CN113006312A - Green energy-saving assembled building wall component - Google Patents

Abstract

The invention belongs to the technical field of assembly type buildings, and discloses a green energy-saving assembly type building wall body component which comprises a plurality of unit wall bodies and connecting components, wherein each connecting component is arranged between two adjacent unit wall bodies and is used for realizing the assembly connection of the two adjacent unit wall bodies; each connecting assembly comprises a first connecting piece and a second connecting piece which are matched with each other, and the first connecting piece and the second connecting piece are of L-shaped structures, so that the cross-sectional shapes of the connecting assemblies form a square; the first connecting piece comprises a connecting plate A and a matching plate B which are integrally formed; the second connecting piece comprises a connecting C plate and a matching D plate which are integrally formed; specifically, when the connecting assembly is used for splicing and assembling adjacent unit wall bodies, the adjacent unit wall bodies can be switched between plane splicing and vertical splicing by changing the installation angle of the first connecting piece, and the connecting assembly is multipurpose and simple in operation.

Description

Green energy-saving assembled building wall component

Technical Field

The invention belongs to the technical field of assembly type buildings, and particularly relates to a green energy-saving assembly type building wall member.

Background

The fabricated building is fabricated on the construction site by utilizing prefabricated parts, and has the advantages of high construction speed, small restriction of climate conditions, effective labor saving and building quality improvement.

When the existing assembled wall body is assembled, the two adjacent wall bodies need to be spliced and assembled through the connecting members, but in the prior art, the connecting members in one structural form can only be assembled in one splicing state, so that the connecting members in multiple structural forms need to be used in actual assembly, and the splicing and assembling operation of the integral assembled wall body is troublesome.

Disclosure of Invention

In view of the above, the present invention provides a green energy-saving fabricated building wall member.

In order to achieve the purpose, the invention provides the following technical scheme: the green energy-saving assembly type building wall member comprises a plurality of unit walls and connecting assemblies, wherein each connecting assembly is arranged between every two adjacent unit walls and is used for realizing the assembly connection of every two adjacent unit walls;

each connecting assembly comprises a first connecting piece and a second connecting piece which are matched with each other, and the first connecting piece and the second connecting piece are of L-shaped structures, so that the cross-sectional shapes of the connecting assemblies form a square;

the first connecting piece comprises a connecting plate A and a matching plate B which are integrally formed, the connecting plate A is vertically connected with the matching plate B, and the connecting plate A is directly fixed with the unit wall body through a fixing bolt;

the second connecting piece comprises a connecting C plate and a matching D plate which are integrally formed, the connecting C plate is vertically connected with the matching D plate, and the connecting C plate is directly fixed with the unit wall body through a fixing bolt;

a plurality of bulges A and bulges B are respectively arranged on two sides of the first connecting piece at equal intervals, the bulges A are positioned on one side of the connecting plate A, and the bulges B are positioned on one side of the matching plate B; each bulge B is provided with a first transverse matching hole which is parallel to the connecting plate A;

a plurality of grooves are formed in the two sides of the second connecting piece at equal intervals, and the protrusions A and the protrusions B can be clamped with the grooves; every the horizontal mating holes of second has all been seted up to one side of recess, and when first connecting piece and second connecting piece cooperation, first horizontal mating holes can be corresponding with the horizontal mating holes of second of one side wherein to insert horizontal fixed pin in the first horizontal mating holes and the horizontal mating holes of second that correspond.

Preferably, each protrusion a is provided with a first longitudinal matching hole, two sides of the second connecting piece are provided with second longitudinal matching holes capable of penetrating through the grooves, when the first connecting piece is matched with the second connecting piece, the first longitudinal matching holes can correspond to the second longitudinal matching holes on one side of the first connecting piece, and longitudinal fixing pins are inserted into the corresponding first longitudinal matching holes and the corresponding second longitudinal matching holes; and the longitudinal fixing pin and the transverse fixing pin are respectively positioned at two connecting parts formed when the first connecting piece is matched with the second connecting piece.

Preferably, first horizontal mating holes, second horizontal mating holes, first vertical mating holes and second vertical mating holes are the screw hole, horizontal fixed pin and vertical fixed pin are the screw pin, and screw hole and screw pin screw fit.

Preferably, a hollow cavity is formed in each of the connecting members, and foam insulation concrete can be poured into the hollow cavity to form a concrete reinforcing column.

Preferably, all seted up the draw-in groove on the inside wall of cooperation B board and cooperation D board, two equal block is connected with the bayonet lock of dismantling in the draw-in groove, and is connected with flexible strengthening rib between two bayonet locks.

Preferably, the clamping groove is an arc-shaped groove with the radian exceeding 180 degrees, the clamping pin is a cylindrical bolt, and the clamping pin is rotatably embedded in the clamping groove.

Preferably, each unit wall body all includes and sets gradually decorative board, heated board and atress main wall, just crisscross is equipped with a plurality of support bars in the atress main wall.

Preferably, in each unit wall body, two decorative panels and two heat insulation panels are arranged and symmetrically distributed on two sides of the stressed main wall.

Preferably, two sides of each unit wall body are respectively provided with a limiting tension device, and the limiting tension devices are fixed between the two veneers and combined with the two veneers to form a quadrilateral structure.

Preferably, each of the limit tensioning devices includes:

two positioning U-shaped steel bars symmetrically fixed on the inner side walls of the two veneer boards;

the limiting U-shaped steel plate is clamped and connected between the two positioning U-shaped steel strips; and when the connecting assembly is fixed with the unit wall body, the fixing bolt penetrates through the limiting U-shaped steel plate and extends into the stressed main wall.

Compared with the prior art, the invention has the following beneficial effects:

(1) in the invention, the connecting assembly formed by combining the first connecting piece and the second connecting piece in the L-shaped structure is arranged, and particularly, when the connecting assembly is used for splicing and assembling adjacent unit walls, the adjacent unit walls can be switched between plane splicing and vertical splicing by changing the installation angle of the first connecting piece, so that the splicing requirements under different states are effectively met, and the connecting assembly is multipurpose and simple to operate.

(2) To above-mentioned coupling assembling, realize the spacing of two junctions in the subassembly respectively through horizontal fixed pin and vertical fixed pin and fix, easy operation and can also effectively guarantee whole coupling assembling complex stability.

(3) Aiming at the connecting assembly, a hollow cavity is formed in the connecting assembly, and a concrete reinforcing column can be formed in the hollow cavity in a pouring mode, so that the stability of the integral connecting structure and the stability of the assembled wall body are further improved.

(4) To above-mentioned coupling assembling, be equipped with detachable elasticity strengthening rib between first connecting piece and second connecting piece to this can effectively be applicable to the different user state of coupling assembling, and the structural stability of the whole coupling assembling of improvement that can still further.

Drawings

FIG. 1 is a first assembled perspective view of the present invention;

FIG. 2 is a second assembled perspective view of the present invention;

FIG. 3 is an assembled plan view of the present invention;

FIG. 4 is a schematic structural view of a unit wall according to the present invention;

FIG. 5 is a schematic view of a connecting assembly according to the present invention;

FIG. 6 is a schematic view of a first connecting member of the connecting assembly of the present invention;

FIG. 7 is a schematic view of a second connector of the connector assembly of the present invention;

in the figure: a unit wall body-1; a veneer-11; an insulation board-12; a stress main wall-13; supporting steel bars-14; a limiting tension device-15; positioning the U-shaped steel bar-16; a limiting U-shaped steel plate-17; a connecting component-2; a first connecting member-21; a second connector-22; connecting the A board-23; a projection A-231; a first longitudinal mating bore-232; matching with the B plate-24; a protrusion B-241; a first transverse mating hole-242; a card slot-243; a bayonet-244; a resilient stiffener-245; connecting the C plate-25; mating D-plate-26; a groove-27; a second transverse mating hole-28; a second longitudinal mating hole-29; a transverse fixing pin-3; longitudinal fixing pins-4; and a hollow cavity-5.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, the invention provides a green energy-saving assembly type building wall member, which specifically includes a plurality of unit walls 1 and connecting assemblies 2, wherein each connecting assembly 2 is disposed between two adjacent unit walls 1 and is used for realizing assembly connection of two adjacent unit walls 1.

Each connecting assembly 2 comprises a first connecting piece 21 and a second connecting piece 22 which are matched with each other, and the first connecting piece 21 and the second connecting piece 22 are both of an L-shaped structure, so that the cross section of each connecting assembly 2 forms a square;

the first connecting piece 21 comprises a connecting A plate 23 and a matching B plate 24 which are integrally formed, the connecting A plate 23 is vertically connected with the matching B plate 24, and the connecting A plate 23 is directly fixed with the unit wall 1 through a fixing bolt;

the second connecting piece 22 comprises a connecting C plate 25 and a matching D plate 26 which are integrally formed, the connecting C plate 25 is vertically connected with the matching D plate 26, and the connecting C plate 25 is directly fixed with the unit wall 1 through a fixing bolt;

a plurality of protrusions A231 and protrusions B241 are respectively arranged on two sides of the first connecting piece 21 at equal intervals, the protrusions A231 are located on one side of the connecting A plate 23, and the protrusions B241 are located on one side of the matching B plate 24; each protrusion B241 is provided with a first transverse matching hole 242, and the first transverse matching hole 242 is parallel to the connection a plate 23;

a plurality of grooves 27 are formed in the two sides of the second connecting piece 22 at equal intervals, and the protrusions A231 and the protrusions B241 can be clamped with the grooves 27; a second transverse engaging hole 28 is formed at one side of each groove 27, and when the first connecting member 21 is engaged with the second connecting member 22, the first transverse engaging hole 242 may correspond to the second transverse engaging hole 28 at one side thereof, and a transverse fixing pin 3 is inserted into the corresponding first transverse engaging hole 242 and second transverse engaging hole 28.

In summary, as can be seen from fig. 1 to 3, the connection assembly 2 can effectively achieve parallel plane connection or vertical connection between adjacent unit walls 1;

in fig. 1 and fig. 3, the first connecting member 21 is positively fixed to one side of one unit wall 1 by means of fixing bolts, and the second connecting member 22 is positively fixed to one side of the other unit wall 1 by means of fixing bolts; in this state, the groove 27 on the matching D plate 26 is engaged with the protrusion a231 on the connecting a plate 23, and the groove 27 on the connecting C plate 25 is engaged with the protrusion B241 on the matching B plate 24, so that the parallel plane connection between two adjacent unit walls 1 is effectively realized through the connecting assembly 2;

in fig. 2 and fig. 3, the first connecting member 21 is fixed to one side of one unit wall 1 in a reverse direction by fixing bolts, and the second connecting member 22 is fixed to one side of the other unit wall 1 in a forward direction by fixing bolts; in this state, the groove 27 of the mating D plate 26 is engaged with the protrusion B241 of the mating B plate 24, and the groove 27 of the connecting C plate 25 is engaged with the protrusion a231 of the connecting a plate 23, thereby effectively achieving the vertical connection between two adjacent unit walls 1 through the connecting assembly 2.

In summary, when the connecting assembly 2 is used for wall assembly, the installation angle of the first connecting piece 21 is changed, so that adjacent unit walls 1 can be switched between parallel plane connection and vertical connection, splicing requirements under different states are effectively met, and the connecting assembly is multipurpose and simple to operate.

In the present invention, further, each protrusion a231 is provided with a first longitudinal engaging hole 232, two sides of the second connecting member 22 are provided with second longitudinal engaging holes 29 capable of penetrating through the grooves 27, and when the first connecting member 21 is engaged with the second connecting member 22, the first longitudinal engaging hole 232 may correspond to the second longitudinal engaging hole 29 on one side thereof, and a longitudinal fixing pin 4 is inserted into the corresponding first longitudinal engaging hole 232 and the second longitudinal engaging hole 29.

Preferably, the first transverse engaging hole 242, the second transverse engaging hole 28, the first longitudinal engaging hole 232, and the second longitudinal engaging hole 29 are all threaded holes, the transverse fixing pin 3 and the longitudinal fixing pin 4 are both threaded pins, and the threaded holes are in threaded engagement with the threaded pins.

Specifically, as can be seen from the above, the longitudinal fixing pin 4 and the transverse fixing pin 3 are respectively positioned at two connecting positions formed when the first connecting piece 21 and the second connecting piece 22 are matched, so that the stability of the integral connecting assembly 2 during connection and matching is effectively improved, and different limiting structures are adopted at different positions for connection, so that the connection mode of the integral connecting assembly 2 is simpler and more convenient.

For example: in fig. 1, a connection a plate 23 is matched with a matching D plate 26, a unit wall 1 is connected to the connection a plate 23, and a first longitudinal matching hole 232 is formed in a protrusion a231, so that the connection between the connection a plate 23 and the matching D plate 26 can be fixed by using a longitudinal fixing pin 4; the matching B plate 24 is matched with the connecting C plate 25, the unit wall body 1 is not connected to the matching B plate, the protrusion B241 is provided with a first transverse matching hole 242, and therefore the connecting position of the matching B plate 24 and the connecting C plate 25 can be fixed through the transverse fixing pin 3.

For another example: in fig. 2, the connection a plate 23 is matched with the connection C plate 25, the unit wall 1 is connected to both the connection a plate 23 and the connection C plate, and the protrusion a231 is provided with a first longitudinal matching hole 232, so that the connection between the connection a plate 23 and the connection C plate 25 can be fixed by using a longitudinal fixing pin 4; the matching B plate 24 is matched with the matching D plate 26, and the protrusion B241 is provided with a first transverse matching hole 242, so that the joint of the matching B plate 24 and the matching D plate 26 can be fixed by using the transverse fixing pin 3.

As can be seen from the above description and the drawings, the fixing in different directions is not interfered by the positioning position of the unit wall 1.

In the present invention, further, a hollow cavity 5 is formed in each connecting assembly 2, and the hollow cavity 5 may be filled with foam insulation concrete to form a concrete reinforcing column.

In addition, the inner side walls of the matching B plate 24 and the matching D plate 26 are provided with clamping grooves 243, two clamping grooves 243 are clamped and connected with detachable clamping pins 244, and an elastic reinforcing rib 245 is connected between the two clamping pins 244. Preferably, the locking groove 243 is an arc-shaped groove with an arc degree exceeding 180 °, the locking pin 244 is a cylindrical pin, and the locking pin 244 is rotatably inserted into the locking groove 243.

Therefore, the structural strength of the integral connecting assembly 2 can be further improved by utilizing the support of the concrete reinforcing column and the limitation of the elastic reinforcing rib 245, so that the stability of the integral wall body after assembly is improved.

In the invention, specifically, each unit wall body 1 comprises a veneer 11, an insulation board 12 and a stressed main wall 13 which are sequentially arranged, and a plurality of supporting steel bars 14 are arranged in the stressed main wall 13 in a criss-cross manner.

Preferably, in each unit wall 1, two veneers 11 and two insulation boards 12 are arranged and symmetrically distributed on two sides of the stressed main wall 13.

As mentioned above, the arrangement of the heat-insulating board 12 enables the integral unit wall 1 to have heat-insulating effect; the veneer 11 plays a decorative role in the integrated unit wall 1, and the veneer 11 can also be made of a material having a sound insulation effect, so that the integrated unit wall 1 also has a sound insulation effect.

More specifically, limiting and tensioning devices 15 are arranged on two sides of each unit wall 1, and the limiting and tensioning devices 15 are fixed between the two veneer boards 11 and combined with the two veneer boards 11 to form a quadrilateral structure. Wherein, every spacing straining device 15 all includes:

two positioning U-shaped steel bars 16 symmetrically fixed on the inner side walls of the two veneer panels 11;

a limiting U-shaped steel plate 17 clamped and connected between the two positioning U-shaped steel strips 16; and when the connecting assembly 2 is fixed with the unit wall 1, the fixing bolt penetrates through the limiting U-shaped steel plate 17 and extends into the stressed main wall 13.

Based on this, utilize spacing straining device 15 to inject, can effectively improve the structural stability of whole unit wall body 1, and overall structure is simple, and the cost of manufacture is low.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a green energy-saving assembled building wall component which characterized in that: the wall body structure comprises a plurality of unit wall bodies (1) and connecting assemblies (2), wherein each connecting assembly (2) is arranged between two adjacent unit wall bodies (1) and is used for realizing the assembly and connection of the two adjacent unit wall bodies (1);

each connecting assembly (2) comprises a first connecting piece (21) and a second connecting piece (22) which are matched with each other, and the first connecting piece (21) and the second connecting piece (22) are both L-shaped structures, so that the cross section of each connecting assembly (2) forms a square;

the first connecting piece (21) comprises a connecting plate A (23) and a matching plate B (24) which are integrally formed, the connecting plate A (23) is vertically connected with the matching plate B (24), and the connecting plate A (23) is directly fixed with the unit wall body (1) through a fixing bolt;

the second connecting piece (22) comprises a connecting C plate (25) and a matching D plate (26) which are integrally formed, the connecting C plate (25) is vertically connected with the matching D plate (26), and the connecting C plate (25) is directly fixed with the unit wall body (1) through a fixing bolt;

a plurality of protrusions A (231) and protrusions B (241) are respectively arranged on two sides of the first connecting piece (21) at equal intervals, the protrusions A (231) are located on one side of the connecting A plate (23), and the protrusions B (241) are located on one side of the matching B plate (24); each bulge B (241) is provided with a first transverse matching hole (242), and the first transverse matching holes (242) are parallel to the connecting A plate (23);

a plurality of grooves (27) are formed in the two sides of the second connecting piece (22) at equal intervals, and the protrusions A (231) and the protrusions B (241) can be clamped with the grooves (27); and when the first connecting piece (21) is matched with the second connecting piece (22), the first transverse matching hole (242) can correspond to the second transverse matching hole (28) on one side, and a transverse fixing pin (3) is inserted into the corresponding first transverse matching hole (242) and the second transverse matching hole (28).

2. The green energy-saving fabricated building wall element according to claim 1, wherein: each protrusion A (231) is provided with a first longitudinal matching hole (232), two sides of the second connecting piece (22) are provided with second longitudinal matching holes (29) which can penetrate through the grooves (27), when the first connecting piece (21) is matched with the second connecting piece (22), the first longitudinal matching holes (232) can correspond to the second longitudinal matching holes (29) on one side of the first connecting piece, and longitudinal fixing pins (4) are inserted into the corresponding first longitudinal matching holes (232) and the corresponding second longitudinal matching holes (29);

the longitudinal fixing pin (4) and the transverse fixing pin (3) are respectively positioned at two connecting positions formed when the first connecting piece (21) is matched with the second connecting piece (22).

3. The green energy-saving fabricated building wall element according to claim 2, wherein: first horizontal mating holes (242), second horizontal mating holes (28), first vertical mating holes (232) and second vertical mating holes (29) are the screw hole, horizontal fixed pin (3) and vertical fixed pin (4) are the screw pin, and screw hole and screw pin spiral cooperation.

4. The green energy-saving fabricated building wall element according to claim 1, wherein: a hollow cavity (5) is formed in each connecting component (2), and foam heat-insulating concrete can be poured into the hollow cavity (5) to form a concrete reinforcing column.

5. The green energy-saving fabricated building wall component according to claim 4, wherein: all seted up draw-in groove (243) on the inside wall of cooperation B board (24) and cooperation D board (26), two all the block is connected with bayonet lock (244) of dismantling in draw-in groove (243), and is connected with elastic reinforcement (245) between two bayonet lock (244).

6. The green energy-saving fabricated building wall element according to claim 5, wherein: the clamping groove (243) is an arc-shaped groove with the radian exceeding 180 degrees, the clamping pin (244) is a cylindrical bolt, and the clamping pin (244) is rotatably embedded in the clamping groove (243).

7. The green energy-saving fabricated building wall element according to claim 1, wherein: each unit wall body (1) is including setting up decorative board (11), heated board (12) and atress main wall (13) in proper order, just crisscross in atress main wall (13) is equipped with a plurality of support bars (14).

8. The green energy-saving fabricated building wall element according to claim 7, wherein: in each unit wall body (1), two decorative panels (11) and two heat insulation panels (12) are arranged and symmetrically distributed on two sides of the stressed main wall (13).

9. The green energy-saving fabricated building wall element according to claim 8, wherein: and two sides of each unit wall body (1) are respectively provided with a limiting tension device (15), and the limiting tension devices (15) are fixed between the two veneers (11) and combined with the two veneers (11) to form a quadrilateral structure.

10. A green energy saving fabricated building wall element according to claim 9, wherein each of said spacing tension devices (15) comprises:

two positioning U-shaped steel bars (16) symmetrically fixed on the inner side walls of the two veneer boards (11);

a limiting U-shaped steel plate (17) clamped and connected between the two positioning U-shaped steel bars (16); and when the connecting component (2) is fixed with the unit wall body (1), the fixing bolt penetrates through the limiting U-shaped steel plate (17) and extends into the stressed main wall (13).

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