CN216340265U - Evaporate and press aerated concrete side fascia mounting structure - Google Patents

Abstract

The utility model discloses an autoclaved aerated concrete external wall panel mounting structure which comprises an autoclaved aerated concrete external wall panel, a sliding S plate, a panel bottom support piece, angle steel, a beam and a sliding piece, wherein the sliding S plate is arranged on the top of the autoclaved aerated concrete external wall panel; the sliding S plate and the plate bottom support piece are fixed on the same side plate surface of the autoclaved aerated concrete external wall plate at intervals up and down; two sides of the side plate of the angle steel are respectively in close contact with the sliding S plate and the plate bottom supporting piece, and the bottom plate of the angle steel is fixed on the beam; a gap is formed between the side plate of the angle steel and the plate surface of the autoclaved aerated concrete external wall plate; the sliding parts are filled in the gaps, and the two sliding parts are arranged and are respectively positioned on two sides of the sliding S plate. The autoclaved aerated concrete external wall panel is hung on the angle steel pre-arranged on the beam by using the sliding S plate and the panel bottom support member, so that flexible connection is realized; the sliding piece is used for filling the gap between the angle steel and the plate surface of the autoclaved aerated concrete external wall plate, so that the stability of the plate is ensured, and the problem of damage caused by rotation around a fixed point is solved.

Description

Evaporate and press aerated concrete side fascia mounting structure

Technical Field

The utility model belongs to the technical field of an outer wall panel mounting structure, and particularly relates to an autoclaved aerated concrete outer wall panel mounting structure.

Background

The light external wallboard is formed by connecting a plurality of standard light strip-shaped plate units with a main body structure through connecting nodes, and compared with the traditional masonry wall, the light external wallboard consists of a plurality of standard strip-shaped plates and has excellent integrity and water and permeability resistance; meanwhile, the light external wallboard is generally installed by adopting dry construction, so that the wet operation procedures such as on-site masonry and the like are avoided, the material and labor cost is reduced, and the construction efficiency is greatly improved. With the continuous promotion of the greening and industrialization process of the building industry in China, the light external wall panel is favored by the engineering world due to the excellent physical performance and comprehensive economic benefit of the building, and is more and more widely applied to various industrial and civil buildings. The connection node between the light strip-shaped plate unit and the main body structure is an important component of the light external wall panel, and the characteristics of the connection node directly influence the installation efficiency and the working performance of the light external wall panel.

The existing installation method of the light external wallboard comprises a hook bolt method, a sliding bolt method and a steel pipe anchor method.

The installation structure of the hook bolt method is shown in fig. 1, when in installation, a hole needs to be drilled on the plate surface of the lightweight external wallboard 101, the hook bolt 102 penetrates through the plate surface, and then the hook bolt 102 is hooked on the preset angle steel and welded with the preset angle steel. Forming a fixation with the structural beam. The hook bolt method for installing the light external wallboard has the following defects: the method is used for directly drilling holes on the plate surface, the holes are blocked later to cause water seepage hidden trouble, the hole cutting process is difficult to ensure, the quality of the plate cannot be ensured, and the plate is in rigid connection with the structure; when the structure body is displaced, the bolt and the plate are driven to collide and rub, holes are enlarged and water is leaked if the structure body is light, the plate surface is broken if the structure body is heavy, and potential safety hazards are large; two lines of angle steel need predetermine from top to bottom during the installation, extravagant steel cost.

The installation structure of the sliding bolt method is shown in fig. 2, during installation, holes need to be drilled on the plate surface of the light external wallboard 101, the plate bolt 103 penetrates through the plate surface, then the sliding S plate is locked by a nut, and finally the sliding S plate is used for hooking preset angle steel and welding the angle steel. The defects of the light external wall panel installed by the sliding bolt method are the same as those of the light external wall panel installed by the hook bolt method.

The steel pipe anchor method is a method of driving a steel pipe 104 into the bottom or side of a plate material, and then connecting the steel pipe 104 with bolts for fastening to a sliding S-plate fastened to a predetermined angle steel, as shown in fig. 3. The steel pipe anchor method for installing the light external wallboard has the following defects: the construction degree of difficulty is big, and the very big cavity of panel excavation in advance, and also need above-mentioned two angle steels of presetting, the cost expense increases.

In summary, various problems still exist in the installation method of the lightweight external wall panel, and improvement is continued.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an autoclaved aerated concrete external wall panel mounting structure, which aims to solve the problems of easy water leakage, easy damage, large construction difficulty, high mounting cost and the like of the external wall panel after mounting in the existing light external wall panel mounting method.

In order to achieve the purpose, the technical scheme provided by the utility model is as follows:

the utility model relates to an autoclaved aerated concrete external wall panel mounting structure which comprises an autoclaved aerated concrete external wall panel, a sliding S plate, a panel bottom support piece, angle steel, a beam and a sliding piece, wherein the sliding S plate is arranged on the outer wall panel; the sliding S plate and the plate bottom support piece are fixed on the same side plate surface of the autoclaved aerated concrete external wall plate at intervals up and down; two sides of the side plate of the angle steel are respectively in close contact with the sliding S plate and the plate bottom supporting piece, and the bottom plate of the angle steel is fixed on the beam; a gap is formed between the side plate of the angle steel and the plate surface of the autoclaved aerated concrete external wall plate; the sliding parts are filled in the gaps, and the two sliding parts are arranged and are respectively positioned on two sides of the sliding S plate.

Preferably, the autoclaved aerated concrete external wall panel is provided with a connecting piece at the position corresponding to the sliding S plate and the plate bottom support piece, and the sliding S plate and the plate bottom support piece are connected with the connecting piece through bolts.

Preferably, the front end of the connecting piece is provided with a threaded section matched with the bolt, the rear end of the connecting piece is provided with a positioning hole, the connecting piece is fixed through a connecting steel bar penetrating through the side of the autoclaved aerated concrete external wall panel, and the connecting steel bar penetrates through the positioning hole on the connecting piece.

Preferably, the sliding S plate is provided with a waist-shaped through hole, and a bolt for fixing the sliding S plate is connected with the corresponding connecting piece through threads after penetrating through the waist-shaped through hole.

Preferably, the autoclaved aerated concrete external wall panel comprises an upper layer autoclaved aerated concrete plate and a lower layer autoclaved aerated concrete plate, the panel bottom support piece comprises a top plate and a side plate, the top plate extends to a gap between the upper layer autoclaved aerated concrete plate and the lower layer autoclaved aerated concrete plate, and the side plate is fixed with the lower layer autoclaved aerated concrete plate.

Preferably, the side plate is further provided with a support part, and the support part protrudes out of the side plate towards one side of the angle steel.

Preferably, the slider include the slider mainboard, the top of slider mainboard is equipped with the couple that is used for catching on the angle steel, the slider mainboard be close to the one side of angle steel and be equipped with the arch, bellied tip and the curb plate in close contact with of angle steel.

Preferably, two protrusions are provided.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

1. the utility model relates to an autoclaved aerated concrete external wall panel mounting structure which adopts a sliding S plate and a plate bottom support member to hang an autoclaved aerated concrete external wall panel on angle steel pre-arranged on a beam, a gap exists between the angle steel and the plate surface of the autoclaved aerated concrete external wall panel, a sliding member is filled in the gap, the bolt fixing position and the structure are flexibly connected, the plate surface safety problem caused by structure displacement is solved, meanwhile, the sliding member arranged in the gap ensures the stability of the plate, and the problem of damage caused by rotation around a fixing point is solved.

2. The connecting steel bars are adopted to fix the connecting pieces, the sliding S plate and the plate bottom supporting piece are installed on the connecting pieces, and the connecting steel bars penetrate through the side of the autoclaved aerated concrete external wall plate from the plate side, namely, a punching installation mode without damaging the plate surface is adopted, so that the problem of large hidden danger of damage and water seepage of the plate surface is solved, and the problems of large hole on the plate side, damage to the plate body and difficulty in construction are also solved.

Drawings

FIG. 1 is a schematic view of an installation joint for installing a light external wallboard by a hook bolt method;

FIG. 2 is a schematic view of an installation node for installing a lightweight external wallboard by a sliding bolt method;

FIG. 3 is a schematic view of an installation node for installing a lightweight external wallboard by a steel pipe anchor method;

FIG. 4 is a schematic structural diagram of an installation structure of an autoclaved aerated concrete external wall panel, to which the utility model relates;

FIG. 5 is an enlarged view of a node A of the mounting structure of the autoclaved aerated concrete external wall panel;

FIG. 6 is a front view of an installation structure of an autoclaved aerated concrete external wall panel with beams and a floor slab omitted;

FIG. 7 is a perspective view of the connector;

FIG. 8 is a perspective view of the plate bottom bracket;

fig. 9 is a perspective view of the sliding S-plate;

fig. 10 is a perspective view of the slider.

Illustration of the drawings: 1-autoclaved aerated concrete external wall panel, 11-upper layer autoclaved aerated concrete panel, 12-lower layer autoclaved aerated concrete panel, 2-sliding S plate, 21-waist-shaped through hole, 3-plate bottom support member, 31-top plate, 32-side plate, 33-supporting part, 4-angle steel, 5-beam, 6-sliding part, 61-sliding part main plate, 62-hook, 63-bulge, 7-connecting piece, 71-thread section, 72-positioning hole, 8-bolt, 9-connecting steel bar, 10-floor slab, 101-lightweight external wall panel, 102-hook head bolt, 103-flat bolt and 104-steel tube.

Detailed Description

For further understanding of the present invention, the present invention will be described in detail with reference to examples, which are provided for illustration of the present invention but are not intended to limit the scope of the present invention.

Referring to the attached drawings 4-6, the autoclaved aerated concrete external wall panel mounting structure comprises an autoclaved aerated concrete external wall panel 1, a sliding S plate 2, a plate bottom support piece 3, angle steel 4, a beam 5 and a sliding piece 6.

The sliding S plate 2 and the plate bottom support piece 3 are fixed on the same side plate surface of the autoclaved aerated concrete external wall plate 1 at intervals up and down. The autoclaved aerated concrete external wall panel 1 comprises an upper layer autoclaved aerated concrete plate 11 and a lower layer autoclaved aerated concrete plate 12; the autoclaved aerated concrete external wall panel 1 is provided with a connecting piece 7 corresponding to the sliding S panel 2 and the panel bottom support piece 3, the structure of the connecting piece 7 is shown in figure 7, the front end of the connecting piece 7 is provided with a threaded section 71, and the rear end of the connecting piece 7 is provided with a positioning hole 72; the connecting piece 7 is fixed by a connecting steel bar 9 penetrating from the side of the autoclaved aerated concrete external wall panel 1, and the connecting steel bar 9 penetrates through a positioning hole 72 on the connecting piece 7. The sliding S plate 2 and the plate bottom supporting piece 3 are connected with a connecting piece 7 through a bolt 8.

Referring to fig. 4, 5, 8 and 9, the plate bottom support 3 comprises a top plate 31 and a side plate 32, the top plate 31 extends to a gap between an upper autoclaved aerated concrete plate 11 and a lower autoclaved aerated concrete plate 12, the side plate 32 is fixed with a connecting piece 7 in the lower autoclaved aerated concrete plate 12 through a bolt 8, a supporting part 33 is further arranged on the side plate 32, and the supporting part 33 protrudes out of the side plate 32 towards one side of an angle iron 4; the sliding S plate 2 is provided with a waist-shaped through hole 21, a bolt 8 for fixing the sliding S plate 2 penetrates through the waist-shaped through hole 21 and then is in threaded connection with a corresponding connecting piece 7, when the structure is displaced, the bolt 8 can have a displacement space in the waist-shaped through hole 21, flexible connection is achieved, and structural rigidity is prevented from being damaged. The two sides of the side plate of the angle steel 4 are respectively in close contact with the sliding S plate 2 and the supporting part 33 of the plate bottom supporting piece 3, the bottom plate of the angle steel 4 is fixed on the beam 5, and then the autoclaved aerated concrete external wall panel 1 can be hung on the beam 5.

Referring to the attached drawings 4-6, a gap is formed between the side plate of the angle iron 4 and the plate surface of the autoclaved aerated concrete external wall plate 1; the sliding parts 6 are filled in the gaps, and the two sliding parts 6 are arranged and are respectively positioned at two sides of the sliding S plate 2. Referring to fig. 10, the sliding member 6 includes a sliding member main plate 61, a hook 62 for hooking the angle iron 4 is disposed at the top of the sliding member main plate 61, two protrusions 63 are disposed on one side of the sliding member main plate 61 close to the angle iron 4, the two protrusions 63 are symmetrically disposed on the left half portion and the right half portion of the sliding member main plate 61, and the end portions of the protrusions 63 are in close contact with the side plates of the angle iron 4, so that the stability of the autoclaved aerated concrete external wall panel 1 is ensured, and the problem of damage due to rotation around a fixed point is solved.

The construction method of the autoclaved aerated concrete external wall panel mounting structure comprises the following steps: hole sites which are larger than the connecting reinforcing steel bars 9 are arranged on the side of the autoclaved aerated concrete external wall panel 1 in advance, and the holes on the panel surface are intersected with the hole sites. Placing a connecting piece 7 in a hole position of the plate surface of the autoclaved aerated concrete external wall plate 1; then transversely penetrating the connecting steel bars 9 into the side hole positions of the plates, so that the connecting steel bars 9 penetrate through the connecting piece 7, and further preventing the connecting piece 7 from rotating; the method for installing the connecting piece 7 in the upper and lower layers of autoclaved aerated concrete plates is the same; aligning the waist-shaped through hole 21 of the sliding S plate 2 to the plate surface hole position of the upper autoclaved aerated concrete plate 11, and inserting the bolt 8 to enable the sliding S plate 2 to be connected to the connecting piece 2; the plate bottom support member 3 is pre-erected between the upper layer and the lower layer of autoclaved aerated concrete plates, and the hole on the side plate 32 of the plate bottom support member 3 is aligned with the connecting piece 7 in the lower layer of autoclaved aerated concrete plates 12; then buckling the sliding S plate 2 on angle steel 4 which is pre-arranged on the beam 5, and welding the sliding S plate 2 and the angle steel 4; then welding the back of the plate bottom support piece 3 with a preset angle steel 4, and connecting a penetrating bolt 8 with a connecting piece 7 in a lower-layer autoclaved aerated concrete plate 12; and finally, a sliding part 6 is arranged between the two plate seams or at the side end part of the plate, and the sliding part 6 clamps the seam between the autoclaved aerated concrete external wall plate 1 and the angle steel, so that stable installation is realized.

The present invention has been described in detail with reference to the embodiments, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (8)

1. The utility model provides an evaporate and press aerated concrete side fascia mounting structure which characterized in that: the plate comprises an autoclaved aerated concrete external wall plate, a sliding S plate, a plate bottom support piece, angle steel, a beam and a sliding piece; the sliding S plate and the plate bottom support piece are fixed on the same side plate surface of the autoclaved aerated concrete external wall plate at intervals up and down; two sides of the side plate of the angle steel are respectively in close contact with the sliding S plate and the plate bottom supporting piece, and the bottom plate of the angle steel is fixed on the beam; a gap is formed between the side plate of the angle steel and the plate surface of the autoclaved aerated concrete external wall plate; the sliding parts are filled in the gaps, and the two sliding parts are arranged and are respectively positioned on two sides of the sliding S plate.

2. The autoclaved aerated concrete external wall panel installation structure according to claim 1, wherein: and the positions of the autoclaved aerated concrete external wall panel corresponding to the sliding S plate and the plate bottom support piece are provided with connecting pieces, and the sliding S plate and the plate bottom support piece are connected with the connecting pieces through bolts.

3. The autoclaved aerated concrete external wall panel installation structure according to claim 2, wherein: the connecting piece is characterized in that a threaded section matched with the bolt is arranged at the front end of the connecting piece, a positioning hole is formed in the rear end of the connecting piece, the connecting piece is fixed through a connecting steel bar penetrating through the side of the autoclaved aerated concrete external wall panel, and the connecting steel bar penetrates through the positioning hole in the connecting piece.

4. The autoclaved aerated concrete external wall panel installation structure according to claim 2, wherein: the sliding S plate is provided with a waist-shaped through hole, and a bolt for fixing the sliding S plate penetrates through the waist-shaped through hole and then is in threaded connection with the corresponding connecting piece.

5. The autoclaved aerated concrete external wall panel installation structure according to claim 1, wherein: the autoclaved aerated concrete external wall panel comprises an upper autoclaved aerated concrete plate and a lower autoclaved aerated concrete plate, the panel bottom support piece comprises a top plate and a side plate, the top plate extends to a gap between the upper autoclaved aerated concrete plate and the lower autoclaved aerated concrete plate, and the side plate is fixed with the lower autoclaved aerated concrete plate.

6. The autoclaved aerated concrete external wall panel installation structure according to claim 5, wherein: the side plates are also provided with supporting parts which protrude out of the side plates towards one side of the angle steel.

7. The autoclaved aerated concrete external wall panel installation structure according to claim 1, wherein: the slider include the slider mainboard, the top of slider mainboard is equipped with the couple that is used for catching on the angle steel, the one side that is close to the angle steel of slider mainboard is equipped with the arch, bellied tip and the curb plate in close contact with of angle steel.

8. The autoclaved aerated concrete side fascia mounting structure according to claim 7, wherein: the number of the bulges is two.

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