CN214941056U - Modular building device combining heavy steel and light steel - Google Patents

Abstract

The utility model provides a modularization building device that heavy steel and light steel combine. On the basis of the construction of the existing modularized integrated house, firstly, the heavy steel bearing frame is arranged on one floor, the purpose of arranging a higher floor height on one floor is realized, the heavy steel bearing structure is further utilized, the defect that the original integrated house cannot be provided with a large flat floor is overcome, the use purpose of one floor is expanded, the characteristics that the heavy steel bearing frame is higher in floor height and large in bearing are further utilized, the installation of pipelines necessary for life is realized by arranging a conversion layer, then, a plurality of light steel house units are arranged on the heavy steel bearing frame, the building function is perfected by the combination of the plurality of light steel house units with different functions, and the problems brought by the prior art are solved.

Description

Modular building device combining heavy steel and light steel

Technical Field

The utility model relates to an integrated house technical field, in particular to modularization building device that heavy steel light steel combines.

Background

At present, a house structure system, a ground system, a floor system, a wall system and a roof system are integrated, each system consists of a plurality of unit modules, the unit modules are manufactured in a factory, and the house field is assembled by the unit modules. The integrated house is detachable and movable, and the land is not damaged. The method realizes the conversion from the real estate attribute of the house to the real estate attribute in the millennium, and realizes the complete separation of the real estate and the real estate in the millennium. The field construction period of the integrated house is 10% -30% of that of the traditional building mode. The quality of the integrated house is finer, and the conversion from the centimeter-level error of the traditional building mode to the millimeter-level error of factory manufacturing is realized.

But because the prior art is limited, integrated house bearing capacity is limited, therefore the house layer height, the number of piles all have very big restriction to because the space is limited, be difficult to set up pipeline for the life, bring inconvenient influence to the life.

Due to the reasons, the inventor improves the existing integrated house, designs the integrated house which can provide high floors at one floor, can build 4 floors at most, and can arrange domestic pipelines into the building, thereby greatly expanding the application scene of the integrated house.

SUMMERY OF THE UTILITY MODEL

Based on the above technical background, the present inventors have made a keen effort to solve the above problems and have devised a modular building apparatus combining heavy steel and light steel. On the basis of the construction of the existing modularized integrated house, firstly, the heavy steel bearing frame is arranged on one floor, the purpose of arranging a higher floor height on one floor is realized, the heavy steel bearing structure is further utilized, the defect that the original integrated house cannot be provided with a large flat floor is overcome, the use purpose of one floor is expanded, the characteristics of high floor height and large bearing of the heavy steel bearing frame are further utilized, the installation of pipelines necessary for life is realized by arranging a conversion layer, then, a plurality of light steel house units are arranged on the heavy steel bearing frame, the building function is perfected by the combination of the plurality of light steel house units with different functions, and the problems brought by the prior art are solved.

The utility model provides a light steel and heavy steel combined modular building device, which is characterized in that the building device comprises a heavy steel bearing frame and a light steel house unit;

the heavy steel bearing frame comprises a heavy steel bearing column and a heavy steel ring beam;

studs are vertically arranged above the heavy steel bearing columns;

the heavy steel ring beam is horizontally and fixedly connected to the top of the heavy steel bearing column;

the light steel house unit comprises a hanging head, an upper ring beam, a lower ring beam, a bearing support column and a light steel house floor;

the hanging head comprises a ring beam mounting position, a bearing support column mounting position and a connecting member;

the upper ring beam is horizontally and fixedly connected to the top of the bearing support column;

the lower ring beam is horizontally and fixedly connected to the bottom of the bearing support column and is connected with the bearing support column through a hanging head;

the bearing support column is fixedly connected with the support column mounting position of the hanging head through a through hole and is perpendicular to the upper ring beam and the lower ring beam.

The connecting member includes a lower support post connecting hole,

and the stud arranged on the heavy steel bearing column penetrates through the lower-layer support column connecting hole, and the heavy steel bearing frame and the light steel house unit are fixedly connected by using a nut.

The light steel house unit is provided with a plurality of light steel house units,

a bearing secondary beam is arranged on the heavy steel ring beam below the connecting position of two adjacent light steel house units;

the bearing secondary beam is parallel to the longitudinal beam and arranged between the two cross beams.

A conversion layer is arranged on the heavy steel bearing frame;

the conversion layer is arranged on the upper portion of the heavy steel bearing frame and comprises a conversion layer ring beam arranged on the bearing column, and a conversion layer cross beam is built on the conversion layer ring beam.

The transfer floor is also provided with a transverse calandria, and the transverse calandria is connected with a drain pipe of the light steel house unit and is also connected with a main calandria; the slope of the horizontal row of tubes is 3%, and the height of the conversion layer is set according to the descending height of the horizontal row of tubes.

One end of the ring beam mounting position is fixedly mounted on the lower port of the connecting component, the inner profile section of the other end is matched with the section shape of the lower ring beam, the end part of the lower ring beam is accommodated and semi-coated, and a ring beam bolt fixing hole is formed in one side, far away from the connecting component, of the wall surface of the ring beam mounting position;

one end of the support column mounting position is vertically arranged on a mounting plane of the connecting component and is fixedly connected with the mounting plane, the bearing support column can be embedded and mounted on the support column mounting position, and a support column mounting hole is formed in the wall surface of the support column mounting position;

the support column mounting holes are provided with a plurality of square holes and are respectively arranged on the support column mounting positions.

The connecting member further comprises a mounting plane and a lower port, and is used for connecting the ring beam mounting position and the load-bearing support column mounting position together;

the room unit floor comprises a steel floor deck and concrete under the lower ring beam, and an operating space required when connecting the heavy steel load-bearing frame with the light steel room unit is reserved.

The modular building device is also provided with a communicating pipeline;

the communicating pipeline is a hollow pipeline and vertically penetrates through the light steel house unit, and the bottom end of the communicating pipeline is connected with a conversion layer of the heavy steel bearing frame;

an upper water supply pipeline and a lower water supply pipeline are arranged inside the communicating pipeline;

and the pipe wall of the communicating pipeline is provided with a through hole which is communicated with the inner space of the light steel house unit.

The modular building device comprises a plurality of layers of light steel house units which are arranged along the vertical direction, and the connecting pipeline sequentially penetrates through the plurality of layers of light steel house units.

The number of the heavy steel bearing frames is 3 or a multiple of 3, at least two light steel house units are arranged above each heavy steel bearing frame,

each 3 heavy steel bearing frames are arranged side by side, the 3 heavy steel bearing frames and the light steel house units arranged above the heavy steel bearing frames form an integrated unit, and the connecting pipeline penetrates through the light steel house units on the heavy steel bearing frames in the middle;

meanwhile, the middle light steel house unit also comprises a corridor and a bathroom;

the corridor is communicated with a plurality of rooms, and an access hole is formed in the floor of the room unit of the corridor;

the bathroom is equipped with the bathroom facility, the bathroom passes through the through-hole with the tube-well and links to each other.

The utility model provides a pair of modularization building device that heavy steel light steel combines has following advantage:

(1) the modularization building device that heavy steel and light steel combined has the highest 6 meters at the one deck and chooses high, and does not have the wall to shelter from, can provide more application choices, for example hotel lobby, end merchant etc..

(2) The modularization building device that heavy steel light steel combines can set up the conversion layer at the one deck, the convenient necessary pipeline of life with the upper strata is here gathered to total pipeline access outside to convenient maintenance of overhauing.

(3) Modular building device can be with including an independent function unit among living unit, stair unit, the bathroom unit or merge wherein several functions independent house unit as an organic whole, fix on the heavy steel heel post through hanging the head to set up the necessary pipeline of a plurality of lives for light steel house unit, thereby further improve this building device's application space.

(4) The modular building devices can be sequentially arranged in an array mode, so that the integration degree of a building is improved, and the house form can be set according to local topographic features or functional requirements.

(5) The accessories required by the modular building device of the utility model are transported to the construction site for assembly after the factory production is finished, the construction precision is improved,

(6) modularization building device connect through the bolt, construction operation when such connected mode conveniently demolishs.

Drawings

Fig. 1 shows a schematic view of a heavy steel and light steel combined modular construction apparatus according to the present invention;

figure 2 shows a schematic structural view of a heavy steel load-bearing frame according to the invention;

fig. 3 shows a schematic structural view of the heavy steel bearing column of the present invention;

fig. 4 shows a schematic diagram of a translation layer structure according to the present invention;

FIG. 5 shows a schematic structural diagram of a light steel house unit according to the present invention;

fig. 6 shows a schematic view of the structure of the hanging head of the present invention;

figure 7 shows a schematic view of the connection member of the present invention;

FIG. 8 is a schematic structural view of the light steel house unit floor according to the present invention;

FIG. 9 shows the spatial relationship between the light steel house unit floor and the hanging head of the present invention;

figure 10 shows that the modular building unit of the invention comprises multiple layers of light steel room units arranged in a vertical direction;

figure 11 shows the arrangement of heavy steel load-bearing frame 1 when setting the number as a multiple of 3 or 3

Description of the reference numerals

1-heavy steel load-bearing frame;

11-heavy steel heel post; 111-a stud;

12-heavy steel ring beam;

13-load-bearing secondary beam;

14-a conversion layer; 141-transfer floor ring beams; 142-conversion layer beam;

2-light steel house units;

21-hanging a head;

211-ring beam mounting position; 2111-ring beam bolt fastening holes;

212-support post mounting location;

213-a connecting member;

2131-lower support column connecting holes; 2132-a mounting plane; 2133-lower port;

22-upper ring beam;

23-lower ring beam;

24-load bearing support columns;

25-a room unit floor; 251-steel floor deck;

3-connecting the pipeline.

Detailed Description

The present invention will be described in detail below, and features and advantages of the present invention will become more apparent and clear with the description.

The utility model provides a modularization building device that light steel and heavy steel combine, as shown in figure 1, including heavy steel bearing frame 1 and light steel house unit 2.

According to the utility model discloses, set up a plurality of heavy steel bearing frame 1 subaerial, be provided with a plurality of light steel house unit 2 on the heavy steel bearing frame 1.

The heavy steel used herein means a steel material having a thickness of 10mm or more, and the light steel used herein means a steel material having a thickness of less than 10 mm.

The modularized building device combined by the light steel and the heavy steel can be arranged in a plurality of modes, a plurality of devices are sequentially arranged, and at least three devices are arranged side by side, so that the integration degree of the building is further improved, and the building construction efficiency is improved.

The heavy steel load-bearing frame 1 is made of ordinary I-shaped steel, round steel or square steel, and comprises a heavy steel load-bearing column 11 and a heavy steel ring beam 12 as shown in figure 2.

The heavy steel bearing column 11 is used for bearing the weight born by the heavy steel ring beam 12 and transmitting the weight to the ground, as shown in fig. 3, the height of the heavy steel bearing column 11 is set to be 2-6 m, a stud 111 is vertically arranged above the heavy steel bearing column, the number of the bearing columns is N, which is perpendicular to the ground, and N is more than or equal to 4;

preferably, the heavy steel load-bearing column 11 is set to a height of 4 to 6 meters, more preferably, to 6 meters.

The heavy steel ring beam 12 is used for bearing the upper light steel house unit 2, transmitting the load of the light steel house unit 2 to the heavy steel bearing columns 11 and connecting the heavy steel bearing columns 11, the heavy steel ring beam is made of 400-250 heavy H-shaped steel, the heavy steel ring beam 12 comprises two transverse beams and two longitudinal beams, the transverse beams are transversely arranged and the longitudinal beams are longitudinally arranged and horizontally arranged at the tops of the heavy steel bearing columns 11 and are fixedly connected with the heavy steel bearing columns 11;

preferably, a plurality of light steel house units 2 are arranged and fixedly connected, and a bearing secondary beam 13 is arranged on the heavy steel ring beam 12 below the connecting position of two adjacent light steel house units 2;

the load-bearing secondary beam 13, as shown in fig. 2, further supports the upper light steel room unit 2 through the load-bearing secondary beam 13, and transfers the load to the heavy steel ring beam 12 connected to the load-bearing secondary beam 13, the load-bearing secondary beam is made of 400 × 250 heavy H-shaped steel, and the load-bearing secondary beam 13 is arranged parallel to the longitudinal beam and is arranged between the two cross beams.

More preferably, the heavy steel load-bearing frame 1 is provided with a transfer floor 14;

the conversion layer is arranged on the upper portion of the heavy steel bearing frame 1 and comprises a conversion layer ring beam 141 arranged on a bearing column, a conversion layer cross beam 142 is built on the conversion layer ring beam 141, the conversion layer ring beam 141 and the conversion layer cross beam 142 are both located on the same plane, and a floor slab is arranged on the conversion layer 14.

The conversion layer is also provided with a transverse exhaust pipe, the slope of the transverse exhaust pipe is 3%, and the height of the conversion layer is set according to the descending height of the transverse exhaust pipe.

Further, the conversion layer 14 is a non-load-bearing steel beam, and is made of 150 × 100H-shaped steel for reducing weight.

The light steel house unit 2, as shown in fig. 5, is a plurality of house units with different use functions, including one independent function unit of living unit, stair unit, bathroom unit or an independent house unit combining several of them into one, each light steel house unit is made of light steel, and is provided with a hanging head 21, an upper ring beam 22, a lower ring beam 23, a bearing support column 24 and a house unit floor 25;

as shown in fig. 6, the hanging head 21 is provided with a ring beam mounting position 211, a bearing support column mounting position 212 and a connecting member 213, so as to connect the upper ring beam 22 or the lower ring beam 23 with the bearing support column 24 and connect the light steel house unit 2 with the heavy steel bearing frame 1;

the ring beam installation position 211 is used for installing a ring beam of the light steel house unit, one end of the ring beam installation position is fixedly installed on a lower port 2133 of the connecting member 213, the inner contour section of the other end of the ring beam installation position is matched with the section shape of the ring beam and is used for accommodating and half-coating the end part of the ring beam, and a ring beam bolt fixing hole 2111 is formed in one side, far away from the connecting member 213, of the wall surface of the ring beam installation position 211;

the supporting column mounting position 212 is made of a light steel plate, one end of the supporting column mounting position is vertically arranged on the mounting plane 2132 of the connecting member 213 and is fixedly connected with the mounting plane, the bearing supporting column 24 can be embedded and mounted on the supporting column mounting position, and a supporting column mounting hole 2121 is formed in the wall surface of the supporting column mounting position 212;

preferably, there are 4 supporting column mounting holes 2121, and two supporting column mounting holes are in a group and are respectively arranged on two vertically arranged light steel plates of the supporting column mounting position 212;

more preferably, the supporting post mounting hole 221 is a square hole, which facilitates fitting and mounting

The connecting member 213, as shown in fig. 7, includes a lower support column connecting hole 2131, a mounting plane 2132 and a lower port 2133 for connecting the ring beam mounting position 211 and the load-bearing support column mounting position 212 together,

the connecting member 213 is also provided with a lower-layer support column connecting hole 2131, the lower-layer support column connecting hole 2131 is matched with a stud 111 arranged on a heavy steel bearing column, when the connecting member is installed, the connecting hole 2131 penetrates through the stud 111 arranged on the heavy steel bearing column and is locked by a nut, so that the light house unit 2 is connected with the heavy steel bearing frame 1;

the upper ring beam 22 is used for bearing the weight above and transmitting the weight to the bearing support column 24, is composed of an L-shaped section or a square tube, comprises two transversely arranged upper ring beam cross beams and two longitudinally arranged upper ring beam longitudinal beams, is horizontally arranged at the top of the bearing support column 23, and is connected with the bearing support column 24 through a hanging head 21;

the lower ring beam 23 is used for connecting a bearing support column 24, is composed of an L-shaped section or a square pipe, comprises two transverse beams arranged transversely and two longitudinal beams arranged longitudinally, is horizontally arranged at the bottom of the bearing support column 24, and is connected with the bearing support column 24 through a hanging head 21;

the bearing support column 24 is composed of an L-shaped section or a square pipe, the section of the bearing support column 24 is matched with the bearing support column mounting position 212 of the hanging head 21 and is perpendicular to the upper ring beam 22 and the lower ring beam 23, the bearing support column 24 is provided with a through hole, and the through hole is fixedly connected with the support column mounting hole 2121 of the hanging head 21 through a bolt;

the house unit floor 25 uses a truss as a support frame, and a composite material plate is laid on the support frame;

in another embodiment, as shown in fig. 8, the room unit floor 25 is composed of a steel floor plate 251 and concrete, the steel floor plate 251 is first placed under the lower ring beam 23, the steel floor plate 251 is welded with the lower ring beam 23, and then the concrete is poured and aligned with the upper surface of the lower ring beam 23; when concrete is poured, the lower support column connecting hole 2131 of the hanging head 21 needs to be prevented from being plugged, as shown in fig. 9, an operating space needs to be reserved, and the connection between the heavy steel bearing frame 1 and the light steel house unit is facilitated.

By means of the embodiment, the house unit floor 25 and the lower ring beam 23 can be integrated, the strength is better, compared with a mode of laying by using a truss and a composite material plate, the material for pouring the floor can be obtained nearby, the cost of long-distance transportation is avoided, and particularly for a place with a less developed construction site, the cost can be obviously reduced.

Further, the light steel and heavy steel combined modular building device is also provided with a communicating pipeline 3;

the communication pipeline 3, as shown in fig. 10, is a hollow pipeline, vertically penetrates through the light steel house unit 2, one end of the communication pipeline is connected with the outside, and the bottom end of the communication pipeline is connected with a conversion layer 14 of the heavy steel bearing frame 1;

the communicating pipeline 3 is internally provided with pipelines such as an upper water supply pipeline, a lower water supply pipeline, a circuit pipeline, a network cable and the like which are necessary for life;

the communicating pipeline 3 is provided with a through hole which is connected with the inner space of the light steel house unit 2, the through hole leads various pipelines in the communicating pipeline into a room, and can also lead external air into the room, so that the ventilation condition in the room is improved;

the sewer pipes in the communicating pipeline 3 are connected with horizontal pipes arranged on the conversion layer 14, and the horizontal pipes are used for collecting the sewer pipes in the communicating pipeline 3 and connecting the sewer pipes to an external main pipeline;

furthermore, the communication pipeline 3 comprises a pipe well and a ventilation shaft, the pipe well is internally provided with pipelines such as water supply and drainage pipelines, circuit pipelines, network cables and the like which are necessary for life, the pipe well is connected with the conversion layer, the pipe well is also provided with a through hole to be connected with a room in the light steel house unit 2 and lead the pipelines into the light steel house unit 2,

the ventilation shaft is provided with a through hole which is communicated with a room arranged in the light steel house unit 2, one end of the ventilation shaft is connected with the outside, the other end of the ventilation shaft is connected with the conversion layer 14, and the ventilation shaft is used for introducing external air into the room and improving ventilation conditions;

the pipe shaft and the ventilation shaft are separately arranged, so that when the pipelines such as the water supply and drainage pipeline, the circuit pipeline, the network cable and the like in the pipe shaft, which are necessary for life, have problems, such as leakage of the sewage, the room is influenced.

Furthermore, the modular building device comprises a plurality of layers of light steel room units 2 arranged in the vertical direction, as shown in fig. 10, the layers are connected by connectors, bolts or welding, so that the gravity is transmitted to the heavy steel bearing column 11 through the bearing support column 24, and the connecting pipeline 3 sequentially penetrates through the plurality of layers of light steel room units 2, so that the arrangement mode is convenient for building layout, and the internal space is saved.

Preferably, the light steel room units are arranged in 1 to 3 floors, more preferably in 3 floors.

When a plurality of heavy steel bearing frames 1 are arranged, the heavy steel bearing frames 1 are sequentially arranged, the heavy steel bearing frames 1 are fixedly connected, a plurality of light steel house units 2 are arranged on the heavy steel bearing frames 1, and the light steel house units 2 are fixedly connected;

when two of said heavy steel load-bearing frames 1 are provided, the connecting pipe 3 is provided in the light steel room unit 2 above only one of the heavy steel load-bearing frames 1.

Further, the number of the heavy steel bearing frames 1 is 3 or a multiple of 3, at least two light steel house units 2 are arranged above each heavy steel bearing frame 1, as shown in fig. 11, each 3 heavy steel bearing frames 1 are arranged side by side, the 3 heavy steel bearing frames 1 and the light steel house units 2 arranged above the heavy steel bearing frames 1 form an integrated unit, the integrated units are fixedly connected with each other, the connecting pipeline 3 penetrates through the light steel house units 2 on the heavy steel bearing frame 1 in the middle,

furthermore, the light steel house units 2 penetrating through the connecting pipelines 3 and positioned on the heavy steel bearing frame 1 in the middle also comprise corridors and bathrooms, so that the integration degree of the building is further improved, and the building construction efficiency and the space utilization rate are improved;

the corridor is used for communicating a plurality of rooms, and the house unit floor 25 of the light steel house unit 2 arranged at the lowest layer of the light steel house unit 2 is provided with an access hole, so that maintenance personnel can conveniently enter the lower conversion layer 14 through the access hole to maintain.

The bathroom is equipped with bathroom facility, the bathroom directly links to each other with the tube-well, conveniently inserts bathroom with upper and lower water pipe, saves space.

In the design of the staircase, the light steel house unit 2 is not provided with a floor, and the staircase is installed after the light steel house unit is butted with the heavy steel bearing frame 1 to form the staircase.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "horizontal", "vertical", and the like indicate the position or positional relationship based on the operating state of the present invention, and are only for the convenience of description of the present invention, but do not indicate or imply that the device or element indicated must have a specific position, be constructed and operated in a specific position, and thus, should not be construed as limiting the present invention.

The present invention has been described above in connection with preferred embodiments, which are merely exemplary and illustrative. On this basis, can be right the utility model discloses carry out multiple replacement and improvement, these all fall into the utility model discloses a protection scope.

Claims (10)

1. A heavy steel and light steel combined modular building device, characterized in that the building device comprises a heavy steel load-bearing frame (1) and a light steel room unit (2);

the heavy steel bearing frame (1) comprises a heavy steel bearing column (11) and a heavy steel ring beam (12);

studs (111) are vertically arranged above the heavy steel bearing columns (11);

the heavy steel ring beam (12) is horizontally and fixedly connected to the top of the heavy steel bearing column (11);

the light steel house unit (2) comprises a hanging head (21), an upper ring beam (22), a lower ring beam (23), a bearing support column (24) and a house unit floor (25);

the hanging head (21) comprises a ring beam mounting position (211), a bearing support column mounting position (212) and a connecting member (213);

the upper ring beam (22) is horizontally and fixedly connected to the top of the bearing support column (24);

the lower ring beam (23) is horizontally and fixedly connected to the bottom of the bearing support column (24) and is connected with the bearing support column (24) through a hanging head (21);

the bearing support column (24) is fixedly connected with a support column mounting position (212) of the hanging head (21) through a through hole and is perpendicular to the upper ring beam (22) and the lower ring beam (23);

the connecting member (213) includes a lower support post connecting hole (2131),

and a stud (111) arranged on the heavy steel bearing column penetrates through the lower-layer support column connecting hole (2131), and the heavy steel bearing frame (1) and the light steel house unit (2) are fixedly connected by using a nut.

2. A heavy steel and light steel combined modular building unit according to claim 1, characterised in that said light steel room unit (2) is provided in plurality,

a bearing secondary beam (13) is arranged on the heavy steel ring beam (12) below the connecting position of two adjacent light steel house units (2);

the bearing secondary beam (13) is arranged in parallel with the longitudinal beam and is arranged between the two cross beams.

3. A heavy steel and light steel combined modular building unit according to claim 1, characterised in that a transfer floor (14) is provided on the heavy steel load bearing frame (1);

the conversion layer is arranged on the upper portion of the heavy steel bearing frame (1), the conversion layer comprises a conversion layer ring beam (141) arranged on a bearing column, and a conversion layer cross beam (142) is built on the conversion layer ring beam (141);

the conversion layer is also provided with a transverse exhaust pipe, and the slope of the transverse exhaust pipe is 3%.

4. A heavy steel and light steel combined modular building unit according to claim 1,

one end of the ring beam installation position (211) is fixedly installed on a lower port (2133) of the connecting component (213), the inner contour section of the other end is matched with the section shape of the lower ring beam (23) and is used for accommodating and half-covering the end part of the lower ring beam (23), and a ring beam bolt fixing hole (2111) is formed in one side, far away from the connecting component (213), of the wall surface of the ring beam installation position (211);

one end of the support column mounting position (212) is vertically arranged on a mounting plane (2132) of the connecting component (213) and fixedly connected with the mounting plane, the bearing support column (24) can be embedded and mounted on the support column mounting position, and a support column mounting hole (2121) is formed in the wall surface of the support column mounting position (212);

a plurality of support post mounting holes (2121) are respectively arranged on the support post mounting positions (212), and the support post mounting holes (2121) are square holes;

the connecting member (213) further comprises a mounting plane (2132) and a lower port (2133), and the ring beam mounting position (211) and the bearing support column mounting position (212) are connected together through the connecting member (213).

5. A heavy steel and light steel combined modular building unit according to claim 1, characterised in that the room unit floor (25) comprises steel floor decks (251) and concrete under the lower ring beams (23), the steel floor decks (251) being fixed to the lower ring beams (23).

6. A heavy steel and light steel combined modular building unit according to claim 1, c h a r a c t e r i z e d in that the modular building unit is further provided with connecting pipes (3);

the connecting pipeline (3) is a hollow pipeline and vertically penetrates through the light steel house unit (2), and the bottom end of the connecting pipeline (3) is connected with a conversion layer (14) of the heavy steel bearing frame (1);

an upper water supply pipeline and a lower water supply pipeline are arranged inside the connecting pipeline (3);

and the pipe wall of the connecting pipeline (3) is provided with a through hole, and the through hole is communicated with the interior of the light steel house unit (2).

7. A heavy steel and light steel combined modular building device according to claim 6, characterised in that it comprises several layers of light steel room units (2) arranged in vertical direction, said connecting pipes (3) penetrating successively through several layers of light steel room units (2).

8. A heavy steel and light steel combined modular building unit according to claim 7, characterised in that it comprises 1 to 3 layers of light steel room units (2) arranged in vertical direction.

9. A heavy steel and light steel combined modular building unit according to claim 6, characterized in that the heavy steel load bearing frames (1) are provided in a number of 3 or multiples of 3, at least two light steel room units (2) are provided above each heavy steel load bearing frame (1),

every 3 heavy steel bearing frame (1) sets up side by side, this 3 light steel house unit (2) of heavy steel bearing frame (1) and the installation of top constitute an integrated unit, connecting tube (3) run through the light steel house unit (2) on the heavy steel bearing frame (1) that is located integrated unit middle part.

10. A heavy steel and light steel combined modular building unit according to claim 9,

a corridor and a bathroom are arranged in the light steel house unit (2) which is positioned on the heavy steel bearing frame (1) in the middle part and is penetrated by the connecting pipeline (3);

an access hole is arranged on the room unit floor (25) of the light steel room unit (2) provided with the corridor and the bathroom;

the bathroom is connected with the water supply and drainage pipeline in the connecting pipeline (3).

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