CN111663657B - Energy-saving building built in modularization mode - Google Patents

Abstract

The invention discloses a modularly constructed energy-saving building, which is provided with buckles and clamping grooves, can realize quick assembly and disassembly, further enables the building to be quickly constructed when constructed, simultaneously, all parts of the building are modules, when constructed, the bottom module is quickly constructed through the buckles and the clamping grooves, the cement groove and the reinforcing steel bar frame are arranged, the strength of the building is greatly enhanced through filling cement, the quick construction of a building wall body can be realized through the side wall buckles and the fixing clamping grooves, the strength of the building wall body is greatly enhanced through filling the cement in the side wall cement groove and the side wall reinforcing steel bar frame, the connecting strength of the module wall body, the module bottom plate and the module top plate can be improved through the fixing hinge, the T-shaped grooves and the T-shaped clamping strips are arranged, the assembly flexibility of the constructed building is greatly improved, and the building is convenient to expand, and the invention has the advantages of high construction efficiency, high construction efficiency and low cost, and high construction efficiency, The building strength is high, the produced garbage is less, and the energy-saving and environment-friendly effects are achieved.

Description

Energy-saving building built in modularization mode

Technical Field

The invention belongs to the technical field of buildings; in particular to an energy-saving building which is built in a modularized way.

Background

The building refers to an asset formed by artificial construction, belongs to the category of fixed assets, and comprises two categories of houses and buildings. A house is an engineered building for people to live, work, study, produce, manage, entertain, store goods, and perform other social activities. The building is different from a building, the building refers to engineering buildings except a house, such as an enclosing wall, a road, a dam, a water well, a tunnel, a water tower, a bridge, a chimney and the like, the traditional buildings are mostly built by red bricks one by one, the building efficiency is low, the building speed is slow, a large amount of manpower is consumed, the consumed time is long, and a large amount of generated building waste is generated, so as to solve the determination, the modern buildings are mostly built by steel structures, namely the bodies are built by steel frames, the building is built by hollow bricks with less material consumption, the building mode relatively improves the building efficiency of the building, reduces the building waste, consumes less manpower, but the building mode has higher speed when the steel frames are built, still consumes a large amount of time when the hollow bricks are used, still generates certain building waste at the same time, and has lower energy-saving efficiency, the modern building requirements cannot be met, so that the appearance of a building built in a modularized mode is urgent.

Disclosure of Invention

The invention aims to provide a modular building which comprises a side wall connecting buckle, a building base, a building side wall, a side wall matching buckle, a fixing clamping groove, a building top plate and a fixing hinge, wherein the side wall matching buckle is fixed at the left side edge and the right side edge of the building side wall, the upper end surface and the lower end surface of the building side wall are both fixed with the fixing clamping groove, the building side wall is provided with a plurality of building side walls, the building side walls are in head-to-tail matching connection through the side wall matching buckle, the side wall connecting buckle is fixed on the outer side wall of the building side wall, the two building side walls are in closed overlapped connection through the side wall connecting buckle, the building base is in a flat triangular structure, the building base is provided with a plurality of building bases, the building bases are in side edge connection with each other, the six building bases are in side edge connection with each other to form a regular hexagonal structure, and the building top plate structure is the same as the building base structure, it is a plurality of building lateral wall is fixed in six building bases through fixed slot and constitutes the up end edge of hexagonal type, and the lower terminal surface edge fixed connection of hexagonal type is constituteed through fixed slot and six building roof to a plurality of building lateral wall upper ends, fixed hinge passes through on the bolt fastening is in building base up end and building roof down the terminal surface, and fixed hinge rotates and is fixed in building lateral wall up end edge about the terminal surface.

Further, lateral wall connection buckle includes T type recess and T type card strip, building lateral wall left side is located to T type recess, and the cell wall runs through building lateral wall upper end on the T type recess, T type card strip is fixed in building lateral wall right side, T type card strip and T type recess cooperate.

Further, the building base comprises a building base body, a buckle, a clamping groove spring, a clamping groove chuck, a chuck shifting piece, a steel frame, a cement groove, a cover plate, a steel bar frame, a side wall buckle and a cement filling opening, wherein the building base body is a hollow flat triangular prism without a top and a bottom, the cover plate is fixed on the upper end surface of the building base body, the steel frame is fixed on the inner side of the building base body, the steel frame is fixedly connected with two adjacent side walls on the inner side of the building base body, the buckle and the clamping groove are alternately and uniformly distributed on two adjacent outer side walls of the building base body, the buckle and the clamping groove are fixedly connected with the steel frame, the clamping groove chucks are symmetrically distributed in the clamping groove, the symmetrical clamping groove chucks are all slidably embedded in the inner side of the steel frame, the clamping groove spring is fixed at one end of the clamping groove, the other end and steelframe fixed connection, be fixed with the dop plectrum on the draw-in groove chuck up end, the dop plectrum upper end pierces through the apron, and dop plectrum and apron sliding fit, the steelframe is the V style of calligraphy, the inside non-steelframe position of building base body is the cement pit, be equipped with the reinforcing bar frame in the cement pit, reinforcing bar frame and steelframe and building base body inside wall fixed connection, it runs through apron up end and cement pit through connection to be equipped with cement on the apron up end, the lateral wall buckle evenly is fixed in the border position that building base body up end does not have buckle and draw-in groove, the buckle cooperatees with the draw-in groove.

Further, the building side wall includes building side wall body, fixed hinge mounting groove, building side wall apron, lateral wall cement tank and lateral wall reinforcing frame, building side wall body is flat rectangular plate-like, and the lateral wall is the inclined plane to building side wall body inside wall slope about the building side wall body, building side wall body inboard is equipped with the lateral wall cement tank, building side wall apron is located lateral wall cement tank upper end, and building side wall apron and building side wall body fixed connection, be equipped with cement pouring opening on the building side wall apron upper end, cement pouring opening runs through building side wall apron and lateral wall cement tank through connection, lateral wall reinforcing frame locates the lateral wall cement tank, and lateral wall reinforcing frame and lateral wall cement tank fixed connection, building side wall body inside wall upper and lower extreme all is equipped with fixed hinge mounting groove.

Further, lateral wall cooperation buckle includes lateral wall cooperation buckle groove and lateral wall cooperation buckle body, lateral wall cooperation buckle groove is the recess that the cross section is the T type, lateral wall cooperation buckle body is the lug that the cross section is the T type, lateral wall cooperation buckle groove and lateral wall cooperation buckle body locate building lateral wall body left and right sides lateral wall respectively, lateral wall cooperation buckle groove upper groove wall runs through building lateral wall body up end, lateral wall cooperation buckle body cooperatees with lateral wall cooperation buckle groove.

Further, fixed slot includes fixed slot buckle, fixing clip notch, fixed slot plectrum and fixed slot spring, the fixing clip notch is located on the terminal surface about the building lateral wall body, the fixing clip notch buckle is equipped with two altogether, two the fixed slot buckle symmetry is embedded on the inside wall about the fixing clip notch, and fixing clip buckle and fixing clip notch sliding fit, through fixing clip spring fixed connection between fixed slot buckle end and the fixing clip notch, be fixed with the fixed slot plectrum on the fixing clip buckle up end, fixing clip plectrum upper end pierces through the building lateral wall body, and the draw-in groove plectrum and building lateral wall body sliding fit, fixing clip matches with the lateral wall buckle.

Furthermore, the fixed hinge comprises a rotating shaft, a plurality of hinge plates and threaded holes, the hinge plates are arranged in a plurality of mounting grooves of the fixed hinge in a rotating mode through the rotating shaft, and the plurality of hinge plates are all provided with the threaded holes which are communicated with each other.

Further, the working steps of the energy-saving building built in a modularized mode are as follows:

1) taking a plurality of building bases, building side walls and building top plates;

2) taking two building bases, aligning one sides of the two building bases provided with buckles and clamping grooves, and matching and clamping the buckle on one building base with the clamping groove on the other building base;

3) repeating the step 2), combining the six building bases into a regular hexagon, moving the six building bases into the regular hexagon to be built on the ground of the building, pouring cement into the building bases through the cement pouring inlet, and cooling the cement;

4) taking a building side wall, vertically placing the building side wall at the upper end of the regular hexagon edge formed in the step 3), and clamping a fixing clamping groove at the lower end of the building side wall into a side wall clamping buckle at the upper end of a building base;

5) taking out the other building side wall, moving the newly taken out building side wall to the upper end of the regular hexagon edge in the step 4), matching the side wall of the newly taken out building side wall with the side wall matching buckle body arranged on the building base, and clamping the matched lower end fixing buckle groove of the newly taken out building side wall into the side wall buckle at the upper end of the building base;

6) repeating the step 5), completing the assembly of the building side wall, and pouring cement into the building side wall through a cement pouring opening on the building side wall cover plate;

7) assembling the building roof into a regular hexagon in the manner of the steps 2) to 3);

8) after the cement in the step 5) is cooled, mounting a building top plate at the upper end of the fixing clamping groove in the step 6) to finish building mounting, then pouring the cement into the building top plate, and finishing building construction after the cement is cooled;

9) when the building to be built needs to be expanded, a plurality of buildings can be assembled according to the steps 2) to 8), and the T-shaped grooves and the T-shaped clamping strips on the side walls of the buildings are matched with the T-shaped grooves and the T-shaped clamping strips on the side walls of other buildings, so that building expansion is completed.

The invention has the beneficial effects that: the invention is provided with the buckle and the clamping groove, can realize quick assembly and disassembly, further can quickly finish the construction when the building is constructed, meanwhile, each part of the building is a module, when the building is completed, the bottom layer module is quickly built through the buckle and the clamping groove, the cement groove and the reinforcing steel bar frame are arranged, the strength of the building is greatly enhanced through filling cement, the side wall buckle and the fixing clamping groove are arranged, the building wall can be built quickly, the strength of the building wall is greatly enhanced through the side wall cement groove and the side wall reinforcing steel frame filled with cement, the connecting strength of the module wall, the module bottom plate and the module top plate can be improved through the arranged fixed hinge, the assembling flexibility of the built building is greatly improved through the arranged T-shaped groove and the T-shaped clamping strip, and the building is convenient to expand.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the general structure of a modularly constructed energy-saving building of the present invention;

FIG. 2 is a schematic structural diagram of a side wall connecting buckle of a modularly constructed energy-saving building;

FIG. 3 is a schematic structural diagram of a building base of a modularly constructed energy-saving building of the invention;

FIG. 4 is a schematic structural diagram of a building side wall of a modularly constructed energy-saving building of the present invention;

FIG. 5 is a schematic structural diagram of a side wall matching buckle of the energy-saving building built in a modularized mode;

FIG. 6 is a schematic structural diagram of a fixed clamping groove of a modularly constructed energy-saving building;

fig. 7 is a structural schematic diagram of the fixed hinge of the modularly constructed energy-saving building.

Detailed Description

Referring to fig. 1-7, a modularly constructed energy-saving building comprises a sidewall connecting buckle 1, a building base 2, a building sidewall 3, a sidewall matching buckle 4, a fixing groove 5, a building roof 6 and a fixing hinge 7, wherein the sidewall matching buckle 4 is fixed on the left and right sides of the building sidewall 3, the fixing groove 5 is fixed on the upper and lower end surfaces of the building sidewall 3, the building sidewall 3 is provided with a plurality of building sidewalls 3, the building sidewalls 3 are in fit connection with each other by the sidewall matching buckle 4, the sidewall connecting buckle 1 is fixed on the outer sidewall of the building sidewall 3, two building sidewalls 3 are in close overlapping connection by the sidewall connecting buckle 1, the building base 2 is in a flat triangular structure, the building bases 2 are provided with a plurality of building bases 2, the building bases 2 are connected with each other by the side edges, six building bases 2 are connected with each other by the side edges to form a regular hexagonal shape, and the building roof 6 has the same structure as the building bases 2, a plurality of building lateral wall 3 are fixed in six building base 2 through fixed slot 5 and constitute the up end edge of hexagonal type, and the lower terminal surface edge fixed connection of hexagonal type is constituteed through fixed slot 5 and six building roof 6 to a plurality of 3 upper ends of building lateral wall, and fixed hinge 7 passes through on the bolt fastening is in building base 2 up end and building roof 6 lower terminal surface, and fixed hinge 7 rotates and is fixed in the terminal surface edge about 3 lateral walls of building lateral wall.

As shown in fig. 2, the side wall connecting buckle 1 includes a T-shaped groove 11 and a T-shaped clamping strip 12, the T-shaped groove 11 is disposed on the left side of the outer side wall of the building side wall 3, the upper groove wall of the T-shaped groove 11 penetrates through the upper end of the outer side wall of the building side wall 3, the T-shaped clamping strip 12 is fixed on the right side of the outer side wall of the building side wall 3, and the T-shaped clamping strip 12 is matched with the T-shaped groove 11.

As shown in fig. 3, the building base 2 includes a building base body 21, a buckle 22, a clamping groove 23, a clamping groove spring 24, a clamping groove chuck 25, a chuck shifting piece 26, a steel frame 27, a cement groove 28, a cover plate 29, a reinforcing steel frame 210, a side wall buckle 211 and a cement filling port 212, the building base body 21 is a hollow flat triangular prism with a bottom without a top, the cover plate 29 is fixed on the upper end surface of the building base body 21, the steel frame 27 is fixed on the inner side of the building base body 21, the steel frame 27 is fixedly connected with two adjacent side walls of the inner side of the building base body 21, the buckle 22 and the clamping groove 23 are alternately and uniformly distributed on two adjacent outer side walls of the building base body 21, the buckle 22 and the clamping groove 23 are fixedly connected with the steel frame 27, the clamping groove chucks 25 are symmetrically distributed in the clamping groove 23, the symmetrical clamping groove chucks 25 are all slidably embedded in the steel frame 27, the, one end of the clamping groove spring 24 is fixedly connected with the clamping groove clamping head 25, the other end of the clamping groove spring is fixedly connected with a steel frame 27, a clamping head shifting piece 26 is fixed on the upper end face of the clamping groove clamping head 25, the upper end of the clamping head shifting piece 26 penetrates through the cover plate 29, the clamping head shifting piece 26 is in sliding fit with the cover plate 29, the steel frame 27 is V-shaped, the position of the non-steel frame 27 inside the building base body 21 is a cement groove 28, a reinforcing steel bar frame 210 is arranged in the cement groove 28, the reinforcing steel bar frame 210 is fixedly connected with the steel frame 27 and the inner side wall of the building base body 21, a cement filling port 212 is formed in the upper end face of the cover plate 29 and penetrates through the upper end face of the cover plate 29 to be connected with the cement groove 28 in a penetrating mode, the side wall buckles 211 are uniformly fixed on the upper end face of the building base body 21 and do not have buckles 22 and the edge positions of the clamping grooves 23, and the buckles 22 are matched with the clamping grooves 23.

As shown in fig. 4, the building sidewall 3 includes a building sidewall body 31, a fixed hinge installation groove 32, a building sidewall cover plate 33, a sidewall cement tank 34, and a sidewall reinforcing frame 35, the building sidewall body 31 has a flat rectangular plate shape, the left and right side walls of the building side wall body 31 are inclined planes inclined towards the inner side wall of the building side wall body 31, the inner side of the building side wall body 31 is provided with a side wall cement tank 34, a building side wall cover plate 33 is arranged at the upper end of the side wall cement tank 34, the building side wall cover plate 33 is fixedly connected with the building side wall body 31, a cement pouring opening is arranged on the upper end surface of the building side wall cover plate 33, the cement pouring opening penetrates through the building side wall cover plate 33 and is communicated with the side wall cement groove 34, the side wall reinforcing steel frame 35 is arranged in the side wall cement groove 34, the side wall reinforcing frame 35 is fixedly connected to the side wall cement groove 34, and the upper and lower ends of the inner side wall of the building side wall body 31 are provided with the fixed hinge mounting grooves 32.

As shown in fig. 5, the sidewall-engaging latch 4 includes a sidewall-engaging latch groove 41 and a sidewall-engaging latch body 42, the sidewall-engaging latch groove 41 is a groove with a T-shaped cross section, the sidewall-engaging latch body 42 is a protrusion with a T-shaped cross section, the sidewall-engaging latch groove 41 and the sidewall-engaging latch body 42 are respectively disposed on the left and right sidewalls of the sidewall body 31, the upper wall of the sidewall-engaging latch groove 41 penetrates through the upper end surface of the sidewall body 31, and the sidewall-engaging latch body 42 engages with the sidewall-engaging latch groove 41.

As shown in fig. 6, the fixing slot 5 includes a fixing slot buckle 51, two fixing slot notches 52, two fixing slot plectrum 53 and a fixing slot spring 54, the fixing slot notches 52 are disposed on the upper and lower end faces of the building sidewall body 31, the fixing slot buckles 51 are disposed two in number, the two fixing slot buckles 51 are symmetrically embedded on the left and right inner side walls of the fixing slot notches 52, and the fixing slot buckles 51 are in sliding fit with the fixing slot notches 52, a fixing slot spring 54 is fixedly connected between the tail end of the fixing slot buckle 51 and the fixing slot notches 52, the fixing slot plectrum 53 is fixed on the upper end face of the fixing slot buckle 51, the upper end of the fixing slot plectrum 53 penetrates through the building sidewall body 31, and the slot plectrum 53 is in sliding fit with the building sidewall body 31, and the fixing slot 5.

As shown in fig. 7, the fixed hinge 7 includes a rotating shaft 71, a plurality of hinge plates 72, and screw holes 73, the plurality of hinge plates 72 are provided in a common number, the plurality of hinge plates 72 are rotatably fixed in the fixed hinge mounting groove 32 by the rotating shaft, and the plurality of hinge plates 72 are provided with the screw holes 73 that pass through.

The working steps of the energy-saving building built in a modularized mode are as follows:

1) taking a plurality of building bases 2, building side walls 3 and building top plates 6;

2) taking two building bases 2, aligning one sides of the two building bases 2 provided with the buckles 22 and the clamping grooves 23, and matching and clamping the buckle 22 on one building base 2 with the clamping groove 23 on the other building base 2;

3) repeating the step 2), combining the six building bases 2 into a regular hexagon, moving the six building bases 2 into the regular hexagon to be built on the ground of the building, pouring cement into the building bases 2 through the cement pouring inlet 212, and cooling the cement;

4) taking a building side wall 3, vertically placing the building side wall 3 at the upper end of the regular hexagon edge formed in the step 3), and clamping a fixing clamping groove 5 at the lower end of the building side wall 3 on a side wall buckle 211 at the upper end of a building base 2;

5) taking out another building side wall 3, moving the newly taken out building side wall 3 to the upper end of the regular hexagon edge in the step 4), matching the side wall matching buckle groove 41 of the newly taken out building side wall 3 with the side wall matching buckle body 42 of the building side wall 3 arranged on the building base 2, and clamping the matched lower end fixing buckle groove 5 of the newly taken out building side wall 3 on the side wall buckle 211 at the upper end of the building base 2;

6) repeating the step 5), completing the assembly of the building side wall 3, and pouring cement into the building side wall 3 through a cement pouring port on the building side wall cover plate 33;

7) assembling the building roof 6 into a regular hexagon in the manner of the steps 2) to 3);

8) after the cement in the step 5) is cooled, mounting a building top plate 6 at the upper end of the fixing clamping groove 5 in the step 6) to finish building mounting, then pouring the cement into the building top plate 6, and finishing building construction after the cement is cooled;

9) when the building needs to be expanded, a plurality of buildings can be assembled according to the steps 2) to 8), and the T-shaped grooves 11 and the T-shaped clamping strips 12 on the side walls of the buildings are matched with the T-shaped grooves 11 and the T-shaped clamping strips 12 on the side walls of other buildings, so that the building expansion is completed.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (6)

1. An energy-saving building built in a modularized mode comprises side wall connecting buckles (1), a building base (2), building side walls (3), side wall matching buckles (4), fixing clamping grooves (5), a building top plate (6) and fixing hinges (7), and is characterized in that the side wall matching buckles (4) are fixed on the left side and the right side of each building side wall (3), the upper end face and the lower end face of each building side wall (3) are respectively fixed with the fixing clamping grooves (5), the building side walls (3) are provided with a plurality of side walls, the building side walls (3) are connected in an end-to-end matching mode through the side wall matching buckles (4), the side wall connecting buckles (1) are fixed on the outer side walls of the building side walls (3), the two building side walls (3) are connected in a closed overlapping mode through the side wall connecting buckles (1), the building base (2) is of a flat triangular structure, the building base (2) is provided with a plurality of side walls, the building side wall structure is characterized in that a plurality of building bases (2) are connected at the sides of each other, six building bases (2) are connected at the sides of each other to form a regular hexagon, the structure of a building top plate (6) is the same as that of the building bases (2), a plurality of building side walls (3) are fixed to the upper end face edge of the regular hexagon formed by the six building bases (2) through fixing clamping grooves (5), the upper ends of the building side walls (3) are fixedly connected with the lower end face edge of the regular hexagon formed by the six building top plates (6) through the fixing clamping grooves (5), fixing hinges (7) are fixed to the upper end face of the building bases (2) and the lower end face edge of the building top plates (6) through bolts, and the fixing hinges (7) are rotationally fixed to the upper end face edge and the lower end face edge of the side walls of the building side walls (3); the building base (2) comprises a building base body (21), buckles (22), clamping grooves (23), clamping groove springs (24), clamping groove clamping heads (25), clamping head shifting pieces (26), steel frames (27), cement grooves (28), a cover plate (29), a reinforcing steel frame (210), side wall buckles (211) and a cement pouring port (212), wherein the building base body (21) is a hollow flat triangular prism without a top and a bottom, the cover plate (29) is fixed on the upper end face of the building base body (21), the steel frames (27) are fixed on the inner side of the building base body (21), the steel frames (27) are fixedly connected with two adjacent side walls on the inner side of the building base body (21), the buckles (22) and the clamping grooves (23) are alternately and uniformly distributed on two adjacent outer side walls of the building base body (21), and the buckles (22) and the clamping grooves (23) are fixedly connected with the steel frames (27), the clamping groove clamping heads (25) are symmetrically distributed in the clamping grooves (23), the symmetrical clamping groove clamping heads (25) are all embedded in a steel frame (27) in a sliding mode, a clamping groove spring (24) is fixed at one end, located in the steel frame (27), of the clamping groove clamping head (25), one end of the clamping groove spring (24) is fixedly connected with the clamping groove clamping head (25), the other end of the clamping groove spring is fixedly connected with the steel frame (27), a clamping head shifting sheet (26) is fixed on the upper end face of the clamping groove clamping head (25), the upper end of the clamping head shifting sheet (26) penetrates through a cover plate (29), the clamping head shifting sheet (26) is in sliding fit with the cover plate (29), the steel frame (27) is V-shaped, a cement groove (28) is arranged in the position of a non-steel frame (27) in the building base body (21), a steel bar frame (210) is arranged in the cement groove (28), and the steel frame (27) and, the concrete pouring cover is characterized in that a cement pouring opening (212) is formed in the upper end face of the cover plate (29) and penetrates through the upper end face of the cover plate (29) to be connected with a cement groove (28) in a penetrating mode, the side wall buckles (211) are evenly fixed to the edge positions of the upper end face of the building base body (21) without buckles (22) and clamping grooves (23), and the buckles (22) are matched with the clamping grooves (23).

2. The energy-saving building built in a modularized manner according to claim 1 is characterized in that the side wall connecting buckle (1) comprises a T-shaped groove (11) and a T-shaped clamping strip (12), the T-shaped groove (11) is formed in the left side of the outer side wall of the building side wall (3), the upper groove wall of the T-shaped groove (11) penetrates through the upper end of the outer side wall of the building side wall (3), the T-shaped clamping strip (12) is fixed to the right side of the outer side wall of the building side wall (3), and the T-shaped clamping strip (12) is matched with the T-shaped groove (11).

3. The energy-saving building built in a modularized manner according to claim 1, wherein the building side wall (3) comprises a building side wall body (31), a fixed hinge mounting groove (32), a building side wall cover plate (33), a side wall cement groove (34) and a side wall reinforcing frame (35), the building side wall body (31) is in a flat rectangular plate shape, the left side wall and the right side wall of the building side wall body (31) are inclined planes inclined towards the inner side wall of the building side wall body (31), the side wall cement groove (34) is arranged on the inner side of the building side wall body (31), the building side wall cover plate (33) is arranged at the upper end of the side wall cement groove (34), the building side wall cover plate (33) is fixedly connected with the building side wall body (31), a cement filling opening is arranged on the upper end face of the building side wall cover plate (33), and penetrates through the building side wall cover plate (33) and is connected with the side wall cement groove (34), the side wall reinforcing frame (35) is arranged in the side wall cement groove (34), the side wall reinforcing frame (35) is fixedly connected with the side wall cement groove (34), and the upper end and the lower end of the inner side wall of the building side wall body (31) are both provided with fixed hinge mounting grooves (32).

4. The energy-saving building built in a modularized manner according to claim 1 is characterized in that the side wall matching buckle (4) comprises a side wall matching buckle groove (41) and a side wall matching buckle body (42), the side wall matching buckle groove (41) is a groove with a T-shaped cross section, the side wall matching buckle body (42) is a projection with a T-shaped cross section, the side wall matching buckle groove (41) and the side wall matching buckle body (42) are respectively arranged on the left side wall and the right side wall of the building side wall body (31), the upper groove wall of the side wall matching buckle groove (41) penetrates through the upper end face of the building side wall body (31), and the side wall matching buckle body (42) is matched with the side wall matching buckle groove (41).

5. The energy-saving building built in a modular manner according to claim 1, wherein the fixing slot (5) comprises two fixing slot buckles (51), two fixing slot notches (52), two fixing slot plectrums (53) and two fixing slot springs (54), the fixing slot notches (52) are arranged on the upper end face and the lower end face of the building side wall body (31), the two fixing slot buckles (51) are symmetrically embedded in the left inner wall and the right inner wall of the fixing slot notches (52), the fixing slot buckles (51) are in sliding fit with the fixing slot notches (52), the tail ends of the fixing slot buckles (51) are fixedly connected with the fixing slot notches (52) through the fixing slot springs (54), the fixing slot plectrums (53) are fixed on the upper end face of the fixing slot buckles (51), the upper ends of the fixing slot plectrums (53) penetrate through the building side wall body (31), and fixed slot plectrum (53) and building lateral wall body (31) sliding fit, fixed slot (5) cooperate with lateral wall buckle (211).

6. The energy-saving building built in a modular manner according to claim 1 is characterized in that the fixed hinge (7) comprises a rotating shaft (71), a plurality of hinge plates (72) and threaded holes (73), the hinge plates (72) are arranged in a shared manner, the hinge plates (72) are rotatably fixed in the fixed hinge mounting groove (32) through the rotating shaft, and the hinge plates (72) are provided with the threaded holes (73) which penetrate through.

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