CN115419208B - Integrated wallboard for assembled building - Google Patents

Integrated wallboard for assembled building Download PDF

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Publication number
CN115419208B
CN115419208B CN202210826997.0A CN202210826997A CN115419208B CN 115419208 B CN115419208 B CN 115419208B CN 202210826997 A CN202210826997 A CN 202210826997A CN 115419208 B CN115419208 B CN 115419208B
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China
Prior art keywords
cold
section steel
formed thin
wall section
fixedly connected
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CN202210826997.0A
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Chinese (zh)
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CN115419208A (en
Inventor
楼矗云
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PowerChina Guiyang Engineering Corp Ltd
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PowerChina Guiyang Engineering Corp Ltd
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Priority to CN202210826997.0A priority Critical patent/CN115419208B/en
Publication of CN115419208A publication Critical patent/CN115419208A/en
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04CSTRUCTURAL ELEMENTS; BUILDING MATERIALS
    • E04C2/00Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
    • E04C2/02Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials
    • E04C2/04Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of concrete or other stone-like material; of asbestos cement; of cement and other mineral fibres
    • E04C2/044Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of concrete or other stone-like material; of asbestos cement; of cement and other mineral fibres of concrete
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/38Connections for building structures in general
    • E04B1/61Connections for building structures in general of slab-shaped building elements with each other
    • E04B1/6108Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together
    • E04B1/612Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces
    • E04B1/6125Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces with protrusions on the one frontal surface co-operating with recesses in the other frontal surface
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/38Connections for building structures in general
    • E04B1/61Connections for building structures in general of slab-shaped building elements with each other
    • E04B1/6108Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together
    • E04B1/612Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces
    • E04B1/6125Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces with protrusions on the one frontal surface co-operating with recesses in the other frontal surface
    • E04B1/6141Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces with protrusions on the one frontal surface co-operating with recesses in the other frontal surface the connection made by an additional locking key
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/62Insulation or other protection; Elements or use of specified material therefor
    • E04B1/66Sealings
    • E04B1/68Sealings of joints, e.g. expansion joints
    • E04B1/6801Fillings therefor
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04CSTRUCTURAL ELEMENTS; BUILDING MATERIALS
    • E04C2/00Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
    • E04C2/02Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials
    • E04C2/04Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of concrete or other stone-like material; of asbestos cement; of cement and other mineral fibres
    • E04C2/06Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of concrete or other stone-like material; of asbestos cement; of cement and other mineral fibres reinforced
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04CSTRUCTURAL ELEMENTS; BUILDING MATERIALS
    • E04C2/00Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
    • E04C2/30Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04CSTRUCTURAL ELEMENTS; BUILDING MATERIALS
    • E04C2/00Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
    • E04C2/30Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure
    • E04C2/38Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure with attached ribs, flanges, or the like, e.g. framed panels
    • E04C2/384Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure with attached ribs, flanges, or the like, e.g. framed panels with a metal frame

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Building Environments (AREA)
  • Joining Of Building Structures In Genera (AREA)

Abstract

The invention discloses an integrated wallboard for an assembled building, which comprises a first cold-formed thin-wall section steel and a second cold-formed thin-wall section steel which are arranged in parallel, wherein a plurality of reinforcing ribs are fixedly connected between the two section steels, lightweight aggregate concrete is poured between the two section steels, two first wedge blocks are fixedly arranged on the outer wall of the first cold-formed thin-wall section steel at intervals, a trapezoid block is fixedly connected on the first cold-formed thin-wall section steel between the two first wedge blocks, a groove matched with the trapezoid block is formed on the outer wall of the second cold-formed thin-wall section steel, two second wedge blocks are in limiting sliding connection on the second cold-formed thin-wall section steel, the two first wedge blocks are respectively and intermittently abutted against the two second wedge blocks, inclined rods are fixedly connected on the two second wedge blocks, and insertion holes matched with the two inclined rods are formed in the trapezoid block. The wallboard structure is convenient to install and detach, has a good sealing effect, and accelerates the curing effect of the foaming adhesive.

Description

Integrated wallboard for assembled building
Technical Field
The invention relates to an integrated wallboard for an assembled building, and belongs to the field of municipal building.
Background
The patent with the publication number of CN112127560A discloses an assembled wallboard, which comprises a plurality of wallboard components, can dismantle between the adjacent wallboard components and be connected, form an holistic wallboard, the upper and lower both ends of wallboard are equipped with detachable upper mounting beam and lower mounting beam respectively, and upper mounting beam comprises a plurality of sections with lower mounting beam, connects through the dovetail between every section adjacent mounting beam subassembly, and the both sides of wallboard are equipped with the side fixed plate. The invention divides the whole structure into convenient transportation and storage of building materials; the mounting beam components are connected through dovetail grooves, so that rapid positioning between the mounting beam components is facilitated, and the assembly efficiency is improved; the wall board adopts a double stable structure, is simple in integral assembly and stable in structure.
Although the installation of wallboard can be convenient for to above-mentioned patent, it is comparatively troublesome when the wallboard needs to dismantle, and does not have sealing measure between the wallboard, needs the manual gap of junction to beat the foaming glue of later stage manual work.
Disclosure of Invention
The invention aims to provide an integrated wallboard for an assembled building. The wallboard structure is convenient to install and detach, has a good sealing effect, and accelerates the curing effect of the foaming adhesive.
The technical scheme of the invention is as follows: the utility model provides an integration wallboard for assembled building, including parallel arrangement's first cold-formed thin wall shaped steel and second cold-formed thin wall shaped steel, fixedly connected with a plurality of strengthening ribs between two shaped steel, and still pour lightweight aggregate concrete between the two, the interval is fixed with two first voussoirs on the first cold-formed thin wall shaped steel outer wall, fixedly connected with trapezoidal piece on the first cold-formed thin wall shaped steel between two first voussoirs, set up on the second cold-formed thin wall shaped steel outer wall with trapezoidal piece complex groove, spacing sliding connection has two second voussoirs on the second cold-formed thin wall shaped steel, two first voussoirs can offset with two second voussoirs respectively, equal fixedly connected with diagonal bar on two second voussoirs, trapezoidal piece offer with two diagonal bar complex jack.
In the integrated wallboard for the fabricated building, the through hole is formed in the surface of the second cold-formed thin-wall section steel and is slidably connected with the limiting rod through the through hole, the limiting rod is sleeved with the tension spring, two ends of the tension spring are fixedly connected with the second cold-formed thin-wall section steel and the limiting rod respectively, the two second wedge blocks are fixedly connected with rectangular strips, the two rectangular strips are slidably connected with the limiting rod, the trapezoidal block is provided with the locking hole, and the two rectangular strips are provided with two through grooves which can be overlapped for the limiting rod to be inserted into the locking hole.
In the integrated wallboard for the fabricated building, the two second wedges are fixedly connected with the guide rods, the guide rods are slidably connected in the second cold-formed thin-wall section steel, the guide rods are sleeved with the first springs, and two ends of the first springs are respectively propped against the second wedges and the second cold-formed thin-wall section steel.
In the integrated wallboard for the fabricated building, a plurality of first positioning inserting rods are fixedly connected to the side surface of the first cold-formed thin-wall section steel, second positioning inserting rods are fixedly connected to the side surface of the second cold-formed thin-wall section steel, jacks matched with the second positioning inserting rods are formed in the first cold-formed thin-wall section steel, and jacks matched with the first positioning inserting rods are formed in the second cold-formed thin-wall section steel.
In the integrated wallboard for the fabricated building, the second cold-formed thin-walled steel is provided with the sealing mechanism for sealing the contact part between the first cold-formed thin-walled steel and the second cold-formed thin-walled steel, the sealing mechanism comprises two first piston cylinders symmetrically arranged on the second cold-formed thin-walled steel, foaming glue is filled in the two first piston cylinders, the two first piston cylinders are internally and slidably connected with the first piston plates, the two second wedge blocks are fixedly connected with piston rods, and one ends, far away from the second wedge blocks, of the two piston rods are respectively and fixedly connected with the two first piston plates.
In the integrated wallboard for the fabricated building, the sealing mechanism further comprises a plurality of glue outlets formed in the second cold-formed thin-wall section steel, the glue outlets are mutually communicated, the two first piston cylinders are fixedly connected with glue outlets and are respectively communicated with two uppermost parts and two bottommost parts of the glue outlets formed in the second cold-formed thin-wall section steel through the two glue outlets.
In the integrated wallboard for the fabricated building, the sealing mechanism is provided with the accelerating mechanism for quickly solidifying the foaming glue flowing out of the glue outlet hole, the accelerating mechanism comprises a second piston cylinder fixedly connected in the trapezoid block, water is filled in the second piston cylinder, a second piston plate is slidably connected in the second piston cylinder, a second spring is arranged in a cavity between the second piston plate and the second piston cylinder, two ends of the second spring are fixedly connected with the second piston plate and the second piston cylinder respectively, and the limiting rod can be propped against the second piston plate.
In the integrated wallboard for the fabricated building, the accelerating mechanism further comprises a plurality of water spraying holes formed in the first cold-formed thin-wall section steel, the water spraying holes are mutually communicated, the water outlet pipe is fixedly connected to the second piston cylinder, and the second piston cylinder is communicated with the uppermost one of the water spraying holes formed in the first cold-formed thin-wall section steel through the water outlet pipe.
In the integrated wallboard for the fabricated building, the second piston cylinder and the locking hole on the trapezoid block are positioned on the same axis, and the diameter of the locking hole is smaller than that of the second piston plate.
In the integrated wallboard for the fabricated building, the tension of the tension spring is greater than the elasticity of the second spring.
The invention has the beneficial effects that: compared with the prior art, the integrated wallboard structure has the following advantages:
1. according to the invention, the first cold-formed thin-wall section steel and the second cold-formed thin-wall section steel are fixedly connected by adopting the reinforcing ribs, and the lightweight aggregate concrete is filled between the first cold-formed thin-wall section steel and the second cold-formed thin-wall section steel, so that the cold-formed thin-wall section steel structure can be applied to multi-layer buildings, and the application limit of the cold-formed thin-wall section steel structure is broken through.
2. According to the invention, the trapezoid block is embedded into the second cold-formed thin-wall section steel, the inclined rod on the second wedge block is inserted into the hole on the trapezoid block, and meanwhile, when the trapezoid block is completely embedded into the second cold-formed thin-wall section steel, the limit rod is inserted into the locking hole on the trapezoid block, so that the effect of convenient disassembly and assembly of the wallboard is achieved.
3. According to the invention, when the two second wedge blocks are close to each other, the foaming glue flows out from the glue outlet hole to the space between the first cold-formed thin-wall section steel and the second cold-formed thin-wall section steel for filling, so that the connection between the two modules is more intimate, and the waterproof, windproof and soundproof effects are achieved.
4. According to the invention, the second piston plate is pushed while the limiting rod is inserted into the locking hole, so that water in the second piston cylinder is sprayed out from the water spraying hole and contacts with the foaming glue, and the effect of accelerating the solidification of the foaming glue is achieved.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the structure of the reinforcing bars of the present invention;
FIG. 3 is a schematic view of the structure at a trapezoidal block in the present invention;
FIG. 4 is a schematic view of the structure of the portion A in FIG. 3 according to the present invention;
FIG. 5 is a schematic view of a seal mechanism of the present invention;
FIG. 6 is an enlarged view of a portion of FIG. 5 at B;
FIG. 7 is a second schematic structural view of the sealing mechanism of the present invention;
FIG. 8 is an enlarged view of a portion of FIG. 7 at C;
fig. 9 is a schematic view of the structure of the acceleration mechanism of the present invention.
In the figure: 1. lightweight aggregate concrete; 11. reinforcing ribs; 2. a first cold-formed thin-walled steel; 201. a first positioning plunger; 21. a trapezoid block; 22. a first wedge; 23. a locking hole; 3. a second cold-formed thin-walled steel; 301. a second positioning plunger; 31. a second wedge; 32. a diagonal rod; 33. a guide rod; 34. a first spring; 35. a limit rod; 36. a tension spring; 37. a rectangular bar; 38. a through groove; 4. a second piston cylinder; 41. a second spring; 42. a second piston plate; 43. a water outlet pipe; 44. a water spraying hole; 5. a first piston cylinder; 51. a piston rod; 52. a first piston plate; 53. a rubber outlet pipe; 54. and (5) a glue outlet hole.
Detailed Description
The invention is further illustrated by the following figures and examples, which are not intended to be limiting.
Embodiments of the invention: the utility model provides an integrated wallboard for assembled building, as shown in fig. 1-9, including parallel arrangement's first cold-formed thin-wall section steel 2 and second cold-formed thin-wall section steel 3, fixedly connected with a plurality of mutually parallel has strengthening rib 11 between first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, and pour lightweight aggregate concrete 1 between first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, fixedly connected with trapezium piece 21 on the side of first cold-formed thin-wall section steel 2, be located the upper portion and the lower part symmetry fixedly connected with two first voussoirs 22 of trapezium piece 21 on the first cold-formed thin-wall section steel 2, set up on the side of second cold-formed thin-wall section steel 3 with trapezium piece 21 complex groove, spacing sliding connection has two second voussoirs 31 on the second cold-formed thin-wall section steel 3, two first voussoirs 22 can offset with two second voussoirs 31 respectively, all fixedly connected with diagonal bar 32 on two second voussoir 21, offer the jack with two diagonal bar 32 on the trapezium piece 21.
The first cold-formed thin-walled steel 2, the second cold-formed thin-walled steel 3, the reinforcing ribs 11 and the lightweight aggregate concrete 1 are manufactured as a module, so that the module is convenient to install and splice when applied to buildings. When the splicing is carried out, the modules are hoisted, the first cold-formed thin-wall section steel 2 on one module and the second cold-formed thin-wall section steel 3 on the other module are mutually close, along with the approaching of the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, the first wedge block 22 on the first cold-formed thin-wall section steel 2 is firstly contacted with the second wedge block 31 on the second cold-formed thin-wall section steel 3, along with the continued approaching of the first cold-formed thin-wall section steel 2 to the second cold-formed thin-wall section steel 3, the first wedge block 22 can extrude the second wedge block 31 and push the second wedge block 31, so that the two second wedge blocks 31 are mutually close, at the moment, the trapezoid block 21 is also in the moving process of approaching to the second cold-formed thin-wall section steel 3, and then the inclined rods 32 on the two second wedge blocks 31 can be inserted into the insertion holes on the trapezoid block 21, and along with the continued approaching of the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, the final inclined rods 32 can be completely inserted into the trapezoid block 21, and the connection and fixation between the two modules are completed.
The second cold-formed thin-wall section steel 3 is provided with a through hole and is connected with a limit rod 35 in a sliding manner through the through hole, the limit rod 35 is sleeved with a tension spring 36, two ends of the tension spring 36 are respectively fixedly connected with the second cold-formed thin-wall section steel 3 and the limit rod 35, two second wedge blocks 31 are fixedly connected with rectangular strips 37, the two rectangular strips 37 are connected with the limit rod 35 in a sliding manner, the trapezoid block 21 is provided with a locking hole 23, and the two rectangular strips 37 are provided with two through grooves 38 which can be overlapped for the limit rod 35 to be inserted into the locking hole 23.
The rectangular strips 37 on the two second wedges 31 can slide relatively in the process of approaching the two second wedges 31, and the through grooves 38 on the two rectangular strips 37 can be finally overlapped with each other along with the continued approaching of the two second wedges 31, and the trapezoidal blocks 21 can be operated to the position of the limit rod 35 before the through grooves 38 on the two rectangular strips 37 are completely overlapped, so that the trapezoidal blocks 21 can bear the limit rod 35, and the limit rod 35 is positioned at the same axial position as the locking holes 23 on the trapezoidal blocks 21 when the trapezoidal blocks 21 continue to move into the grooves on the second cold-formed thin-wall section steel 3 and are completely embedded into the grooves on the second cold-formed thin-wall section steel 3, and then the limit rod 35 can be inserted into the locking holes 23 on the trapezoidal blocks 21 under the action of the tension springs 36, so that the connection between the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3 on the two modules is fixed.
The two second wedges 31 are fixedly connected with guide rods 33, the guide rods 33 are slidably connected in the second cold-formed thin-wall section steel 3, the guide rods 33 are sleeved with first springs 34, and two ends of each first spring 34 are respectively abutted against the second wedges 31 and the second cold-formed thin-wall section steel 3.
The guide rod 33 plays a guiding role in sliding of the second wedge block 31, and meanwhile, the first spring 34 sleeved on the guide rod 33 can prevent the second wedge block 31 from sliding relatively on the second cold-formed thin-wall section steel 3 in the transportation process to influence later splicing.
The first positioning inserting rod 201 is fixedly connected to the first cold-formed thin-wall section steel 2, the second positioning inserting rod 301 is fixedly connected to the second cold-formed thin-wall section steel 3, the first cold-formed thin-wall section steel 2 is provided with an inserting hole matched with the second positioning inserting rod 301, and the second cold-formed thin-wall section steel 3 is provided with an inserting hole matched with the first positioning inserting rod 201.
When the first cold-formed thin-wall section steel 2 approaches the second cold-formed thin-wall section steel 3, the trapezoidal blocks 21 and the first wedge blocks 22 which are positioned on the first cold-formed thin-wall section steel 2 can move along with the first cold-formed thin-wall section steel 2 into the grooves which are formed on the second cold-formed thin-wall section steel 3 and are matched with the trapezoidal blocks 21, and before that, the first positioning inserting rods 201 on the first cold-formed thin-wall section steel 2 are aligned with the inserting holes on the second cold-formed thin-wall section steel 3 and inserted, the second positioning inserting rods 301 on the second cold-formed thin-wall section steel 3 are aligned with the inserting holes on the first cold-formed thin-wall section steel 2 and inserted, so that the trapezoidal blocks 21 can be ensured not to deviate from the grooves which are matched with the trapezoidal blocks 21 on the second cold-formed thin-wall section steel 3.
As shown in fig. 5 to 9, a sealing mechanism for sealing a contact part between the first cold-formed thin-walled steel 2 and the second cold-formed thin-walled steel 3 is arranged on the second cold-formed thin-walled steel 3, the sealing mechanism comprises two first piston cylinders 5 symmetrically arranged on the second cold-formed thin-walled steel 3, foaming glue is filled in the two first piston cylinders 5, first piston plates 52 are slidably connected in the two first piston cylinders 5, piston rods 51 are fixedly connected to the two second wedges 31, and one ends, far away from the second wedges 31, of the two piston rods 51 are fixedly connected to the two first piston plates 52 respectively.
The two first wedges 22 push the two second wedges 31 to make the two second wedges 31 approach each other and simultaneously make the two piston rods 51 fixedly connected with the two second wedges 31 separate from the corresponding first piston cylinders 5, at this time, the first piston plates 52 fixedly connected with the piston rods 51 slide in a direction separating from the corresponding first piston cylinders 5, so that the foaming glue in the first piston cylinders 5 has flowing power.
The sealing mechanism further comprises a plurality of glue outlet holes 54 formed in the second cold-formed thin-wall section steel 3, the glue outlet holes 54 are communicated with each other, and the two first piston cylinders 5 are fixedly connected with glue outlet pipes 53 and are respectively communicated with the uppermost part and the lowermost part of the glue outlet holes 54 formed in the second cold-formed thin-wall section steel 3 through the two glue outlet pipes 53.
The foaming glue in the first piston cylinder 5 is pushed by the first piston plate 52 to flow out from the first piston cylinder 5 to the uppermost and lowermost glue outlet holes 54 formed in the second cold-formed thin-wall section steel 3 through the glue outlet pipe 53, and the glue outlet holes 54 on the second cold-formed thin-wall section steel 3 are mutually communicated, so that the foaming glue can flow out from the glue outlet holes 54 when the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3 are stuck together, and the first piston cylinder 5 is provided with two foaming glue spraying quantities, so that the foaming glue can be fully filled between the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, the connection between the two modules is more intimate, and the waterproof, windproof and soundproof effects are achieved.
The sealing mechanism is provided with an accelerating mechanism for quickly solidifying the foaming glue flowing out of the glue outlet hole 54, the accelerating mechanism comprises a second piston cylinder 4 fixedly connected in the trapezoid block 21, water is filled in the second piston cylinder 4, a second piston plate 42 is slidably connected in the second piston cylinder 4, a second spring 41 is arranged in a cavity between the second piston plate 42 and the second piston cylinder 4, two ends of the second spring 41 are fixedly connected with the second piston plate 42 and the second piston cylinder 4 respectively, and the limiting rod 35 can be propped against the second piston plate 42.
The trapezoid block 21 completely enters the groove of the second cold-formed thin-wall section steel 3 while the first cold-formed thin-wall section steel 2 is attached to the second cold-formed thin-wall section steel 3, and then the limit rod 35 is inserted into the locking hole 23 on the trapezoid block 21, and then the limit rod 35 can push the second piston plate 42 in the second piston cylinder 4, so that the second piston plate 42 overcomes the elasticity of the second spring 41 to slide into the second piston cylinder 4, and water in the second piston cylinder 4 has flowing power.
The accelerating mechanism further comprises a plurality of water spray holes 44 formed in the first cold-formed thin-wall section steel 2, the water spray holes 44 are communicated with each other, and the second piston cylinder 4 is fixedly connected with a water outlet pipe 43 and is communicated with the uppermost one of the water spray holes 44 formed in the first cold-formed thin-wall section steel 2 through the water outlet pipe 43.
The water in the second piston cylinder 4 is pushed by the second piston plate 42 to flow out into the water spraying holes 44 formed in the first cold-formed thin-wall section steel 2 through the water outlet pipe 43, the water spraying holes 44 are provided with a plurality of water spraying holes 44 which are mutually communicated, the water in the second piston cylinder 4 can be sprayed out from the water spraying holes 44, the water spraying holes 44 and the glue outlet holes 54 are respectively arranged on the contact surfaces of the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, the foaming glue is sprayed out from the glue outlet holes 54 to fill the space between the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, and then the water is sprayed out from the water spraying holes 44 on the first cold-formed thin-wall section steel 2 and contacts the foaming glue, so that the foaming glue can be rapidly solidified at the moment.
The second piston cylinder 4 is co-axial with the locking hole 23 on the trapezoid block 21, the diameter of the locking hole 23 being smaller than the diameter of the second piston plate 42.
The second piston cylinder 4 is arranged at a position coaxial with the locking hole 23, so that the second piston plate 42 can be pushed into the second piston cylinder 4 while the limit rod 35 is inserted into the locking hole 23, and the second piston plate 42 can be prevented from being pulled out of the second piston cylinder 4 by the fact that the diameter of the locking hole 23 is smaller than that of the second piston plate 42.
The tension of the tension spring 36 is greater than the elastic force of the second spring 41.
The second spring 41 is arranged to ensure that the second piston plate 42 does not slide into the second piston cylinder 4 under the condition of no external force, so that water in the second piston cylinder 4 does not flow out when not needed, and the tension of the tension spring 36 is larger than the elasticity of the second spring 41, so that the limit rod 35 can ensure enough force to push the second piston plate 42 into the second piston cylinder 4.
During operation, the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3 are fixedly connected through the reinforcing ribs 11, and the lightweight aggregate concrete 1 is filled between the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, so that the cold-formed thin-wall section steel structure can be applied to multi-layer buildings, and the application limit of the cold-formed thin-wall section steel structure is broken through.
The first cold-formed thin-wall section steel 2, the second cold-formed thin-wall section steel 3, the reinforcing ribs 11 and the lightweight aggregate concrete 1 are manufactured into a module, so that the module is convenient to install and splice when the module is applied to a building, and the module is hoisted when the module is spliced, so that the first cold-formed thin-wall section steel 2 on one module and the second cold-formed thin-wall section steel 3 on the other module are mutually close.
When the first cold-formed thin-wall section steel 2 approaches the second cold-formed thin-wall section steel 3, the trapezoidal blocks 21 and the first wedge blocks 22 which are positioned on the first cold-formed thin-wall section steel 2 can move along with the first cold-formed thin-wall section steel 2 into the grooves which are formed on the second cold-formed thin-wall section steel 3 and are matched with the trapezoidal blocks 21, and before that, the first positioning inserting rods 201 on the first cold-formed thin-wall section steel 2 are aligned with the inserting holes on the second cold-formed thin-wall section steel 3 and inserted, the second positioning inserting rods 301 on the second cold-formed thin-wall section steel 3 are aligned with the inserting holes on the first cold-formed thin-wall section steel 2 and inserted, so that the trapezoidal blocks 21 can be ensured not to deviate from the grooves which are matched with the trapezoidal blocks 21 on the second cold-formed thin-wall section steel 3.
The first wedge block 22 on the first cold-formed thin-wall section steel 2 is firstly contacted with the second wedge block 31 on the second cold-formed thin-wall section steel 3 along with the approaching of the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, the first wedge block 22 can squeeze the second wedge block 31 and push the second wedge block 31 along with the approaching of the first cold-formed thin-wall section steel 2 to the second cold-formed thin-wall section steel 3, so that the two second wedge blocks 31 are mutually approaching, at the moment, the trapezoidal block 21 is also in the moving process of approaching to the second cold-formed thin-wall section steel 3, and then the inclined rods 32 on the two second wedge blocks 31 can be inserted into the insertion holes on the trapezoidal block 21, and the final inclined rods 32 can be completely inserted into the trapezoidal block 21 along with the approaching of the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3.
The rectangular strips 37 on the two second wedges 31 can slide relatively in the process of approaching the two second wedges 31 to each other, and the through grooves 38 on the two rectangular strips 37 can be finally overlapped with each other along with the continued approaching of the two second wedges 31, the trapezoid blocks 21 can be operated to the position of the limiting rod 35 before the through grooves 38 on the two rectangular strips 37 are completely overlapped, at this time, the trapezoid blocks 21 can receive the limiting rod 35, the trapezoid blocks 21 continue to move into the grooves on the second cold-formed thin-wall section steel 3 along with the continued movement of the trapezoid blocks 21 and are completely embedded into the grooves on the second cold-formed thin-wall section steel 3, the limiting rod 35 is positioned at the same axis as the locking holes 23 on the trapezoid blocks 21, and then the limiting rod 35 can be inserted into the locking holes 23 on the trapezoid blocks 21 under the action of the tension spring 36.
The two first wedges 22 push the two second wedges 31 to enable the two second wedges 31 to approach each other and simultaneously enable the two piston rods 51 fixedly connected with the two second wedges 31 to be respectively far away from the corresponding first piston cylinders 5, at the moment, the first piston plates 52 fixedly connected with the piston rods 51 slide in the direction far away from the corresponding first piston cylinders 5, at the moment, the foaming glue in the first piston cylinders 5 is pushed by the first piston plates 52 to flow out from the first piston cylinders 5 to the uppermost part and the lowermost part of the glue outlet holes 54 formed in the second cold-formed thin-wall section steel 3 through the glue outlet pipes 53, and the glue outlet holes 54 on the second cold-formed thin-wall section steel 3 are communicated with each other, so that foaming glue can flow out from the glue outlet holes 54 when the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3 are stuck together, and the foaming glue can be ensured to be sprayed out due to the fact that the first piston cylinders 5 are provided with two foaming glue spraying amounts are enough and simultaneously, the foaming glue can be ensured to be fully filled between the first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3, and the waterproof sound-proof effect can be achieved, and the sound proof effect can be better, and the sound proof module can be connected.
The first cold-formed thin-wall section steel 2 and the second cold-formed thin-wall section steel 3 are attached, the trapezoid block 21 completely enters the groove of the second cold-formed thin-wall section steel 3, then the limiting rod 35 is inserted into the locking hole 23 on the trapezoid block 21, the second piston cylinder 4 and the locking hole 23 are positioned on the same axis, the inner diameter of the second piston cylinder 4 is larger than that of the locking hole 23, the tension force of the tension spring 36 is larger than the elasticity of the second spring 41, then the limiting rod 35 can push the second piston plate 42 in the second piston cylinder 4, the second piston plate 42 overcomes the elasticity of the second spring 41 to slide into the second piston cylinder 4, then water in the second piston cylinder 4 is pushed by the second piston plate 42 to flow out into the water spraying holes 44 formed in the first cold-formed thin-wall section steel 2 through the water outlet pipe 43, the water spraying holes 44 are mutually communicated, then water from the second piston cylinder 4 can be sprayed out, the thin-wall holes 44 and the glue spraying holes 54 are respectively arranged on the first thin-wall section steel 2 and the second cold-formed thin-wall section steel 4, and the cold-formed thin-wall section steel 2 can be sprayed out of the cold-formed thin-wall section steel 2 from the first cold-formed thin-wall section steel 2 after the cold-formed thin-wall section steel is rapidly contacted, and the cold-formed glue is sprayed out, and then the foaming glue is sprayed out from the second cold-formed thin-wall section steel 2 is rapidly, and then the cold-formed, the foaming glue is sprayed, and the water is sprayed from the thin-formed steel is sprayed into the thin-formed thin section steel 2.

Claims (9)

1. An integrated wallboard for an assembled building, characterized in that: the concrete pouring device comprises first cold-formed thin-wall section steel (2) and second cold-formed thin-wall section steel (3) which are arranged in parallel, wherein a plurality of reinforcing ribs (11) are fixedly connected between the two section steel, lightweight aggregate concrete (1) is poured between the two section steel, two first wedge blocks (22) are fixedly arranged on the outer wall of the first cold-formed thin-wall section steel (2) at intervals, trapezoidal blocks (21) are fixedly connected on the first cold-formed thin-wall section steel (2) between the two first wedge blocks (22), grooves matched with the trapezoidal blocks (21) are formed in the outer wall of the second cold-formed thin-wall section steel (3), two second wedge blocks (31) are connected onto the second cold-formed thin-wall section steel (3) in a limiting sliding mode, the two first wedge blocks (22) can be propped against the two second wedge blocks (31), inclined rods (32) are fixedly connected onto the two second wedge blocks (31), and insertion holes matched with the two inclined rods (32) are formed in the trapezoidal blocks (21); the second cold-formed thin-wall section steel (3) is provided with a through hole on the surface and is connected with a limiting rod (35) through the through hole in a sliding manner, the limiting rod (35) is sleeved with a tension spring (36), two ends of the tension spring (36) are respectively fixedly connected with the second cold-formed thin-wall section steel (3) and the limiting rod (35), two second wedge blocks (31) are fixedly connected with rectangular strips (37), the two rectangular strips (37) are connected with the limiting rod (35) in a sliding manner, a locking hole (23) is formed in a trapezoid block (21), and two through grooves (38) which can be overlapped to allow the limiting rod (35) to be inserted into the locking hole (23) are formed in the two rectangular strips (37).
2. The integrated wallboard for use in fabricated building according to claim 1, wherein: guide rods (33) are fixedly connected to the two second wedges (31), the guide rods (33) are slidably connected in the second cold-formed thin-wall section steel (3), first springs (34) are sleeved on the guide rods (33), and two ends of each first spring (34) are respectively abutted against the second wedges (31) and the second cold-formed thin-wall section steel (3).
3. The integrated wallboard for use in fabricated building according to claim 1, wherein: the device is characterized in that a plurality of first positioning inserting rods (201) are fixedly connected to the side face of the first cold-formed thin-wall section steel (2), a second positioning inserting rod (301) is fixedly connected to the side face of the second cold-formed thin-wall section steel (3), jacks matched with the second positioning inserting rods (301) are formed in the first cold-formed thin-wall section steel (2), and jacks matched with the first positioning inserting rods (201) are formed in the second cold-formed thin-wall section steel (3).
4. The integrated wallboard for use in fabricated building according to claim 1, wherein: the sealing mechanism for sealing the contact part between the first cold-formed thin-walled steel (2) and the second cold-formed thin-walled steel (3) is arranged on the second cold-formed thin-walled steel (3), the sealing mechanism comprises two first piston cylinders (5) symmetrically arranged on the second cold-formed thin-walled steel (3), foaming glue is filled in the two first piston cylinders (5), first piston plates (52) are slidably connected in the two first piston cylinders (5), piston rods (51) are fixedly connected to the two second wedge blocks (31), and one ends, far away from the second wedge blocks (31), of the two piston rods (51) are fixedly connected to the two first piston plates (52) respectively.
5. The integrated wallboard for use in fabricated building according to claim 4, wherein: the sealing mechanism further comprises a plurality of glue outlet holes (54) formed in the second cold-formed thin-wall section steel (3), the glue outlet holes (54) are communicated with each other, the two first piston cylinders (5) are fixedly connected with glue outlet pipes (53) and are respectively communicated with the uppermost part and the lowermost part of the glue outlet holes (54) formed in the second cold-formed thin-wall section steel (3) through the two glue outlet pipes (53).
6. The integrated wallboard for use in fabricated building according to claim 5, wherein: the sealing mechanism is provided with an accelerating mechanism for quickly solidifying foaming glue flowing out of the glue outlet hole (54), the accelerating mechanism comprises a second piston cylinder (4) fixedly connected in the trapezoid block (21), water is filled in the second piston cylinder (4), a second piston plate (42) is slidably connected in the second piston cylinder (4), a second spring (41) is arranged in a cavity between the second piston plate (42) and the second piston cylinder (4), two ends of the second spring (41) are fixedly connected with the second piston plate (42) and the second piston cylinder (4) respectively, and a limiting rod (35) can abut against the second piston plate (42).
7. The integrated wallboard for use in fabricated building according to claim 6, wherein: the accelerating mechanism further comprises a plurality of water spray holes (44) formed in the first cold-formed thin-wall section steel (2), the water spray holes (44) are communicated with each other, a water outlet pipe (43) is fixedly connected to the second piston cylinder (4) and is communicated with the uppermost one of the water spray holes (44) formed in the first cold-formed thin-wall section steel (2) through the water outlet pipe (43).
8. The integrated wallboard for use in fabricated building according to claim 6, wherein: the second piston cylinder (4) and the locking hole (23) on the trapezoid block (21) are positioned on the same axis, and the diameter of the locking hole (23) is smaller than that of the second piston plate (42).
9. The integrated wallboard for use in fabricated building according to claim 7, wherein: the tension of the tension spring (36) is larger than the elastic force of the second spring (41).
CN202210826997.0A 2022-07-14 2022-07-14 Integrated wallboard for assembled building Active CN115419208B (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR84783E (en) * 1963-11-22 1965-04-16 Manuf De Tolerie F Fillod F S All-steel rapid construction unit, transportable without dismantling
US6030014A (en) * 1998-09-11 2000-02-29 The United States Of America As Represented By The Secretary Of The Navy Alignment lifting fixture
CN209686919U (en) * 2019-01-24 2019-11-26 广东恒达建设工程有限公司 A kind of masonry wall seismic reinforcing structure
CN215715990U (en) * 2021-06-08 2022-02-01 安徽隆兴智能钢结构科技有限公司 C-shaped steel portable butt joint piece
CN215977679U (en) * 2021-05-20 2022-03-08 王浩宇 Ready-package steel construction with effect is detained to anticreep

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR84783E (en) * 1963-11-22 1965-04-16 Manuf De Tolerie F Fillod F S All-steel rapid construction unit, transportable without dismantling
US6030014A (en) * 1998-09-11 2000-02-29 The United States Of America As Represented By The Secretary Of The Navy Alignment lifting fixture
CN209686919U (en) * 2019-01-24 2019-11-26 广东恒达建设工程有限公司 A kind of masonry wall seismic reinforcing structure
CN215977679U (en) * 2021-05-20 2022-03-08 王浩宇 Ready-package steel construction with effect is detained to anticreep
CN215715990U (en) * 2021-06-08 2022-02-01 安徽隆兴智能钢结构科技有限公司 C-shaped steel portable butt joint piece

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