CN118564003A - Novel archaize building gable wall stone structure, hanging and attaching method and archaize building - Google Patents

Abstract

The invention discloses a mountain wall stone structure of a newly-built archaized building, a hanging and attaching method and the archaized building, relating to the technical field of the archaized building, comprising the following steps: the cast-in-situ concrete wall, a plurality of embedded parts, a reinforced bar supporting net, an archaized stone layer and a mortar filling layer are arranged on the outer side of the archaized building mountain wall surface masonry filling wall; each embedded part is arranged on the cast-in-situ concrete wall at intervals, one end of each embedded part is buried and fixed in the cast-in-situ concrete wall, the other end extends out of one side of the cast-in-situ concrete wall far away from the masonry filler wall; the steel bar supporting net is fixedly connected with the embedded part; the antique stone layer comprises a plurality of antique stone plates, and each antique stone plate is hung on the steel bar supporting net; the mortar filling layer is formed by grouting between the archaized stone layer and the cast-in-situ concrete wall, and is used for adhering and fixing the archaized stone layer on the cast-in-situ concrete wall, so that the structure is simple, the stability of the archaized stone plate after being installed is effectively enhanced, and the thickness of the finished surface of the archaized stone layer is effectively reduced.

Description

Novel archaize building gable wall stone structure, hanging and attaching method and archaize building

Technical Field

The invention relates to the technical field of archaize buildings, in particular to a newly built gable wall stone structure, a hanging and attaching method and an archaize building.

Background

The newly built archaized building is a building form taking the historic building style as inspiration, and has been widely paid attention to and developed at home and abroad in recent years. With the importance of people on historic culture inheritance and acceptance of the aesthetic value of traditional buildings, the development prospect of newly built archaized buildings is wider and wider.

Archaize building has important position in tourism and cultural protection. In the construction of historical cultural famous cities and scenic spots, the archaize building often becomes an important component part, and richer cultural experience is provided for tourists. For example, in recent years, many ancient city rebuilds and archaize building constructions are raised in China, and the building becomes an important factor for attracting tourists.

Because the requirements of earthquake resistance and energy conservation cannot be met, the newly built building structure is consistent with the ancient building, the ancient building is filled by a frame structure by laying a filling wall at a gable position, decorative construction of building features is reflected, such as green bricks and stones are directly laid on the filling wall or laid or hung and pasted, the green bricks and stones of the outer decorative wall face fall off at risk because of non-structural bearing construction of the filling wall, in addition, by a method of dry hanging stones, support keels of the dry hanging stones can be fixed on constructional columns and frame columns only, the size of the keels needs to be increased, so that the distance of protruding filling walls is overlarge after the dry hanging of the stones is finished, the difference between the protruding filling wall and the traditional ancient building is large, the protruding filling wall is not connected with the reserved ancient building better features, and the attractiveness and the use space are influenced.

Disclosure of Invention

The invention aims to provide a new archaized building gable wall stone structure, a hanging and attaching method and an archaized building, so as to solve the problems in the prior art, and the structure is simple, effectively enhance the stability of the archaized stone plate after being installed, and effectively reduce the thickness of the finished surface of the archaized stone layer.

In order to achieve the above object, the present invention provides the following solutions:

The invention provides a new archaize building gable stone structure, comprising: the cast-in-situ concrete wall is arranged on the outer side of the archaize building mountain wall surface masonry filler wall and is connected with the archaize building mountain wall surface; each embedded part is arranged on the cast-in-place concrete wall at intervals, one end of each embedded part is buried and fixed in the cast-in-place concrete wall, and the other end of each embedded part extends out of one side of the cast-in-place concrete wall far away from the masonry filling wall; the steel bar supporting net is fixedly connected with the embedded part; the antique stone layer comprises a plurality of antique stone plates, and each antique stone plate is hung on the steel bar supporting net; the mortar filling layer is formed by grouting between the archaized stone layer and the cast-in-situ concrete wall, and is used for fixedly bonding the archaized stone layer to the cast-in-situ concrete wall.

Preferably, the cast-in-situ concrete wall comprises a plurality of first embedded bars, a reinforcement cage and a cast-in-situ concrete layer, one end of each first embedded bar is buried and fixed in the concrete structure of the archaize building gable surface, the other end of each first embedded bar is fixedly connected with the reinforcement cage in a binding manner, and the cast-in-situ concrete layer is formed by casting concrete in the area of the reinforcement cage and is fixedly bonded with the archaize building gable surface.

Preferably, the embedded part is a second embedded bar, the bar support net is a bidirectional bar net, and one end of the second embedded bar, which extends out of the cast-in-situ concrete wall, is welded or bound and fixed at the junction point of the second embedded bar and the bidirectional bar net.

Preferably, the stone plate comprises a plurality of hanging pieces, wherein hanging grooves are formed in the side edges of the stone plate, each hanging piece comprises a hook and an anchor, each anchor is fixedly connected with the corresponding hook vertically, each hook is fixedly connected with the corresponding reinforcing steel bar supporting net, and each anchor is fixedly arranged in each hanging groove.

Preferably, the concrete wall further comprises a polymer cement waterproof mortar layer, wherein the polymer cement waterproof mortar layer is smeared on one side of the cast-in-situ concrete wall far away from the masonry filler wall, and the polymer cement waterproof mortar layer is fully hung with a double-layer glass fiber net with the density of not less than 160g/m ².

Preferably, the cast-in-situ concrete wall comprises a cast-in-situ concrete wall body, a cast-in-situ concrete wall body and a cast-in-situ concrete wall body.

The invention also provides a hanging and attaching method of the newly-built archaized building gable stone structure, which comprises the following steps:

Embedding the embedded part, pouring the cast-in-situ concrete wall, constructing the steel bar supporting net, hanging and attaching the archaized stone plate on the steel bar supporting net, and grouting between the archaized stone layer and the cast-in-situ concrete wall to form the mortar filling layer.

The invention also provides a new archaized building, which comprises the mountain wall stone structure of the new archaized building as claimed in any one of claims 1 to 6.

Compared with the prior art, the invention has the following technical effects:

The invention provides a new-built archaized building gable wall stone structure, a hanging and pasting method and an archaized building, wherein the number of embedded parts can be increased by arranging a cast-in-situ concrete wall to provide reliable anchoring for hanging and pasting stones, so that the size of the embedded parts can be reduced, the thickness of a finished surface of an archaized stone layer can be effectively reduced, a reinforcing steel bar supporting net is fixed through the embedded parts, an archaized stone plate is hung and connected through the reinforcing steel bar supporting net, a mortar filling layer is formed by grouting between the archaized stone layer and the cast-in-situ concrete wall, so that the heavy archaized stone plate can be fixed through hanging and grouting adhesion, and the stability of the archaized stone plate after installation can be effectively enhanced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a cross-sectional view of a newly built archaized building gable stone structure provided by the invention;

FIG. 2 is a front view of a newly built archaized building mountain wall surface provided by the invention;

FIG. 3 is a large sample of the connection of the antique stone plates and the steel bar support net through the hanging pieces in the new antique building gable stone structure provided by the invention;

In the figure: 1. cast-in-situ concrete wall; 2. an embedded part; 3. a steel bar supporting net; 4. an archaizing stone layer; 5. a mortar filling layer; 6. a hitching member; 7. a polymer cement waterproof mortar layer; 8. a heat preservation layer; 9. building a filling wall; 10. archaize building mountain wall surface; 11. a hitching member; 12. a hook; 13. an anchor; 14. a hanging groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention aims to provide a new archaized building gable wall stone structure, a hanging and attaching method and an archaized building, so as to solve the problems in the prior art, and the structure is simple, effectively enhance the stability of the archaized stone plate after being installed, and effectively reduce the thickness of the finished surface of the archaized stone layer.

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

Example 1

The embodiment provides a new archaize building gable stone structure, as shown in fig. 1-3, including: the cast-in-situ concrete wall 1, a plurality of embedded parts 2, a reinforcing steel bar supporting net 3, an archaize stone layer 4 and a mortar filling layer 5, wherein the cast-in-situ concrete wall 1 is arranged on the outer side of a masonry filling wall 9 of an archaize building mountain wall surface 10 and is connected with the archaize building mountain wall surface 10; each embedded part 2 is arranged on the cast-in-situ concrete wall 1 at intervals, one end of each embedded part 2 is buried and fixed in the cast-in-situ concrete wall 1, and the other end extends out of one side of the cast-in-situ concrete wall 1 far away from the masonry filler wall 9; the steel bar supporting net 3 is fixedly connected with the embedded part 2; the antique stone layer 4 comprises a plurality of antique stone plates, and each antique stone plate is hung on the steel bar supporting net 3; the mortar filling layer 5 is formed by grouting between the archaized stone layer 4 and the cast-in-situ concrete wall 1, the mortar filling layer 5 is used for adhering and fixing the archaized stone layer 4 on the cast-in-situ concrete wall 1, the cast-in-situ concrete wall 1 is arranged to provide reliable anchoring for the hanging of stones, the number of embedded parts 2 can be increased, the size of the embedded parts 2 is reduced, the thickness of the finished surface of the archaized stone layer 4 can be effectively reduced, the reinforced bar supporting net 3 is fixed through the embedded parts 2, the archaized stone plate is hung through the reinforced bar supporting net 3, and the mortar filling layer 5 is formed by grouting between the archaized stone layer 4 and the cast-in-situ concrete wall 1, so that the archaized stone plate is fixed through hanging and grouting adhesion, the heavy archaized stone plate can be effectively fixed, and the stability of the archaized stone plate after installation is effectively enhanced.

In a preferred scheme of this embodiment, cast-in-place concrete wall 1 includes a plurality of first embedded bars, the framework of steel reinforcement and cast-in-place concrete layer, the concrete structure of being fixed in archaize building mountain wall 10 is buried in each first embedded bar's one end, the other end carries out ligature fixed connection with the framework of steel reinforcement, cast-in-place concrete layer is in the region of framework of steel reinforcement and pour concrete form, and with archaize building mountain wall 10 bond fixedly, through will be in archaize building mountain wall 10's concrete main structure and build the constructional column of infill wall 9 and carry out drilling and bury and fix first embedded bar, carry out ligature connection with the framework of steel reinforcement (double-deck two-way Φ8@200) first embedded bar, then prop up the template and carry out the concrete pouring and form cast-in-place concrete wall 1, cast-in-place concrete wall 1 bearing capacity is strong, can satisfy the requirement of laying built-in-place 2, the thickness of preferred wall is 120mm.

In a preferred scheme of the embodiment, the embedded part 2 is a second embedded steel bar, the steel bar supporting net 3 is a bidirectional steel bar net, one end of the second embedded steel bar extending out of the cast-in-situ concrete wall 1 is welded or bound and fixed at the junction point of the bidirectional steel bar net, materials are conveniently obtained, and after the second embedded steel bar with a certain size is bound and connected with the steel bar framework, the cast-in-situ concrete wall 1 is subjected to concrete pouring, so that the embedded and fixed stability of the second embedded steel bar can be ensured.

In a preferred scheme of this embodiment, newly-built archaize building gable stone structure still includes a plurality of articulates 11, the side edge of archaize stone slab is provided with articulates groove 14, articulates 11 includes couple 12 and anchor assembly 13, anchor assembly 13 and couple 12 perpendicular fixed connection, couple 12 is arranged in with reinforcing bar supporting network 3 fixed connection, anchor assembly 13 is arranged in the anchor assembly groove 14 for the anchor assembly, and a simple structure, convenient operation, through seting up at the side edge of archaize stone slab and articulates groove 14, can avoid being connected at the middle part, effectually shortened the distance couple 12 between archaize stone slab and the reinforcing bar supporting network 3 and welded fastening with reinforcing bar supporting network 3, anchor assembly 13 anchor assembly can carry out effectual fixing to archaize stone slab in articulating groove 14.

In a preferred scheme of the embodiment, the new-built archaize building gable wall stone structure further comprises a polymer cement waterproof mortar layer 7, wherein the polymer cement waterproof mortar layer 7 is smeared on one side of the cast-in-situ concrete wall 1 far away from the masonry filling wall 9, and a double-layer glass fiber net with the weight of not less than 160g/m2 is fully hung in the polymer cement waterproof mortar layer 7, so that the waterproof performance of the new-built archaize building gable wall 10 is improved.

In a preferred scheme of this embodiment, the new-built archaize building gable wall stone structure still includes heat preservation 8, and heat preservation 8 sets up between cast-in-place concrete wall 1 and archaize building gable 10 masonry infill wall 9, improves the heat preservation performance of new-built archaize building gable 10.

Example two

The embodiment also provides a hanging and pasting method of the newly-built archaized building gable stone structure of the embodiment I, which comprises the following steps:

Constructing a rock wool heat preservation layer 8 with the thickness of 60mm on the outer side of the wall surface 10 of the archaize building;

drilling holes on a concrete main body structure of the wall surface 10 of the pseudo-classic architecture and constructional columns of the masonry filling wall 9, wherein the positions of the holes correspond to the positions of double-layer bidirectional reinforcing steel bars of the reinforcing steel bar framework, and embedding and fixing first embedded reinforcing steel bars by filling reinforcing steel bar embedding glue; binding reinforcement cages (double-layer bidirectional phi 8@200), binding and fixing each first embedded reinforcement and the reinforcement cage at the corresponding position, and pouring concrete after a template is erected;

After the template is removed, coating polymer cement waterproof mortar with the thickness of 5mm on the surface layer of the cast-in-situ concrete wall 1, and fully hanging a double-layer glass fiber net with the thickness of not less than 160g/m < 2 > in the polymer cement waterproof mortar layer 7;

Binding the steel bar supporting net 3 and welding and fixing the steel bar supporting net with the second embedded steel bars;

when the shape of the antique stone plate cannot be met by the steel bar supporting net 3, re-welding steel bars and welding the corresponding shapes of the hanging pieces 11 and the antique stone plate, so that the antique stone plate with an irregular shape can be met, wherein the antique stone plate is a pineapple face Huang Xiudan, 600 x 600 and 600 x 300 of the antique stone plate;

After the construction of the archaized stone layer 4 is completed, mortar is poured between the archaized stone layer 4 and the polymer cement waterproof mortar layer 7;

The embedded part 2 is embedded, the cast-in-situ concrete wall 1 is poured, the steel bar supporting net 3 is constructed, an archaized stone plate is hung and attached on the steel bar supporting net 3, and a mortar filling layer 5 is formed by grouting between the archaized stone layer 4 and the cast-in-situ concrete wall 1.

And pointing gaps among the archaized stone plates by using DTG mortar.

Example III

The invention also provides a new archaized building, which comprises the mountain wall stone structure of the new archaized building as in the first embodiment.

The principles and embodiments of the present invention have been described in detail with reference to specific examples, which are provided to facilitate understanding of the method and core ideas of the present invention; also, it is within the scope of the present invention to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the invention.

Claims (8)

1. The utility model provides a newly-built archaize building gable stone material structure which characterized in that: comprising the following steps:

the cast-in-situ concrete wall is arranged on the outer side of the archaize building mountain wall surface masonry filler wall and is connected with the archaize building mountain wall surface;

The embedded parts are arranged on the cast-in-place concrete wall at intervals, one end of each embedded part is buried and fixed in the cast-in-place concrete wall, and the other end of each embedded part extends out of one side of the cast-in-place concrete wall far away from the masonry filler wall;

the steel bar supporting net is fixedly connected with the embedded part;

The antique stone layer comprises a plurality of antique stone plates, and each antique stone plate is hung on the steel bar supporting net; and

The mortar filling layer is formed by grouting between the archaized stone layer and the cast-in-situ concrete wall, and is used for fixedly bonding the archaized stone layer to the cast-in-situ concrete wall.

2. The new construction of archaized building gable stone structure of claim 1, wherein: the cast-in-situ concrete wall comprises a plurality of first embedded bars, a reinforcement cage and a cast-in-situ concrete layer, wherein one end of each first embedded bar is buried and fixed in the concrete structure of the archaize building gable surface, the other end of each first embedded bar is fixedly connected with the reinforcement cage in a binding manner, and the cast-in-situ concrete layer is formed by casting concrete in the area of the reinforcement cage and is fixedly bonded with the archaize building gable surface.

3. The new construction of archaized building gable stone structure of claim 1, wherein: the embedded part is a second embedded bar, the bar support net is a two-way bar net, and one end of the second embedded bar, which extends out of the cast-in-situ concrete wall, is welded or bound and fixed at the junction point of the second embedded bar and the two-way bar net.

4. The new construction of archaized building gable stone structure of claim 1, wherein: the stone plate is characterized by further comprising a plurality of hanging pieces, a hanging groove is formed in the side edge of the archaized stone plate, each hanging piece comprises a hook and an anchor, each anchor is fixedly connected with the hook vertically, the hook is used for being fixedly connected with the steel bar supporting net, and each anchor is used for being fixedly arranged in the corresponding hanging groove.

5. The new construction of archaized building gable stone structure of claim 1, wherein: the concrete wall comprises a cast-in-situ concrete wall body, a masonry filler wall and a polymer cement waterproof mortar layer, wherein the polymer cement waterproof mortar layer is smeared on one side of the cast-in-situ concrete wall, which is far away from the masonry filler wall, and the polymer cement waterproof mortar layer is internally filled with a double-layer glass fiber net with the weight of not less than 160g/m ².

6. The new construction of archaized building gable stone structure of claim 1, wherein: the cast-in-situ concrete wall is characterized by further comprising an insulation layer, wherein the insulation layer is arranged between the cast-in-situ concrete wall and the archaize building mountain wall face masonry filler wall.

7. A method for attaching a new-built archaized building gable stone structure according to any one of claims 1 to 6, which is characterized in that: the method comprises the following steps:

Embedding the embedded part, pouring the cast-in-situ concrete wall, constructing the steel bar supporting net, hanging and attaching the archaized stone plate on the steel bar supporting net, and grouting between the archaized stone layer and the cast-in-situ concrete wall to form the mortar filling layer.

8. A newly-built archaize building, its characterized in that: a new construction comprising a new archaized building gable stone structure according to any one of claims 1-6.