CN211973938U - Splicing structure between building internal walls - Google Patents

Abstract

A splicing structure between internal walls of a building, which has simple assembly mode and high construction speed and can effectively reduce the problem of uneven spliced rear surface of the walls, comprises a left wall board and a right wall board, wherein the right side part of the left wall board is provided with a left front panel and a left rear panel which are distributed up and down, the left front panel is positioned above the left rear panel and belongs to a state of up-down dislocation and front-back dislocation, the left side part of the right wall board is provided with a right front panel and a right rear panel which are distributed up and down, the right front panel is positioned below the right rear panel, the left front panel and the right rear panel and the left rear panel and the right front panel are mutually embedded during splicing, a unified wall body is formed by splicing, the outer surface is kept to be flush, and the front side and the back side of the spliced part are flush with the front side and the back side of the left wall board or the right wall board, the problem of uneven surface fall at the joint part is avoided.

Description

Splicing structure between building internal walls

Technical Field

The utility model relates to a building wall construction technical field especially relates to a mosaic structure between inside wall body of building.

Background

The prefabricated building refers to that each part of the building is produced and processed in advance in a factory to form each corresponding module, and then the corresponding modules are directly moved to a construction site to be assembled and combined.

However, due to the limitations of cost and industrial chain, complete assembly type buildings are still few, a plurality of part of building companies adopt a semi-assembly type construction mode during construction, namely a main body structure, structures which play main bearing such as column beam plates and the like adopt cast-in-place construction, walls in the building, steps and the like adopt assembly mode construction, the structure does not play a key role in the whole bearing of the building, the requirement on structural strength is low, the problem of uneven wall surface is easy to occur in the assembly between inner walls, the joint fall is large, the later-stage wall decoration is not facilitated, and the reasonably designed inner wall assembly structure is needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that needs to solve provides a amalgamation structure between the inside wall body of building, and this structure equipment mode is simple, and construction speed is fast, and can effectively reduce the problem of wall body concatenation rear surface unevenness.

The utility model particularly comprises a left wallboard and a right wallboard, wherein the left wallboard and the right wallboard are rectangular plate structures and are formed by precast pouring of concrete, the height and thickness of the left wallboard are the same as those of the right wallboard, a left front panel and a left back panel are arranged at the right side part of the left wallboard, the left front panel and the left back panel are the same in size, the left front panel and the left back panel are distributed up and down, the height and thickness of the left front panel and the left back panel are respectively equal to half of the height and thickness of the left wallboard, the lower side edge of the left front panel is flush with the upper side edge of the left back panel, namely, the left front panel is positioned above the left back panel, the upper side edge of the left front panel is flush with the upper side edge of the left wallboard, the lower side edge of the left back panel is flush with the lower side edge of the left wallboard, in addition, the front side surface of the left front panel is flush with the front side surface of the left wallboard, the left front panel and the left rear panel are in a state of being staggered up and down and front and back,

in addition, left front panel and left rear panel are in an organic whole state with left wallboard, and the integrative pouring forms promptly.

The left side position of right side wallboard is provided with right front panel and right back panel, right front panel is the same with the size and dimension of right back panel, right back panel and right front panel distribute from top to bottom, height and thickness between them equal the height of right wallboard and half of thickness respectively, and the lower side parallel and level of the last side of right front panel and right back panel, right front panel is in the below of right back panel promptly, the lower side of right front panel and the lower side parallel and level of right wallboard, the last side of right back panel and the last side parallel and level of right wallboard, in addition, the leading flank of right front panel and the leading flank parallel and level of right wallboard, the trailing flank of right back panel and the trailing flank parallel and level of right wallboard, then right front panel and right back panel are in dislocation state from top to bottom and around, in addition, right front panel and right back panel are in an organic whole state with right wallboard, and the integrative pouring forms promptly.

In addition, the left-right width of the left front panel and the left rear panel is equal to the left-right width of the right front panel and the right rear panel, through the arrangement, when the right side part of the left wallboard is spliced with the left side part of the right wallboard, the front side surfaces and the rear side surfaces of the left wallboard and the right wallboard are kept in a flush state, the left front panel and the right rear panel are in a same height and a staggered state, the left rear panel and the right front panel are in a same height and a staggered state, the left front panel and the right rear panel and the left rear panel and the right front panel are mutually embedded during splicing, a unified wall body is formed by splicing, the outer surface is kept in a flush state, because the thicknesses of the left front panel, the right rear panel, the left rear panel and the right front panel are equal to half of the thickness of the left wallboard or the right wallboard, the thicknesses of the left rear panel and the right front panel are mutually limited during splicing, and the front side and the rear side of the splicing part are flush with the front side and the rear side of the left wallboard or the right wallboard, so that the problem of uneven surface fall of the joint part is avoided.

In addition, there is the through-hole that runs through that the position corresponds on left front panel and right back panel and left back panel and the right front panel, conveniently penetrates the harness cord and is connected left front panel and right back panel and left back panel and right front panel fixed connection to one, improves the overall structure intensity of wall connection position.

Furthermore, a circle of recess is arranged on the corresponding structure body at the outer end of the through hole, so that the through hole penetrates through the harness cord and the connecting nut is anchored at the outer end of the harness cord, the connecting nut can sink into the circle of recess and cannot protrude out of the outer side face of the structure body, and the flatness of the outer side face of the structure body is guaranteed.

Further, the corner position below the right side of left side front panel adopts the back camber angle to handle for this corner position is the arc surface form, and is same, the corner position above the right side of left side back panel adopts the back camber angle to handle, the corner position above the left side of right front panel adopts the back camber angle to handle, the corner position below the left side of right back panel adopts the back camber angle to handle, and the effect that should set up is the initial butt joint of being convenient for, even there is slight drop between the height of left wallboard and right wallboard during initial butt joint, can be along back camber position adjustment error when embedding each other, is favorable to the butt joint embedding smoothly.

Further, the edge position that the right side of left side front panel leaned on the back adopts the side of falling arc to handle for the edge of its this position is the arc face form, and is same, the edge position that the right side of left side back panel leaned on the front adopts the side of falling arc to handle, the edge position that the left side of right front panel leaned on the back adopts the side of falling arc to handle, the edge position that the left side of right back panel leaned on the front adopts the side of falling arc to handle, like this when the butt joint, if there is slight drop between the front and back, can be along the side of falling arc position adjustment error during mutual embedding, be favorable to butt joint the embedding smoothly.

Drawings

Fig. 1 is a perspective view of the present invention in an unassembled state.

Fig. 2 is a perspective view of the assembly process of the present invention.

Fig. 3 is a schematic sectional top view of the utility model.

Fig. 4 is a schematic sectional top view of the present invention.

Fig. 5 is a front view of the middle left wall panel of the present invention.

Figure 6 is the utility model discloses well right wallboard position elevation.

In fig. 1 and 2, the visible surface is front, the invisible surface is back, and in fig. 3 and 4, the lower part is front, and the upper part is back.

Detailed Description

The following detailed description of embodiments of the present invention will be made with reference to the accompanying drawings.

A splicing structure between building internal walls is shown in figure 1 and comprises a left wall board 1 and a right wall board 2, wherein the left wall board 1 and the right wall board 2 are rectangular plate structures and are formed by precast concrete, the height and the thickness of the left wall board 1 are the same as those of the right wall board 2, a left front panel 11 and a left rear panel 12 are arranged at the right side part of the left wall board 1, the left front panel 11 and the left rear panel 12 are the same in size, the left front panel 11 and the left rear panel 12 are vertically distributed, the height and the thickness of the left front panel 11 and the left rear panel 12 are respectively equal to half of the height and the thickness of the left wall board 1, the lower side of the left front panel 11 is flush with the upper side of the left rear panel 12, namely, the left front panel 11 is positioned above the left rear panel 12, the upper side of the left front panel 11 is flush with the upper side of the left wall board 1, the lower side of the left rear panel 12 is flush with the lower, the front side surface of the left front panel 11 is flush with the front side surface of the left wall panel 1, the rear side surface of the left rear panel 12 is flush with the rear side surface of the left wall panel 1, the left front panel 11 and the left rear panel 12 are in a state of up-down dislocation and front-back dislocation,

the left front panel 11 and the left rear panel 12 are integrally cast with the left wall panel 1.

The left side part of the right wallboard 2 is provided with a right front panel 21 and a right rear panel 22, the right front panel 21 and the right rear panel 22 have the same size, the right rear panel 22 and the right front panel 21 are distributed up and down, the height and the thickness of the two are respectively equal to half of the height and the thickness of the right wallboard 2, the upper side of the right front panel 21 is flush with the lower side of the right rear panel 22, namely the right front panel 21 is positioned below the right rear panel 22, the lower side of the right front panel 21 is flush with the lower side of the right wallboard 2, the upper side of the right rear panel 22 is flush with the upper side of the right wallboard 2, in addition, the front side of the right front panel 21 is flush with the front side of the right wallboard 2, the rear side of the right rear panel 22 is flush with the rear side of the right wallboard 2, the right front panel 21 and the right rear panel 22 are in a vertically staggered state, in addition, the right front panel 21 and the right rear panel 22 are in an integrated state with the right wallboard 2, namely integrally cast.

In addition, the left and right width of the left front panel 11 and the left back panel 12 is equal to the left and right width of the right front panel 21 and the right back panel 22, through the above arrangement, when the right side part of the left wall panel 1 is spliced with the left side part of the right wall panel 2, the front and back sides of the left wall panel 1 and the right wall panel 2 are kept in a flush state, the left front panel 11 and the right back panel 22 are in a same height and in a staggered state, and the left back panel 12 and the right front panel 21 are in a same height and in a staggered state, as shown in fig. 2, the left front panel 11, the right back panel 22, the left back panel 12 and the right front panel 21 are embedded into each other during splicing, a uniform wall body is formed, and the outer surface is kept flush, because the thickness of the left front panel 11, the right back panel 22, the left back panel 12 and the right front panel 21 is equal to half of the thickness of the left wall panel 1 or the right wall panel 2, the thickness of the splicing part is equal to that of the left wallboard 1 or the right wallboard 2, and the front side and the rear side of the splicing part are flush with the front side and the rear side of the left wallboard 1 or the right wallboard 2 in name measurement, so that the problem of uneven surface drop of the joint part is avoided.

In addition, as shown in fig. 1, through holes 3 which are correspondingly arranged on the left front panel 11, the right rear panel 22, the left rear panel 12 and the right front panel 21 are provided, so that harness cords can be conveniently penetrated to fixedly connect the left front panel 11, the right rear panel 22, the left rear panel 12 and the right front panel 21 together, and the overall structural strength of the wall connecting part is improved.

Further, as shown in the cross-sectional top views of fig. 3 and 4, a circular recess 31 is formed on a corresponding structure at a circumferential position of the outer end of the through hole 3, so that when the harness cord is inserted into the through hole 3 and the connection nut is anchored at the outer end of the harness cord, the connection nut will sink into the circular recess 31 and will not protrude out of the outer side surface of the structure, thereby ensuring the flatness of the outer side surface of the structure.

Further, the corner position of the lower right side of the left front panel 11 is processed by an inverted arc angle, as shown in fig. 5, so that the corner position is arc surface-shaped, and similarly, the corner position of the upper right side of the left rear panel 12 is processed by an inverted arc angle, and the corner position of the upper left side of the right front panel 21 is processed by an inverted arc angle, as shown in fig. 6, the corner position of the lower left side of the right rear panel 22 is processed by an inverted arc angle, so that the initial butt joint is facilitated, even if a slight fall exists between the heights of the left wall panel 1 and the right wall panel 2 during the initial butt joint, the adjustment error can be performed along the inverted arc angle when the left wall panel and the right wall panel are embedded into each other, and the smooth butt.

Further, the edge position of the right side of the left front panel 11 close to the back is processed by a reverse arc edge, as shown in the sectional top view of fig. 3, so that the edge of the position is arc surface-shaped, and similarly, the edge position of the right side of the left rear panel 12 close to the front is processed by a reverse arc edge, as shown in the sectional top view of fig. 4, the edge position of the left side of the right front panel 21 close to the back is processed by a reverse arc edge, and the edge position of the left side of the right rear panel 22 close to the front is processed by a reverse arc edge.

The above description, the embodiments are only intended to describe the preferred embodiments of the present invention, and not to limit the scope of the present invention, and various modifications and improvements made to the technical solutions by the engineers in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

Claims (4)

1. The utility model provides a mosaic structure between inside wall body of building which characterized in that: comprises a left wall board (1) and a right wall board (2), wherein the left wall board (1) and the right wall board (2) are rectangular plate structures, the height and the thickness of the left wall board (1) and the right wall board (2) are the same, a left front panel (11) and a left rear panel (12) are arranged at the right side part of the left wall board (1), the left front panel (11) and the left rear panel (12) are the same in size, the left front panel (11) and the left rear panel (12) are distributed up and down, the height and the thickness of the left front panel (11) and the left rear panel (12) are respectively equal to half of the height and the thickness of the left wall board (1), the lower side of the left front panel (11) is flush with the upper side of the left rear panel (12), the lower side of the left rear panel (12) is flush with the lower side of the left wall board (1), in addition, the front side of the left front panel (11) is flush with the front side of the left wall board (1), the rear side surface of the left rear panel (12) is flush with the rear side surface of the left wallboard (1);

the left side part of the right wallboard (2) is provided with a right front panel (21) and a right rear panel (22), the right front panel (21) and the right rear panel (22) are the same in size, the right rear panel (22) and the right front panel (21) are distributed up and down, the height and the thickness of the right front panel (22) and the right rear panel (21) are respectively equal to half of the height and the thickness of the right wallboard (2), the upper side of the right front panel (21) is flush with the lower side of the right rear panel (22), the lower side of the right front panel (21) is flush with the lower side of the right wallboard (2), the upper side of the right rear panel (22) is flush with the upper side of the right wallboard (2), in addition, the front side of the right front panel (21) is flush with the front side of the right wallboard (2), and the rear side of the right rear panel (22) is flush with the rear side of the right wallboard;

in addition, the left-right width of the left front panel (11) and the left rear panel (12) is equal to the left-right width of the right front panel (21) and the right rear panel (22);

in addition, through holes (3) which penetrate through the left front panel (11) and the right rear panel (22) and the left rear panel (12) and the right front panel (21) in corresponding positions exist.

2. The building interior wall-to-wall composite structure of claim 1, wherein: and a round recess (31) is formed in the periphery of the outer end of the through hole (3) on the corresponding structural body.

3. The building interior wall-to-wall composite structure of claim 2, wherein: the corner position of the right below of left side front panel (11) adopts the chamfer angle to handle for this corner position is the arc surface form, and is same, the corner position of the upper right side of left side rear panel (12) adopts the chamfer angle to handle, the corner position of the upper left side of right front panel (21) adopts the chamfer angle to handle, the corner position of the left below of right rear panel (22) adopts the chamfer angle to handle.

4. The building interior wall-to-wall mosaic structure of claim 3, wherein: the edge position that the right side of left side front panel (11) leaned on the back adopts the side of falling arc to handle for the edge of its this position is the arc face form, and is same, the edge position that the right side of left side rear panel (12) leaned on the front adopts the side of falling arc to handle, the edge position that the left side of right front panel (21) leaned on the back adopts the side of falling arc to handle, the edge position that the left side of right rear panel (22) leaned on the front adopts the side of falling arc to handle.

Images