阅读说明：本技术 一种装配式钢结构集成绿色建筑及其安装方法 (Assembly type steel structure integrated green building and installation method thereof ) 是由 石振候 于 2020-04-26 设计创作，主要内容包括：本发明实施例公开了一种装配式钢结构集成绿色建筑,包括稳定基座以及若干个安装在稳定基座上表面的支柱,所述支柱远离稳定基座的一端安装有呈口字形结构的安装框架,在所述安装框架的中心位置处设置有连接块,本发明可通过固定块和倾斜导台,实现缝隙弥补操作,以使建筑质量更高,不会因材料的膨胀出现缝隙,从而使得雨水渗透的情况发生,其实施时,一旦主封块与基座架之间由于膨胀从而出现较小间隙,固定块和倾斜导台会在插条的作用下连接在一起,但其膨胀时产生的形变量会转换为矫正弹簧组和复位弹片的挤压量,此时即使有雨水渗透也不会轻易通过主封块与基座架之间进入,且即使有雨水渗透也可通过透水槽迅速导出,以使建筑的质量不受影响。(The embodiment of the invention discloses an assembly type steel structure integrated green building, which comprises a stable base and a plurality of support columns arranged on the upper surface of the stable base, wherein one ends of the support columns, far away from the stable base, are provided with mounting frames in a square structure, and the center positions of the mounting frames are provided with connecting blocks, so that gap compensation operation can be realized through a fixing block and an inclined guide table, the building quality is higher, gaps cannot be generated due to expansion of materials, and accordingly, the rainwater infiltration condition can be caused, when the building is implemented, once a small gap is generated between a main sealing block and a base frame due to expansion, the fixing block and the inclined guide table can be connected together under the action of an inserting strip, but deformation generated during expansion can be converted into extrusion amount of a correction spring group and a reset elastic sheet, at the moment, even if rainwater infiltrates, the rainwater cannot easily enter between the main sealing block and the base frame, and even if rainwater permeates, the rainwater can be quickly guided out through the water permeable grooves, so that the quality of the building is not influenced.)

1. The green building integrated with the assembly type steel structure is characterized by comprising a stabilizing base (1) and a plurality of supporting columns (2) arranged on the upper surface of the stabilizing base (1), wherein one ends, far away from the stabilizing base (1), of the supporting columns (2) are provided with installation frames (3) in a square structure, a connecting block (4) is arranged at the center position of each installation frame (3), one side surface, far away from the stabilizing base (1), of each connecting block (4) is provided with an annular clamping groove (5), and a gap separating mechanism (6) which is connected with the installation frames (3) and used for sealing edge gaps is arranged in each annular clamping groove (5);

the clearance separation mechanism (6) comprises a main sealing block (601), one end, close to a connecting block (4), of the main sealing block (601) is provided with a clamping block (602) which is of a U-shaped cross section and is connected with the inner wall of an annular clamping groove (5), the surface of the main sealing block (601) is provided with a fixing block (603) connected with an installation frame (3), the fixing block (603) is provided with a square hole (604), an adjusting sheet (605) is arranged in the square hole (604), one end of the adjusting sheet (605) is connected with the surface of the main sealing block (601), a correcting spring group (606) connected with the inner wall of the square hole (604) is installed on the side wall of the adjusting sheet (605), and an auxiliary sealing block (607) connected with the surface of the fixing block (603) is installed at one end, far away from the main sealing block (601), of the adjusting sheet (605).

2. The assembly type steel structure integrated green building according to claim 1, wherein the mounting frame (3) comprises four mounting covers (301) which are respectively mounted between adjacent pillars (2) and have L-shaped longitudinal sections, an inclined guide table (302) is connected in each mounting cover (301), a sliding groove (303) is formed in each inclined guide table (302), a positioning column (304) connected with the inner wall of each mounting cover (301) is connected to the inner wall of each sliding groove (303), a reset spring sheet (305) connected with the inner wall of each sliding groove (303) is mounted on the side wall of each positioning column (304), a sealing sheet (306) is mounted on one side, away from the mounting covers (301), of each inclined guide table (302), a water permeable groove (307) is formed in the surface, away from the pillars (2), and a water guide hole (308) communicated with the mounting covers (301) is formed in the inner wall of each water permeable groove (307).

3. The assembly type steel structure integrated green building as claimed in claim 2, wherein a connecting set (309) is installed on each side of the four sealing sheets (306) far away from the installation cover (301), the connecting set (309) is composed of three positioning insertion strips (310) with T-shaped cross sections and one elastic sheet insertion strip (311), and an insertion strip groove (608) is formed in a side wall of the fixing block (603).

4. The assembly type steel structure integrated green building as claimed in claim 1, wherein an embedded platform groove (501) is formed in an inner wall of the annular clamping groove (5), a fixed embedded platform (502) is connected to the inner wall of the embedded platform groove (501), a springing column (503) is installed between the fixed embedded platform (502) and the inner wall of the embedded platform groove (501), and a clamping positioning groove (504) for clamping the fixed embedded platform (502) is formed in a side wall of the clamping block (602).

5. The assembly type steel structure integrated green building according to claim 1, wherein the stabilizing base (1) comprises a stabilizing column (101) and a base frame (102) connected with the support column (2), a stabilizing platform (103) is arranged at a central position of the base frame (102), an inserting groove (104) is formed in the base frame (102), an inserting groove (105) is formed in a side wall of the stabilizing platform (103), one end of the stabilizing column (101) is connected with an inner wall of the inserting groove (105), and the other end of the stabilizing column (101) is connected with an inner wall of the inserting groove (104).

6. The assembly type steel structure integrated green building as claimed in claim 2, wherein the installation cover (301) is composed of a main installation cover (312) and arc-shaped patches (313) installed at both ends of the main installation cover (312) and connected with the side walls of the pillars (2).

7. The assembly type steel structure integrated green building as claimed in claim 5, wherein a fixing plate (106) is installed in the insertion slot (104), an attaching plate (107) is arranged on one side surface of the fixing plate (106) far away from the stabilizing platform (103), a tension spring (108) is installed between the fixing plate (106) and the attaching plate (107), a limiting column (110) penetrating through the fixing plate (106) is installed on the surface of the attaching plate (107), and a stud hole (109) for clamping the limiting column (110) is formed in the stabilizing column (101).

8. The mounting method of the assembly type steel structure integrated green building is characterized by comprising the following steps:

s100, determining the position and the area of a building foundation, then erecting a foundation base in the building foundation area, and fixedly installing a support pillar at the corner position of a foundation base;

s200, pouring concrete outside the foundation base to fix the building foundation on the ground, and then erecting a wall outside the support;

s300, fixing the installation frame on the top of the support, and assembling the waterproof plate and the support plate on the inner side of the installation frame in sequence to achieve the purpose of erecting the floor slab.

9. The method for installing an assembly type steel structure integrated green building according to claim 8, wherein the step S300 is further to sequentially assemble the waterproof plate and the supporting plate inside the installation frame, and the specific operation flow for erecting the floor slab is as follows:

s301, fixing three adjacent mounting covers at the top end of a support column to form an L-shaped structure in a combined mode, quickly assembling three waterproof plates and the mounting covers through positioning inserting strips, then assembling and splicing the rest waterproof plate and the mounting covers, and then connecting the spliced mounting covers with the support column to enable the four mounting covers to be combined to form a square-shaped structure, wherein the four waterproof plates are connected with one another in an interference fit mode;

s302, mounting the support plate at the center of the four waterproof plates so as to complete the assembly of the floor slab.

Technical Field

The embodiment of the invention relates to the field of buildings, in particular to an assembly type steel structure integrated green building and an installation method thereof.

Background

In the whole life cycle, resources are saved, the environment is protected, pollution is reduced, healthy, applicable and efficient use space is provided for people, high-quality buildings which are harmonious and symbiotic with the nature are called green buildings to the maximum extent, and the design concept of the green buildings comprises the following aspects: energy conservation, resource conservation and natural return.

The current green building is usually realized by means of an assembled steel structure when being built, and the problems that labor force is gradually lacked and the problem of environmental pollution is gradually serious can be effectively solved.

But common assembled steel construction is in the use today, because of its great event when connecting roof beam and post, the operation personnel need climb to the eminence and piece together and weld, it is comparatively complicated during its operation, so after the concatenation is accomplished, can't guarantee its sealed degree especially top edge, thereby the condition by rainwater scouring play clearance appears in very easy contact rainwater in the top, the steel construction can appear the circumstances such as expansion gap in the use simultaneously, if the sealed degree of top is not high, just very easily appear the rainwater and permeate to the building inside from the edge. So that the quality of the building is affected.

Disclosure of Invention

Therefore, the embodiment of the invention provides an assembly type steel structure integrated green building and an installation method thereof, and aims to solve the problems that in the prior art, gaps are flushed by rainwater due to the fact that the top of the building is in contact with rainwater, or expansion gaps and the like occur in the use process of a steel structure.

In order to achieve the above object, an embodiment of the present invention provides the following:

an assembly type steel structure integrated green building comprises a stable base and a plurality of supporting columns arranged on the upper surface of the stable base, wherein one ends, far away from the stable base, of the supporting columns are provided with installation frames in a square structure, a connecting block is arranged at the center of each installation frame, the surface of one side, far away from the stable base, of each connecting block is provided with an annular clamping groove, and a gap separation mechanism which is connected with the installation frames and used for sealing edge gaps is arranged in each annular clamping groove;

it includes main sealing block to separate crack mechanism, the main sealing block is close to the one end of connecting block and installs transversal U style of calligraphy structure of personally submitting and with cyclic annular screens inslot wall connection's screens piece, just the surface of main sealing block is equipped with the fixed block with installation frame connection square hole has been seted up on the fixed block the downthehole adjustment sheet that is equipped with of square, the one end and the main sealing block surface connection of adjustment sheet, just the correction spring group with square downthehole wall connection is installed to the lateral wall of adjustment sheet, the one end that the main sealing block was kept away from to the adjustment sheet is installed the vice sealing block with fixed block surface connection.

As a preferable scheme of the invention, the mounting frame comprises four mounting covers which are respectively mounted between adjacent pillars and have L-shaped longitudinal sections, an inclined guide table is connected in the mounting covers, a sliding groove is formed in the inclined guide table, the inner wall of the sliding groove is connected with a positioning column connected with the inner wall of the mounting cover, a reset elastic sheet connected with the inner wall of the sliding groove is mounted on the side wall of the positioning column, a sealing sheet is mounted on one side of the inclined guide table, which is far away from the mounting cover, a water permeable groove is formed in the surface of one side of the sealing sheet, which is far away from the pillars, and a water guide hole communicated with the mounting covers is formed in the inner wall of.

As a preferable scheme of the invention, a connecting piece group is respectively arranged on one side of each of the four sealing pieces far away from the mounting cover, the connecting piece group consists of three positioning inserting strips with T-shaped cross sections and one elastic piece inserting strip, and the side wall of the fixing block is provided with an inserting strip groove.

As a preferable scheme of the invention, an embedded platform groove is formed in the inner wall of the annular clamping groove, a fixed embedded platform is connected to the inner wall of the embedded platform groove, an elastic column is installed between the fixed embedded platform and the inner wall of the embedded platform groove, and a clamping and positioning groove for clamping the fixed embedded platform is formed in the side wall of the clamping block.

As a preferable scheme of the present invention, the stabilizing base includes a stabilizing column and a base frame connected to the support column, a stabilizing table is disposed at a central position of the base frame, an inserting groove is formed in a side wall of the stabilizing table, one end of the stabilizing column is connected to an inner wall of the inserting groove, and the other end of the stabilizing column is connected to the inner wall of the inserting groove.

As a preferable scheme of the present invention, the mounting cover is composed of a main mounting cover and arc-shaped patches which are mounted at both ends of the main mounting cover and connected with the side walls of the pillars.

In a preferred embodiment of the present invention, a fixing piece is installed in the insertion slot, a fastening piece is installed on a surface of the fixing piece away from the stabilizing table, a tension spring is installed between the fixing piece and the fastening piece, a limiting post penetrating through the fixing piece is installed on a surface of the fastening piece, and a post-fitting hole for locking the limiting post is formed in the stabilizing post.

An installation method of an assembly type steel structure integrated green building comprises the following steps:

s100, determining the position and the area of a building foundation, then erecting a foundation base in the building foundation area, and fixedly installing a support pillar at the corner position of a foundation base;

s200, pouring concrete outside the foundation base to fix the building foundation on the ground, and then erecting a wall outside the support;

s300, fixing the installation frame on the top of the support, and assembling the waterproof plate and the support plate on the inner side of the installation frame in sequence to achieve the purpose of erecting the floor slab.

As a preferred embodiment of the present invention, in step S300, the waterproof board and the supporting board are sequentially assembled on the inner side of the installation frame, and the specific operation flow for achieving the purpose of erecting the floor slab is as follows:

s301, fixing three adjacent mounting covers at the top end of a support column to form an L-shaped structure in a combined mode, quickly assembling three waterproof plates and the mounting covers through positioning inserting strips, then assembling and splicing the rest waterproof plate and the mounting covers, and then connecting the spliced mounting covers with the support column to enable the four mounting covers to be combined to form a square-shaped structure, wherein the four waterproof plates are connected with one another in an interference fit mode;

s302, mounting the support plate at the center of the four waterproof plates so as to complete the assembly of the floor slab.

The embodiment of the invention has the following advantages:

the invention can realize gap compensation operation through the fixed block and the inclined guide platform, so that the building quality is higher, and no gap is generated due to expansion of materials, so that the rainwater infiltration condition occurs;

the invention can also increase the assembly efficiency and stability of the structure through the stabilizing column and the base frame, so that the condition that the construction quality is influenced due to unstable bottom of the building caused by error in assembly of the building can be avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a top view of a mounting frame of an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a clearance mechanism according to an embodiment of the present invention;

FIG. 4 is a top view of a stabilization base according to an embodiment of the present invention;

FIG. 5 is a perspective view of a stabilization post according to an embodiment of the present invention;

FIG. 6 is a schematic view of a fixing sheet according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an inclined guide table according to an embodiment of the present invention.

In the figure:

1-a stabilizing base; 2-a pillar; 3-mounting the frame; 4, connecting blocks; 5-annular clamping groove; 6-a clearance mechanism;

101-a stabilizing column; 102-a base frame; 103-a stabilization stage; 104-an insertion slot; 105-a platform slot; 106-a fixing sheet; 107-a patch; 108-a tension spring; 109-stud holes; 110-a confinement column;

301-mounting a cover; 302-inclined guide table; 303-a sliding groove; 304-a locating post; 305-a reset spring plate; 306-a sealing sheet; 307-a water permeable tank; 308-water diversion holes; 309-a group of connection members; 310-positioning the cutting; 311-shrapnel cuttings; 312-a main mounting cover; 313-arc shaped patch;

501-embedding a platform groove; 502-fixed nest table; 503-springing columns; 504-clamping fixed groove;

601-main sealing block; 602-a block of bits; 603-fixed block; 604-square holes; 605-a conditioning sheet; 606-a set of correction springs; 607-sub-seal block; 608-slip groove.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the present invention provides an assembly type steel structure integrated green building, which can implement gap compensation operation through a fixing block 603 and an inclined guide platform 302, so that the building quality is higher, and no gap occurs due to expansion of materials, so that rainwater infiltration occurs, and can also increase the structure assembly efficiency and stability through a stabilizing column 101 and a base frame 102, so that the building quality is not affected due to unstable bottom of the building caused by assembly errors during assembly.

This building includes that stable base 1 and a plurality of install pillar 2 at stable base 1 upper surface, pillar 2 keeps away from the one end of stable base 1 and installs installation frame 3 that is the square structure the central point department of putting of installation frame 3 is provided with connecting block 4, annular screens groove 5 has been seted up on a side surface of keeping away from stable base 1 to connecting block 4 be equipped with in the annular screens groove 5 and be connected with installation frame 3 and be used for carrying out sealed clearance mechanism 6 to the edge clearance.

When the building is assembled, a stable base 1 can be assembled firstly (the assembled stable base 1 is shown in figure 4), then a plurality of struts 2 are inserted, so that the building of a bottom framework of the whole building is completed, the stable base 1 can be fixed with the ground surface by pouring concrete, then a wall body is erected outside the struts 2 (a wooden wallboard, a metal wallboard or a concrete wallboard can be selected (the wallboard needs to be erected after masonry is paved firstly), the invention mainly solves the problem that gaps are easy to appear due to rain wash or device expansion at the edge position of the top of the building, the erection of the wall body needs to be rotated according to actual requirements), finally an installation frame 3 is installed at the top of the plurality of struts 2, and meanwhile, a gap separation mechanism 6 and a connecting block 4 are sequentially installed in the installation frame 3.

As shown in fig. 1, 2 and 3, the gap separating mechanism 6 includes a main seal block 601, one end of the main seal block 601 close to the connecting block 4 is provided with a clamping block 602 having a U-shaped cross section and connected to the inner wall of the annular clamping groove 5, a fixed block 603 connected to the mounting frame 3 is disposed on the surface of the main seal block 601, the fixed block 603 is provided with a square hole 604, an adjusting piece 605 is disposed in the square hole 604, one end of the adjusting piece 605 is connected to the surface of the main seal block 601, a correction spring set 606 connected to the inner wall of the square hole 604 is disposed on the side wall of the adjusting piece 605, and an auxiliary seal block 607 connected to the surface of the fixed block 603 is disposed at one end of the adjusting piece 605 away from the main seal block 601.

As shown in fig. 1, fig. 7 and fig. 2, the mounting frame 3 includes four mounting covers 301 which are respectively installed between adjacent pillars 2 and have L-shaped longitudinal sections, an inclined guide platform 302 is connected in the mounting covers 301, a sliding groove 303 is provided on the inclined guide platform 302, an inner wall of the sliding groove 303 is connected with a positioning column 304 which is connected with an inner wall of the mounting cover 301, a reset elastic sheet 305 which is connected with an inner wall of the sliding groove 303 is installed on a side wall of the positioning column 304, a sealing sheet 306 is installed on one side of the inclined guide platform 302 far away from the mounting cover 301, a water permeable groove 307 is provided on one side surface of the sealing sheet 306 far away from the pillars 2, and a water diversion hole 308 communicated with the mounting cover 301 is provided on an inner wall of.

The gap-separating mechanism 6 can realize gap-compensating operation, when it is assembled, it is necessary to install three mounting covers 301 in the mounting frame 3 on the support column 2, so that three of them form an L-type structure, then connect three fixing blocks 603 with the inner walls of the three mounting covers 301 correspondingly (because the connecting block group 309 is installed on one side of the four sealing sheets 306 far from the mounting covers 301, the connection mode at this position is quickly assembled through the connecting block group 309, after it is assembled, the adjacent fixing blocks 603 cling together, thereby avoiding the gap), then plug the remaining one fixing block 603 with the remaining one mounting cover 301, finally install the remaining one mounting cover 301 on the support column 2, so that the four mounting covers 301 form a mouth-shaped structure (and the four fixing blocks 603 cling together, thereby avoiding the gap), at this time, there is only one gap in the central area of the mounting cover 301, and then insert the connecting block 4 into the gap (i.e. directly clamp the annular clamping groove 5 on the connecting block 4 to the clamping block 602, and at the same time, the gap-separating mechanism 6 and the connecting block 4 are assembled.

The main seal block 601 and the sub-seal block 607 are sandwiched between the two sides of the fixing block 603, and as long as the fixing block 603 is fixed, the purpose of fixing the two seal blocks is also accomplished.

In the specific use process of the gap separating mechanism 6, once rainwater permeates from the edge of the top of the building (which can be directly regarded as between the mounting cover 301 and the fixing block 603), the rainwater can flow onto the sealing sheet 306 by being guided by the main sealing block 601, gradually flow into the water permeable groove 307, then flow into the water diversion hole 308 from the water permeable groove 307, and then flow into the inclined guide platform 302 and the mounting cover 301 through the water diversion hole 308 (a conduit can be arranged on the mounting cover 301, so that the water flows out to the outside through the conduit, thereby avoiding the occurrence of the condition that the quality of the building is affected due to the permeation of the rainwater into the building).

When the fixing block 603 and other structures expand (or contract), the positions of the fixing block 603 and the inclined guide platform 302 cannot move easily, the correction spring set 606 and the reset spring piece 305 on the fixing block 603 and the inclined guide platform 302 are compressed (i.e. the amount of compression replaces the amount of deformation after expansion (or contraction) due to the fact that the gap is mainly contracted), and the main sealing block 601 and the auxiliary sealing block 607 move towards the side far away from the mounting cover 301, so that the gap after expansion (or contraction) occurs, and at the moment, if rainwater permeates, the rainwater directly flows into the water permeable groove 307 and flows out through the water diversion hole 308, so that the building quality is not influenced.

The connecting member set 309 includes three positioning insertion strips 310 with a T-shaped cross section and a spring insertion strip 311, the sidewall of the fixing block 603 is provided with an insertion strip groove 608 (the four fixing blocks 603 at this position are provided with insertion strip grooves 608, three of which are matched with the positioning insertion strips 310, and the last is matched with the spring insertion strip 311. the specific structure can refer to fig. 1 and 3, and the connecting member set 309 at this position can be provided with all the same or different connecting insertion strips, and the specific setting should be adjusted according to the use requirement, such as the shape of the positioning insertion strips 310, but such setting would cause no expansion allowance of the fixing block 603, and the provision of one spring insertion strip 311 represents that the fixing block 603 has a certain amount of change (i.e., the amount of compression of the spring) when the fixing block 603 is pulled or the fixing block 603 expands (contracts), and the connecting insertion strips will not break due to strain.

As shown in fig. 1, 2 and 3, an embedded platform groove 501 is formed in an inner wall of the annular clamping groove 5, a fixed embedded platform 502 is connected to the inner wall of the embedded platform groove 501, an elastic column 503 is installed between the fixed embedded platform 502 and the inner wall of the embedded platform groove 501, and a clamping positioning groove 504 for clamping the fixed embedded platform 502 is formed in a side wall of the clamping block 602.

When the connecting block 4 is connected with the clamping block 602, the clamping block 602 is directly inserted into the annular clamping groove 5, and the fixing embedded platform 502 is pushed by the clamping block 602 to extrude the elastic column 503 and enter the embedded platform groove 501, when the connecting block 4 is sufficiently fixed, the fixing embedded platform 502 is aligned to the clamping fixed groove 504, and then the elastic column 503 is reset to push the fixing embedded platform 502 to be clamped into the clamping fixed groove 504, so that the connecting block 4 is fixed more firmly.

As shown in fig. 1, 4 and 5, the stabilizing base 1 includes stabilizing columns 101 and base frames 102 (four of the base frames 102 may be provided) connected to the support columns 2, a stabilizing platform 103 is provided at a central position of the base frame 102, an inserting slot 104 is provided on the base frame 102, an inserting slot 105 is provided on a side wall of the stabilizing platform 103, one end of the stabilizing column 101 is connected to an inner wall of the inserting slot 105, and the other end of the stabilizing column 101 is connected to an inner wall of the inserting slot 104.

This stable base 1 can increase structure assembly efficiency and stability, make the building can not be because of the mistake when the equipment, cause the unstable condition that leads to building quality to receive the influence in building bottom to take place, during its concrete implementation, directly assemble four base frame 102 together (this base frame 102's outward appearance is the same with installation frame 3), in order to form a square structure, later, again with the one end of a plurality of stabilizing post 101 respectively with a plurality of base frame 102 on insert position groove 104 one-to-one connection, treat that stable post 101 connects the back, the accessible stabilizes platform 103 with a plurality of base frame 102 is fixed, and through the bolt-up, the equipment purpose of stable base 1 has just been reached this moment.

The mounting cover 301 is composed of a main mounting cover 312 and arc-shaped sticking blocks 313 which are mounted at two ends of the main mounting cover 312 and connected with the side wall of the strut 2, when the mounting cover 301 is fixed, the arc-shaped sticking blocks 313 are directly fixed on the strut 2, and at the moment, the strut 2 is pulled by the main mounting cover 312 to play a role in fixing.

As shown in fig. 4 and 6, a fixing plate 106 is installed in the insertion slot 104, an attaching plate 107 is installed on one side surface of the fixing plate 106 far away from the stabilizing platform 103, a tension spring 108 is installed between the fixing plate 106 and the attaching plate 107, a limiting column 110 penetrating through the fixing plate 106 is installed on the surface of the attaching plate 107, and a stud hole 109 for clamping the limiting column 110 is formed in the stabilizing column 101.

When the stabilizing post 101 is connected to the inserting slot 104 of the base frame 102, the limiting post 110 is directly pushed to move in a direction away from the stabilizing platform 103, the tension spring 108 is stretched, and the tightening piece 107 is also pushed, when the stabilizing post 101 is fully connected to the base frame 102, the limiting post 110 is directly inserted into the post inserting hole 109 by the reset of the tension spring 108, so that the stabilizing post 101 cannot move easily.

An installation method of an assembly type steel structure integrated green building comprises the following steps:

s100, determining the position and the area of a building foundation, then erecting a foundation base in the building foundation area, and fixedly installing a support pillar at the corner position of a foundation base;

s200, pouring concrete outside the foundation base to fix the building foundation on the ground, and then erecting a wall outside the support;

s300, fixing the installation frame on the top of the support, and assembling the waterproof plate and the support plate on the inner side of the installation frame in sequence to achieve the purpose of erecting the floor slab.

In step S300, the waterproof board and the supporting board are sequentially assembled on the inner side of the installation frame, so as to achieve the purpose of erecting the floor slab, and the concrete operation flow is as follows:

s301, fixing three adjacent mounting covers at the top end of a support column to form an L-shaped structure in a combined mode, quickly assembling three waterproof plates and the mounting covers through positioning inserting strips, then assembling and splicing the rest waterproof plate and the mounting covers, and then connecting the spliced mounting covers with the support column to enable the four mounting covers to be combined to form a square-shaped structure, wherein the four waterproof plates are connected with one another in an interference fit mode;

s302, mounting the support plate at the center of the four waterproof plates so as to complete the assembly of the floor slab.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.