CN114482343A - Frame body coated type partition panel wall and installation method thereof - Google Patents

Abstract

The invention relates to the technical field of assembly type buildings, in particular to a frame body coated type partition panel wall and an installation method thereof. A frame body coated type partition wall batten wall comprises a first wall body and a second wall body which are arranged in parallel and are formed by splicing partition wall battens; the first wall body is connected with the ground through a first connecting structure and connected with the top surface through a second connecting structure; the connecting structure of the second wall body and the ground is the same as the first connecting structure, and the connecting structure of the second wall body and the top surface is the same as the second connecting structure; the first connecting structure comprises a first L-shaped through long keel and a first L-shaped dotted keel. This application partition panel wall leads to long fossil fragments, L type punctiform fossil fragments and expanded polystyrene through the L type and comes to be connected with ground, top surface, has saved drilling among the prior art, has beaten the complicated step of reinforcing bar to the time of cement mortar solidification maintenance has been saved, makes the installation of partition panel wall more convenient, and the efficiency of construction is higher, construction cycle is shorter.

Description

Frame body coated type partition panel wall and installation method thereof

Technical Field

The invention relates to the technical field of assembly type buildings, in particular to a frame body coated partition batten wall and an installation method thereof.

Background

The wall body is an indispensable component in the building engineering, the traditional brick wall has short application history in China, and although the strength and the durability are good, the traditional brick wall has the defects of low construction efficiency, high cost, environmental pollution and the like. Compared with the traditional brick wall, the partition batten wall formed by splicing the light partition battens has the advantages of high construction efficiency, low cost, environmental protection and the like, and is gradually and widely applied to the field of buildings.

However, the conventional partition slat wall has the following disadvantages: 1. cement mortar is required to be used for curing treatment during installation, the curing time is long, and the site construction efficiency is reduced; 2. in the process of connecting the partition batten wall with the top surface, the ground and the side surface, holes need to be drilled firstly and then reinforcing steel bars need to be driven in for reinforcement, so that the construction process is complex, and the site construction efficiency is further reduced; 3. the partition wall batten needs to be grooved on site for installing pipelines, and the site construction efficiency is reduced again; 4. the overall strength and the sound insulation effect of the partition batten wall are poor.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a frame body coated partition batten wall and an installation method thereof, wherein the frame body coated partition batten wall is simple and convenient to install, high in construction efficiency and short in construction period.

The technical scheme adopted by the invention for solving the technical problems is as follows: a frame body coated type partition wall batten wall comprises a first wall body and a second wall body which are arranged in parallel and are formed by splicing partition wall battens;

the first wall body is connected with the ground through a first connecting structure and connected with the top surface through a second connecting structure; the connecting structure of the second wall body and the ground is the same as the first connecting structure, and the connecting structure of the second wall body and the top surface is the same as the second connecting structure;

the first connecting structure comprises a first L-shaped through long keel and a first L-shaped dotted keel; the first edge body of the first L-shaped through long keel is connected with the ground and used for supporting the bottom surface of the first wall body, and the second edge body of the first L-shaped through long keel is used for supporting the back side of the first wall body; the first side body of the first L-shaped dotted keel is connected with the ground, the second side body of the first L-shaped dotted keel is connected with the front side of the first wall body, and the first L-shaped dotted keel is arranged at the joint of the two adjacent partition wall battens;

the second connecting structure comprises a second L-shaped through long keel and a second L-shaped dotted keel; the first edge body of the second L-shaped through long keel is connected with the top surface and used for supporting the top surface of the first wall body, and the second edge body of the second L-shaped through long keel is used for supporting the back side of the first wall body; the first side body of the second L-shaped dotted keel is connected with the top surface, the second side body of the second L-shaped dotted keel is connected with the front side of the first wall body, and the second L-shaped dotted keel is arranged at the connecting position of the two adjacent partition wall battens; the second connecting structure further comprises a first foaming colloid arranged between the first side body of the second L-shaped through long keel and the first wall body;

the front side of the first wall body is the side facing away from the second wall body, and the back side of the first wall body is the side facing the second wall body.

Preferably, the first connecting structure further comprises a first silencing pad arranged between the first edge of the L-shaped through long keel and the ground.

Preferably, the first wall body comprises a first upper wall body part and a first lower wall body part, and the first upper wall body part is connected with the first lower wall body part through a third connecting structure; the second wall body comprises a second upper wall body part and a second lower wall body part, and the connecting structure between the second upper wall body part and the second lower wall body part is the same as the third connecting structure;

the third connecting structure comprises a first U-shaped through long keel connected with the bottom of the first upper wall body part, a second U-shaped through long keel connected with the top of the first lower wall body part, a connecting square pipe connected with the first U-shaped through long keel and the second U-shaped through long keel, a cushion block arranged between the first U-shaped through long keel and the second U-shaped through long keel and a foaming colloid arranged between the top of the first lower wall body part and the second U-shaped through long keel.

Preferably, the third connecting structure further comprises a second silencing pad arranged between the rectangular connecting pipe and the first U-shaped through long keel, and a third silencing pad arranged between the rectangular connecting pipe and the second U-shaped through long keel.

Preferably, the first wall body further comprises a reinforcing square pipe arranged on the vertical side of the first wall body.

Preferably, the partition wall batten comprises a peripheral frame body, a foamed cement body which is arranged in the frame of the peripheral frame body and provided with a pipeline groove on one surface, and a light steel keel which is embedded in the foamed cement body;

the peripheral framework comprises a first enclosing plate, a second enclosing plate, a third enclosing plate and a fourth enclosing plate which are sequentially connected end to end, a first splicing protrusion on the second enclosing plate is arranged on the second enclosing plate, a second splicing protrusion on the fourth enclosing plate is arranged on the fourth enclosing plate, and two adjacent partition wall plates are connected in a limiting mode through the first splicing protrusion and the second splicing protrusion.

Preferably, the connecting gaps of the partition wall slats of the first wall body and the connecting gaps of the partition wall slats of the second wall body are arranged in a staggered mode.

The installation method of the frame body coated type partition batten wall comprises the following steps

L1 splicing the partition wall battens to form a first wall body and a second wall body respectively;

the L2 connects the first side body of the first L-shaped through long keel with the ground and connects the first side body of the second L-shaped through long keel with the top surface;

l3 placing the first wall on the first side body of the L-shaped through long keel, and making the back side of the first wall contact with the second side body of the L-shaped through long keel and the second side body of the L-shaped through long keel;

the L4 connects the first side body of the L-shaped through long keel II with the first wall body through the first foaming colloid;

the L5 connects the first side body of the first L-shaped dotted keel with the ground, connects the second side body of the first L-shaped dotted keel with the front side of the first wall body, and the first L-shaped dotted keel is arranged at the connection position of the two adjacent partition wall battens;

the L6 connects a first side body of a second L-shaped dotted keel with the top surface, connects a second side body of the second L-shaped dotted keel with the front side of the first wall body, and the second L-shaped dotted keel is arranged at the connection position of two adjacent partition wall battens;

l7 connecting the vertical side of the first wall with the bearing wall or another partition slat wall through foam rubber;

l8 repeats L2 through L7 to complete the installation of the second wall.

Preferably, in the L1, the splicing step of the first wall includes

L11 splicing the partition wall strip plate into a first upper wall body part through the first splicing bulge, the second splicing bulge and the foaming glue, and splicing the partition wall strip plate into a first lower wall body part through the first splicing bulge, the second splicing bulge and the foaming glue;

the L12 connects the first U-shaped through long keel and the second U-shaped through long keel through a rectangular connecting pipe, and a cushion block is arranged between the first U-shaped through long keel and the second U-shaped through long keel;

the L13 connects the U-shaped through long keel II with the first lower wall part, and a foaming colloid II is arranged between the top of the first lower wall part and the U-shaped through long keel II;

the L14 connects the first U-shaped through long keel with the first upper wall part;

the splicing step of the second wall body is the same as that of the first wall body.

Preferably, in L1, the splicing step of the first wall further includes connecting a reinforcing square pipe to a vertical side of the first wall.

Advantageous effects

The partition batten wall is connected with the ground and the top surface through the L-shaped through long keels, the L-shaped dotted keels and the foaming glue, so that the complicated steps of drilling and reinforcing steel bar drilling in the prior art are omitted, the time for curing and maintaining cement mortar is saved, the partition batten wall is more convenient to install, the construction efficiency is higher, and the construction period is shorter;

this application partition slat leads to long fossil fragments, connects rectangular pipe, cushion and foamed plastic through the U type and carries out the direction of height concatenation, compares prior art through brushing cement mortar and beat the reinforced (rfd) concatenation mode, assembles more conveniently, has further improved the efficiency of construction and has shortened construction cycle.

Drawings

FIG. 1 is a schematic view of the connection structure of a frame-coated partition slat wall and a load-bearing wall according to the present invention;

FIG. 2 is a schematic view of the vertical connection structure of the frame-coated partition slat wall of the present invention;

FIG. 3 is a schematic view of a connection structure of two first walls according to the present invention;

FIG. 4 is a side view of a first wall and a second wall of the present invention;

FIG. 5 is a schematic view of a connection structure of the first wall, the second wall and the ground according to the present invention;

FIG. 6 is a schematic view of a connection structure between a first wall and the ground according to the present invention;

FIG. 7 is a schematic view of a connection structure of upper and lower wall portions of a first wall and a second wall according to the present invention;

FIG. 8 is a schematic view of a connection structure between a first upper wall and a first lower wall of a first wall according to the present invention;

FIG. 9 is a schematic view of a connection structure of a first wall, a second wall and a top surface according to the present invention;

FIG. 10 is a schematic view of a connection structure between a first wall and a top surface according to the present invention;

FIG. 11 is a schematic view of the partition wall slat of the present invention;

fig. 12 is a schematic structural diagram of the peripheral frame body of the present invention.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

The first embodiment is as follows: as shown in fig. 1 and 2, a frame-coated partition slat wall includes a first wall 1 and a second wall 2 which are arranged in parallel and are formed by splicing partition slats 3.

As shown in fig. 3 and 4, the first wall 1 is connected to the ground through a first connecting structure and connected to the top surface through a second connecting structure. The connection structure of the second wall body 2 and the ground is the same as the first connection structure, and the connection structure of the second wall body 2 and the top surface is the same as the second connection structure.

As shown in fig. 5 and 6, the first connection structure includes L-shaped through-length keels one 4-1 and L-shaped dotted keels one 4-2. The first side body of the L-shaped through long keel I4-1 is connected with the ground and used for supporting the bottom surface of the first wall body 1, and the second side body of the L-shaped through long keel I4-1 is used for supporting the back side of the first wall body 1. The first edge body of the L-shaped dotted keel I4-2 is connected with the ground, the second edge body of the L-shaped dotted keel I4-2 is connected with the front side of the first wall body 1, and the L-shaped dotted keel I4-2 is arranged at the joint of the two adjacent partition wall battens 3. The front side of the first wall 1 faces away from the second wall 2, and the back side of the first wall 1 faces toward the second wall 2.

When the first wall body 1 is connected with the ground, only the first edge body of the L-shaped through long keel I4-1 is required to be connected with the ground, then the first wall body 1 is placed on the first edge body of the L-shaped through long keel I4-1, and the back side of the first wall body 1 is in abutting connection with the second edge body of the L-shaped through long keel I4-1. And then connecting the first edge body of the L-shaped dotted keel I4-2 with the ground, connecting the second edge body of the L-shaped dotted keel I4-2 with the front side of the first wall body 1, and arranging the L-shaped dotted keel I4-2 at the connecting position of two adjacent partition wall battens 3.

As shown in fig. 9 and 10, the second connecting structure includes a second L-shaped through long keel 5-1 and a second L-shaped dotted keel 5-2. And a first edge body of the L-shaped through long keel II 5-1 is connected with the top surface and is used for supporting the top surface of the first wall body 1, and a second edge body of the L-shaped through long keel II 5-1 is used for supporting the back side of the first wall body 1. The first side body of the L-shaped point keel II 5-2 is connected with the top surface, the second side body of the L-shaped point keel II 5-2 is connected with the front side of the first wall body 1, and the L-shaped point keel II 5-2 is arranged at the joint of the two adjacent partition wall battens 3. The second connecting structure further comprises a first foaming colloid 5-3 arranged between the first side body of the L-shaped through long keel two 5-1 and the first wall body 1.

When the first wall body 1 is connected with the top surface, only the first edge body of the L-shaped through long keel II 5-1 needs to be connected with the top surface, and then the first wall body 1 is butted with the L-shaped through long keel II 5-1 so that the back side of the first wall body 1 is butted and connected with the second edge body of the L-shaped through long keel II 5-1. And then a first foaming colloid 5-3 is arranged between the first edge body of the through long keel 5-1 and the first wall body 1. And finally, connecting a first edge body of the L-shaped point keel II 5-2 with the top surface, connecting a second edge body of the L-shaped point keel II 5-2 with the front side of the first wall body 1, and arranging the L-shaped point keel II 5-2 at the joint of two adjacent partition wall battens 3.

According to the partition wall batten wall, the first wall body 1 (and the second wall body 2) is connected with the ground by the first L-shaped through long keel 4-1 and the first L-shaped dotted keel 4-2, the first wall body 1 (and the second wall body 2) is connected with the top surface by the second L-shaped through long keel 5-1, the second L-shaped dotted keel 5-2 and the first foaming colloid 5-3, and the installation steps that in the prior art, when the partition wall batten wall is connected with the top surface and the ground, drilling, reinforcing steel bars are needed, and cement mortar is brushed are omitted, so that the partition wall batten wall is simpler and more convenient to install, and the construction efficiency is higher.

Further, as shown in fig. 3 and 4, the first wall 1 includes a first upper wall and a first lower wall, and the first upper wall and the first lower wall are connected by a third connecting structure. The second wall 2 includes a second upper wall portion and a second lower wall portion, and a connection structure between the second upper wall portion and the second lower wall portion is the same as the third connection structure.

The partition wall slats 3 have a limited length so that the height of the first wall body 1 is limited, and for this purpose, the partition wall slats 3 need to be spliced in the length direction to form the first wall body 1 of a desired height. This application divide into first wall body 1 by partition wall slat 3 at the first wall body portion of going up that the width direction concatenation formed and by partition wall slat 3 at the first wall body portion of going down that the width direction concatenation formed, first wall body portion of going up is connected through the third connection structure with first wall body portion of going down.

Specifically, as shown in fig. 7 and 8, the third connecting structure includes a U-shaped through long keel 6-1 connected to the bottom of the first upper wall, a U-shaped through long keel 6-2 connected to the top of the first lower wall, a rectangular connecting pipe 6-3 connecting the U-shaped through long keel 6-1 and the U-shaped through long keel 6-2, a cushion block 6-4 disposed between the U-shaped through long keel 6-1 and the U-shaped through long keel 6-2, and a foam rubber body 6-7 disposed between the top of the first lower wall and the U-shaped through long keel 6-2.

When the first upper wall body part is connected with the first lower wall body part, the U-shaped through long keel I6-1 and the U-shaped through long keel II 6-2 are connected through the lengthening square tube 6-3, and the cushion block 6-4 is arranged between the U-shaped through long keel I6-1 and the U-shaped through long keel II 6-2. And then connecting the U-shaped through long keel II 6-2 with the first lower wall part, and arranging a foamed colloid II 6-7 between the top of the first lower wall part and the U-shaped through long keel II 6-2. And finally, connecting the U-shaped through long keel I6-1 with the first upper wall body part to realize the splicing of the first upper wall body part and the first lower wall body part.

According to the partition batten wall, the first U-shaped through long keel 6-1, the second U-shaped through long keel 6-2, the lengthening square tube 6-3, the cushion block 6-4 and the foaming colloid 6-7 are adopted to connect the first upper wall body part and the first lower wall body part to form the first wall body 1 with the required height, and compared with the connection mode of brushing cement mortar and reinforcing steel bars in the prior art, the partition batten wall is more convenient to install and higher in construction efficiency.

Further, as shown in fig. 3, the first wall 1 further includes a reinforcing square pipe 7 disposed on the vertical side of the first wall 1. One partition wall slat wall can be formed by the concatenation of polylith first wall body 1 (and polylith second wall body 2), and two adjacent first wall bodies 1 are connected through the square 7 of reinforcing pipe of vertical setting, and the length direction end that connects rectangular pipe 6-3 can be connected fixedly with square 7 of reinforcing pipe.

This application adopts reinforcing side's pipe 7 to connect two adjacent first wall bodies 1, compares prior art through the cement mortar of brushing and beat the reinforced (rfd) connected mode, makes the operation of 1 concatenation of two adjacent first wall bodies more convenient, the efficiency of construction higher on the one hand, and on the other hand can effectively improve the structural strength of whole partition wall slat wall.

Further, as shown in fig. 11 and 12, the partition slat 3 includes a peripheral frame body 3-1, a foamed cement body 3-3 disposed in the frame of the peripheral frame body 3-1 and having a pipe chase 3-2 formed on a surface thereof, and a light steel keel 3-4 embedded in the foamed cement body 3-3. The peripheral frame body 3-1 comprises a first enclosing plate, a second enclosing plate, a third enclosing plate and a fourth enclosing plate which are sequentially connected end to end, a first splicing bulge arranged on the second enclosing plate and a second splicing bulge arranged on the fourth enclosing plate, and two adjacent partition wall strips are connected in a limiting mode through the first splicing bulge and the second splicing bulge.

When the first wall body 1 (or the second wall body 2) is spliced, only the first splicing projection of one partition wall batten is connected with the second splicing projection of another adjacent partition wall batten through the foaming adhesive. The pipeline grooves 3-2 are arranged on the front side of the spliced first wall body 1 (or the spliced second wall body 2), pipelines can be directly arranged on site through the pipeline grooves 3-2, a notch for installing the pipelines is not required to be formed in the partition wall batten 3 on site, and the assembly difficulty of the partition wall batten in site construction is further reduced. In addition, through the arrangement of the peripheral frame body 3-1 and the light steel keels 3-4, the overall structural strength of the partition wall batten 3 can be high, and further the structural strength of the assembled first wall body 1 (or the assembled second wall body 2) is extremely high.

Further, as shown in fig. 1 and 2, the connection gap of the partition wall slat 3 of the first wall body 1 and the connection gap of the partition wall slat 3 of the second wall body 2 are staggered, and the sound insulation effect of the partition wall slat wall can be effectively improved due to staggered arrangement.

In addition, as shown in fig. 6, the first connecting structure further comprises a mute pad I4-3 arranged between the first side body of the L-shaped through long keel I4-1 and the ground. As shown in fig. 8, the third connecting structure further includes a second silencing pad 6-5 disposed between the elongated square tube 6-3 and the U-shaped through long keel 6-1, and a third silencing pad 6-6 disposed between the elongated square tube 6-3 and the U-shaped through long keel 6-2. The sound insulation effect of the partition batten wall is further improved through the arrangement of the first mute pad 4-3, the second mute pad 6-5 and the third mute pad 6-6.

Example two: the installation method of the frame body coated type partition batten wall comprises the following steps

L1 splices the partition wall slats 3 to form a first wall 1 and a second wall 2 respectively. The specific structure of the partition wall slat 3 is shown in fig. 11 and 12, and comprises a peripheral frame body 3-1, a foamed cement body 3-3 which is arranged in the frame of the peripheral frame body 3-1 and provided with a pipe groove 3-2 on one surface, and a light steel keel 3-4 which is embedded in the foamed cement body 3-3. The peripheral frame body 3-1 comprises a first enclosing plate, a second enclosing plate, a third enclosing plate and a fourth enclosing plate which are sequentially connected end to end, a first splicing bulge arranged on the second enclosing plate and a second splicing bulge arranged on the fourth enclosing plate, and two adjacent partition wall strips are connected in a limiting mode through the first splicing bulge and the second splicing bulge.

The splicing step of the first wall 1 specifically includes that the L11 splices the partition wall strip 3 through the first splicing protrusion, the second splicing protrusion and the foaming adhesive to form a first upper wall body part, and splices the partition wall strip 3 through the first splicing protrusion, the second splicing protrusion and the foaming adhesive to form a first lower wall body part. The L12 connects the U-shaped through long keel I6-1 and the U-shaped through long keel II 6-2 through the rectangular connecting pipe 6-3, and a cushion block 6-4 is arranged between the U-shaped through long keel I6-1 and the U-shaped through long keel II 6-2. The L13 connects the U-shaped through long keel II 6-2 with the first lower wall part, and a foamed colloid II 6-7 is arranged between the top of the first lower wall part and the U-shaped through long keel II 6-2. The L14 connects the U-shaped through long keel I6-1 with the first upper wall part. And a second silencing pad 6-5 is arranged between the elongated square tube 6-3 and the U-shaped through long keel 6-1, and a third silencing pad 6-6 is arranged between the elongated square tube 6-3 and the U-shaped through long keel 6-2.

According to the method, the first U-shaped through long keel 6-1, the second U-shaped through long keel 6-2, the lengthening square tubes 6-3, the cushion blocks 6-4 and the foaming colloid 6-7 are adopted to connect the first upper wall body part and the first lower wall body part to form the first wall body 1 with the required height, and compared with the connection mode of brushing cement mortar and reinforcing steel bars in the prior art, the method for installing the partition batten wall is higher in construction efficiency and shorter in construction period. In addition, the first wall body 1 obtained by splicing in the application is provided with the pipe chase 3-2, the pipeline can be directly arranged on site through the pipe chase 3-2, and a notch for installing the pipeline is not required to be formed in the partition batten 3 on site, so that the construction efficiency of the partition batten wall is further improved, and the construction period of the partition batten wall is shortened.

Further, the splicing step of the first wall body 1 further comprises the step of connecting a reinforcing square pipe 7 to the vertical side of the first wall body 1. In order to conveniently strengthen the connection of the square pipe 7, the first splicing bulges or the second splicing bulges on the vertical side of the first wall body 1 can be cut off. This application is connected two adjacent first wall bodies 1 through strengthening square pipe 7, compares prior art through the brush cement mortar and beat the reinforced (rfd) connected mode, and this application method makes the efficiency of construction of 1 concatenation of first wall body higher, construction cycle shorter.

The splicing steps of the second wall body 2 are the same as those of the first wall body 1.

The L2 connects the first side body of the L-shaped through long keel I4-1 with the ground, and connects the first side body of the L-shaped through long keel II 5-1 with the top surface. And a mute pad I4-3 is also arranged between the first edge body of the L-shaped through long keel I4-1 and the ground.

L3 places first wall 1 on the first body of L type through long fossil fragments 4-1 to make the dorsal part of first wall 1 and the second body of L type through long fossil fragments two 5-1's second body conflict the connection with the second body of L type through long fossil fragments 4-1. If there is the first wall body 1 of polylith, can be earlier with polylith first wall body 1 through reinforcing square pipe 7 connect fixed back again place on the first side body of L type logical long fossil fragments 4-1 together.

The L4 connects the first side body of the L-shaped through long keel II 5-1 with the first wall body 1 through the foamed colloid I5-3.

The L5 connects the first side body of the L-shaped dotted keel I4-2 with the ground, connects the second side body of the L-shaped dotted keel I4-2 with the front side of the first wall body 1, and the L-shaped dotted keel I4-2 is arranged at the connection position of two adjacent partition wall slats 3.

The L6 connects the first side body of the second L-shaped dotted keel 5-2 with the top surface, connects the second side body of the second L-shaped dotted keel 5-2 with the front side of the first wall 1, and the second L-shaped dotted keel 5-2 is arranged at the connection position of the two adjacent partition wall slats 3.

L7 is connected the vertical side of first wall body 1 through the expanded polystyrene foam and is connected with bearing wall or another partition wall slat wall, can also carry out the reinforcement through the angle steel and connect.

L8 repeats L2 to L7 to complete the installation of the second wall 2. In addition, the connection gaps of the partition slats 3 of the second wall body 2 need to be staggered with the connection gaps of the partition slats 3 of the first wall body 1.

According to the partition wall batten wall, the first wall body 1 (and the second wall body 2) is connected with the ground through the L-shaped through long keel I4-1 and the L-shaped dotted keel I4-2, the first wall body 1 (and the second wall body 2) is connected with the top surface through the L-shaped through long keel II 5-1, the L-shaped dotted keel II 5-2 and the foaming colloid I5-3, and the installation steps that in the prior art, when the partition wall batten wall is connected with the top surface and the ground, drilling, reinforcing steel bars are needed, and cement mortar is brushed are omitted, so that the partition wall batten wall is higher in construction efficiency and shorter in construction period.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical solutions of the present invention may be made by those skilled in the art without departing from the design concept of the present invention, and the technical contents of the present invention are all described in the claims.

Claims (10)

1. The utility model provides a framework cladding formula partition wall slat wall which characterized in that: comprises a first wall body (1) and a second wall body (2) which are arranged in parallel and are spliced by partition wall battens (3);

the first wall body (1) is connected with the ground through a first connecting structure and connected with the top surface through a second connecting structure; the connecting structure of the second wall body (2) and the ground is the same as that of the first connecting structure, and the connecting structure of the second wall body (2) and the top surface is the same as that of the second connecting structure;

the first connecting structure comprises a first L-shaped through long keel (4-1) and a first L-shaped dotted keel (4-2); a first edge body of the L-shaped through long keel I (4-1) is connected with the ground and used for supporting the bottom surface of the first wall body (1), and a second edge body of the L-shaped through long keel I (4-1) is used for supporting the back side of the first wall body (1); a first edge body of the L-shaped dotted keel I (4-2) is connected with the ground, a second edge body of the L-shaped dotted keel I (4-2) is connected with the front side of the first wall body (1), and the L-shaped dotted keel I (4-2) is arranged at the connection position of two adjacent partition wall battens (3);

the second connecting structure comprises a second L-shaped through long keel (5-1) and a second L-shaped dotted keel (5-2); the first edge body of the L-shaped through long keel II (5-1) is connected with the top surface and used for supporting the top surface of the first wall body (1), and the second edge body of the L-shaped through long keel II (5-1) is used for supporting the back side of the first wall body (1); a first edge body of the L-shaped point keel II (5-2) is connected with the top surface, a second edge body of the L-shaped point keel II (5-2) is connected with the front side of the first wall body (1), and the L-shaped point keel II (5-2) is arranged at the connection position of the two adjacent partition wall battens (3); the second connecting structure further comprises a first foaming colloid (5-3) arranged between the first side body of the L-shaped through long keel II (5-1) and the first wall body (1);

the front side of the first wall body (1) is the side which faces away from the second wall body (2), and the back side of the first wall body (1) faces the second wall body (2).

2. The frame-encased partition slat wall of claim 1, wherein: the first connecting structure further comprises a first silencing pad (4-3) arranged between the first edge of the L-shaped through long keel (4-1) and the ground.

3. The frame-encased partition slat wall of claim 1, wherein: the first wall body (1) comprises a first upper wall body part and a first lower wall body part, and the first upper wall body part is connected with the first lower wall body part through a third connecting structure; the second wall body (2) comprises a second upper wall body part and a second lower wall body part, and the connecting structure between the second upper wall body part and the second lower wall body part is the same as the third connecting structure;

the third connecting structure comprises a first U-shaped through long keel (6-1) connected with the bottom of the first upper wall part, a second U-shaped through long keel (6-2) connected with the top of the first lower wall part, a rectangular connecting pipe (6-3) connecting the first U-shaped through long keel (6-1) with the second U-shaped through long keel (6-2), a cushion block (6-4) arranged between the first U-shaped through long keel (6-1) and the second U-shaped through long keel (6-2), and a second foaming colloid (6-7) arranged between the top of the first lower wall part and the second U-shaped through long keel (6-2).

4. The frame-encased partition slat wall of claim 3, wherein: the third connecting structure further comprises a second silencing pad (6-5) arranged between the rectangular connecting pipe (6-3) and the U-shaped through long keel (6-1), and a third silencing pad (6-6) arranged between the rectangular connecting pipe (6-3) and the U-shaped through long keel (6-2).

5. The frame-encased partition slat wall of claim 3, wherein: first wall body (1) is still including setting up strengthen square pipe (7) on the vertical avris of first wall body (1).

6. The frame-encased partition slat wall of claim 1, wherein: the partition wall batten (3) comprises a peripheral frame body (3-1), a foaming cement body (3-3) which is arranged in the frame of the peripheral frame body (3-1) and provided with a pipeline groove (3-2) on one surface, and a light steel keel (3-4) which is embedded in the foaming cement body (3-3);

the peripheral frame body (3-1) comprises a first enclosing plate, a second enclosing plate, a third enclosing plate and a fourth enclosing plate which are sequentially connected end to end, a first splicing bulge arranged on the second enclosing plate is arranged in the second splicing bulge, a second splicing bulge arranged on the fourth enclosing plate is arranged in the second splicing bulge, and two adjacent partition wall strips are connected in a limiting mode through the first splicing bulge and the second splicing bulge.

7. The frame-encased partition slat wall of claim 6, wherein: the connecting gap of the partition wall batten (3) of the first wall body (1) and the connecting gap of the partition wall batten (3) of the second wall body (2) are arranged in a staggered mode.

8. A method for installing a frame body coated partition batten wall is characterized by comprising the following steps: comprises the following steps

L1 splicing the partition wall battens (3) to form a first wall body (1) and a second wall body (2) respectively;

the L2 connects the first side body of the L-shaped through long keel I (4-1) with the ground, and connects the first side body of the L-shaped through long keel II (5-1) with the top surface;

l3, placing the first wall (1) on a first side body of the L-shaped through long keel I (4-1), and enabling the back side of the first wall (1) to be in interference connection with a second side body of the L-shaped through long keel I (4-1) and a second side body of the L-shaped through long keel II (5-1);

l4 connecting the first side body of the L-shaped through long keel II (5-1) with the first wall body (1) through the foamed colloid I (5-3);

l5, connecting a first edge of a first L-shaped dotted keel (4-2) with the ground, connecting a second edge of the first L-shaped dotted keel (4-2) with the front side of the first wall body (1), and arranging the first L-shaped dotted keel (4-2) at the connection position of two adjacent partition wall battens (3);

l6, connecting a first edge of a second L-shaped dotted keel (5-2) with the top surface, connecting a second edge of the second L-shaped dotted keel (5-2) with the front side of the first wall body (1), and arranging the second L-shaped dotted keel (5-2) at the connection position of two adjacent partition wall battens (3);

l7 connecting the vertical side of the first wall (1) with the bearing wall or another partition batten wall through foam rubber;

l8 repeats L2 to L7 to complete the installation of the second wall (2).

9. The method of installing a frame-encased wall strip wall of claim 8, wherein: in the L1, the splicing step of the first wall body (1) comprises

L11 splicing the partition wall batten (3) through the first splicing bulges, the second splicing bulges and the foaming glue to form a first upper wall body part, and splicing the partition wall batten (3) through the first splicing bulges, the second splicing bulges and the foaming glue to form a first lower wall body part;

the L12 connects the U-shaped through long keel I (6-1) with the U-shaped through long keel II (6-2) through the lengthening square tube (6-3), and a cushion block (6-4) is arranged between the U-shaped through long keel I (6-1) and the U-shaped through long keel II (6-2);

the L13 connects the U-shaped through long keel II (6-2) with the first lower wall part, and a foamed colloid II (6-7) is arranged between the top of the first lower wall part and the U-shaped through long keel II (6-2);

the L14 connects the U-shaped through long keel I (6-1) with the first upper wall part;

the splicing steps of the second wall body (2) are the same as those of the first wall body (1).

10. The method of installing a frame-encased wall strip wall of claim 9, wherein: in L1, the splicing step of first wall body (1) still includes, connects reinforcing side pipe (7) at the vertical avris of first wall body (1).

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