CN212317212U - Spliced keel, wall module of assembly type building and assembly type building - Google Patents

Abstract

The utility model relates to a splicing type keel, which comprises a first splicing wall part, a second splicing wall part and a third splicing wall part, wherein the second splicing wall part is positioned between the first splicing wall part and the third splicing wall part, and the first splicing wall part, the second splicing wall part and the third splicing wall part are connected in a ladder shape; adjacent concatenation formula fossil fragments can splice mutually with the concatenation state of two kinds of differences, and under two kinds of concatenation states, the concatenation portion that closes to mutually all has the screw via hole that is linked together. The application provides assembly type structure's wall module and assembly type structure in addition. The utility model provides a concatenation fossil fragments are by being the concatenation wall portion that the echelonment is connected and constitute, and each concatenation wall portion has the screw via hole, and the at least partial screw via hole of the concatenation wall portion that is close to under first concatenation state and second concatenation state is linked together, and the wall body module that adopts above-mentioned concatenation fossil fragments all has the screw via hole that is linked together when splicing with different concatenation states, and the wall body module can satisfy assembled building design overall arrangement needs betterly.

Description

Spliced keel, wall module of assembly type building and assembly type building

Technical Field

The utility model relates to an assembly type structure's technique specifically relates to a wall body module and assembly type structure of concatenation formula fossil fragments, assembly type structure.

Background

The fabricated building can be assembled in a modularization mode and is gradually applied to low-rise buildings. The assembly type structure includes a plurality of wall body modules usually, and the wall body module includes frame set spare, and frame set spare has violently indulges the fossil fragments usually, and the wall body module needs splice mutually with different position according to the architectural design needs, and the concatenation scheme of how to design the wall body module is one of the design points. In view of this, the present application is specifically made.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a concatenation scheme of assembly type structure is provided.

In order to solve the technical problem, the utility model provides a splicing type keel, and adjacent splicing type keels can be spliced in a first splicing state and a second splicing state; the splicing type keel comprises a first splicing wall part, a second splicing wall part and a third splicing wall part, wherein the second splicing wall part is positioned between the first splicing wall part and the third splicing wall part and is connected in a step shape; the first splicing state is as follows: the second spliced wall part of one of the adjacent spliced keels is adjacent to the first spliced wall part of the other one of the adjacent spliced keels, and the third spliced wall part of one of the adjacent spliced keels is adjacent to the second spliced wall part of the other one of the adjacent spliced keels; the second splicing state is as follows: the first spliced wall portion of one of the adjacent spliced keels is adjacent to the third spliced wall portion of the other of the adjacent spliced keels, the second spliced wall portion of one of the adjacent spliced keels is adjacent to the second spliced wall portion of the other of the adjacent spliced keels, and the third spliced wall portion of one of the adjacent spliced keels is adjacent to the first spliced wall portion of the other of the adjacent spliced keels; screw through holes are respectively formed in the first splicing wall portion, the second splicing wall portion and the third splicing wall portion, and at least part of screw through holes of the splicing wall portions which are close to each other under the first splicing state and the second splicing state are communicated.

Preferably, the first splicing wall portion is connected to a first rib connecting portion through a first connecting wall portion, and the third splicing wall portion is connected to a second rib connecting portion through a second connecting wall portion; the first rib connecting portion, the second rib connecting portion, the first connecting wall portion and the second connecting wall portion are located on the same side of the third splicing wall portion, the first rib connecting portion is located on one side, close to the second splicing wall portion, of the first connecting wall portion, and the second rib connecting portion is located on one side, close to the second splicing wall portion, of the second connecting wall portion.

Preferably, the first rib connecting part and the second rib connecting part are of an L-shaped structure.

Preferably, the screw through hole of at least one of the first splicing wall portion, the second splicing wall portion and the third splicing wall portion is transversely arranged on two sides.

The application further provides a wall module of the fabricated building, which comprises longitudinal keels which are transversely arranged on two sides and are oppositely arranged, and the longitudinal keels of the adjacent wall modules can be spliced in a first splicing state and a second splicing state; each longitudinal keel comprises a first splicing wall part, a second splicing wall part and a third splicing wall part, wherein the second splicing wall part is positioned between the first splicing wall part and the third splicing wall part and is connected with the first splicing wall part and the third splicing wall part in a step shape; the first splicing state is as follows: the second spliced wall part of one of the adjacent longitudinal keels is adjacent to the first spliced wall part of the other one of the adjacent longitudinal keels, and the third spliced wall part of one of the adjacent longitudinal keels is adjacent to the second spliced wall part of the other one of the adjacent longitudinal keels; the second splicing state is as follows: the first spliced wall portion of one of the adjacent longitudinal keels is adjacent to the third spliced wall portion of the other of the adjacent longitudinal keels, the second spliced wall portion of one of the adjacent longitudinal keels is adjacent to the second spliced wall portion of the other of the adjacent longitudinal keels, and the third spliced wall portion of one of the adjacent longitudinal keels is adjacent to the first spliced wall portion of the other of the adjacent longitudinal keels; screw through holes are respectively formed in the first splicing wall portion, the second splicing wall portion and the third splicing wall portion, and at least part of screw through holes of the splicing wall portions which are close to each other under the first splicing state and the second splicing state are communicated.

Preferably, the first splicing wall portion is connected to a first rib connecting portion through a first connecting wall portion, and the third splicing wall portion is connected to a second rib connecting portion through a second connecting wall portion; the first rib connecting part, the second rib connecting part, the first connecting wall part and the second connecting wall part are positioned on the same side of the third spliced wall part, the first rib connecting part is positioned on one side of the first connecting wall part close to the second spliced wall part, and the second rib connecting part is positioned on one side of the second connecting wall part close to the second spliced wall part; be connected with a plurality of first ribs between the first rib connecting portion of the vertical fossil fragments of both sides, be connected with a plurality of second ribs between the second rib connecting portion of the vertical fossil fragments of both sides.

Preferably, the first rib and/or the second rib extend in the transverse direction.

Preferably, the screw through hole of at least one of the first splicing wall portion, the second splicing wall portion and the third splicing wall portion is transversely arranged on two sides.

An assembly type building comprises two wall body modules which are adjacently arranged; the two wall body modules are any one of the wall body modules, and the adjacent longitudinal keels of the two wall body modules are spliced in a first splicing state through screws.

An assembly type building comprises two wall body modules which are adjacently arranged; the two wall modules are any one of the wall modules, and the adjacent longitudinal keels of the two wall modules are spliced in a second splicing state through screws.

By adopting the technical scheme, the utility model discloses can gain following technological effect: the utility model provides a concatenation fossil fragments are become by being the concatenation wall that the echelonment is connected, and each concatenation wall has the screw via hole, and the at least partial screw via hole of the wall portion that is close to under first concatenation state and second concatenation state is linked together, and the wall body module that adopts above-mentioned concatenation fossil fragments all has the screw via hole that is linked together when splicing with two kinds of concatenation states, and the wall body module can satisfy assembled building design overall arrangement needs betterly.

Drawings

FIG. 1 is a schematic view of a tiled wall module of an embodiment;

figure 2 is a schematic illustration of figure 1 with the upper transverse keel omitted;

FIG. 3 shows an exploded view of FIG. 2;

FIG. 4 depicts a top view of FIG. 2;

FIG. 5 depicts a top view of another embodiment of the tiled wall module with the upper cross runners omitted;

figure 6 illustrates a top view of a splice keel according to one embodiment of the present application;

figure 7 illustrates a perspective view of a splice keel according to one embodiment of the present application;

figure 8 is a schematic view showing adjacent splice keels being spliced together in a first splice state;

figure 9 is a schematic view showing adjacent splice keels being spliced together in a second splice state;

FIG. 10 depicts a schematic view of a rib;

FIG. 11 is a schematic view of another embodiment of a wall module.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

With reference to fig. 1 to 3, in an embodiment, two wall modules are connected in a substantially L-shaped manner, and a transverse cross-section of each wall module is in a T-shape, and the wall module includes: the rib comprises two longitudinal keels 1 which are oppositely arranged along the transverse direction, two transverse keels 2 which are oppositely arranged along the longitudinal direction, a plurality of first ribs 3 which are transversely arranged and a plurality of second ribs 4 which are transversely arranged. Referring to fig. 10, each of the first ribs 3 and the second ribs 4 extends in the transverse direction X and has a substantially inverted v-shaped cross section in the longitudinal direction Y.

Referring to fig. 4, the adjacent longitudinal keels 1 of the two wall modules are connected by screws S. With reference to fig. 5, two wall modules may be connected in a straight line, and in this connection, the adjacent longitudinal keels 1 of the two wall modules are also connected by screws S. The specific structure that can be used for the longitudinal runners 1 is further described below.

With reference to fig. 6 and 7, the longitudinal keel 1 is a splicing keel, which can be formed by bending a sheet plate or manufactured by injection molding, and the longitudinal keel 1 is provided with a pouring gate. The longitudinal keel 1 comprises: a first rib connecting portion 1A, a second rib connecting portion 1B, a first connecting wall portion 1C, a second connecting wall portion 1G, and a spliced portion 1H. The splice portion 1H comprises: a first spliced wall section 1D, a second spliced wall section 1E and a third spliced wall section 1F. The second spliced wall portion 1E is located between the first spliced wall portion 1D and the third spliced wall portion 1F, and the three are connected in a stepped shape. The first spliced wall portion 1D is connected to the first rib connecting portion 1A through the first connecting wall portion 1C, and the third spliced wall portion 1F is connected to the second rib connecting portion 1B through the second connecting wall portion 1G. The first rib connecting portion 1A, the second rib connecting portion 1B, the first connecting wall portion 1C, and the second connecting wall portion 1G are located on the same side (upper side in the view of fig. 6) of the third joined wall portion 1F, the first rib connecting portion 1A is located on the side of the first connecting wall portion 1C close to the second joined wall portion 1E (left side of the first connecting wall portion 1C in the view of fig. 6), and the second rib connecting portion 1B is located on the side of the second connecting wall portion 1G close to the second joined wall portion 1E (right side of the second connecting wall portion 1G in the view of fig. 6). As shown in fig. 7, the first splicing wall portion 1D, the second splicing wall portion 1E and the third splicing wall portion 1F are respectively provided with screw through holes M, in this embodiment, the screw through holes M of the first splicing wall portion 1D, the second splicing wall portion 1E and the third splicing wall portion 1F are transversely provided at two sides, and the screw through holes M at the same height in the longitudinal direction are also distributed in a step manner. First rib connecting portion 1A and second rib connecting portion 1B are L shape structure, are connected with aforementioned a plurality of first ribs 3 between the first rib connecting portion 1A of the vertical fossil fragments of both sides, are connected with aforementioned a plurality of second ribs 4 between the second rib connecting portion 1B of the vertical fossil fragments 1 of both sides. Both sides of the first rib 3 and the second rib 4 may be connected to the rib connection part by welding.

With reference to fig. 8, the adjacent longitudinal runners 1 can be spliced in a first splicing state, in which, specifically, the second spliced wall portion 1E of one of the adjacent longitudinal runners 1 (the longitudinal runner on the upper side in the view of fig. 8) and the first spliced wall portion 1D of the other one of the adjacent longitudinal runners 1 (the longitudinal runner on the lower side in the view of fig. 8) are adjacent to each other, and the third spliced wall portion 1F of one of the adjacent longitudinal runners and the second spliced wall portion 1E of the other one of the adjacent longitudinal runners are adjacent to each other. The adjacent splicing wall parts are connected through screws S.

With reference to fig. 9, the adjacent longitudinal runners 1 can be spliced in a second splicing state, specifically, in the second splicing state, the first splicing wall portion 1D of one of the adjacent longitudinal runners 1 (the longitudinal runner on the upper side in the view of fig. 9) and the third splicing wall portion 1F of the other one of the adjacent longitudinal runners (the longitudinal runner on the lower side in the view of fig. 9) are proximate, the second splicing wall portion 1E of one of the adjacent longitudinal runners 1 and the second splicing wall portion 1E of the other one of the adjacent longitudinal runners 1 are proximate, and the third splicing wall portion 1F of one of the adjacent longitudinal runners 1 and the first splicing wall portion 1D of the other one of the adjacent longitudinal runners 1 are proximate. The adjacent splicing wall parts are also connected through screws.

As will be understood from the description of fig. 8 and 9, the screw through holes M are distributed in a manner that when the splicing walls are spliced together in different manners, the screw through holes of the adjacent splicing walls are at least partially communicated with each other.

The wall module is a wall block without an opening, and in combination with fig. 11, the solution of the present application can also be used for a wall module with a door leaf installation opening, and the longitudinal keels on both sides of the wall module can also be the longitudinal keels.

The application still provides an assembly type structure, contains the aforementioned wall body module of two adjacent settings, and the vertical fossil fragments that two wall body modules are adjacent pass through the screw and splice mutually with first concatenation state or second concatenation state.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. Adjacent spliced keels can be spliced in a first splicing state and a second splicing state; it is characterized in that the preparation method is characterized in that,

the splicing type keel comprises a first splicing wall part (1D), a second splicing wall part (1E) and a third splicing wall part (1F), wherein the second splicing wall part (1E) is positioned between the first splicing wall part (1D) and the third splicing wall part (1F), and the first splicing wall part (1D) and the third splicing wall part (1F) are connected in a step shape;

the first splicing state is as follows: the second spliced wall (1E) of one of the adjacent spliced keels is adjacent to the first spliced wall (1D) of the other one of the adjacent spliced keels, and the third spliced wall (1F) of one of the adjacent spliced keels is adjacent to the second spliced wall (1E) of the other one of the adjacent spliced keels;

the second splicing state is as follows: the first spliced wall (1D) of one of the adjacent spliced keels is adjacent to the third spliced wall (1F) of the other of the adjacent spliced keels, the second spliced wall (1E) of one of the adjacent spliced keels is adjacent to the second spliced wall (1E) of the other of the adjacent spliced keels, and the third spliced wall (1F) of one of the adjacent spliced keels is adjacent to the first spliced wall (1D) of the other of the adjacent spliced keels;

screw through holes (M) are respectively formed in the first splicing wall portion (1D), the second splicing wall portion (1E) and the third splicing wall portion (1F), and at least part of screw through holes (M) of the splicing wall portions which are close to each other under the first splicing state and the second splicing state are communicated.

2. Splice keel according to claim 1, wherein said first splice wall (1D) is connected to a first rib connection (1A) by a first connecting wall (1C), and said third splice wall (1F) is connected to a second rib connection (1B) by a second connecting wall (1G); the first rib connecting portion (1A), the second rib connecting portion (1B), the first connecting wall portion (1C) and the second connecting wall portion (1G) are located on the same side of the third spliced wall portion (1F), the first rib connecting portion (1A) is located on one side, close to the second spliced wall portion (1E), of the first connecting wall portion (1C), and the second rib connecting portion (1B) is located on one side, close to the second spliced wall portion (1E), of the second connecting wall portion (1G).

3. Splice keel according to claim 2, characterised in that said first rib connection (1A) and said second rib connection (1B) are of L-shaped configuration.

4. Splicing keel according to claim 2, characterized in that the screw through hole of at least one of the first splicing wall part (1D), the second splicing wall part (1E) and the third splicing wall part (1F) is opened on both sides along the transverse direction.

5. The wall body module of the prefabricated building comprises longitudinal keels which are transversely positioned on two sides and are oppositely arranged, and the longitudinal keels of the adjacent wall body modules can be spliced in a first splicing state and a second splicing state; it is characterized in that the preparation method is characterized in that,

each longitudinal keel comprises a first spliced wall part (1D), a second spliced wall part (1E) and a third spliced wall part (1F), wherein the second spliced wall part (1E) is positioned between the first spliced wall part (1D) and the third spliced wall part (1F), and the first spliced wall part (1D) and the third spliced wall part (1F) are connected in a step shape;

the first splicing state is as follows: the second spliced wall (1E) of one of the adjacent longitudinal keels is adjacent to the first spliced wall (1D) of the other one of the adjacent longitudinal keels, and the third spliced wall (1F) of one of the adjacent longitudinal keels is adjacent to the second spliced wall (1E) of the other one of the adjacent longitudinal keels;

the second splicing state is as follows: the first spliced wall (1D) of one of the adjacent longitudinal keels and the third spliced wall (1F) of the other of the adjacent longitudinal keels are adjacent, the second spliced wall (1E) of one of the adjacent longitudinal keels and the second spliced wall (1E) of the other of the adjacent longitudinal keels are adjacent, and the third spliced wall (1F) of one of the adjacent longitudinal keels and the first spliced wall (1D) of the other of the adjacent longitudinal keels are adjacent;

screw through holes (M) are respectively formed in the first splicing wall portion (1D), the second splicing wall portion (1E) and the third splicing wall portion (1F), and at least part of screw through holes (M) of the splicing wall portions which are close to each other under the first splicing state and the second splicing state are communicated.

6. A wall module according to claim 5, characterised in that the first spliced wall section (1D) is connected to a first rib connection (1A) by means of a first connecting wall section (1C), and that the third spliced wall section (1F) is connected to a second rib connection (1B) by means of a second connecting wall section (1G); the first rib connecting portion (1A), the second rib connecting portion (1B), the first connecting wall portion (1C) and the second connecting wall portion (1G) are located on the same side of the third spliced wall portion (1F), the first rib connecting portion (1A) is located on one side, close to the second spliced wall portion (1E), of the first connecting wall portion (1C), and the second rib connecting portion (1B) is located on one side, close to the second spliced wall portion (1E), of the second connecting wall portion (1G); a plurality of first ribs (3) are connected between the first rib connecting parts (1A) of the longitudinal keels on the two sides, and a plurality of second ribs (4) are connected between the second rib connecting parts (1B) of the longitudinal keels on the two sides.

7. A wall module according to claim 6, characterised in that the first rib (3) and/or the second rib (4) extend in the transverse direction.

8. The wall module according to claim 7, characterized in that the screw through hole of at least one of the first spliced wall section (1D), the second spliced wall section (1E) and the third spliced wall section (1F) is arranged on both sides in the transverse direction.

9. An assembly type building comprises two wall body modules which are adjacently arranged; characterized in that two wall modules are as claimed in any one of claims 5 to 8, the adjacent longitudinal keels of two wall modules being spliced together in a first splicing state by means of screws (S).

10. An assembly type building comprises two wall body modules which are adjacently arranged; characterized in that two wall modules are as claimed in any one of claims 5 to 8, the adjacent longitudinal keels of the two wall modules being spliced together in the second splicing state by means of screws.

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