CN210658664U - Assembled energy-saving new residential structure - Google Patents

Abstract

The utility model relates to an assembled energy-saving new dwelling structure, which is characterized by comprising a prefabricated foundation plate, a prefabricated wallboard, an integral roof, a prefabricated floor and an outer wall heat-insulation integrated plate; the prefabricated foundation plate is connected with the prefabricated wall plate through a reserved bayonet groove and concrete; adjacent prefabricated wallboards are fixedly connected through a reserved hole, an embedded steel plate and a bolt; the integral roof sequentially comprises a light steel keel, a calcium silicate board, a waterproof layer, battens, rock wool heat-insulation boards and prefabricated antique cement tiles from inside to outside; and the light steel keel of the integral roof is fixedly connected with the embedded steel plate of the prefabricated wallboard through bolts. The utility model discloses a self-contained prefabricated construction, the prefabricated process of each component is produced in the mill, then transports and assembles to the job site, and assembly node reasonable in design between each component, and have a certain amount of anti deformability, constitute the operation simple and easy swift, shorten construction cycle by a wide margin.

Description

Assembled energy-saving new residential structure

Technical Field

The utility model relates to a building technical field, specific theory is a structure of energy-conserving new local-style dwelling houses of assembled.

Background

At present, the rural residences are constructed on multiple sites, and the defects of long construction period, more generated waste, single style, difficulty in ensuring construction quality and the like are overcome. In particular, in winter in the north, wet operation construction such as wall masonry, beam frame manufacturing and installation, roof tile laying, wall internal and external plastering and the like is difficult and high in cost. The traditional workers in rural areas are older and later, so that a set of carpenters, bricklayers, clay workers, electricians, paperhanging workers and the like required by traditional residential construction are extremely deficient, the construction period is about half a year to one year at least, the temperature difference between day and night in the north is large, the masonry wall is prone to cracking, and the heat preservation and the shock resistance of the traditional brick laying, stone laying and local wood structures are not ideal.

The light steel structure and rock wool heat preservation system popularized in the current market is difficult to accept in form and poor in fire resistance and safety; the wood structure or heavy steel structure assembled new dwelling houses have high cost and are difficult to accept in the manufacturing cost.

Disclosure of Invention

The utility model aims at providing an assembled energy-saving new dwelling structure, which comprises various prefabricated components which are manufactured in advance in a production workshop; various prefabricated components finished in a workshop are transported to a construction site to be assembled to form the assembled energy-saving new dwelling, the assembly and construction are convenient and quick, and the limit of the external environment is avoided.

The utility model adopts the technical scheme as follows:

an assembled energy-saving new dwelling structure is characterized by comprising prefabricated foundation plates 2, prefabricated wall plates 3, an integral roof 4, a prefabricated floor 5 and an outer wall heat-insulation integrated plate 6, wherein the prefabricated foundation plates are prefabricated and molded;

the prefabricated foundation plate 2 is a prefabricated foundation plate formed by pouring a concrete mold in a workshop; the prefabricated foundation plates 2 are used for providing an integral plane supporting framework, are paved on the upper part of a foundation cushion layer, and are mutually butted with each other;

the connected node between prefabricated foundatin plate 2 and prefabricated wallboard 3 is: a bayonet groove 21 is reserved on the prefabricated foundation plate 2, and the bottom of the prefabricated wall plate 3 is inserted into the bayonet groove 21 and is filled and fixed by concrete;

the prefabricated wall plate 3 is a prefabricated concrete wall plate formed by pouring a concrete mould in a workshop;

the connected node between adjacent prefabricated wallboard 3 does: a reserved hole 31 and embedded steel plates 32 are formed in the side die of each prefabricated wall plate 3, the embedded steel plates 32 are located in the reserved hole 31, adjacent prefabricated wall plates 3 are in butt joint through the reserved hole 31, and the two embedded steel plates 32 which are overlapped together are fixedly connected through wall plate bolts 33;

the prefabricated wall boards 3 can be connected in a straight parallel connection mode, a T-shaped vertical connection mode and an angular connection mode; according to different connection modes of installation of adjacent prefabricated wall panels 3, the embedded steel plates 32 can be flat steel plates or angle steel plates;

the integral roof 4 is a composite laminated structure of keels and precast slabs and sequentially comprises light steel keels 41, calcium silicate boards 42, waterproof layers 43, battens 44, rock wool heat-insulation boards 45 and precast antique cement tiles 46 from inside to outside;

the connected node between whole roofing 4 and prefabricated wallboard 3 does: the vertical surface keel of the light steel keel 41 and the embedded steel plate 32 of the prefabricated wall plate 3 are fixedly connected through bolts;

the prefabricated floor 5 is a prefabricated concrete floor formed by pouring a concrete mold in a workshop; the prefabricated floor 5 is laid on the prefabricated foundation plate 2 through a height-adjustable foot pad 51;

the prefabricated wall plate 3 and the external wall heat insulation integrated plate 6 are fixedly connected through an L-shaped hanging piece and a bolt;

further, energy-conserving new people of assembled structure, can also include interior wall decoration intergral template, by L type pendant and bolted connection between interior wall decoration intergral template and wallboard 3, also can directly paste fixedly.

The manufacturing method of the assembled energy-saving new dwelling house is characterized by comprising the following steps of:

s1, workshop prefabricated part

Prefabricating and forming the prefabricated foundation plate 2, the prefabricated wall plate 3, the prefabricated floor 5 and the external wall heat-insulation integrated plate 6 in a workshop in advance; prefabricating and finishing a light steel keel 41, a calcium silicate board 42, a waterproof layer 43, battens 44, a rock wool heat-insulation board 45 and prefabricated antique cement tiles 46 for assembling the integral roof 4;

the prefabricated foundation plate 2, the prefabricated wall plate 3 and the prefabricated floor 5 are all formed by adopting a concrete mould poured in a workshop;

s2, field construction

Ditching and slotting on site and tamping a foundation;

s3 laying prefabricated foundation plate

The prefabricated foundation plates 2 are flatly laid on the foundation bed, adjacent prefabricated foundation plates 2 are spliced and aligned, and the laying construction of the prefabricated foundation plates 2 is completed after leveling;

s4 installation wallboard

Hoisting the prefabricated wall boards 3 in place, inserting the lower parts of the prefabricated wall boards 3 into the reserved bayonet grooves 21 of the prefabricated foundation plates 2, splicing and butting the reserved holes 31 between the adjacent prefabricated wall boards 3, overlapping the embedded steel plates 32 in the reserved holes 31 of the two prefabricated wall boards 3, connecting and fixing the two overlapped embedded steel plates 32 through wall board bolts 33, filling solid concrete into the bayonet grooves 21 of the prefabricated foundation plates 2 after the adjacent prefabricated wall boards 3 are connected in sequence, and completing the connection between the prefabricated wall boards 3 and the prefabricated foundation plates 2;

s5, mounting roof

Connecting and fixing a plurality of light steel keels 41 to form an integral roof frame;

inserting the vertical surface keel of the light steel keel 41 into the reserved hole 31 of the prefabricated wall plate 3, and fixedly connecting the vertical surface keel with the embedded steel plate 32 in the reserved hole 31 through bolts to complete the connection between the roof light steel keel and the prefabricated wall plate 3;

sequentially laying the calcium silicate board 42, the waterproof layer 43, the battens 44, the rock wool heat-insulation board 45 and the prefabricated antique cement tiles 46 on the light steel keel to complete the construction of the whole roof 4;

the light steel keel 41, the calcium silicate board 42, the waterproof layer 43, the wood strip 44, the rock wool heat-insulation board 45 and the prefabricated antique cement tile 46 are connected through preset screw holes and screws;

s6 installation of prefabricated floor

Placing height-adjustable foot pads 51 on the prefabricated base plate 2 at intervals, laying the prefabricated floors 5 on the height-adjustable foot pads 51, and splicing and butting the adjacent prefabricated floors 5;

s7, installing the external wall heat insulation integrated plate

Laying the outer wall heat-insulation integrated plate on the outer surface of the prefabricated wall plate 3 through the L-shaped hanging pieces;

s8 installation of inner wall decoration integrated board

The inner wall decoration integrated plate is laid on the inner surface of the prefabricated wall plate 3 through the L-shaped hanging pieces.

The utility model discloses an energy-conserving new people of assembled structure adopts independent prefabricated construction separately, and the prefabricated process of each component is produced in the mill, then transports and assembles to the job site, and assembly node reasonable in design between each component, and have a certain amount of anti deformability, constitute the operation simply swiftly, shorten construction cycle by a wide margin. The product has less waste, high precision and many styles. The production mode of prefabricating the assembly on site in advance is not influenced by seasons and natural environment, and the assembly type structure can be produced even in winter under low-temperature conditions, so that the problem of construction in winter is solved, and the problem that the assembly type structure cracks due to temperature can be solved.

Drawings

FIG. 1: the utility model discloses an assembled energy-conserving new people house the whole schematic diagram of structure

FIG. 2: the right side view of FIG. 1;

FIG. 3: a schematic diagram of a connecting joint between the prefabricated wall plate and the prefabricated foundation plate;

FIG. 4: a schematic diagram of a connection node between the prefabricated wall panels (to-be-connected state);

FIG. 5: a schematic diagram of a connection node between the prefabricated wall panels (in a connected state);

FIG. 6: the overall roof structure is schematic;

FIG. 7: a schematic diagram of a connecting node between the integral roof and the prefabricated wall panel;

in the figure, 1, a foundation cushion layer, 2, a prefabricated foundation slab, 21, a bayonet groove, 3, a prefabricated wallboard, 31, a reserved hole, 32, a pre-embedded steel plate, 33, a wallboard bolt, 4, an integral roof, 41, a light steel keel, 42, a calcium silicate board, 43, a waterproof layer, 44, a batten, 45, a rock wool heat-insulating board, 46, a prefabricated antique cement tile, 5, a prefabricated floor, 51, a height-adjustable foot pad, 6 and an outer wall heat-insulating integrated board.

Detailed Description

The following description of the present invention will be given with reference to the accompanying drawings, and will be used to explain the structure, design principle, construction process and key points of the present invention in further detail.

Example one

An assembled energy-saving new dwelling structure comprises a prefabricated foundation plate 2, prefabricated wall plates 3, an integral roof 4, a prefabricated floor 5 and an outer wall heat-insulation integrated plate 6, wherein the prefabricated foundation plate is prefabricated and formed; the prefabricated foundation plate 2 is a prefabricated foundation plate formed by pouring a concrete mold in a workshop; the prefabricated foundation plates 2 are used for providing an integral plane supporting framework, are paved on the upper part of a foundation cushion layer, and are mutually butted with each other; the connected node between prefabricated foundatin plate 2 and prefabricated wallboard 3 is: a bayonet groove 21 is reserved on the prefabricated foundation plate 2, and the bottom of the prefabricated wall plate 3 is inserted into the bayonet groove 21 and is filled and fixed by concrete; the prefabricated wall plate 3 is a prefabricated concrete wall plate formed by pouring a concrete mould in a workshop; the connected node between adjacent prefabricated wallboard 3 does: a reserved hole 31 and embedded steel plates 32 are formed in the side die of each prefabricated wall plate 3, the embedded steel plates 32 are located in the reserved hole 31, adjacent prefabricated wall plates 3 are in butt joint through the reserved hole 31, and the two embedded steel plates 32 which are overlapped together are fixedly connected through wall plate bolts 33; the prefabricated wall boards 3 can be connected in a straight parallel connection mode, a T-shaped vertical connection mode and an angular connection mode; according to different connection modes of installation of adjacent prefabricated wall panels 3, the embedded steel plates 32 can be flat steel plates or angle steel plates; the integral roof 4 is a composite laminated structure of keels and precast slabs and sequentially comprises light steel keels 41, calcium silicate boards 42, waterproof layers 43, battens 44, rock wool heat-insulation boards 45 and precast antique cement tiles 46 from inside to outside; the connected node between whole roofing 4 and prefabricated wallboard 3 does: the vertical surface keel of the light steel keel 41 and the embedded steel plate 32 of the prefabricated wall plate 3 are fixedly connected through bolts; the prefabricated floor 5 is a prefabricated concrete floor formed by pouring a concrete mold in a workshop; the prefabricated floor 5 is laid on the prefabricated foundation plate 2 through a height-adjustable foot pad 51; the prefabricated wall board 3 and the external wall heat insulation integrated board 6 are fixedly connected through an L-shaped hanging piece and a bolt.

Example two

The difference between the present embodiment and the first embodiment is:

the assembled energy-saving new residential structure further comprises an inner wall decoration integrated plate 7, wherein the inner wall decoration integrated plate 7 is connected with the wallboard 3 through an L-shaped hanging piece and a bolt, and can also be directly pasted and fixed.

EXAMPLE III

A manufacturing method of an assembled energy-saving new dwelling house comprises the following steps:

s1, workshop prefabricated part

Prefabricating and forming the prefabricated foundation plate 2, the prefabricated wall plate 3, the prefabricated floor 5 and the external wall heat-insulation integrated plate 6 in a workshop in advance; prefabricating and finishing a light steel keel 41, a calcium silicate board 42, a waterproof layer 43, battens 44, a rock wool heat-insulation board 45 and prefabricated antique cement tiles 46 for assembling the integral roof 4;

the prefabricated foundation plate 2, the prefabricated wall plate 3 and the prefabricated floor 5 are all formed by adopting a concrete mould poured in a workshop;

s2, field construction

Ditching and slotting on site and tamping a foundation;

s3 laying prefabricated foundation plate

The prefabricated foundation plates 2 are flatly laid on the foundation bed, adjacent prefabricated foundation plates 2 are spliced and aligned, and the laying construction of the prefabricated foundation plates 2 is completed after leveling;

s4 installation wallboard

Hoisting the prefabricated wall boards 3 in place, inserting the lower parts of the prefabricated wall boards 3 into the reserved bayonet grooves 21 of the prefabricated foundation plates 2, splicing and butting the reserved holes 31 between the adjacent prefabricated wall boards 3, overlapping the embedded steel plates 32 in the reserved holes 31 of the two prefabricated wall boards 3, connecting and fixing the two overlapped embedded steel plates 32 through wall board bolts 33, filling solid concrete into the bayonet grooves 21 of the prefabricated foundation plates 2 after the adjacent prefabricated wall boards 3 are connected in sequence, and completing the connection between the prefabricated wall boards 3 and the prefabricated foundation plates 2;

s5, mounting roof

Connecting and fixing a plurality of light steel keels 41 to form an integral roof frame;

inserting the vertical surface keel of the light steel keel 41 into the reserved hole 31 of the prefabricated wall plate 3, and fixedly connecting the vertical surface keel with the embedded steel plate 32 in the reserved hole 31 through bolts to complete the connection between the roof light steel keel and the prefabricated wall plate 3;

sequentially laying the calcium silicate board 42, the waterproof layer 43, the battens 44, the rock wool heat-insulation board 45 and the prefabricated antique cement tiles 46 on the light steel keel to complete the construction of the whole roof 4;

the light steel keel 41, the calcium silicate board 42, the waterproof layer 43, the wood strip 44, the rock wool heat-insulation board 45 and the prefabricated antique cement tile 46 are connected through preset screw holes and screws;

s6 installation of prefabricated floor

Placing height-adjustable foot pads 51 on the prefabricated base plate 2 at intervals, laying the prefabricated floors 5 on the height-adjustable foot pads 51, and splicing and butting the adjacent prefabricated floors 5;

s7, installing the external wall heat insulation integrated plate

Laying the outer wall heat-insulation integrated plate on the outer surface of the prefabricated wall plate 3 through the L-shaped hanging pieces;

s8 installation of inner wall decoration integrated board

The inner wall decoration integrated plate is laid on the inner surface of the prefabricated wall plate 3 through the L-shaped hanging pieces.

The utility model discloses an energy-conserving new people of assembled structure and manufacturing method thereof is built and is designed to the new people's house in new rural area and propose, has solved present rural traditional craftsman's big-end-to-large and the unmanned problem of successor, adopts the mode at the various assembled components of factory workshop prefabricated molding, has solved outdoor environment and climate change and has brought a great deal of influence to the site operation, and site assembly is swift convenient, can shorten construction cycle by a wide margin. The concrete mold is used for molding the foundation plate, the wallboard and the floor in a factory workshop to respectively obtain the precast concrete foundation plate, the precast concrete wallboard and the precast concrete floor, and various plates molded by the concrete mold have better fire resistance and higher safety compared with a traditional light steel structure and rock wool heat insulation system, and have lower manufacturing cost compared with a wood structure or heavy steel structure assembled new residential building. In the field construction process, the connection nodes among the prefabricated parts are effectively assembled and connected, and each assembly node has a certain amount of deformation resistance, so that the problem that the assembled structure cracks due to temperature difference is solved.

Claims (7)

1. An assembled energy-saving new dwelling structure is characterized by comprising prefabricated and molded prefabricated foundation plates (2), prefabricated wall plates (3), an integral roof (4), prefabricated floors (5) and an outer wall heat-insulation integrated plate (6);

the connecting node between prefabricated foundatin plate (2) and prefabricated wallboard (3) is: a bayonet groove (21) is reserved on the prefabricated foundation plate (2), and the bottom of the prefabricated wall plate (3) is inserted into the bayonet groove (21) and is filled and fixed by concrete;

the connecting node between adjacent prefabricated wallboard (3) is: reserved holes (31) and embedded steel plates (32) are formed in side molds of the prefabricated wall panels (3), the embedded steel plates (32) are located in the reserved holes (31), adjacent prefabricated wall panels (3) are in butt joint through the reserved holes (31), and the two embedded steel plates (32) which are overlapped together are fixedly connected through wall panel bolts (33);

the integral roof (4) is of a composite layered structure of keels and precast slabs and sequentially comprises light steel keels (41), calcium silicate boards (42), waterproof layers (43), battens (44), rock wool heat-insulating plates (45) and prefabricated antique cement tiles (46) from inside to outside;

the connection node between the whole roof (4) and the prefabricated wall plate (3) is as follows: the vertical surface keel of the light steel keel (41) is fixedly connected with the embedded steel plate (32) of the prefabricated wall plate (3) through bolts.

2. The assembled energy-saving new residential structure of claim 1,

the prefabricated foundation plate (2) is formed by pouring a concrete mold in a workshop; the prefabricated foundation slab is paved on the upper part of a foundation cushion layer, and the adjacent prefabricated foundation slabs (2) are mutually butted.

3. The assembled energy-saving new residential structure of claim 1,

the prefabricated wall board (3) is formed by pouring a concrete mould in a workshop.

4. The assembled energy-saving new residential structure of claim 1,

the prefabricated wall boards (3) are connected in parallel in a straight line, in a T shape or in an angular shape; according to different connection modes of adjacent prefabricated wall boards (3), the embedded steel plates (32) are flat steel plates or angle steel plates.

5. The assembled energy-saving new residential structure of claim 1,

the prefabricated floor (5) is a prefabricated concrete floor formed by pouring a concrete mold in a workshop; the prefabricated floor (5) is laid on the prefabricated foundation plate (2) through the height-adjustable foot pads (51).

6. The assembled energy-saving new residential structure of claim 1,

the prefabricated wall board (3) and the external wall heat insulation integrated board (6) are fixedly connected through an L-shaped hanging piece and a bolt.

7. The assembled energy-saving new residential structure of claim 1,

the wall panel is characterized by further comprising an inner wall decoration integrated plate, and the inner wall decoration integrated plate is fixedly connected with the prefabricated wall plate (3) through an L-shaped hanging piece and a bolt.

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