CN105256899A - Joint treatment method and structure of background wall - Google Patents

Abstract

The invention discloses a joint treatment method and structure of a background wall. The joint treatment method is characterized in that module assemblies forming the background wall are sequentially installed and fixed on a framework support of a base wall body of a building in a dry handing mode; in the background wall splicing process, the splicing ways or way adopted by splicing positions between every two adjacent module assemblies comprise/comprises an embedded mode through which exposed splicing joints generated by plane direct splicing are eliminated and/or a V-shaped groove splicing transition way through which gaps between the module assemblies are hidden in V-shaped groove lines and/or a lock covering way through which locks with decorative covers are installed outside the joints between the module assemblies. According to the joint treatment method and structure of the background wall, the exposed joints can be hidden or eliminated, the structure is simple, installation is convenient, and the production efficiency is high.

Description

The treatment of juncture of wall and structure

Technical field

The present invention relates to building decoration technology field, relate to a kind for the treatment of of juncture and structure of wall more specifically.

Background technology

At present, by the wall of stone laying, be applied to the Household fit-up and decoration of family's living-room TV wall, sofa wall, entry, bedroom wall etc. gradually, also can be applied to the fitting-up of the public places of entertainment such as hotel, restaurant, KTV, night club, can also be applied in the wall decoration of the sound-absorbing sound isolation requirement specialties such as the performing art Room, cinema, opera house, audiovisual studio, studio hall, recording room.Wall, with the design of its novelty, not only meets the needs of customer's decorations, more embodies the makings of art, makes product become business and artistic perfect adaptation.In stone material wall conventional machining process, one width wall is pasted on metope by numerous dull and stereotyped on-site consolidation of stone material processed by certain size to form, due to the restriction of construction condition, often occur that seam is too much, the not first-class phenomenon of gap size, need by gap-filling glue joint filling process, not only affect the graphic joining effect of wall, also cause very large impact to the Integral decoration effect of wall, and the engineering time is long, construction cost is higher.

Summary of the invention

Object of the present invention is exactly deficiency in order to solve prior art and a kind of Integral decoration effect not only improving wall provided, and simple to operation, and the engineering time is short, and construction cost is low, the treatment of juncture that seam is few.

Another object of the present invention is to provide the joint treatment structure of the effective wall of a kind of Integral decoration.

The present invention adopts following technical solution to realize above-mentioned purpose: a kind for the treatment of of juncture of wall, it is characterized in that, it be with cladding mode each group of modular assembly being formed wall be installed to successively be fixed on building base course wall keel bracket on;

In the process of splicing wall, the connecting method adopted for the splice bits between adjacent two groups of modular assemblies comprises: adopt damascene structures, and that eliminates the generation of plane direct splicing exposes piece;

And/or adopt V groove splicing transient mode, the gap between modular assembly is hidden in V slot line, naturally crosses ferryman, not easily discover;

And/or adopting tapered end coverage mode, the seam between modular assembly installs the tapered end with trim outward, eliminates the seam exposed.

Further illustrating as such scheme, the right angle of the upper and lower vertically disposed front sheet material in modular assembly and side sheet material is spliced, be first the link of front sheet material and side sheet material is carried out splicing again after 45 degree of edgings, eliminate front-facing seam.

Preferably, the back of front sheet material and side sheet material adopts several piece to form the stiffener of triangular support configurations or boss is fixed, and increases sticking strength.

Further, to position, angle splicing employing 45 degree of corner cut connecting methods of the moulding in modular assembly, more attractive in appearance.

Further, to the decoration element in tabular band frame in modular assembly, adopt hollow out mosaic mode, central layer is embedded in outer sheet frame, makes the corner of outer sheet frame without seam, good decorating effect.

After wall installs, first the dust impurity in the gap between each modular assembly is cleaned out, then carry out joint filling with gap-filling glue.

Further, after cleaning out the dust impurity in crack, paste U.S. line paper in case gap-filling glue pollutes stone surface at sheet edge, then carry out joint filling according to the gap-filling glue of the model adapted same hue of sheet material.

A joint treatment structure for wall, is characterized in that, it comprises the many groups modular assembly forming wall, wall panel, moulding module that wall comprises main background stone panel, arranges around main background stone panel;

Adjacent two wall panel modules adopt embedded splicing construction, and the end of wall panel module two is provided with the recess of the end insertion holding wall panel module one, makes planed joint between the two be hidden in the lines back of recess upper limb;

Background stone panel module adopts polygon plate, V groove is formed between the polygon plate one of the mutual correspondence that corner connects and polygon plate two, polygon plate three is filled in V-shaped groove, make the splicing gap of three as a part for the decorative pattern of monoblock background stone panel, realize the transition of seam nature;

Seam between the modular assembly forming described moulding module installs the tapered end with trim outward, adopts tapered end coverage mode, eliminates the seam exposed.

Further, main background stone panel and/or wall panel comprise outer sheet frame and central layer, and central layer embeds in outer sheet frame, the corner of outer sheet frame without seam, good decorating effect.

The beneficial effect that the present invention adopts above-mentioned technical solution to reach is:

1, the present invention adopts and reasonably splits wall, wall is divided into some modular assemblies, and by combining cleverly, greatly reduce on-the-spot splicing gap, thus improve the Integral decoration effect of wall, and the engineering time is short, construction cost is lower.

2, the joint treatment mode of the present invention's employing, wall intermodule has certain thermal deformation space, the relative freedom and flexibility of size, and dilatancy space is not limited, not easily cracks, unrestricted to the size of sheet material.

What 3, the present invention adopted is that each several part modular assembly split forming wall is integrated by dry-hanging method; Suspension member and drawing of modular assembly dial Force meansurement value all at more than 3KN, and higher than national standard requirement, reach shock resistance requirement completely, application life is longer.

4, installation cost is low, according to statistics, often overlaps wall and can save installation cost nearly 1,000 yuan.

5, the joint treatment mode of the present invention's employing, moisture protection is strong, in the city that some plum rain seasons of south are longer, does not also affect by this.

Accompanying drawing explanation

Fig. 1 is the structural representation of wall of the present invention;

Fig. 2 is wall splicing construction schematic diagram of the present invention;

Fig. 3 is keel bracket mounting structure schematic diagram of the present invention;

Fig. 4 is building base course wall of the present invention line network for location;

Fig. 5 is stone material erection sequence figure of the present invention;

Fig. 6 is the splicing pre-structure schematic diagram of upper and lower two groups of modular assemblies of the present invention;

Fig. 7 is structural representation after the splicing of upper and lower two groups of modular assemblies of the present invention;

Fig. 8 is main background stone panel splicing construction schematic diagram of the present invention;

Fig. 9 is main background stone panel splicing construction schematic diagram of the present invention;

Figure 10 is the enlarged drawing of the A of Fig. 1;

Figure 11 is front sheet material and the side sheet material mounting structure schematic diagram of modular assembly;

Figure 12 is the structure schematic diagram of wall modular assembly of the present invention;

Figure 13 is suspension member mounting structure schematic diagram of the present invention;

Figure 14 wall panel splicing construction of the present invention schematic diagram.

Description of reference numerals: 1, building base course wall 1-1, ground 1-2, smallpox concrete 1-3, abutment sleeve or fixed head 1-4, location lines 1-5, wall outter frame shelf line 1-6, wall base level line 2, keel bracket 3, modular assembly 3-1, main background stone panel 3-11, polygon plate one 3-12, polygon plate two 3-13, polygon plate three 3-2, wall panel 3-21, outer sheet frame 3-22, central layer 3-3, moulding module 3-4, backboard mounting blocks 3a, wall panel module one 3b, wall panel module two 3c, front sheet material 3d, side sheet material 4, V slot line 5, tapered end 6, stiffener.

Detailed description of the invention

Below in conjunction with specific embodiment, the technical program is explained in detail.

As Figure 1-Figure 5, the present invention is a kind for the treatment of of juncture of wall, it be with cladding mode each group of modular assembly 3 being formed wall main body be installed to successively be fixed on building base course wall 1 keel bracket 2 on; In the present embodiment, the modular assembly 3 of wall be generally by entire body stone material through comprising cutting, engraving, bonding, polishing, polishing, bore process process.In the process of splicing wall, the connecting method adopted for the splice bits between adjacent two groups of modular assemblies comprises: adopt damascene structures, V groove splicing transient mode and tapered end coverage mode.Wherein, damascene structures for eliminate plane direct splicing produce expose piece, generally between column and column, use between plate and plate more; V groove splicing transient mode, be by modular assembly between gap be hidden in V slot line 4, be generally use more in the main background panel of wall, gap be fused in background patterns, can unexpected decorative effect be produced; Tapered end coverage mode, is the tapered end 5 that seam between modular assembly installs with trim outward, eliminates the seam exposed, be generally apply in moulding module more.To the decoration element in tabular band frame in modular assembly, adopt hollow out mosaic mode, central layer is embedded in outer sheet frame, makes the corner of outer sheet frame without seam, good decorating effect.

Particularly, in the process of splicing wall, the treatment of juncture for using between adjacent two groups of modular assemblies:

1, eliminating the damascene structures exposing piece that plane direct splicing produces, as shown in Figure 6 and Figure 7, is the splicing of upper and lower two groups of modular assemblies, as shown in the figure shown in 6, is the structure chart before splicing; Shown in Fig. 7, it is spliced structure chart; By being embedded by upper module assembly bottom lower module assembly conjugation position lines, making planed joint be hidden in lines back, realizing nature transition, wall surface is without seam, more attractive in appearance;

2, V groove splicing transient mode, as shown in Figure 8 and Figure 9, makes the gap between modular assembly be hidden in V slot line 4, naturally crosses ferryman, not easily discovers, and module spliced seam, at V-type trench bottom, is naturally crossed ferryman, not easily discovered, play better decorative effect;

3, tapered end coverage mode, as shown in Figure 10, the seam between modular assembly installs the tapered end 5 with trim outward, eliminates the seam exposed.

Further, the described wall wall panel 3-2, the moulding module 3-3 that comprise main background stone panel 3-1, arrange around main background stone panel; Adjacent two wall panel modules adopt embedded splicing construction, and the end of wall panel module two 3b is provided with the recess of the end insertion holding wall panel module one 3a, makes planed joint between the two be hidden in the lines back of recess upper limb; Main background stone panel 3-1 adopts polygon plate, V groove is formed between polygon plate one 3-11 of the mutual correspondence that corner connects and polygon plate two 3-12, polygon plate three 3-13 is filled in V-shaped groove, make the splicing gap of three as a part for the decorative pattern of monoblock background stone panel, realize the transition of seam nature; As shown in figure 14, main background stone panel and wall panel adopt hollow out mosaic mode respectively, comprise outer sheet frame 3-21 and central layer 3-22, are embedded in outer sheet frame by central layer, make the corner of outer sheet frame without seam, good decorating effect.

Further, after wall installs, first the dust impurity in the gap between each modular assembly is cleaned out, then carry out joint filling with gap-filling glue.After cleaning out the dust impurity in crack, paste U.S. line paper in case gap-filling glue pollutes stone surface at sheet edge, then carry out joint filling according to the gap-filling glue of the model adapted same hue of sheet material.

As shown in figure 11, splicing the right angle of the upper and lower vertically disposed front sheet material 3c in modular assembly and side sheet material 3d, is first the link of front sheet material 3c and side sheet material 3d is carried out splicing again after 45 degree of edgings, eliminates front-facing seam.As shown in figure 12, the back of front sheet material and side sheet material adopts several piece to form the stiffener 6 of triangular support configurations or boss is fixed, and increases sticking strength.

In addition, the present invention is the situation of complex model for moulding module, adopt imitative type integral forming process, also be adopt integral forming process to the curved line in moulding module, complicated lines, camber plate, carved piece, be different from the more than one piece plate splicing technique for grinding of general factory, not only production and processing is convenient, and can eliminate the gap between the existing each assembly forming moulding with connecting method, good decorating effect.

Below the concrete steps of the installation of wall:

A, building base course wall line location; Before this, also need to carry out following preparation:

A1, first will analyze working drawing: hold wall overall dimensions, concrete installation site, consider being connected of wall and both sides, receiving frontier juncture is; According to the splicing relation of plan view (as Fig. 1) and the clearly each board material splice position of sectional drawing, flush or flanging, shown in Fig. 2;

A2, analysis base course wall: if base course wall is common brick or cement wall, the safe pulling force of wall can be born, then select and directly U-shaped material is installed fastening by position shown in working drawing;

If base course wall insufficient strength, as shown in Figure 3, then must take to install abutment sleeve or fixed head 1-3 additional at U-shaped material two, connect with ground 1-1 and smallpox concrete 1-2, thus guaranteed strength requirement;

If wall installation site is installed without metope or non-metope of being close to, manufacture corresponding steelframe according to field condition, the U-shaped material of wall is fixed on steelframe;

In building base course wall line position fixing process, the horizon determined when being and doing smallpox according to carpenter, eject the location lines 1-4 of keel bracket with infrared ray gradienter, ink fountain at base course wall, make wall outter frame shelf line 1-5 and wall base level line 1-6, as shown in Figure 4; The single size of repetition measurement is carried out and overall dimensions has zero deflection after having played U-shaped material network for location and wall frame diagram; Wherein, the repetition measurement of overall dimensions is generally carry out repetition measurement size by diagonally opposing corner bracing wire to have zero deflection, and adjusts accordingly;

B, installation keel bracket, the line according to base course wall is located, and is fixed on by keel bracket on base course wall; To guarantee during installation that U-shaped material is perpendicular to the ground, check in front and side with ultrared projectoscope, if metope out-of-flatness shimming corrects;

C, corner brace component is set on described keel bracket, at each modular assembly back side mounting suspension member 7 of wall; Wherein, corner brace component in a pre-installation, according to suspension member setting height(from bottom), ejects installation reference line (often arranging suspension member overhead height reference line) with ink fountain, is then fixed on U-shaped material by the corner brace component of some and suspension member on U-shaped material;

D, stone material are installed, and as shown in Figure 5, divide layout according to wall entirety, install each modular assembly successively, the suspension member of each modular assembly coordinates with corresponding corner brace component hook; Wherein, the wall back side is 115mm with the normal pitch of building base course wall, and owing to affecting by factors such as degree of plainness for wall surface, sheet material thickness deviation, machining deviations, it is ± 10mm that regulated quantity is reserved in front and back;

Determine stone material datum clamp face: whether be arranged in unified plane or on parallel surface for convenience of detection background wall front, with ink fountain at distance wall outermost facade 90-120mm place bullet one straight line, line of reference when wall is installed as a setting, whether consistent to the distance of reference line to every block sheet material tape measure two ends during installation, prevent mounted wall facing from becoming distorted shape, affect attractive in appearance;

After the good line of bullet, just can stone material block-by-block be suspended on U-shaped material suspension member by suspension member, when stone material is installed, order must install according to the installation drawing of its construction, otherwise comparatively large and some modules of installation deviation can be caused to inlay;

Initial workpiece stone material install time, must check correct its tram, other modules then with its position for benchmark carries out assembled, prevent wall overall dimensions from exceeding default installation site;

For heavier stone material assembly, be adsorbed on stone surface by hand pump sucker or glass holder, then with carrying and installation; Occur when installation that difference of height or height gap can be done by the stainless steel trimming bolt at suspension member top to finely tune up and down;

Then carry out leveling with adjustable sucking disc if there is the out-of-flatness of sheet material front, be fixed in two boards material intersection adhesive back after leveling;

One block of stone material is often installed in installation process and need detects its verticality with infrared ray gradienter from front and side, prevent overall dimensions to be out of shape and cause excessive and some modules of splicing seams to install;

E, joint filling process, after wall installs, first clean out the dust impurity in the gap between each modular assembly, then carry out joint filling with gap-filling glue; Further, after cleaning out the dust impurity in crack, paste U.S. line paper in case gap-filling glue pollutes stone surface at sheet edge, then carry out joint filling according to the gap-filling glue of the model adapted same hue of sheet material, after playing glue, require that glue-line is smooth straight.

The present invention compared with prior art, first, adopt the module of wall to be processed by sophisticated equipment in advance in factory and transport on-the-spot splicing again to, by combining cleverly, greatly reducing on-the-spot splicing gap, thus improving the Integral decoration effect of wall, and the engineering time is short, construction cost is lower, installs the time that a set of wall only needs 1.5-2 days, substantially reduces the engineering time.Wall intermodule has certain thermal deformation space, the relative freedom and flexibility of size, and dilatancy space is not limited, not easily cracks, unrestricted to the size of sheet material;

The second, what the suspension member 7 that the dry-hanging method that the present invention adopts relates to adopted is Back-bolt type suspension member, installs backboard mounting blocks 3-4 additional, backboard mounting blocks 3-4 arranges suspension member 7, as Figure 13 at moulding module back.Bolt mounting holes adopts target drill and the boring of CNC digital-controlled carving machine, boring accurate positioning, and hole quality is better than tradition and opens up Ji Tuo hole, hole, and the conjugation grade in back of the body bolt bolt and hole is higher.Suspension member and wall module are drawn and are dialled Force meansurement value all at more than 3KN, and higher than national standard requirement, reach shock resistance requirement completely, application life is longer; Moisture protection is strong, in the city that some plum rain seasons of south are longer, does not also affect by this; Installation cost is low, according to statistics, often overlaps wall and can save installation cost nearly 1,000 yuan, produce certain economic benefit.

Above-described is only the preferred embodiment of the present invention, it should be pointed out that for the person of ordinary skill of the art, and without departing from the concept of the premise of the invention, can also make some distortion and improvement, these all belong to protection scope of the present invention.

Claims (9)

1. a treatment of juncture for wall, is characterized in that, it be with cladding mode each group of modular assembly being formed wall be installed to successively be fixed on building base course wall keel bracket on;

In the process of splicing wall, the connecting method adopted for the splice bits between adjacent two groups of modular assemblies comprises: adopt damascene structures, and that eliminates the generation of plane direct splicing exposes piece;

And/or adopt V groove splicing transient mode, the gap between modular assembly is hidden in V slot line;

And/or adopting tapered end coverage mode, the seam between modular assembly installs the tapered end with trim outward.

2. the treatment of juncture of wall according to claim 1, it is characterized in that, the right angle of the upper and lower vertically disposed front sheet material in modular assembly and side sheet material is spliced, be first the link of front sheet material and side sheet material is carried out splicing again after 45 degree of edgings, eliminate front-facing seam.

3. the treatment of juncture of wall according to claim 2, is characterized in that, the back of front sheet material and side sheet material adopts several piece to form the stiffener of triangular support configurations or boss is fixed.

4. the treatment of juncture of wall according to claim 1, is characterized in that, to position, angle splicing employing 45 degree of corner cut connecting methods of the moulding in modular assembly.

5. the treatment of juncture of wall according to claim 1, is characterized in that, to the decoration element in tabular band frame in modular assembly, adopt hollow out mosaic mode, embedded in outer sheet frame by central layer, the corner of outer sheet frame is without seam.

6. the treatment of juncture of wall according to claim 1, is characterized in that, after wall installs, is first cleaned out by the dust impurity in the gap between each modular assembly, then carries out joint filling with gap-filling glue.

7. the treatment of juncture of wall according to claim 6, it is characterized in that, after cleaning out the dust impurity in crack, paste U.S. line paper in case gap-filling glue pollutes stone surface at sheet edge, then carry out joint filling according to the gap-filling glue of the model adapted same hue of sheet material.

8. a structure corresponding with the treatment of juncture of the wall described in claim 1-7, it is characterized in that, it comprises the many groups modular assembly forming wall, wall panel, moulding module that wall comprises main background stone panel, arranges around main background stone panel;

Adjacent two wall panel modules adopt embedded splicing construction, and the end of wall panel module two is provided with the recess of the end insertion holding wall panel module one;

Background stone panel module adopts polygon plate, and form V groove between the polygon plate one of the mutual correspondence that corner connects and polygon plate two, polygon plate three is filled in V-shaped groove;

Seam between the modular assembly forming described moulding module installs the tapered end with trim outward.

9. the treatment of juncture of wall according to claim 8, is characterized in that, main background stone panel and/or wall panel comprise outer sheet frame and central layer, and central layer embeds in outer sheet frame, and the corner of outer sheet frame is without seam.