CN116356936A

CN116356936A - Assembled green building and construction method

Info

Publication number: CN116356936A
Application number: CN202310428353.0A
Authority: CN
Inventors: 请求不公布姓名
Original assignee: Qingdao Weirun Construction Engineering Co ltd
Current assignee: Qingdao Weirun Construction Engineering Co ltd
Priority date: 2023-04-20
Filing date: 2023-04-20
Publication date: 2023-06-30

Abstract

The invention relates to the technical field of assembly type buildings and discloses an assembly type green building and a construction method. According to the invention, a plurality of butted assembly walls are stacked in sequence, the inserting ring at the top of the positioning pipe installed on the bottom assembly wall is connected with the bottom ring opening of the positioning pipe installed on the upper assembly wall when the positioning pipes are connected, the positioning pipes are embedded and clamped, the reinforcing steel bars are inserted from the inserting ring at the top of the positioning pipe installed on the assembly wall at the highest position, the bottoms of the reinforcing steel bars are driven into the ground surface deeply, and the reinforcing steel bars penetrate through a plurality of overlapped assembly walls to integrate the reinforcing steel bars, so that the beneficial effects of integrally improving the tensile resistance between walls are achieved.

Description

Assembled green building and construction method

Technical Field

The invention relates to the technical field of assembled buildings, in particular to an assembled green building and a construction method.

Background

The green building is a building which is popular nowadays, mainly is a building which is harmonious with nature through saving resources, protecting environment and reducing pollution, and along with the continuous development of society, the assembled building is developed in recent years, and the building assembly efficiency is improved on the basis of green environmental protection.

At present, when building construction sites or some forest areas are supervised, outdoor temporary buildings are usually assembled, in order to improve efficiency, people usually prefabricate walls convenient to install in a workshop in advance, and the walls are usually mixed with green environment-friendly materials and heat-insulating materials so as to improve comfort of households.

The method for constructing the assembled green building comprises the following steps of (CN 113530010B) enabling a first wall body and a second wall body to be detachably installed adjacently; the positioning assembly is arranged between the top of the first wall body and the bottom of the second wall body and used for positioning the first wall body and the second wall body; the mounting blocks are vertically mounted on two sides of the first wall body; the inserted bars are arranged on two sides of the second wall body and are matched with the mounting grooves on the mounting blocks; and a fixing assembly disposed in the mounting block for fixing the insert rod. When the assembly type wall body assembling and disassembling device is used, assembly type wall body assembling and disassembling can be conveniently achieved, and therefore work efficiency can be effectively improved.

Although the assembled wall body in the technical scheme can be conveniently installed, according to the installation method of the positioning assembly described in the specification, the assembled wall body is only an independent individual body which is connected with each other and does not have the integral integration capability, so that the wall body is subjected to earthquake and flood, particularly flood disasters occurring in rainy seasons in mountain areas, the wall body is easily pushed to the wall body, meanwhile, the wall body does not have a corresponding grounding structure, loads which cannot go deep into the upper part of a stratum building cannot be transmitted downwards, natural disasters cannot be resisted, a forest area is different from a building site, the wall body is exposed outdoors, a connecting structure is oxidized and corroded, and the wall body is damaged by natural disasters caused by extreme weather after corrosion.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides an assembled green building and a construction method, which have the advantages that the wall bodies can be integrated into a whole to improve the tensile resistance, the problem of wall body load is solved by self-carrying foundation function, the building can be converted into a permanent building to avoid corrosion and the like under the necessary condition during outdoor assembly, and the problems of the technology are solved.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an assembled green building, includes the assembly wall that sets up the filler bin inside, the filler bin of assembly wall inboard sets up stable structure, assembly wall back wall front end installation access structure, access structure includes the sleeve of connecting assembly wall back wall, sleeve inboard installation interior pole, the inboard cooperation of access structure sets up the grafting structure in assembly wall back wall tail end, grafting structure includes the grafting pole of connecting in assembly wall back wall, the grafting hole is seted up at grafting pole inboard center;

and the middle end of the rear wall of the assembly wall is close to the access structure and is provided with a positioning structure for connecting other assembly walls.

Preferably, the stabilizing structure comprises a tripod fixedly installed on the inner side of the filling bin, the upper end and the lower end of the tripod are in contact with the inner side wall of the filling bin, the number of the tripod is multiple and connected end to end, and the tripod is arranged and installed on the inner side of the filling bin.

Through the technical scheme, the triangular wave rod bodies are formed by connecting the triangular frames end to end, and the triangular stability is utilized to support the filling bin, so that the interior of the assembled wall is stable and can not be impacted to be concave, the inner side of the further seasoning bin is also filled with the heat insulation material, wherein the heat insulation material is green environment-friendly filling material, belongs to the existing products sold in the market, and the formula or the model of the heat insulation material is not introduced much.

Preferably, the sleeve is a hollow pipe body, an inner rod is arranged at the center of the inner side of the tail end of the sleeve and close to one side of the assembly wall, the rear end of the inner rod is fixedly connected with the side wall of the assembly wall, the inner rod and the sleeve are concentric circles, and the inner rod is matched with the plug hole.

Through the technical scheme, the inner side of the sleeve is mutually matched with the plug rod, so that any assembled wall can be mutually butted with another assembled wall, and the rear wall of the assembled wall is a connecting mechanism, and the front wall is a smooth wall surface, so that the rear walls of the two assembled walls are only required to be mutually close to each other for butt joint during assembly.

Preferably, the plugging rod is fixedly arranged at the tail end of the rear wall of the assembly wall and is relatively vertical to the rear wall, the plugging rod is a rod body which is matched with the hole at the inner side of the sleeve, the center of the front wall of the plugging rod is provided with a plugging hole penetrating through the inner side of the plugging rod, and the inner side of the plugging hole is in sliding connection with the inner rod.

Through above-mentioned technical scheme, be mirror image upset through two assembly walls, the grafting pole of its back wall is to the sleeve, and when the two were close to, the grafting pole grafting sleeve of last assembly wall formed the grafting, and the inside interior pole of further sleeve inserts the spliced eye that the grafting pole offered simultaneously, forms double grafting, and is effectual with two assembly wall interconnect to limit its upper and lower direction.

Preferably, the positioning structure comprises a clamping seat arranged at the middle end of the rear wall of the assembly wall, the tail end of the clamping seat is fixedly connected with the rear wall of the assembly wall, the front end of the clamping seat is connected with a fixing ring, the fixing ring is relatively vertical to the assembly wall, and the top surface of the fixing ring is provided with a through hole penetrating through the fixing ring.

Through the technical scheme, the fixing ring is fixedly connected with the assembly wall through the clamping seat, and the through hole formed in the top surface of the further fixing ring is fixedly connected with the inner side positioning tube, so that the positioning tube is fixedly connected with the assembly wall.

Preferably, the positioning tube is arranged at the inner side of the through hole, the middle end of the positioning tube is fixedly connected with the through hole through welding, the positioning tube is relatively parallel to the assembly wall, the position of the positioning tube is relatively to the middle end of the outer part of the sleeve and does not exceed the front end of the sleeve, and the length of the positioning tube is larger than the vertical height of the assembly wall.

Through the technical scheme, the two assembly walls can be longitudinally overlapped after being transversely butted, the butted assembly walls are sequentially stacked, positioning pipes between the assembly walls are relatively aligned at the moment, and longitudinal splicing is formed, so that the assembly walls are longitudinally connected.

Preferably, the inserting ring is arranged at the top of the positioning pipe, the inserting ring is a conical hollow ring body with a small upper part and a large lower part, the inner side of the inserting ring and the positioning pipe are concentric circles, a ring opening is formed in the bottom of the positioning pipe, the inner side of the ring opening is matched with the inserting ring, the inner side of the positioning pipe is also connected with a reinforcing steel bar, and the reinforcing steel bar penetrates through the positioning pipe, the inserting ring and the ring opening and is accessed into a stratum.

Through the technical scheme, the inserting ring at the top of the positioning pipe is connected with the bottom ring opening of the positioning pipe installed on the assembly wall when the positioning pipes are connected, the positioning pipes are embedded and clamped, after the longitudinal assembly wall is connected, the reinforcing steel bars can be inserted from the inserting ring at the top of the positioning pipe installed on the assembly wall at the highest position, the reinforcing steel bars penetrate through a plurality of overlapped assembly walls to integrate the reinforcing steel bars, the reinforcing steel bars are used as longitudinal wave resisting means, concrete can be filled from the inserting ring, the positioning pipes are completely connected by using the concrete, and the positioning pipes are completely fixed after the concrete is solidified, so that the assembly walls cannot be separated.

The method for constructing the assembled green building is characterized by comprising the following steps of:

step one, two assembly walls are turned in a mirror image mode, and a plug rod of the rear wall of the assembly walls is aligned with a sleeve arranged on the other assembly wall;

step two, the splicing sleeve of the splicing rod of the upper assembly wall forms splicing, and the two assembly walls are mutually connected to limit the upper direction and the lower direction of the two assembly walls;

step three, after the two assembly walls are transversely butted, longitudinal superposition can be carried out, and a plurality of butted assembly walls are sequentially stacked;

fourthly, positioning pipes among the assembly walls are relatively aligned and longitudinally spliced, so that a plurality of assembly walls are longitudinally connected;

step five, the inserting ring at the top of the positioning pipe installed on the bottom assembly wall is connected with the ring opening at the bottom of the positioning pipe installed on the upper assembly wall when the positioning pipe installed on the bottom assembly wall is connected, and the inserting ring and the positioning pipe are embedded and clamped;

step six, inserting reinforcing steel bars from the inserting rings at the top of the positioning pipes installed on the highest assembly wall, driving the bottoms of the reinforcing steel bars into the ground surface, and integrating the reinforcing steel bars by penetrating through a plurality of overlapped assembly walls.

Compared with the prior art, the invention provides an assembled green building and a construction method, which have the following beneficial effects:

1. according to the invention, a plurality of butted assembly walls are stacked in sequence, the inserting ring at the top of the positioning pipe installed on the bottom assembly wall is connected with the bottom ring opening of the positioning pipe installed on the upper assembly wall when the positioning pipes are connected, the positioning pipes are embedded and clamped, the reinforcing steel bars are inserted from the inserting ring at the top of the positioning pipe installed on the assembly wall at the highest position, the bottoms of the reinforcing steel bars are driven into the ground surface deeply, and the reinforcing steel bars penetrate through a plurality of overlapped assembly walls to integrate the reinforcing steel bars, so that the beneficial effects of integrally improving the tensile resistance between walls are achieved.

2. The invention is formed into a whole wall body by overlapping a plurality of assembly walls, at the moment, the steel bars are inserted from the inserting rings at the top of the positioning pipe installed on the assembly wall at the highest position, the bottoms of the steel bars are driven into the ground surface to penetrate deeply, and the bottom of the steel bars is used as a foundation, so that the beneficial effect of solving the problem of wall body load by self foundation function is achieved.

3. The invention fills the concrete from the inserting ring, uses the concrete to connect the plurality of positioning pipes completely and thoroughly fixes the positioning pipes after the concrete is solidified, at the moment, the wall can not be assembled separately, thereby achieving the beneficial effect of avoiding rust by being converted into a permanent building under the necessary condition during outdoor assembly.

Drawings

FIG. 1 is a schematic top view of an assembled wall structure of the present invention;

FIG. 2 is a schematic front view of the assembled wall structure assembly of the present invention;

FIG. 3 is a schematic top view of the assembled wall structure assembly of the present invention;

FIG. 4 is a schematic top view of the assembled wall structure of the present invention;

FIG. 5 is a schematic rear view of the assembled wall structure assembly of the present invention;

fig. 6 is a schematic rear view of the assembled wall structure of the present invention.

Wherein: 1. assembling a wall; 2. a filling bin; 201. a stabilizing structure; 202. a tripod; 3. an access structure; 301. a sleeve; 302. an inner rod; 4. a plug-in structure; 401. inserting a connecting rod; 402. a plug hole; 403. a through hole; 5. a positioning structure; 501. a clamping seat; 502. a fixing ring; 503. a through hole; 504. a positioning tube; 505. a plug ring; 506. a ring opening; 7. reinforcing steel bars.

Detailed Description

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

Referring to fig. 1-6, an assembled green building comprises an assembled wall 1 with a filler bin 2 arranged inside, wherein the filler bin 2 on the inner side of the assembled wall 1 is provided with a stabilizing structure 201, the front end of the rear wall of the assembled wall 1 is provided with an access structure 3, the access structure 3 comprises a sleeve 301 connected with the rear wall of the assembled wall 1, the inner side of the sleeve 301 is provided with an inner rod 302, the inner side of the access structure 3 is matched with an inserting structure 4 arranged at the tail end of the rear wall of the assembled wall 1, the inserting structure 4 comprises an inserting rod 401 connected with the rear wall of the assembled wall 1, and the center of the inner side of the inserting rod 401 is provided with an inserting hole 402;

the rear wall middle end of the assembly wall 1 is provided with a positioning structure 5 for connecting other assembly walls 1 near the access structure 3.

Specifically, the stabilizing structure 201 includes the tripod 202 of fixed mounting inboard at the packing storehouse 2, tripod 202 upper and lower end contact packing storehouse 2 inside wall, tripod 202 quantity is a plurality of and end to end, a plurality of tripods 202 range and install in packing storehouse 2 inboard, the advantage is, form the wave body of rod that is triangle-shaped through tripod 202 end to end, utilize the triangle stability characteristic to prop up packing storehouse 2, thereby make the inside stability of assembly wall 1, can not receive the striking and indent, further condiment storehouse 2 inboard still is filled with insulating material, wherein insulating material is green packing, belong to the existing product on the market, its formula or model are described herein in a short time.

Specifically, the sleeve 301 is a hollow tube, the inner center of the tail end of the sleeve 301 is provided with the inner rod 302 near one side of the assembly wall 1, the rear end of the inner rod 302 is fixedly connected with the side wall of the assembly wall 1, and the inner rod 302 and the sleeve 301 are concentric circles, and the inner rod 302 is matched with the plugging hole 402.

Specifically, the plug rod 401 is fixedly installed at the tail end of the rear wall of the assembly wall 1 and is relatively vertical to the rear wall, the plug rod 401 is a rod body which is matched with the hole on the inner side of the sleeve 301, the center of the front wall of the plug rod 401 is provided with a plug hole 402 penetrating through the inner side of the plug rod, and the inner side of the plug hole 402 is mutually connected with the inner rod 302 in a sliding mode.

Specifically, location structure 5 is including setting up in the cassette 401 of assembly wall 1 back wall middle-end, cassette 401 tail end fixed connection assembly wall 1 back wall, fixed ring 402 is connected to cassette 401 front end, fixed ring 402 is relative perpendicular with assembly wall 1, and fixed ring 402 top surface sets up the through-hole 403 that runs through self, and the advantage is, with fixed ring 402 and assembly wall 1 two fixed connection through cassette 401, further fixed ring 402 top surface sets up through-hole 403 with inboard locating tube 504 fixed connection for locating tube 504 rigid coupling assembly wall 1.

Specifically, the positioning tube 504 is installed inside the through hole 403, the middle end of the positioning tube 504 is fixedly connected with the through hole 403 through welding, the positioning tube 504 is relatively parallel to the assembly wall 1, the position of the positioning tube 504 is relatively to the middle end outside the sleeve 301 and is not more than the front end of the sleeve 301, and the length of the positioning tube 504 is greater than the vertical height of the assembly wall 1.

Specifically, the inserting ring 505 is installed at the top of the positioning pipe 504, the inserting ring 505 is a conical hollow ring body with a small upper part and a large lower part, the inner side of the inserting ring 505 and the positioning pipe 504 are concentric circles, the bottom of the positioning pipe 504 is provided with a ring opening 506, the inner side of the ring opening 506 is matched with the inserting ring 505, the inner side of the positioning pipe 504 is also connected with the reinforcing steel bars 7, the reinforcing steel bars 7 pass through the positioning pipe 504, the inserting ring 505 and the ring opening 506 and are connected into a stratum, the inserting ring 505 at the top of the positioning pipe 504 is connected with the ring opening 506 at the bottom of the positioning pipe 504 when the positioning pipe 504 is connected, the inserting ring 505 is embedded and clamped between the inserting ring 506, the reinforcing steel bars 7 can be inserted from the top of the positioning pipe 504 installed at the highest position of the positioning wall 1 after the longitudinal assembly wall 1 is connected, the reinforcing steel bars 7 pass through a plurality of overlapped assembly walls 1 so as to integrate the reinforcing steel bars, the reinforcing steel bars are used as longitudinal wave resisting means, concrete can be filled from the inserting ring 505 at the moment, the plurality of positioning pipes 504 are completely connected and the positioning pipe 504 are completely fixed after the concrete is solidified, and the positioning pipe 504 cannot be separated, and the assembly wall 1 is separated.

step one, two assembly walls 1 are turned in a mirror image manner, and a plug rod 401 on the rear wall is aligned with a sleeve 301 installed on the other assembly wall 1;

step two, the plug rod 401 of the upper assembly wall 1 is plugged with the sleeve 301 to form plug connection, and the two assembly walls 1 are connected with each other to limit the upper and lower directions of the two assembly walls;

step three, after the two assembly walls 1 are transversely butted, longitudinal superposition can be carried out, and a plurality of butted assembly walls 1 are sequentially stacked;

fourthly, positioning pipes 504 between the assembly walls 1 are opposite to each other and form longitudinal insertion connection, so that a plurality of assembly walls 1 are longitudinally connected;

step five, when the positioning pipe 504 installed on the bottom assembly wall is connected, the plugging ring 505 at the top of the positioning pipe 504 installed on the upper assembly wall 1 is connected with the ring opening 506 at the bottom of the positioning pipe 504, and the plugging ring 505 and the positioning pipe are embedded and clamped;

step six, inserting the reinforcing steel bars 7 from the inserting rings 505 at the top of the positioning pipes 504 installed on the highest assembled wall 1, driving the bottoms of the reinforcing steel bars 7 deep into the ground, and integrating the reinforcing steel bars 7 by penetrating through a plurality of overlapped assembled walls 1.

When the assembly wall is used, two assembly walls 1 are in mirror image overturning, the plug rod 401 of the rear wall is aligned with the sleeve 301 mounted on the other assembly wall 1, the plug rod 401 of the upper assembly wall 1 is connected with the sleeve 301 to form plug connection, the two assembly walls 1 are mutually connected to limit the upper and lower directions of the sleeve, the two assembly walls 1 can be longitudinally overlapped after being transversely abutted, a plurality of abutted assembly walls 1 are sequentially stacked, positioning pipes 504 between the assembly walls 1 are opposite and form longitudinal plug connection, the plurality of assembly walls 1 are longitudinally connected, the plug connection ring 505 at the top of the positioning pipe 504 mounted on the bottom assembly wall is connected with the ring 506 at the bottom of the positioning pipe 504 mounted on the upper assembly wall 1 when being connected, the two assembly walls are embedded and clamped, the reinforcing steel bars 7 are inserted into the top plug connection ring 505 of the positioning pipe 504 mounted on the uppermost assembly wall 1, the bottom of the reinforcing steel bars 7 are driven into the ground surface deeply, and the reinforcing steel bars 7 penetrate through the plurality of overlapped assembly walls 1 to integrate the reinforcing bars.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an assembled green building, sets up assembly wall (1) of packing storehouse (2), its characterized in that including inside: the filler bin (2) at the inner side of the assembly wall (1) is provided with a stabilizing structure (201), the front end of the rear wall of the assembly wall (1) is provided with an access structure (3), the access structure (3) comprises a sleeve (301) connected with the rear wall of the assembly wall (1), the inner side of the sleeve (301) is provided with an inner rod (302), the inner side of the access structure (3) is matched with an inserting structure (4) arranged at the tail end of the rear wall of the assembly wall (1), the inserting structure (4) comprises an inserting rod (401) connected to the rear wall of the assembly wall (1), and an inserting hole (402) is formed in the center of the inner side of the inserting rod (401);

the middle end of the rear wall of the assembly wall (1) is close to the access structure (3) and is provided with a positioning structure (5) for connecting other assembly walls (1).

2. A modular green building according to claim 1, wherein: the stabilizing structure (201) comprises triangular frames (202) fixedly mounted on the inner side of the filling bin (2), the upper end and the lower end of each triangular frame (202) are in contact with the inner side wall of the filling bin (2), the triangular frames (202) are multiple and are connected end to end, and the triangular frames (202) are arranged and mounted on the inner side of the filling bin (2).

3. A modular green building according to claim 2, wherein: the sleeve (301) is a hollow pipe body, an inner rod (302) is arranged at the inner side center of the tail end of the sleeve (301) and close to one side of the assembly wall (1), the rear end of the inner rod (302) is fixedly connected with the side wall of the assembly wall (1), the inner rod and the sleeve (301) are concentric circles, and the inner rod (302) is matched with the plug hole (402).

4. A modular green building according to claim 3, wherein: the plug rod (401) is fixedly arranged at the tail end of the rear wall of the assembly wall (1) and is relatively vertical to the rear wall, the plug rod (401) is a rod body which is matched with a hole at the inner side of the sleeve (301), a plug hole (402) penetrating through the inner side of the front wall of the plug rod (401) is formed in the center of the front wall of the plug rod, and the inner side of the plug hole (402) is in sliding connection with the inner rod (302).

5. The fabricated green building of claim 4, wherein: the positioning structure (5) comprises a clamping seat (501) arranged at the middle end of the rear wall of the assembly wall (1), the tail end of the clamping seat (501) is fixedly connected with the rear wall of the assembly wall (1), the front end of the clamping seat (501) is connected with a fixing ring (502), the fixing ring (502) is relatively vertical to the assembly wall (1), and the top surface of the fixing ring (502) is provided with a through hole (503) penetrating through the fixing ring.

6. The fabricated green building of claim 5, wherein: the inner side of the through hole (403) is provided with a positioning pipe (504), the middle end of the positioning pipe (504) is fixedly connected with the through hole (403) through welding, the positioning pipe (504) is relatively parallel to the assembly wall (1), the position of the positioning pipe (504) is relatively to the middle end outside the sleeve (301) and does not exceed the front end of the sleeve (301), and the length of the positioning pipe (504) is larger than the vertical height of the assembly wall (1).

7. The fabricated green building of claim 6, wherein: the utility model discloses a locating pipe, including locating pipe (504), connecting pipe (504), reinforcing bar (7), connecting pipe (504), connecting pipe (506) are equipped with connecting ring (505), connecting ring (505) are installed at locating pipe (504) top, connecting ring (505) are conical empty ring body that is big-end-up, connecting ring (505) inboard and locating pipe (504) each other are concentric circles, ring mouth (506) are offered to locating pipe (504) bottom, connecting ring (505) are agreed to inside, connecting pipe (504) inboard still is connected with reinforcing bar (7), reinforcing bar (7) pass connecting pipe (504), connecting ring (505) and ring mouth (506) and insert into the stratum.

8. The method for constructing the assembled green building is characterized by comprising the following steps of:

step one, two assembly walls (1) are turned over in a mirror image mode, and a plug rod (401) of the rear wall is aligned with a sleeve (301) mounted on the other assembly wall (1);

step two, the splicing sleeve (301) of the splicing rod (401) of the upper assembly wall (1) is spliced, and the two assembly walls (1) are connected with each other to limit the upper and lower directions of the two assembly walls;

step three, after the two assembly walls (1) are transversely butted, longitudinal superposition can be carried out, and a plurality of butted assembly walls (1) are sequentially stacked;

fourthly, positioning pipes (504) between the assembly walls (1) are opposite to each other and form longitudinal splicing, so that a plurality of assembly walls (1) are longitudinally connected;

step five, a plug ring (505) at the top of a positioning pipe (504) installed on the bottom assembly wall is connected with a ring opening (506) at the bottom of the positioning pipe (504) installed on the upper assembly wall (1) when the positioning pipes (504) are connected, and the two are embedded and clamped;

step six, inserting reinforcing steel bars (7) from the inserting rings (505) at the top of the positioning pipes (504) installed on the highest assembly wall (1), driving the bottoms of the reinforcing steel bars (7) into the ground surface, and penetrating the reinforcing steel bars (7) through a plurality of overlapped assembly walls (1) so as to integrate the reinforcing steel bars.