CN215670740U - Wall skeleton texture is used in construction of anticorrosive heat preservation engineering - Google Patents

Abstract

The utility model relates to a wall body skeleton structure for corrosion-resistant heat-preservation engineering construction, which comprises a plurality of L-shaped angle iron blocks, wherein the L-shaped angle iron blocks are arranged at intervals in a matrix manner, each row of the L-shaped angle iron blocks is in threaded connection with a longitudinal beam, a gap is arranged between the rear wall of the longitudinal beam and the rear wall plate of the L-shaped angle iron block, the side wall of the longitudinal beam is in threaded connection with the side wall plate of the L-shaped angle iron block, top beams are arranged at the tops of the longitudinal beams, bottom beams are arranged at the bottoms of the longitudinal beams, a plurality of decorative plates are arranged between the top beams and the bottom beams, and the top beams, the decorative plates and the bottom beams are in buckling connection; the utility model relates to a wall skeleton structure for anticorrosion and thermal insulation engineering construction, which has the advantages of small gap between a thermal insulation board and a wall surface and stable thermal insulation effect.

Description

Wall skeleton texture is used in construction of anticorrosive heat preservation engineering

Technical Field

The utility model relates to the technical field of wall frameworks, in particular to a wall framework structure for corrosion-resistant heat-preservation engineering construction.

Background

The insulation board dry hanging construction process is characterized in that a dry hanging framework is installed on the outer side of a wall body, an insulation board is fixed through the dry hanging framework, and then a decorative board is dry hung on the outer side of the dry hanging framework.

Present heated board hangs skeleton futilely in the work progress, and the heated board needs hang futilely on the wall skeleton, leads to having great gap between heated board and the wall body, and the heated board receives when the air in the gap does not have the flow to influence for a short time, and when the air in the gap takes place the convection current, it is great to the heat preservation effect influence of heated board, and the heat preservation effect is unstable.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides a wall framework structure for corrosion-resistant and heat-insulation engineering construction, which is used for solving the problem that the heat-insulation effect of a heat-insulation plate is unstable due to the existing wall framework for dry hanging of the heat-insulation plate.

The utility model is realized by the following technical scheme: a wall skeleton structure for corrosion-resistant heat-preservation engineering construction comprises a plurality of L-shaped angle iron blocks, wherein the L-shaped angle iron blocks are arranged at intervals in a matrix mode, a longitudinal beam is screwed on each L-shaped angle iron block in each row, an interval is formed between the rear wall of each longitudinal beam and the rear wall plate of each L-shaped angle iron block, and the side wall of each longitudinal beam is screwed with the side wall plate of each L-shaped angle iron block;

it is a plurality of the top of longeron is equipped with the back timber, the bottom of longeron is equipped with the floorbar, be equipped with a plurality of decorative boards between back timber and the floorbar, be the lock joint between back timber, decorative board, the floorbar.

Further, a plurality of fastening nails are arranged between two adjacent longitudinal beams.

Further, the cross-section of floorbar and roof beam is the L type, the back wall below interval of decorative board is equipped with a plurality of second catching grooves, the back wall top of decorative board is equipped with first buckle.

Further, be equipped with the centre sill in the middle of the longeron, the centre sill includes first catching groove, first catching groove cross-section is the L type, first catching groove one end is equipped with the second buckle, the centre sill cross-section is the style of calligraphy of falling Z.

Furthermore, corresponding screw holes are formed in the first buckling plate, the first buckling groove and the second buckling plate.

Furthermore, the cross-shaped iron blocks are arranged in the vertical direction, and a longitudinal beam is respectively arranged in two grooves at the opposite angle of each row of the cross-shaped iron blocks.

The utility model has the beneficial effects that: a plurality of L-shaped angle iron blocks of the wall body framework structure for the construction of the anticorrosion and heat preservation project are arranged at intervals in a matrix mode, each row of L-shaped angle iron blocks is connected with a longitudinal beam in a threaded mode, a gap is formed between the rear wall of each longitudinal beam and the rear wall plate of each L-shaped angle iron block, heat preservation plates are installed in the gaps between the longitudinal beams and the L-shaped angle iron blocks, the side walls of the longitudinal beams are connected with the side wall plates of the L-shaped angle iron blocks in a threaded mode, and the longitudinal beams are used for pressing the heat preservation plates on the wall surface;

the top of a plurality of longerons is equipped with the back timber, and the bottom of longeron is equipped with the floorbar, is equipped with a plurality of decorative boards between back timber and the floorbar, and for the lock joint between back timber, decorative board, the floorbar is adjacent, and back timber and floorbar are used for the fixed decorative board of pressfitting respectively, and back timber and floorbar reduce respectively simultaneously from skeleton top and bottom air inlet, stabilize the heat preservation effect, improve the construction speed, reduce the construction degree of difficulty.

Drawings

FIG. 1 is a partial structural view of embodiment 1;

FIG. 2 is a schematic sectional top view of a part of the structure of example 1;

FIG. 3 is a schematic right-view of a partial structural section in example 1;

FIG. 4 is a right side view of the structure of the decoration plate of embodiment 1;

FIG. 5 is a rear view schematically illustrating the structure of the decorative panel according to embodiment 1;

FIG. 6 is an exploded view of a center sill and a trim panel of embodiment 1;

fig. 7 is a right-side schematic view of the intermediate beam structure of embodiment 1.

Wherein:

1. a stringer; 2. a center sill; 3. a cross angle iron block; 4. fastening nails; 5. a bottom beam; 6. an L-shaped angle iron block; 7. a decorative plate; 8. a thermal insulation board; 9. a first buckle plate; 10. a first catching groove; 11. a second catching groove; 12. and a second buckle plate.

Detailed Description

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-7, a wall skeleton structure for corrosion-resistant and heat-insulating engineering construction comprises a plurality of L-shaped angle iron blocks 6, wherein each L-shaped angle iron block 6 comprises two wall plates, the wall plate adhered to the wall surface is a rear wall plate, the wall plate perpendicular to the wall surface is a side wall plate, both the rear wall plate and the side wall plate are provided with screw holes, the plurality of L-shaped angle iron blocks 6 are arranged on the wall surface at intervals in a matrix, specifically, collision bolts are arranged in the screw holes on the rear wall plate to fasten the L-shaped angle iron blocks 6 on the wall surface, and the side wall plate of the fastened L-shaped angle iron blocks 6 is perpendicular to the wall surface and perpendicular to the ground;

a longitudinal beam 1 is connected to each row of L-shaped angle iron blocks 6 in a screwed mode, the longitudinal beam 1 can be a galvanized square tube, an interval is arranged between the rear wall of the longitudinal beam 1 and the rear wall plate of each L-shaped angle iron block 6, a heat insulation plate 8 is installed in the interval between the longitudinal beam 1 and each L-shaped angle iron block 6, the heat insulation plate 8 is made of an elastic heat insulation material plate, the side wall of the longitudinal beam 1 is in screwed connection with the side wall plate of each L-shaped angle iron block 6, the longitudinal beam 1 is used for pressing the heat insulation plate 8 on the wall surface, a plurality of fastening nails 4 are arranged between every two adjacent longitudinal beams 1, each fastening nail 4 comprises a screw and a gasket, each fastening nail 4 penetrates through the heat insulation plate, the heat insulation plate 8 is fastened on the wall surface, and the stability of the heat insulation plate 8 is further improved;

the top of a plurality of longitudinal beams 1 is provided with a top beam, the bottom of the longitudinal beams 1 is provided with a bottom beam 5, a plurality of decorative plates 7 are arranged between the top beam and the bottom beam 5, the top beam 1, the decorative plates 7 and the bottom beam 5 are fastened, concretely, the sections of the bottom beam 5 and the top beam are both L-shaped, one wall plate of the bottom beam 5 is attached to the bottom of the longitudinal beam 1 and extends to the wall surface for blocking bottom air inlet, the other wall plate of the bottom beam 5 is attached to the front wall of the longitudinal beam 1, the other wall plate of the bottom beam 5 is provided with a screw hole, the bottom beam 5 is screwed on the longitudinal beam 1 through the screw hole, a plurality of second fastening grooves 11 are arranged at intervals below the rear wall surface of the decorative plates 7, the second fastening grooves 11 are fastened on the other wall plate of the bottom beam 5, the longitudinal beam 1 is positioned in the interval between the second fastening grooves 11, a first fastening plate 9 is arranged above the rear wall surface of the decorative plates 7, the first fastening plate 9 is attached to the front wall of the longitudinal beam 1, when another decorative plate 7 is fastened, first buckle 9 and the 11 locks of second catching groove on another piece of decorative board 7, when decorative board 7 top lock joint back timber, a wallboard laminating of back timber is at the top of longeron 1, the antetheca of another wallboard laminating longeron 1 of back timber, first buckle 9 and another wallboard lock of back timber.

Be equipped with middle roof beam 2 in the middle of longeron 1, middle roof beam 2 includes first catching groove 10, first catching groove 10 cross-section is the L type, first catching groove 10 one end is equipped with second buckle 12, middle roof beam 2 cross-section is the style of calligraphy of falling Z, decorative board 7 is all installed to middle roof beam 2 top and below, first catching groove 10 and the first buckle 9 lock of decorative board 7 of below, second buckle 12 and the 11 locks of second catching groove of the decorative board of top, first buckle 9, first catching groove 10, all set up the first buckle 9 of the screw hole that corresponds on the second buckle 12, first catching groove 10, second buckle 12, after the 11 locks of second catching groove, all through screw hole spiro union on longeron 1.

This structure still includes the cross angle iron plate 3 of arranging along vertical direction, and cross angle iron plate 3 is installed at the wall body corner for connect the skeleton texture on two perpendicular walls, be equipped with a longeron 1 respectively in two grooves at the diagonal angle of the cross angle iron plate 3 of each row, use this longeron 1 as the boundary, to other longerons 1 of its place wall interval installation respectively, make up into skeleton texture.

The working principle is as follows: when the thermal insulation plate is used, the L-shaped angle iron blocks 6 are fixed on a wall surface according to matrix arrangement through expansion bolts, the cross-shaped angle iron blocks 3 are fixed at the corners of the wall body, then through grooves are formed in the thermal insulation plate 8, a wall plate perpendicular to the wall surface on each L-shaped angle iron block 6 penetrates through the through grooves, the thermal insulation plate 8 is hung on the L-shaped angle iron blocks 6, then the thermal insulation plate 8 is fixed on the wall surface through fastening nails 4, a corrosion-proof layer is coated on the thermal insulation plate 8, the longitudinal beam 1 is pressed on the thermal insulation plate 8 along each row of the L-shaped angle iron blocks 6 and fixed, the thermal insulation plate 8 is compressed tightly along the vertical direction by the longitudinal beam 1, so that horizontal direction air flow which possibly occurs between the thermal insulation plate 8 and the wall surface is blocked, and the thermal insulation effect is stabilized;

then, a bottom beam 5 is installed, a plurality of decorative plates 7 are spliced and buckled on the bottom beam 5 from bottom to top, a top beam is installed above the topmost decorative plate 7, the bottom beam 5 and the top beam are perpendicular to wall plates of the wall surface and extend to the wall surface, so that vertical air flow possibly occurring between the heat insulation plate 8 and the wall surface is reduced, and the heat insulation effect is further stabilized;

in the actual installation process, the insulation boards 8 and the decorative boards 7 on the two wall surfaces at the corners of the wall body are extended to be connected with each other, so that the air flow entering at the corners is reduced;

according to the high needs of actual construction wall body, in the work progress, according to structural strength needs, install centre sill 2 to improve the structural stability of decorative board 7 on longeron 1.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the utility model.

Claims (6)

1. A wall skeleton structure for corrosion-resistant heat-preservation engineering construction is characterized by comprising a plurality of L-shaped angle iron blocks (6), wherein the L-shaped angle iron blocks (6) are arranged at intervals in a matrix manner, a longitudinal beam (1) is screwed on the L-shaped angle iron block (6) in each row, an interval is arranged between the rear wall of the longitudinal beam (1) and the rear wall plate of the L-shaped angle iron block (6), and the side wall of the longitudinal beam (1) is screwed with the side wall plate of the L-shaped angle iron block (6);

a plurality of the top of longeron (1) is equipped with the back timber, the bottom of longeron (1) is equipped with floorbar (5), be equipped with a plurality of decorative boards (7) between back timber and floorbar (5), be the lock joint between back timber, decorative board (7), the floorbar (5).

2. The wall skeleton structure for corrosion prevention and heat preservation engineering construction according to claim 1, wherein a plurality of fastening nails (4) are arranged between two adjacent longitudinal beams (1).

3. The wall skeleton structure for corrosion prevention and heat insulation engineering construction according to claim 1, wherein the bottom beam (5) and the top beam are both L-shaped in cross section, a plurality of second buckling grooves (11) are arranged below the rear wall surface of the decorative plate (7) at intervals, and a first buckling plate (9) is arranged above the rear wall surface of the decorative plate (7).

4. The wall skeleton structure for the anticorrosion and heat-insulation engineering construction is characterized in that a middle beam (2) is arranged in the middle of the longitudinal beam (1), the middle beam (2) comprises a first buckling groove (10), the cross section of the first buckling groove (10) is L-shaped, a second buckling plate (12) is arranged at one end of the first buckling groove (10), and the cross section of the middle beam (2) is inverted Z-shaped.

5. The wall skeleton structure for corrosion prevention and heat preservation engineering construction according to claim 4, wherein corresponding screw holes are formed in the first buckle plate (9), the first buckle groove (10) and the second buckle plate (12).

6. The wall skeleton structure for corrosion prevention and heat preservation engineering construction according to claim 1, further comprising cross angle iron blocks (3) arranged in the vertical direction, wherein a longitudinal beam (1) is respectively arranged in two grooves at opposite angles of the cross angle iron blocks (3) in each row.

Images