CN112343172A - Assembled steel structure house body and assembling process - Google Patents

Abstract

The utility model relates to an assembled steel construction room body and assembly process relates to the field of assembled building, including support column, crossbeam and division board, the division board with the crossbeam be connected, the division board including the shaping frame with install the net that adheres to on shaping frame surface, the shaping frame with adhere to the net and form and fill the chamber, the intracavity of filling fill and have the foam particle concrete. The method and the device have the effect of reducing the probability of potential safety hazards.

Description

Assembled steel structure house body and assembling process

Technical Field

The application relates to the field of assembly type buildings, in particular to an assembly type steel structure house body and an assembly process.

Background

Most of the existing buildings are masonry structures or cast-in-place concrete structures, the labor intensity of building sites is high, the potential safety hazards are many, open-air construction operation is blown by wind and is sunned, and most of people are unwilling to be construction workers at present.

The steel house is a house with a novel structure. The steel structure house refers to a building taking steel as a building load-bearing beam column. The skeleton is built through steel beam column promptly, separates through the gypsum board between the skeleton to form each space. The steel structure house has the characteristics of quick construction and short construction period.

In view of the above-mentioned related art, the inventor believes that there is a defect that the gypsum board is easily broken to cause a safety hazard.

Disclosure of Invention

In order to reduce the probability of potential safety hazard occurrence, the application provides an assembled steel structure room body and assembly process.

In a first aspect, the present application provides an assembled steel structure house body, which adopts the following technical scheme:

the utility model provides an assembled steel construction room body, includes support column, crossbeam and division board, the division board with the crossbeam be connected, the division board including the shaping frame with install the net that adheres to at shaping frame surface, the shaping frame with adhere to the net and form and fill the chamber, fill the intracavity and fill and have the foam particle concrete.

Through adopting above-mentioned technical scheme, when using, replace the gypsum board through the division board, the division board is through pouring into the foam particle concrete and form at the shaping frame with adhere to the intracavity that fills that the net formed, therefore the division board has the effect that the quality is light and intensity is high, and is not fragile in transportation and installation, consequently when using, has reduced the probability that the potential safety hazard takes place.

Preferably, the attachment net comprises a net body section and a connecting section, the net body section and the connecting section are arranged at intervals, and the connecting section is recessed towards the direction close to the perfusion cavity to form a positioning groove.

Through adopting above-mentioned technical scheme, when using, when pouring into the intracavity and pouring into the foam particle concrete, the foam particle concrete can fill gradually and fill out and fill up the chamber, and net body section, the linkage segment contacts, at the in-process that contacts with net body section, the foam particle concrete can spill over from the mesh of net body section, thereby strengthen the connection effect with net body section, after foam particle concrete solidifies, because the linkage segment orientation is close to the direction that fills the chamber and caves in and forms the constant head tank, consequently the linkage segment is equivalent to and inlays and establish in foam particle concrete, consequently make after foam particle concrete solidifies, the overall structure intensity of division board is bigger, in use simultaneously, still can pass through bolted connection linkage segment and shaping frame in the constant head tank, further strengthen the overall strength of division board.

Preferably, adhere to the net and be the iron material, the dictyosome section include left dictyosome, right dictyosome and connecting plate, left side dictyosome and right dictyosome all be connected with the connecting plate, the connecting plate orientation keep away from filling the protruding reinforcing groove that forms on the direction in chamber, left side dictyosome and right dictyosome on all seted up the mesh.

Through adopting above-mentioned technical scheme, in the use, because adhere to the net and be the iron material matter, and be the slice, consequently will adhere to the net and place when the shaping frame, because the connecting plate orientation is kept away from and is filled the protruding reinforcing groove that forms on the direction in chamber, the linkage segment orientation is close to and fills the sunken constant head tank that forms in the direction in chamber, consequently can effectively reduce the crooked degree that adheres to the net for when adhering to the net and placing on the shaping frame, still can keep comparatively horizontally state.

Preferably, still including decorating the wall body, decorate the wall body with support column and crossbeam all connect, the decoration wall body on be equipped with the connecting block, the connecting block include first connecting block and second connecting block, first connecting block set up the surface at decorating the wall body, the second connecting block set up the internal surface at decorating the wall body.

Through adopting above-mentioned technical scheme, when using, can prefabricate and first connecting block and the prefabricated wallboard that the second connecting block cooperateed and uses, after finishing decorating the installation of wall body, will prefabricate wallboard and first connecting block and second connecting block install can for it is more convenient to decorate the decoration of wall body.

Preferably, first linkage block on be equipped with fixing device, fixing device include dead lever and actuating mechanism, first linkage block on be equipped with the installation cavity and stretch out the hole, stretch out the hole with the installation cavity be linked together, actuating mechanism be located the installation cavity, the dead lever be located stretch out downtheholely, actuating mechanism set up to release the dead lever from stretching out downthehole.

Through adopting above-mentioned technical scheme, when using, prefabricated wallboard cover is established on first connecting block, and actuating mechanism drive dead lever stretches out in following the extension hole, offsets with prefabricated wallboard to play the fixed effect of fastening to prefabricated wallboard, consequently make the installation of prefabricated wallboard more convenient.

Preferably, actuating mechanism include the actuating lever and the drive block that is connected with the actuating lever, the drive block set up the one end at the actuating lever, the actuating lever pass and decorate the wall body and stretch out from the second connecting block, the drive block on be equipped with the drive inclined plane, the one end and the drive inclined plane of dead lever offset, the drive inclined plane along keeping away from the axis of actuating lever gradually in the direction towards the second connecting block.

Through adopting above-mentioned technical scheme, when installing prefabricated wallboard on the second connecting block, prefabricated wallboard can offset with the actuating lever to promote the actuating lever and remove towards the direction that is close to first connecting block, consequently the drive face can be ejecting with the dead lever gradually, thereby can fix prefabricated wallboard on the first connecting block, consequently can fix prefabricated wallboard on the first connecting block when installing prefabricated wallboard on the second connecting block, consequently make the installation more convenient.

Preferably, the forming frame comprises a first frame body and a second frame body, the second frame body is provided with a reinforcing piece, and the first frame body is provided with a reinforcing hole matched with the reinforcing piece.

Through adopting above-mentioned technical scheme, when the installation division board, can cooperate through reinforcement and enhancement hole between the adjacent division board and connect, and then make after the installation is accomplished, the linkage effect between the adjacent division board is better.

Preferably, the reinforcing member is a reinforcing rod, the first frame body is provided with a first filling cavity, the second frame body is provided with a second filling cavity, the first frame body and the second frame body are both provided with communicating holes, the communicating holes in the first frame body correspond to the communicating holes in the second frame body one to one, and the first filling cavity and the second filling cavity are communicated through the communicating holes.

Through adopting above-mentioned technical scheme, when the installation division board, the stiffener can stretch into to the strengthening hole of adjacent division board downthehole, and the intercommunicating pore makes to fill chamber one and fill chamber two phase intercommunication simultaneously, consequently through when filling the grout material to filling chamber one, the grout material can flow to filling chamber two in from filling chamber one through the intercommunicating pore, after filling chamber one and filling the grout material solidification in the chamber two, can make the joint strength between the division board bigger.

In a second aspect, the present application provides an assembly process for an assembled steel structure house, which adopts the following technical scheme:

an assembly process of an assembled steel structure house body comprises the following steps:

a frame building step: mounting the support columns on the ground, and connecting the cross beams with the support columns to form a frame;

a partition plate mounting step: connecting a plurality of partition plates with the cross beam;

painting and decorating: painting and decorating the partition board;

and (3) mounting a decorative wall body: connecting the decorative wall body with the support columns and the cross beams;

installing the external wall panel: mounting the prefabricated wall board on the outer surface of the decorative wall body, namely connecting the prefabricated wall board with the first connecting block;

an inner wallboard mounting step: and (4) installing the prefabricated wall board on the inner surface of the decorative wall body, namely connecting the prefabricated wall board with the second connecting block.

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

when the partition plate is used, the probability of damage of the partition plate can be reduced, and the probability of potential safety hazards is reduced;

the installation to prefabricated wallboard is more convenient.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic view of a structure of a decorative wall and a prefabricated wall panel according to an embodiment of the present application.

Fig. 3 is a schematic cross-sectional structural view of a fixing device according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a stylized panel structure according to an embodiment of the present application.

Fig. 5 is a schematic view of an attached net structure according to an embodiment of the present application.

FIG. 6 is a schematic sectional view of a partition plate according to an embodiment of the present application.

Description of reference numerals: 11. a support pillar; 12. a cross beam; 2. decorating the wall body; 21. a first connection block; 211. a mounting cavity; 212. an outlet hole; 22. a second connecting block; 23. a drive rod; 24. a drive block; 241. a drive ramp; 25. fixing the rod; 26. a positioning ring; 27. a butting ring; 28. a spring; 3. a partition plate; 30. forming a frame; 31. a first frame body; 32. a second frame body; 321. a reinforcing bar; 33. a perfusion hole; 34. an overflow aperture; 4. prefabricating a wallboard; 41. mounting holes; 5. attaching a net; 51. a connecting section; 511. positioning a groove; 521. a left net body; 522. a right net body; 523. a connecting plate; 524. a reinforcing groove; 61. filling the first cavity; 62. filling a second cavity; 63. a communicating hole; 7. a transmission rod; 8. and (5) positioning the rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The existing buildings such as factory buildings are mostly constructed by adopting steel structures, and after the factory buildings are built, office places such as offices and detection rooms need to be arranged in the factory buildings.

The embodiment of the application discloses assembled steel construction room body. Referring to fig. 1 and 2, including support column 11, crossbeam 12, division board 3 and decorative wall body 2, support column 11 and crossbeam 12 are steel material, and support column 11 and crossbeam 12 fixed connection form the room skeleton, and decorative wall body 2 and crossbeam 12 and support column 11 fixed connection can be opened on the decorative wall body 2 and be equipped with the door opening that is used for installing the door. Decorate wall body 2 fixedly connected with connecting block, refer to fig. 3, the connecting block includes first connecting block 21 and second connecting block 22, first connecting block 21 fixed mounting is at the surface of decorating wall body 2, second connecting block 22 fixed mounting is at the internal surface of decorating wall body 2, first connecting block 21 and second connecting block 22's shape is the same. The surfaces of the first and second connection blocks 21 and 22 are covered with rubber layers.

Referring to fig. 2 and 3, in order to fix the prefabricated wall panel 4 well, the decorative wall 2 is further provided with a fixing device, the fixing device includes a fixing rod 25 and a driving mechanism, the driving mechanism includes a driving rod 23 and a driving block 24 connected to the driving rod 23, and the driving block 24 is located at one end of the driving rod 23. The driving block 24 is further provided with a driving inclined surface 241, and the driving inclined surface 241 is gradually away from the axis of the driving rod 23 in the direction toward the second connecting block 21. Be equipped with installation cavity 211 and stretch out hole 212 on first connecting block 21, stretch out the left and right sides that hole 212 is located installation cavity 211 and be linked together with installation cavity 211, dead lever 25 is located and stretches out in the hole 212 and stretch into to installation cavity 211, it keeps away from in the one end of installation cavity 211 still fixedly connected with holding ring 26 to stretch out the hole 212, the one end that is close to installation cavity 211 on the dead lever 25 still fixedly connected with butt ring 27, it is equipped with spring 28 still to overlap on the dead lever 25, spring 28 one end and butt ring 27 offset, the other end and holding ring 26 offset. The driving block 24 is located in the installation cavity 211, one end of the fixing rod 25 extending into the installation cavity 211 abuts against the driving inclined surface 241, the driving rod 23 extends out of the installation cavity 211 and penetrates through the decorative wall 2 and the second connecting block 22, and one side face of the second connecting block 22 far away from the first connecting block 21 extends out.

In the use, can be connected prefabricated wallboard 4 with first connecting block 21 or second connecting block 22, in this embodiment, different patterns can be customized as required on prefabricated wallboard 4 surface, still set up the mounting hole 41 with first connecting block 21 looks adaptation on prefabricated wallboard 4 simultaneously, and mounting hole 41 runs through prefabricated wallboard 4 and is close to the one side of decorative wall 2. Therefore, when connecting prefabricated wall panel 4 and first connecting block 21 or second connecting block 22, it is sufficient to sleeve first connecting block 21 and second connecting block 22 into mounting hole 41. At this time, the rubber layers on the surfaces of the first and second connection blocks 21 and 22 are deformed, and thus the predetermined wall plate is fixedly connected to the first or second connection block 21 or 22 by friction.

More specifically, when installing prefabricated wallboard 4 on decorating wall body 2, install prefabricated wallboard 4 on decorating wall body 2's the surface (being outer wall face) first connecting block 21 earlier, install another prefabricated wallboard 4 on decorating wall body 2's internal surface (being interior wall face) and the corresponding second connecting block 22 of outer wall body later on, prefabricated wallboard 4 is when establishing gradually on second connecting block 22 this moment, can promote actuating lever 23 gradually and remove towards the direction that is close to first connecting block 21, thereby make driving block 24 remove, and then make and stretch out dead lever 25 from stretching out hole 212, it offsets with the inner wall of the mounting hole 41 of the prefabricated wallboard 4 of the cover-mounted on first connecting block 21, thereby make the fixed effect to prefabricated wallboard 4 better.

After the assembled steel structure room body of this embodiment is installed in the factory building, the surface of decorating wall body 2 is changeed and takes place to collide with other objects, consequently install prefabricated wallboard 4 on decorating wall body 2's the surface easily because the collision leads to rocking or droing, offsets with prefabricated wallboard 4 through dead lever 25 for can further strengthen the fixed effect to prefabricated wallboard 4. So that the prefabricated wall panel 4 positioned on the outer surface of the decorative wall body 2 is not easily detached. When the prefabricated wallboard 4 on the surface of the decorative wall body 2 needs to be replaced, the corresponding prefabricated wallboard 4 on the inner wall body is taken down, the fixing rod 25 can be retracted into the extending hole 212 under the action of the spring 28, the fixing of the prefabricated wallboard 4 is cancelled, and the prefabricated wallboard 4 is more convenient to replace.

Referring to fig. 1 and 4, the room skeleton formed by the supporting columns 11 and the beams 12 is separated by the partition plate 3, the partition plate 3 comprises a forming frame 30 and an attaching net 5, the forming frame 30 is made of steel, the attaching net 5 is sheet-shaped, the attaching net 5 is made of iron or steel, the attaching net 5 is mounted on the surface of the forming frame 30, and therefore a pouring cavity is formed between the attaching net 5 and the forming frame 30, and foam particle concrete is poured in the pouring cavity. The foam particle concrete in this embodiment may be polystyrene particle foam particle concrete. The attachment net 5 comprises a fixedly connected net body segment and a connecting segment 51, the connecting segment 51 is in a long strip shape, the net body segment and the connecting segment 51 are arranged at intervals, and the connecting segment 51 is sunken towards the direction close to the perfusion cavity to form a positioning groove 511. The dictyosome includes left dictyosome 521, right dictyosome 522 and connecting plate 523, and left dictyosome 521 and right dictyosome 522 are located the both sides of connecting plate 523 and all with connecting plate 523 fixed connection, have all seted up the mesh on left dictyosome 521 and the right dictyosome 522, and the connecting plate 523 is towards keeping away from the protruding reinforcing groove 524 that forms in the direction of filling the chamber.

During production, the attachment net 5 is fixedly installed on the surface of the forming frame 30, and then the foam particle concrete is poured into the pouring cavity until the foam particle concrete overflows from the meshes. After the foam particle concrete is solidified, the connection section 51 and the forming frame 30 are fixedly connected by screws passing through the positioning grooves 511. Thus giving the partition plate 3 a certain structural strength and a light weight. Since the foam particle concrete overflows from the meshes and the connection section 51 is depressed toward the direction close to the pouring chamber to form the positioning groove 511, the connection strength between the foam particle concrete and the attachment net 5 is greater after the foam particle concrete is solidified. Meanwhile, when the attachment net 5 is moved to the surface of the forming frame 30, the connecting section 51 and the connecting plate 523, which are recessed towards the direction close to the pouring cavity to form the positioning groove 511, are raised towards the direction far away from the pouring cavity to form the reinforcing groove 524, so that when the attachment net 5 is moved, the bending degree of the attachment net 5 under the action of gravity is small, and the probability that two ends of the attachment net 5 are raised when the attachment net 5 is placed on the surface of the forming frame 30 is reduced.

In order to connect the partition plate 3 with the cross beam 12, a mounting plate is fixedly connected to the cross beam 12, and the length direction of the mounting plate is the same as that of the cross beam 12. When installed, the partition plate 3 is bolted to the mounting plate.

Referring to fig. 4 and 6, in order to enhance the connection strength between the partition plates 3, the forming frame 30 further includes a first frame 31 and a second frame 32, the first frame 31 is provided with a first filling cavity 61 and a second filling cavity 33 communicated with the filling cavity, the filling cavity 33 is located at the lower portion of the first frame 31, the tops of the first frame 31 and the second frame 32 are further provided with overflow holes 34, the overflow holes 34 on the first frame 31 are communicated with the first filling cavity 61, the second frame 32 is provided with a second filling cavity 62, the overflow holes 34 on the second frame 32 are communicated with the second filling cavity 62, the first frame 31 and the second frame 32 are further provided with communication holes 63, the communication holes 63 on the first frame 31 are in one-to-one correspondence with the communication holes 63 on the second frame 32, and the first filling cavity 61 is communicated with the second filling cavity 62 through. The second frame 32 is fixedly connected with a reinforcing member, in this embodiment, the reinforcing member is a reinforcing rod 321, and the reinforcing rod 321 is disposed in a hollow manner and is communicated with the first filling cavity 61. And a reinforcing hole is formed in the first frame body 31, is communicated with the first filling cavity 61 and is used for the reinforcing rod 321 to extend into.

Therefore, when using, when adjacent division board 3 is installed, stiffener 321 can stretch into in the stiffener, later through pouring hole 33 to filling chamber 61 in the grout, because filling chamber 61 and filling chamber two pass through the intercommunicating pore 63 intercommunication, and stiffener 321 cavity sets up, consequently when using, the grout can flow to filling chamber two 62 in from intercommunicating pore 63 and cavity set's stiffener 321, when the grout solidifies, makes the joint strength between adjacent division board 3 bigger. And the overflow holes 34 also enable the first filling cavity 61 and the second filling cavity 62 to be filled with grouting material.

Referring to fig. 4 and 6, in order to further strengthen the structural strength between the adjacent division board 3 simultaneously, it has transfer line 7 still to articulate in the packing chamber 61, the one end of transfer line 7 be located enhancement hole department, the other end is located pouring hole 33 department, still be equipped with on the framework 31 with fill the locating hole that a chamber 61 is linked together, sliding connection has locating lever 8 in the locating hole, 8 cavity settings of locating lever are equipped with the auxiliary hole that is used for locating lever 8 to stretch into on the framework two 32, when locating lever 8 does not stretch out from the locating hole, locating lever 8 shelters from pouring hole 33.

When the stiffener 321 stretches into the reinforcing hole, one end of the stiffener 321 abuts against one end of the transmission rod 7, the transmission rod 7 is rotated, the positioning rod 8 is stretched out of the positioning hole and extends into the auxiliary hole, and therefore the probability of dislocation between adjacent partition plates 3 can be effectively reduced. Simultaneously when not installing the state, pouring hole 33 is sheltered from by locating lever 8, consequently can effectively reduce the probability that debris got into to filling chamber 61.

The implementation principle of the embodiment is as follows: when the building is used, the decorative wall body 2 and the partition plate 3 are installed on the building frame formed by the support columns 11 and the cross beams 12, so that the whole building is more convenient. It is also more convenient when installing prefabricated wallboard 4 on decorative wall body 2 simultaneously.

The embodiment of the application also discloses an assembly process of the assembled steel structure house body, which comprises the following steps:

pouring the partition plate 3, moving the attachment net 5 to the surface of the forming frame 30, bending two sides of the attachment net 5, namely bending along the length direction of the connecting section 51, so that two sides of the attachment net 5 are bent and extend into the forming frame 30 to be fixedly connected with the inner wall of the forming frame 30, and then pouring foam particle concrete; after the foam particle concrete is solidified, both sides of the attachment net 5 are fixed in the forming frame 30, thereby making the coupling strength between the forming frame 30 and the attachment net 5 greater.

A frame building step: the supporting columns 11 are installed on the ground, and the cross beams 12 are fixedly connected with the supporting columns 11 to form a framework;

a partition plate 3 mounting step: connecting a plurality of partition plates 3 with the cross beam 12, and reinforcing and connecting the adjacent partition plates 3;

painting and decorating: the partition board 3 is painted and decorated;

and (3) installing the decorative wall body 2: connecting the decorative wall body 2 with the support columns 11 and the cross beams 12;

installing the external wall panel: installing the prefabricated wall panel 4 on the outer surface of the decorative wall body 2, namely connecting the prefabricated wall panel 4 with the first connecting block 21;

an inner wallboard mounting step: and mounting the prefabricated wall panel 4 on the inner surface of the decorative wall body 2, namely connecting the prefabricated wall panel 4 with the second connecting block 22.

Make when installing the steel construction room body through above-mentioned step, can customize decorating wall body 2 through the prefabricated wallboard of customization, make simultaneously when installing prefabricated wallboard 4 on decorating wall body 2, it is more convenient. Simultaneously prefabricated division board 3's intensity is also bigger, and is not fragile, and after the installation, the joint strength between the division board 3 is bigger.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: 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 (9)

1. The utility model provides an assembled steel construction room body which characterized in that: including support column (11), crossbeam (12) and division board (3), division board (3) with crossbeam (12) be connected, division board (3) including shaping frame (30) and install attached net (5) on shaping frame (30) surface, shaping frame (30) with attached net (5) form and fill the chamber, the intracavity of filling fill and have poured foam particle concrete.

2. An assembled steel structural house according to claim 1, wherein: the attached net (5) comprises a net body section and a connecting section (51), the net body section and the connecting section (51) are arranged at intervals, and the connecting section (51) is sunken towards the direction close to the perfusion cavity to form a positioning groove (511).

3. An assembled steel structural house according to claim 2, characterized in that: adhere to net (5) for the iron material, the dictyosome section include left dictyosome (521), right dictyosome (522) and connecting plate (523), left dictyosome (521) and right dictyosome (522) all be connected with connecting plate (523), connecting plate (523) towards keeping away from the direction of filling the chamber upwards protruding formation reinforcing groove (524), left dictyosome (521) and right dictyosome (522) on all seted up the mesh.

4. An assembled steel structural house according to claim 1, wherein: still including decorating wall body (2), decoration wall body (2) with support column (11) and crossbeam (12) all connect, decoration wall body (2) on be equipped with the connecting block, the connecting block include first connecting block (21) and second connecting block (22), first connecting block (21) set up the surface at decoration wall body (2), second connecting block (22) set up the internal surface at decoration wall body (2).

5. An assembled steel structural house according to claim 4, wherein: first linkage block (21) on be equipped with fixing device, fixing device include dead lever (25) and actuating mechanism, first linkage block (21) on be equipped with installation cavity (211) and stretch out hole (212), stretch out hole (212) with installation cavity (211) be linked together, actuating mechanism be located installation cavity (211), dead lever (25) be located and stretch out hole (212), actuating mechanism set up to release dead lever (25) from stretching out hole (212).

6. An assembled steel structural house according to claim 5, wherein: actuating mechanism include actuating lever (23) and actuating block (24) that are connected with actuating lever (23), actuating block (24) set up the one end at actuating lever (23), actuating lever (23) pass decorative wall body (2) and stretch out from second connecting block (22), actuating block (24) on be equipped with drive inclined plane (241), the one end and the drive inclined plane (241) of dead lever (25) offset, drive inclined plane (241) along keeping away from the axis of actuating lever (23) gradually in the direction towards second connecting block (22).

7. An assembled steel structural house according to claim 1, wherein: the forming frame (30) comprises a first frame body (31) and a second frame body (32), wherein a reinforcing piece is arranged on the second frame body (32), and a reinforcing hole matched with the reinforcing piece is formed in the first frame body (31).

8. An assembled steel structural house according to claim 7, wherein: the reinforcing piece be stiffener (321), framework one (31) on be equipped with and fill chamber one (61), framework two (32) on be equipped with and fill chamber two (62), framework one (31) and framework two (32) on all seted up intercommunicating pore (63), intercommunicating pore (63) on framework one (31) and the intercommunicating pore (63) one-to-one on framework two (32), fill chamber one (61) and fill chamber two (62) and be linked together through intercommunicating pore (63).

9. The assembly process of the assembled steel structure house body is characterized in that: the method comprises the following steps:

a frame building step: the supporting columns (11) are installed on the ground, and the cross beams (12) are connected with the supporting columns (11) to form a framework;

a partition plate (3) mounting step: connecting a plurality of partition plates (3) with a cross beam (12);

painting and decorating: the partition plate (3) is whitewashed and decorated;

and (3) installing the decorative wall body (2): connecting the decorative wall body (2) with the support columns (11) and the cross beams (12);

installing the external wall panel: the prefabricated wall board (4) is arranged on the outer surface of the decorative wall body (2), namely the prefabricated wall board (4) is connected with the first connecting block (21);

an inner wallboard mounting step: and (3) installing the prefabricated wall board (4) on the inner surface of the decorative wall body (2), namely connecting the prefabricated wall board (4) with the second connecting block (22).

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