CN115262905A - Stone dry-hanging structure at wall deformation joint and construction method thereof - Google Patents

Abstract

The invention relates to a stone dry hanging structure at a wall deformation joint and a construction method thereof, wherein the stone dry hanging structure comprises the following steps: the vertical keels are fixed on the main structure at intervals; the horizontal keels are arranged at intervals and horizontally connected to the vertical keels; the base is arranged on the horizontal keel in a position-adjustable manner, and a first groove with an upward opening is formed at the end part, far away from the main body structure, of the base; the cover plate is detachably arranged at the end part of the base far away from the main body structure, a second groove with a downward opening is formed in the cover plate corresponding to the first groove, and the first groove and the second groove are spliced to form an accommodating space; one end of the connecting plate is clamped in the accommodating space, and the other end of the connecting plate is fixedly connected with the stone plate; and the elastic layer is filled between the accommodating space and the corresponding end part of the connecting plate. The invention effectively solves the problem that the dry-hanging stone at the deformation joint of the wall surface cannot be paved, and the stone can be paved at the deformation joint by optimizing the dry-hanging structure of the stone, thereby improving the overall aesthetic property of the stone wall surface and being convenient and fast to construct.

Description

Stone dry hanging structure at wall deformation joint and construction method thereof

Technical Field

The invention relates to the field of building construction, in particular to a stone dry-hanging structure at a wall deformation joint and a construction method thereof.

Background

In building engineering, in order to prevent a house from cracking due to climate change, deformation joints are often required to be arranged on a building with an excessively long plane size, that is, one gap is reserved at a certain distance along the length direction of the building, so that the building is completely disconnected from components above the ground, such as a roof, a wall, a floor and the like.

In the decoration construction, in order to satisfy the relative displacement of expansion joint department both sides, the wall is hung the stone material futilely and is meeting the way of expansion joint department and generally do: a keel is respectively erected at two sides of the expansion joint, the transverse keel is disconnected at the position, and the stone plate is disconnected at the expansion joint and is independently hung.

But along with the continuous progress of building construction technology, economic growing day by day, people are more and more high to architectural decoration's requirement, hang the traditional processing mode of stone material disconnection in expansion joint department futilely, can't lead to laying, and wall stone material is here typeset often can cause the expansion joint both sides to be that the stone material width is less, whole is not pleasing to the eye, and the gap of setting up is stayed is difficult to handle, influences stone material wall outward appearance effect.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a stone dry-hanging structure at a deformation joint of a wall surface and a construction method thereof, solves the problem that dry-hanging stone at the deformation joint of the wall surface cannot be paved, enables the stone to be paved at the deformation joint through optimization of the stone dry-hanging structure, improves the integral aesthetic property of the stone wall surface, and is convenient and fast to construct.

The technical scheme for realizing the purpose is as follows:

the invention provides a stone dry hanging structure at a wall deformation joint, which comprises:

the vertical keels are fixed on the main structure at intervals;

the horizontal keels are arranged at intervals and horizontally connected to the vertical keels;

the position of the base is adjustably arranged on the base of the horizontal keel, and a first groove with an upward opening is formed at the end part of the base, which is far away from the main body structure;

the cover plate is detachably arranged at the end part of the base far away from the main body structure, a second groove with a downward opening is formed in the cover plate corresponding to the first groove, and the first groove and the second groove are spliced to form an accommodating space;

one end of the connecting plate is clamped in the accommodating space, and the other end of the connecting plate is fixedly connected with the stone plate; and

the elastic layer is filled between the accommodating space and the corresponding end part of the connecting plate and can elastically deform.

The invention provides a stone dry-hanging structure at a deformation joint of a wall surface, which is characterized in that an elastic layer is filled in a containing space, when main structures at two sides of the deformation joint deform, the elastic layer elastically deforms to offset the deformation of the main structures, so that the influence on a stone plate is avoided, and the stone plate is not required to be provided with a gap at the deformation joint, so that the integral aesthetic property is ensured, the problem that dry-hanging stone at the deformation joint of the wall surface cannot be paved is solved, the stone can be paved at the deformation joint by optimizing the stone dry-hanging structure, the integral aesthetic property of the stone wall surface is improved, and the construction is convenient.

The stone dry hanging structure at the deformation joint of the wall surface is further improved in that the stone dry hanging structure further comprises a through hole arranged on the horizontal keel, a strip-shaped hole corresponding to the through hole and arranged on the base, and a first bolt penetrating through the strip-shaped hole and screwed in the through hole, wherein the strip-shaped hole extends along the direction vertical to the horizontal keel;

the base passes through bar hole along first bolt round trip movement for the base removes to the direction that is close to or keeps away from the major structure, and then revolves soon first bolt, with unable adjustment base in horizontal fossil fragments.

The stone dry hanging structure at the deformation joint of the wall surface is further improved in that the stone dry hanging structure further comprises a convex block which is formed on the base and is positioned on one side of the first groove close to the main body structure, and a third groove which is formed on the cover plate and corresponds to the convex block;

the third groove is clamped by the convex block, and the second bolt penetrates through the cover plate and is screwed in the convex block, so that the cover plate is fixedly connected with the base, and the first groove and the second groove are spliced to form an accommodating space.

The stone dry hanging structure at the deformation joint of the wall surface is further improved in that the connecting plate is I-shaped and comprises a first vertical part clamped in the accommodating space, a second vertical part opposite to the first vertical part and fixed on the stone plate, and a horizontal part connected between the first vertical part and the second vertical part, wherein the elastic layer is coated on the periphery of the first vertical part.

The stone dry hanging structure at the deformation joint of the wall surface is further improved in that the stone dry hanging structure further comprises a fourth groove arranged on the side part, close to the main body structure, of the stone plate, and the second vertical part is fixed in the fourth groove.

The stone dry hanging structure at the deformation joint of the wall surface is further improved in that the stone dry hanging structure further comprises a structure adhesive layer filled in the fourth groove, and the second vertical part and part of the horizontal part are embedded in the structure adhesive layer.

The stone dry hanging structure at the deformation joint of the wall surface is further improved in that the stone dry hanging structure further comprises a protruding portion formed at the position, close to the main body structure, of the bottom surface of the fourth groove, and the second vertical portion is clamped between the protruding portion and the inner wall of the fourth groove.

The stone dry hanging structure at the deformation joint of the wall surface is further improved in that the vertical keels are positioned on two sides of the deformation joint.

The stone dry hanging structure at the deformation joint of the wall surface is further improved, the horizontal keel is broken at the deformation joint to form a gap.

The invention provides a construction method of a stone dry hanging structure at a wall deformation joint, which comprises the following steps:

providing vertical keels and horizontal keels, fixedly arranging the vertical keels on the main structure at intervals, and connecting the horizontal keels to the vertical keels at intervals;

providing a base, an elastic layer and a connecting plate, installing the base on the horizontal keel, clamping the elastic layer into the first groove, wherein part of the elastic layer protrudes out of the first groove, and further clamping one end of the connecting plate into the elastic layer;

and providing a cover plate and a stone plate, and installing the cover plate on the base, so that the convex part of the elastic layer is clamped into the second groove, and the end part of the connecting plate, far away from the main body structure, is fixedly connected with the stone plate.

Drawings

FIG. 1 is a side view of the stone dry-hanging structure at the deformation joint of the wall surface of the present invention.

FIG. 2 is a top view of the stone dry-hanging structure at the deformation joint of the wall surface of the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

Referring to fig. 1, the invention provides a stone dry-hanging structure at a deformation joint of a wall surface and a construction method thereof, wherein an elastic layer is filled in a containing space, when main structures at two sides of the deformation joint deform, the elastic layer elastically deforms to offset the deformation of the main structures, so that influence on stone plates is avoided, gaps do not need to be formed at the deformation joint of the stone plates, the integral attractiveness is ensured, the problem that dry-hanging stones at the deformation joint of the wall surface cannot be paved, and the stone dry-hanging structure is optimized, so that the stones can be paved at the deformation joint, the integral attractiveness of the stone wall surface is improved, and the construction is convenient. The stone dry-hanging structure at the deformation joint of the wall surface is explained with reference to the attached drawings.

Referring to fig. 1, fig. 1 is a side view of a stone dry hanging structure at a deformation joint of a wall surface according to the present invention. The stone dry-hanging structure at the deformation joint of the wall surface of the invention is explained with reference to fig. 1.

As shown in fig. 1-2, the stone dry-hanging structure at the deformation joint of the wall surface of the invention comprises:

the vertical keels 2 are fixed on the main structure 24 at intervals;

horizontal keels 23 arranged at intervals and horizontally connected to the vertical keels 22;

the base 11 is arranged on the horizontal keel 23 in a position-adjustable mode, and a first groove 111 with an upward opening is formed in the end, away from the main structure 24, of the base 11;

the cover plate 12 is detachably mounted at the end part of the base 11 far away from the main body structure 24, a second groove 121 with a downward opening is formed in the cover plate 12 corresponding to the first groove 111, and the first groove 111 and the second groove 121 are spliced to form an accommodating space;

a connecting plate 13 with one end clamped in the accommodating space and the other end fixedly connected with the stone plate 21; and

and an elastic layer 14 filled between the accommodating space and the corresponding end of the connecting plate 13, the elastic layer 14 being elastically deformable.

Preferably, the elastic layer 14 is made of an elastic rubber material.

Specifically, the vertical keels 22 are located on either side of the deformation joint.

Specifically, the horizontal keel 23 is broken at the deformation joint to form a gap.

Preferably, the stone panel 21 covers the deformation joint between the body structures 24.

As a preferred embodiment of the present invention, the present invention further includes a through hole opened in the horizontal keel 23, a strip-shaped hole 113 corresponding to the through hole and opened in the base 11, and a first bolt 1131 penetrating through the strip-shaped hole 113 and screwed into the through hole, wherein the strip-shaped hole 113 extends along a direction perpendicular to the horizontal keel 23;

the base 11 moves back and forth along the first bolt 1131 through the slotted hole 113, so that the base 11 moves toward or away from the main body structure 24, and the first bolt 1131 is screwed to fix the base 11 to the horizontal keel 23.

Specifically, the cover plate further includes a bump 112 formed on the base 11 and located on a side of the first groove 111 close to the main body structure 24, and a third groove formed on the cover plate 12 corresponding to the bump 112;

the protrusion 112 is clamped in the third groove, and the second bolt 122 penetrates through the cover plate 12 and is screwed in the protrusion 112, so that the cover plate 12 is fixedly connected with the base 11, and the first groove 111 and the second groove 121 are spliced to form an accommodating space.

Further, the connecting plate 13 is i-shaped, and includes a first vertical portion 131 clamped in the accommodating space, a second vertical portion 132 opposite to the first vertical portion 131 and fixed to the stone plate 21, and a horizontal portion 133 connected between the first vertical portion 131 and the second vertical portion 132, and the elastic layer 14 is wrapped around the first vertical portion 131.

Specifically, the stone material plate further comprises a fourth groove opened on the side portion of the stone material plate 21 close to the main body structure 24, and the second vertical portion 132 is fixed in the fourth groove.

Preferably, the structure adhesive layer 212 filled in the fourth groove is further included, and the second vertical portion 132 and the partial horizontal portion 133 are embedded in the structure adhesive layer 212.

Specifically, the first vertical portion 132 further includes a protruding portion 211 formed at a position close to the main body structure 24 on the bottom surface of the fourth groove, and the second vertical portion 132 is clamped between the protruding portion 211 and the inner wall of the fourth groove, so as to prevent the second vertical portion 132 from coming out of the fourth groove.

The specific implementation method of the invention is as follows:

a plurality of vertical keels 22 are respectively arranged on two sides of the main structure 24, which are positioned at the deformation joint, at intervals, horizontal keels 23 are connected among the vertical keels 22, and the positions of the horizontal keels 23, which correspond to the deformation joint, are disconnected;

mounting the base 11 on the horizontal keel 23, moving back and forth along the first bolt 1131 through the strip-shaped hole 113, so as to move the base in a direction close to or away from the main body structure 24, and further screwing the first bolt 1131 to fix the position of the base 11;

the elastic layer 14 is clamped into the first groove 111, part of the elastic layer 14 protrudes out of the first groove 111, and the first vertical part 131 of the connecting plate is clamped into the first groove 111 and is coated in the elastic layer 14;

the second groove 121 of the cover plate 12 is opposite to the first groove 111, so that the second groove 121 and the first groove 111 are spliced to form an accommodating space, the protruding part of the elastic layer 14 and part of the first vertical part 131 are located in the accommodating space, at this time, the bump 112 of the base 11 is clamped into the third groove of the cover plate 12, and the second bolt 122 penetrates through the cover plate 12 and is screwed into the bump 112, so that the cover plate 12 is fixedly connected with the base 11, and the corresponding end part of the connecting plate 13 is clamped;

the second vertical part 132 of the connecting plate 13 is clamped between the inner wall of the fourth groove and the protruding part 211, and then the fourth groove is filled with a structural adhesive layer 212, so that the stone plate 21 is fixed at the end part of the connecting plate far away from the main body structure 24;

when the main body structure 24 is deformed or relatively displaced by environmental factors, the first vertical portion 131 presses the elastic layer 14, so that the elastic layer 14 is deformed, thereby offsetting the deformation or displacement of the main body structure 24 and avoiding affecting the stone plate 21.

The invention also provides a construction method of the stone dry hanging structure at the deformation joint of the wall surface, which comprises the following steps:

providing vertical keels 22 and horizontal keels 23, fixedly arranging the vertical keels 22 on a main structure 24 at intervals, and connecting the horizontal keels 23 to the vertical keels 22 at intervals;

providing a base 11, an elastic layer 14 and a connecting plate 13, installing the base 11 on a horizontal keel 23, clamping the elastic layer 14 into the first groove 111, partially protruding out of the first groove 111 of the elastic layer 14, and clamping one end of the connecting plate 13 into the elastic layer 14;

a cover plate 12 and a stone plate 21 are provided, the cover plate 12 being mounted to the base 11 such that the projecting portion of the resilient layer 14 snaps into the second recess 121 and the end of the connecting plate 13 remote from the main structure 24 is fixedly connected to the stone plate 21.

The concrete operation mode of the construction method provided by the invention is as follows:

a plurality of vertical keels 22 are respectively arranged on two sides of the main structure 24, which are positioned at the deformation joint, at intervals, horizontal keels 23 are connected among the vertical keels 22, and the positions of the horizontal keels 23, which correspond to the deformation joint, are disconnected;

mounting the base 11 on the horizontal keel 23, moving back and forth along the first bolt 1131 through the strip-shaped hole 113, so as to move the base in a direction close to or away from the main body structure 24, and further screwing the first bolt 1131 to fix the position of the base 11;

the elastic layer 14 is clamped into the first groove 111, part of the elastic layer 14 protrudes out of the first groove 111, and the first vertical part 131 of the connecting plate is clamped into the first groove 111 and is coated in the elastic layer 14;

the second groove 121 of the cover plate 12 is opposite to the first groove 111, so that the second groove 121 and the first groove 111 are spliced to form an accommodating space, the protruding part and part of the first vertical part 131 of the elastic layer 14 are positioned in the accommodating space, the bump 112 of the base 11 is clamped into the third groove of the cover plate 12, and the second bolt 122 penetrates through the cover plate 12 and is screwed into the bump 112, so that the cover plate 12 is fixedly connected with the base 11, and the corresponding end part of the connecting plate 13 is clamped;

the second vertical part 132 of the connecting plate 13 is clamped between the inner wall of the fourth groove and the protruding part 211, and then the fourth groove is filled with a structural adhesive layer 212, so that the stone plate 21 is fixed at the end part of the connecting plate far away from the main body structure 24;

when the main body structure 24 is deformed or relatively displaced by environmental factors, the first vertical portion 131 presses the elastic layer 14, so that the elastic layer 14 is deformed, thereby offsetting the deformation or displacement of the main body structure 24 and avoiding affecting the stone plate 21.

While the present invention has been described in detail and with reference to the embodiments thereof as illustrated in the accompanying drawings, it will be apparent to one skilled in the art that various changes and modifications can be made therein. Therefore, certain details of the embodiments should not be construed as limitations of the invention, except insofar as the following claims are interpreted to cover the invention.

Claims (10)

1. The utility model provides a structure is hung futilely to stone material of wall movement joint department which characterized in that includes:

the vertical keels are fixed on the main structure at intervals;

the horizontal keels are arranged at intervals and horizontally connected to the vertical keels;

the base is arranged on the horizontal keel in a position-adjustable manner, and a first groove with an upward opening is formed at the end part, far away from the main body structure, of the base;

the cover plate is detachably arranged at the end part, far away from the main body structure, of the base, a second groove with a downward opening is formed in the cover plate corresponding to the first groove, and the first groove and the second groove are spliced to form an accommodating space;

one end of the connecting plate is clamped in the accommodating space, and the other end of the connecting plate is fixedly connected with the stone plate; and

the elastic layer is filled between the accommodating space and the corresponding end part of the connecting plate and can be elastically deformed.

2. The wall deformation joint stone dry hanging structure as claimed in claim 1, further comprising a through hole provided in the horizontal keel, a strip hole corresponding to the through hole and provided in the base, and a first bolt passing through the strip hole and screwed into the through hole, wherein the strip hole extends in a direction perpendicular to the horizontal keel;

the base passes through the bar hole along first bolt round trip movement for the base moves to the direction of being close to or keeping away from major structure, and then twists soon first bolt, in order to fix the base in horizontal fossil fragments.

3. A stone dry-hanging structure at a deformation joint of a wall surface as defined in claim 1, further comprising a projection formed on the base and located at a side of the first groove close to the main body structure, and a third groove formed on the cover plate corresponding to the projection;

the third groove is clamped and arranged on the convex block, and then the second bolt penetrates through the cover plate and is screwed on the convex block, so that the cover plate is fixedly connected with the base, and the first groove and the second groove are spliced to form the accommodating space.

4. The wall deformation joint stone dry hanging structure as claimed in claim 1, wherein the connecting plate is i-shaped, and comprises a first vertical portion clamped in the accommodating space, a second vertical portion opposite to the first vertical portion and fixed on the stone plate, and a horizontal portion connected between the first vertical portion and the second vertical portion, and the elastic layer is wrapped around the first vertical portion.

5. The wall deformation joint stone dry hanging structure as claimed in claim 4, further comprising a fourth groove provided on the side of the stone plate close to the main structure, wherein the second vertical portion is fixed in the fourth groove.

6. A stone dry hanging structure at a deformation joint of a wall surface as claimed in claim 5, further comprising a structure adhesive layer filled in the fourth groove, wherein the second vertical portion and part of the horizontal portion are embedded in the structure adhesive layer.

7. The wall deformation joint stone dry hanging structure as claimed in claim 5, further comprising a protruding portion formed at a position of the bottom surface of said fourth groove close to said main structure, said second vertical portion being clamped between said protruding portion and the inner wall of said fourth groove.

8. A stone dry-hang structure at a deformation joint of a wall surface as defined in claim 1, wherein the vertical keels are located at both sides of the deformation joint.

9. A stone dry-hanging structure at a deformation joint of a wall surface as defined in claim 1, wherein the horizontal keel is broken at the deformation joint to form a gap.

10. A construction method of a stone dry hanging structure at a deformation joint of a wall surface as claimed in claim 1, characterized by comprising the following steps:

providing vertical keels and horizontal keels, fixedly arranging the vertical keels on the main body structure at intervals, and connecting the horizontal keels to the vertical keels at intervals;

providing a base, the elastic layer and a connecting plate, installing the base on the horizontal keel, clamping the elastic layer into the first groove, wherein part of the elastic layer protrudes out of the first groove, and further clamping one end of the connecting plate into the elastic layer;

and providing a cover plate and a stone plate, and installing the cover plate on the base, so that the protruding part of the elastic layer is clamped in the second groove, and the end part of the connecting plate far away from the main body structure is fixedly connected with the stone plate.

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