CN218466776U - Environment-friendly green building energy-saving wall - Google Patents

Abstract

The utility model relates to an environment-friendly green building energy-saving wall body relates to wall structure's technical field, and it includes the wall body, the wall body includes straw board and concrete step board, the concrete step board is provided with two, and two the concrete step board respectively with the both sides face fixed connection of straw board, two still utilize steel reinforcement cage fixed connection together between the concrete step board. This application has the effect of holding rice straw board wall body and concrete block wall body advantage concurrently.

Description

Environment-friendly green building energy-saving wall

Technical Field

The application relates to the technical field of wall structures, in particular to an environment-friendly green building energy-saving wall.

Background

With the increasing improvement of living standard of people, people also begin to have higher requirements on the quality of life, and the awareness of environmental protection is also enhanced. Under the form, the aim of 'green buildings' with the purposes of saving resources, reducing energy consumption, reducing pollution and improving the quality of indoor environment is achieved, and the green buildings also become the development direction of the real estate industry.

The green building is a building which has the advantages of low resource consumption, low energy consumption and small environmental impact while providing healthy, applicable and efficient space for people in the whole building construction and use process. The green building is a representative of sustainable development, and the wall body is designed to save energy in the green building, so that the green building not only actively responds to green slogans, but also saves resources, and ensures the healthy life of residents.

In the related technology, energy-saving walls such as straw board walls, concrete block walls and the like exist, and the raw materials of the walls do not occupy or occupy less soil resources, so that the influence on the environment during production is small, and the influence on air is low due to little or no emission in the production process.

In view of the above-mentioned related technologies, the applicant has found that the straw board wall is light in weight, but has a brittle texture, and is easy to crack when being subjected to a large impact, and the concrete block wall has a high strength and can bear a large impact force, but the weight of the concrete block wall is about 5 times that of the straw board wall with the same volume, and both have advantages and disadvantages, so the applicant considers the two energy-saving walls together to provide an improved scheme.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an environment-friendly green building energy-saving wall body, it has the effect of holding rice straw board wall body and concrete block wall body advantage concurrently.

The application provides an environment-friendly green building energy-saving wall body, adopts following technical scheme.

The utility model provides an environment-friendly green building energy-saving wall body, includes the wall body, the wall body includes straw board and concrete step board, the concrete step board is provided with two, and two the concrete step board respectively with straw board's both sides face fixed connection, two still utilize steel reinforcement cage fixed connection together between the concrete step board.

Specifically, utilize two concrete building blocks to press from both sides and close the strawboard to play the effect of reinforcement to the strawboard, and the strawboard can play the effect of filling the clearance between two concrete building blocks, utilizes the steel reinforcement cage can ensure the bulk strength of wall body, compares with the strawboard wall body of equal volume, and this technical scheme's intensity can be higher, and shock resistance is stronger, compares with the concrete block wall body of equal volume, and this technical scheme's texture can be lighter relatively, and the cost is also lower.

Further, the steel reinforcement cage includes reinforcing bar group and splice bar, the reinforcing bar group is arranged by a plurality of groups, each along the length direction of concrete building board two long avris of reinforcing bar group bury underground respectively in two concrete building boards, the splice bar is provided with a plurality of roots and equipartition in two concrete building boards, each the splice bar all with each long avris fixed connection who organizes the reinforcing bar group.

Specifically, utilize the reinforcing bar group can be in the same place two concrete building boards fixed connection, utilize the splice bar to make each group's reinforcing bar group stable the connection together.

Furthermore, each reinforcing bar group all includes two reinforcing bar poles and is located the strengthening rib between two reinforcing bar poles, the strengthening rib is continuous "W" shape setting, two reinforcing bar poles of reinforcing bar group are buried in two concrete building blocks respectively.

The reinforcing steel bar group has the advantages that the reinforcing steel bar group with a stable structure can be formed through the two reinforcing steel bar rods and the reinforcing ribs, the structure is simple, and implementation is facilitated.

Further, the straw board comprises a plurality of first straw blocks, the first straw blocks are arranged side by side, the first straw blocks and the steel bar groups are arranged in a mutually staggered mode, structural adhesive is filled between any two first straw blocks correspondingly arranged, and the structural adhesive covers the portions, located between the two concrete blocks, of the steel bar groups.

The straw board is divided into a plurality of first straw blocks, so that each first straw block can be arranged in a staggered mode with each group of reinforcing steel bar groups, interference between the straw board and the reinforcing steel bar groups can be avoided, the first straw blocks can be bonded with the reinforcing steel bar groups by the aid of structural adhesives, and accordingly connection strength and stability between the straw board and the reinforcing steel bar cage are guaranteed.

Furthermore, the straw board also comprises two second straw blocks, one opposite side surfaces of the two second straw blocks are respectively bonded with the end surfaces of the two ends of each first straw block, and the two first straw blocks which are randomly and adjacently arranged can be matched with the two second straw blocks to form a forming groove for filling the structural adhesive.

Specifically, utilize second straw piece can form the shaping groove in order enclosing with first straw piece cooperation, the shaping groove can be used for supplying structural adhesive to fill, prevents that structural adhesive from overflowing from between the adjacent first structural adhesive.

Furthermore, two side faces of each first straw block and each second straw block are respectively bonded and fixed with the two concrete building boards through structural adhesives.

Specifically, the first straw blocks and the second straw blocks are fixedly bonded with the concrete building boards by using the structural adhesive, so that the connection strength between the straw boards consisting of the first straw blocks and the second straw blocks and the concrete building boards can be ensured.

Furthermore, the wall body is provided with a plurality of pieces arranged along the width direction, a filling groove is formed between any two correspondingly arranged wall bodies, and a concrete filling part is filled in the filling groove.

Specifically, through the filling groove between two adjacent wall bodies that set up for two adjacent wall body splices together, can be to filling the inslot cast in situ concrete with concrete filling portion, and concrete filling portion can be in the same place two above-mentioned wall body coupling together.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the lattice column can be guided to be quickly positioned and installed in the foundation pit, and the structure is simple and convenient to implement;

2. can direct suspension install in the foundation ditch upper end, and need not other mounting tool, simple structure.

Drawings

FIG. 1 is a schematic diagram of splicing an energy-saving wall body of an environment-friendly building according to an embodiment of the present application;

FIG. 2 is a schematic connection diagram of an energy-saving wall body for an environment-friendly building according to an embodiment of the present application;

FIG. 3 is a schematic view of a connection between a concrete masonry panel and a reinforcement cage according to an embodiment of the present application;

FIG. 4 is a schematic structural view of a strawboard according to an embodiment of the present invention;

in the figure, 100, a wall body; 110. filling the groove; 120. building a concrete slab; 130. a strawboard; 131. a first straw block; 132. a second straw piece; 133. forming a groove; 140. a reinforcement cage; 141. connecting ribs; 142. a set of reinforcing bars; 143. a reinforcing bar rod; 144. reinforcing ribs;

200. a concrete filling section.

Detailed Description

The present application is described in further detail below with reference to fig. 1-4.

An environment-friendly green building energy-saving wall body, referring to fig. 1 and 2, comprises a plurality of wall body bodies 100 which are adjacently arranged, wherein each wall body 100 is arranged along the width direction, a filling groove 110 is arranged between any two correspondingly arranged wall body 100, and a concrete filling part 200 is filled in each filling groove 110; each wall body 100 comprises a straw board 130 and a concrete building board 120, the concrete building board 120 is provided with two pieces, and the two concrete building boards 120 are respectively fixedly connected with two side surfaces of the straw board 130.

Referring to fig. 3, the two concrete building panels 120 are fixedly connected together by a reinforcement cage 140; wherein, the steel reinforcement cage 140 includes that the reinforcing bar group 142 and splice bar 141, the reinforcing bar group 142 arranges by a plurality of groups along the length direction of concrete step board 120, and the both long avris of each group bury underground respectively in two concrete step boards 120, and splice bar 141 is provided with a plurality of and equipartition in two concrete step boards 120, each splice bar 141 all with each long avris fixed connection of organizing 142.

Each reinforcement bar group 142 comprises two reinforcement bar rods 143 and two reinforcement bars 144, the two reinforcement bar rods 143 are embedded in the two concrete building boards 120, the reinforcement bars 144 are arranged between the two reinforcement bar rods 143, the reinforcement bars 144 are arranged in a continuous W shape, and the bending parts of the reinforcement bars 144 are fixedly connected with the reinforcement bar rods 143.

Referring to fig. 4, the straw board 130 includes first straw blocks 131 and second straw blocks 132, the first straw blocks 131 are provided with a plurality of blocks, each first straw block 131 is arranged side by side, each first straw block 131 and each group of reinforcing steel bar groups 142 are arranged in a staggered manner, the second straw blocks 132 are provided with two blocks, and opposite side surfaces of the two second straw blocks 132 are respectively bonded with end surfaces of two ends of each first straw block 131; wherein, two first straw pieces 131 of arbitrary adjacent setting can enclose with the cooperation of two second straw pieces 132 and close and form one shaping groove 133, all packs in each shaping groove 133 and has the structure to glue, and the structure is glued the cladding and is lived the part that reinforcing bar group 142 is located between two concrete masonry.

Both side surfaces of the first straw block 131 and the second straw block 132 are respectively bonded and fixed with the two concrete building boards 120 through structural adhesives.

The implementation principle of the embodiment of the application is as follows:

utilize two concrete building blocks 120 to sandwich straw board 130 to play the effect of reinforcement to straw board 130, and straw board 130 can play the effect of filling the clearance between two concrete building blocks 120, utilize steel reinforcement cage 140 can ensure wall body 100's bulk strength, compare with straw board 130 wall body of equal volume, this technical scheme's intensity can be higher, shock resistance is stronger, compare with the concrete block wall body of equal volume, this technical scheme's texture can be lighter relatively, the cost is also lower.

The embodiments of the present disclosure are all preferred embodiments of the present disclosure, and the protection scope of the present disclosure is not limited thereby, wherein like parts are designated by like reference numerals. Therefore: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides an environment-friendly green energy-conserving wall body of building, its characterized in that, includes wall body (100), wall body (100) are including straw board (130) and concrete step board (120), concrete step board (120) are provided with two, and two concrete step board (120) respectively with the both sides face fixed connection of straw board (130), two still utilize steel reinforcement cage (140) fixed connection together between concrete step board (120).

2. The environment-friendly energy-saving building wall body as claimed in claim 1, wherein the reinforcement cage (140) comprises reinforcement groups (142) and connecting ribs (141), the reinforcement groups (142) are arranged in a plurality of groups along the length direction of the concrete building boards (120), two long sides of each reinforcement group (142) are respectively embedded in the two concrete building boards (120), the connecting ribs (141) are provided with a plurality of groups and are uniformly distributed in the two concrete building boards (120), and each connecting rib (141) is fixedly connected with the long sides of each group of reinforcement groups (142).

3. The environment-friendly, green and energy-saving building wall body as claimed in claim 2, wherein each reinforcement bar group (142) comprises two reinforcement bars (143) and a reinforcement bar (144) between the two reinforcement bars (143), the reinforcement bar (144) is in a continuous "W" shape, and the two reinforcement bars (143) of the reinforcement bar group (142) are embedded in the two concrete slabs (120) respectively.

4. The environment-friendly green building energy-saving wall body as claimed in claim 3, wherein the straw board (130) comprises a plurality of first straw blocks (131), each first straw block (131) is arranged side by side, each first straw block (131) and each set of steel bar groups (142) are arranged in a staggered manner, a structural adhesive is filled between any two first straw blocks (131), and the structural adhesive covers the part of the steel bar groups (142) between two concrete blocks.

5. The environment-friendly green building energy-saving wall body as claimed in claim 4, wherein the straw board (130) further comprises two second straw blocks (132), one opposite side surfaces of the two second straw blocks (132) are respectively bonded with the end surfaces of the two ends of each first straw block (131), and the two first straw blocks (131) and the two second straw blocks (132) which are arranged adjacently at random can be matched to form a forming groove (133) for filling the structural adhesive.

6. The environment-friendly green building energy-saving wall body as claimed in claim 5, wherein both side surfaces of each of the first straw block (131) and the second straw block (132) are respectively bonded and fixed with the two concrete building boards (120) by structural adhesive.

7. The environment-friendly green building energy-saving wall body as claimed in claim 4, wherein the wall body (100) is arranged with a plurality of pieces along the width direction, a filling groove (110) is arranged between any two correspondingly arranged wall bodies (100), and the filling groove (110) is filled with a concrete filling part (200).

Images