shaped base section bars (23) which are coated on the upper part and the lower part of the steel through large cross beam (1) are arranged between the special pressing codes (24) and the steel through large cross beam (1), the L-shaped base profiles (23) are clamped with the specially-made pressing codes (24), a pressing code buckle cover (25) is arranged between the two L-shaped base profiles (23) and close to the specially-made pressing codes (24), a buckle cover front end profile (26) is clamped between the other sides of the two L-shaped base profiles (23), the front end section bar (26) of the buckle cover is connected with the bending steel plate (5) through a screw, the glass block is characterized in that a notch and upper and lower convex teeth are arranged on the buckle cover front end section (26), a support code (27) is clamped on the buckle cover front end section (26) through the notch and the upper and lower convex teeth, and the glass block (35) is arranged above the support code (27).

6. The large-span curtain wall composite structure of claim 5, wherein: the bonding mechanism comprises a bonding plate (28) clamped at the top of the support (27), a bonding groove (29) is formed in the top of the bonding plate (28), a U-shaped sliding groove (30) is formed between the inner wall of the bottom side of the bonding groove (29) and the inner walls of the two opposite sides of the bonding groove, a glue bag (31) is arranged inside the bonding groove (29), and a cutting mechanism used for cutting the glue bag (31) is connected inside the U-shaped sliding groove (30) in a sliding mode.

7. The large-span curtain wall composite structure of claim 6, wherein: the cutting mechanism comprises U-shaped sliding frames (32) which are connected to two sides of the U-shaped sliding groove (30) in a damping sliding mode, a knife handle (33) is connected between the U-shaped sliding frames (32) in a damping sliding mode, a cutting edge (34) is fixedly connected to the bottom side of the knife handle (33), and the cutting edge (34) is matched with the U-shaped sliding groove (30).

8. The large-span curtain wall composite structure of claim 3, wherein: one side of the glass block (35) close to the steel through large beam (1) is provided with a clamping column (36) and a first inserting strip (37), the clamping column (36) is clamped with upper and lower convex teeth on the buckle cover front end section bar (26), one side of the aluminum alloy section bar (15) close to the glass block (35) is provided with the first clamping strip, the first inserting strip (37) is clamped with the first clamping strip, one side of the glass block (35) departing from the steel through large beam (1) is provided with a second inserting strip (38), one side of the buckle cover (17) close to the glass block (35) is provided with a second clamping strip, the second inserting strip (38) is clamped with the second clamping strip, and two adjacent glass blocks (35) are sealed by injecting glue.

9. The mounting method of the large-span curtain wall combined structure is characterized by comprising the following steps of: the large-span curtain wall combined structure comprises the large-span curtain wall combined structure as claimed in any one of claims 1 to 8, and comprises the following steps:

s1: firstly, a connecting rod (11) is inserted into a pull rod hole aligning hole (2), a pin on a thread buckle (9) is used for tightening a screw buckle (10) to fix the pull rod hole aligning hole (2), then a threaded sleeve (12) is connected with the connecting rod (11), a pull rod (13) is fixed in the threaded sleeve (12), and then a screw fastener is used for fixing the pull rod (13) and the connecting rod (11);

s2: the U-shaped aluminum alloy upright post connecting piece (6) is fixed through a bolt, then an aluminum alloy section (15) is clamped on the U-shaped aluminum alloy upright post connecting piece (6) through a bayonet (14) and is connected with the bolt or a machine wire sliding long hole (8) and the bolt through a second machine wire hole (7), the connecting rod (11) and the U-shaped aluminum alloy upright post connecting piece (6) are coated by the aluminum alloy section (15), and then an aluminum alloy buckle cover (16) is clamped on the aluminum alloy section (15);

s3: coating two L-shaped base profiles (23) on the upper side and the lower side of a steel through large cross beam (1), clamping columns by using a buckle cover front end profile (26) and pressing the two L-shaped base profiles (23), then pressing the other sides of the two L-shaped base profiles (23) by using a special pressing code (24) and a screw, clamping a pressing code buckle cover (25), and then clamping a support code (27) on a notch and upper and lower convex teeth on the buckle cover front end profile (26);

s4: inserting a sliding block (20) with an inclined stay bar (21) into a T-shaped sliding groove, fixing a steel through large beam (1) on a wall, connecting the other end of a pull rod (13) into another adjacent threaded sleeve (12), placing a glass block (35) on a support (27), clamping a clamping column (36) and a first inserting strip (37) on the glass block (35) with an upper convex tooth and a lower convex tooth on a profile (26) at the front end of a buckle cover and a first clamping strip on an aluminum alloy profile (15) respectively, positioning the glass block through the aluminum alloy profiles (15) on two sides, clamping a second clamping strip on the buckle cover (17) with a second inserting strip (38) on the glass block (35), clamping the buckle cover (17) of the decorative strip to the front side of the aluminum alloy profile, and gluing and sealing two adjacent glass blocks (35);

s5: when the glass block (35) is placed on the support (27), the knife handle (33) is pressed downwards, the knife edge (34) is driven to cut the glue bag (31) downwards, glue in the glue bag (31) flows out to be bonded with the glass block (35), and therefore installation is completed.

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