CN211923114U - Wallboard splicing piece, wall body of assembly type building and assembly type building - Google Patents

Abstract

The utility model relates to a wallboard splicing piece can be used for splicing the interior wallboard of adjacent setting, the wallboard splicing piece has: the inner wall panel comprises a frame connecting part connected with a frame for installing the inner wall panel, a wall panel splicing part for splicing adjacent inner wall panels and a gap maintaining part; the gap maintaining part is fixedly arranged between the frame connecting part and the wallboard splicing part and keeps a preset distance between the wallboard splicing part and the frame connecting part. The application provides a wall body and prefabricated building of prefabricated building in addition. The utility model provides a wallboard splicing piece, behind frame attach portion connected frame, clearance holding portion makes wallboard splicing portion and frame attach portion keep having predetermined interval, because the existence of this interval, passes through wallboard splicing portion concatenation back in adjacent interior wallboard, is formed with between interior wallboard and the frame and pours the clearance, and then when pouring the operation, pours the cement of usefulness and can get into in this pouring clearance, reinforces the connection of interior wallboard and frame.

Description

Wallboard splicing piece, wall body 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 wallboard splice, assembly type structure's wall body and assembly type structure.

Background

The fabricated building can be assembled in a modularization mode and is gradually applied to low-rise buildings. Fabricated buildings typically include a wall body comprised of a frame, interior and exterior panels with cement poured between them. In the existing design scheme, after the inner wall panel is installed on the frame, the surface of the inner wall panel is usually attached to the inner side surface of the frame, and in this design mode, the connection strength of the part where the inner wall panel and the frame are attached is weak. In view of this, the present application is specifically made.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is the joint strength of wallboard in order to improve interior wallboard and the frame part of meeting in how the installation.

In order to solve the technical problem, the utility model provides a wallboard splicing piece for splice the interior wallboard of adjacent setting, the wallboard splicing piece has: the inner wall panel comprises a frame connecting part connected with a frame for installing the inner wall panel, a wall panel splicing part for splicing adjacent inner wall panels and a gap maintaining part; the gap maintaining part is fixedly arranged between the frame connecting part and the wallboard splicing part and keeps a preset distance between the wallboard splicing part and the frame connecting part.

Preferably, the inner wall panel is provided with splicing grooves, the wall panel splicing parts are provided with splicing thin walls positioned on two sides, and the wall panel splicing parts splice the adjacent inner wall panels in a mode that the splicing thin walls on the two sides are respectively embedded into the splicing grooves of the adjacent inner wall panels.

Preferably, the connection positions of the splicing thin walls on the two sides are provided with sealing element installation parts, and the sealing element installation parts are used for installing sealing elements for sealing splicing gaps of the adjacent inner wall boards.

The application also provides a wall body of the fabricated building, which comprises a frame, an inner wallboard and an installation mechanism for installing the inner wallboard on the inner side of the frame; the installation mechanism enables a pouring gap to be formed between the frame and the inner wall plate; the mounting mechanism comprises a wallboard supporting piece and a wallboard splicing piece; the wallboard supporting piece is fixedly arranged on the frame and is provided with a supporting part for supporting the bottom side of the inner wallboard along the longitudinal direction of the wall body; the wallboard splicing piece is provided with a frame connecting part, a wallboard splicing part and a gap maintaining part; the frame connecting portion sets firmly on the frame, the wallboard concatenation portion sets up in frame connecting portion's inboard and transversely splices adjacent interior wallboard along the wall body along the inside and outside direction of wall body, clearance holding portion sets firmly between frame connecting portion and wallboard concatenation portion and keeps wallboard concatenation portion and frame connecting portion predetermined interval.

Preferably, the adjacent inner wall panels are provided with splicing grooves which are transversely and oppositely arranged along the wall body, the wall panel splicing parts are provided with splicing thin walls which are transversely arranged on two sides along the wall body, and the splicing thin walls on the two sides are respectively embedded into the splicing grooves of the adjacent inner wall panels.

Preferably, the installation mechanism further comprises a sealing element for sealing the splicing seams of the adjacent inner wall boards, the joint position of the splicing thin walls on the two sides is provided with a sealing element installation part for installing the sealing element, and the sealing element is positioned in the splicing grooves of the adjacent inner wall boards.

Preferably, the frame has a first frame face and a second frame face with an outer surface facing the interior wall panel, the casting gap comprising: a first casting gap between the first frame surface and the outer surface of the inner wallboard, and a second casting gap between the second frame surface and the outer surface of the inner wallboard; the thickness of the first pouring gap in the inner and outer direction of the wall body is smaller than that of the second pouring gap in the inner and outer direction of the wall body.

Preferably, the frame comprises an outer frame component and an inner frame component fixedly arranged in the outer frame component; the inner frame assembly includes a plurality of rib members disposed transversely along the wall, the rib members having the first frame face, the second frame face, and a transition face perpendicular to the first frame face and the second frame face and facing an upper side.

Preferably, the frame comprises an outer frame component and an inner frame component fixedly arranged in the outer frame component; the outer frame assembly includes: the keel structure comprises a longitudinal keel longitudinally arranged along a wall body and a transverse keel transversely arranged along the wall body; a transverse keel positioned on the underside of said longitudinal keel and having a pair of side walls for gripping said longitudinal keel; the frame comprises a pair of U-shaped clamping pieces for clamping the side walls, the wallboard supporting piece is provided with a supported part, and the U-shaped clamping piece is provided with a clamping wall for supporting the supported part.

The application further provides an assembly type building, which comprises the wall body.

By adopting the technical scheme, the utility model discloses can gain following technological effect:

1. according to the wallboard splicing piece, after the frame connecting part is connected with the frame, the gap maintaining part enables the wallboard splicing part and the frame connecting part to maintain a preset gap, due to the existence of the gap, after adjacent inner wallboards are spliced through the wallboard splicing part, a pouring gap is formed between the inner wallboards and the frame, and then when pouring operation is carried out, cement for pouring can enter the pouring gap to strengthen the connection between the inner wallboards and the frame;

2. in the case where the rib member has a transition surface perpendicular to the first frame surface and the second frame surface, the transition surface can support a casting cement attached to the first frame surface;

3. under the condition that the U-shaped clamping piece is provided with a clamping wall for bearing the supported part of the wallboard supporting piece, the bearing capacity of the wallboard supporting piece can be enhanced.

Drawings

FIG. 1 is a schematic view of a wall of a fabricated building according to one embodiment;

FIG. 2 shows a cross-sectional view taken along the line A-A of FIG. 1;

FIGS. 3 to 5 are different exploded views of the wall of the prefabricated building according to an embodiment;

FIG. 6 is a process diagram showing the installation of the inner wall panel, outer wall panel and outer wall panel to the frame;

FIG. 7 depicts an enlarged view of the area M1 of FIG. 6;

FIG. 8 depicts an enlarged view of the area M2 of FIG. 6;

FIG. 9 is a process diagram of adjacent interior wall panels being joined by a wall panel splice;

fig. 10 shows an enlarged view of the region M3 of fig. 9.

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.

Referring to fig. 1 to 5, for convenience of description, the X direction is an outside-in direction of the wall, the Y direction is a transverse direction of the wall, and the Z direction is a longitudinal direction of the wall. In one embodiment, the wall of the prefabricated building of the present application comprises: the wall comprises a frame 1, an inner wall plate 2, an outer baffle plate 3, an outer wall plate 4 and a mounting mechanism 5. Interior wallboard 2 installs in the inboard of frame 1 through installation mechanism 5, and outer baffle 3 installs in the outside of frame 1, has between interior wallboard 2 and the outer baffle 3 and forms the grout room as figure 5, has set firmly a plurality of joint structures 12 on the frame 1, and outer baffle 3 installs in the outside of frame 1 through this joint structure.

Referring to fig. 3, the frame 1 includes: frame structure 6, reinforcing bar 7 and U-shaped holder 8. Frame structure 6

The frame structure 6 includes: two longitudinal keels 6A arranged at intervals along the transverse direction Y of the wall body, two transverse keels 6B arranged along the longitudinal direction Z of the wall body, a plurality of rib pieces 6C arranged transversely, and a middle keel 6D arranged along the longitudinal direction Z of the wall body. The transverse keels 6B on the upper side and the transverse keels 6B on the lower side are respectively provided with a pair of side walls, a clamping groove is defined between the pair of side walls, the pair of side walls of the transverse keels 6B on the upper side clamps the upper sides of the two longitudinal keels 6A and the middle keel 6D, and the pair of side walls of the transverse keels 6B on the lower side clamps the lower sides of the two longitudinal keels 6A and the middle keel 6D, so that the outer frame assembly is formed. The rib conditions 6C are in a zigzag structure, the plurality of rib conditions 6C are divided into two groups, one group is installed on the inner side of the outer frame component, the other group is installed on the outer side of the outer frame component, and the plurality of rib conditions 6C arranged along the transverse direction Y of the wall body form the inner frame component. The inner frame assembly can be fixedly arranged in the outer frame assembly in a welding mode.

With reference to fig. 2 to 4, the frame 1 has a first frame face S1 and a second frame face S2 facing the outer surface of the inner wall panel 2, and the casting gap L includes: a first casting gap L1 between the first frame surface S1 and the outer surface of the interior wall panel 2, and a second casting gap L2 between the second frame surface S2 and the outer surface of the interior wall panel 2. The thickness of the first casting gap L1 along the inner and outer direction X of the wall body is smaller than that of the second casting gap L2 along the inner and outer direction X of the wall body. Specifically, as shown in fig. 4, the longitudinal spine 6A, the lateral spine 6B, the rib member 6C, and the intermediate spine 6D have the first frame surface S1, and the rib member 6C further has the second frame surface S2, and in this embodiment, the rib member 6C further has a transition surface S3 perpendicular to the first frame surface S1 and the second frame surface S2 and facing upward, and when the casting cement is cast in the casting clearance L, the partially cured cement is supported on the transition surface S3.

The number of the reinforcing strips 7 is three, each reinforcing strip 7 extends along the longitudinal direction Z of the wall body, and the three reinforcing strips 7 can be arranged on the outer side of the frame body structure 6 at intervals along the transverse direction Y of the wall body in a welding mode. Referring to fig. 5, a plurality of clamping structures 12 are mounted on the outer side surface of each reinforcing strip 7 and arranged at intervals along the longitudinal direction Z of the wall body, the outer baffle 3 can be arranged on the outer side of the frame structure 6 at intervals in a welding mode, and the outer wall panel 4 is mounted on the outer side of the frame structure 6 in a mode of being hung on the clamping structures 12.

Referring to fig. 3 and 8, the U-shaped clip 8 has a pair of clip walls 8A disposed opposite to each other in the inward-outward direction X of the wall body, and the pair of clip walls 8A clip the side walls of the lower cross runner 6B. The U-shaped clamping piece 8 improves the stability of the transverse keel 6B after clamping the longitudinal keel 6A and the middle keel 6D.

With reference to fig. 2, the mounting mechanism 5 forms a casting gap L between the frame 1 and the inner wall panel 2. The mounting mechanism 5 includes: wallboard support 9, wallboard splice 10, and seal 11.

With reference to fig. 6 to 10, the wall plate support 9 is fixed to the frame 1 and has: a connecting part 9A connected with the frame 1, a bearing part 9B bearing the bottom side of the inner wallboard 2 along the longitudinal direction Z of the wall body, and a supported part 9C. The connecting part 9A can be fixedly arranged on the longitudinal keel 6A of the frame 1 by welding. The bearing part 9B is a groove with an upward notch, the groove extends along the transverse direction Y of the wall body, and the lower side of the opposite inner wall plate 2 is embedded in the groove. Referring to fig. 8, the holding wall 8A of the U-shaped holding member 8 located at the inner side supports the supported portion 9C, and the holding wall 8A can reinforce the supporting capability of the wall board supporting member.

Referring to fig. 9 and 10, the wallboard splicing element 10 has a frame connecting portion 10A, a wallboard splicing portion 10B, a gap retaining portion 10C, and a seal mounting portion 10D, which may be integrally formed. The frame connecting portion 10A is used to connect with the frame 1 for installing the inner wall panel 2, and referring to fig. 3, the frame connecting portion 10A is fixedly installed on the cross runners 6B and the inner rib members 6C of the frame 1 at a position approximately corresponding to the middle runners 6D. Wallboard concatenation portion 10B sets up in frame attach portion 10A's inboard and along the horizontal Y concatenation adjacent interior wallboard 2 of wall body along the inside and outside direction X of wall body, and clearance holding portion 10C sets firmly between frame attach portion 10A and wallboard concatenation portion 10B and keeps wallboard concatenation portion 10B and frame attach portion 10A predetermined interval. In this embodiment, adjacent interior wallboard 2 has the splice groove 2A that sets up relatively along the horizontal Y of wall body, and wallboard concatenation portion 10B has the concatenation thin wall that lies in both sides along the horizontal Y of wall body, and the concatenation thin wall of both sides imbeds splice groove 2A of adjacent interior wallboard 2 respectively, and through the aforesaid mode, wallboard concatenation portion 10B splices adjacent interior wallboard 2. The sealing element mounting part 10D is located at the joint position of the splicing thin walls on the two sides, and is a groove arranged along the longitudinal direction Z of the wall body.

The sealing member 11 is used for sealing the splicing seam of the adjacent inner wall boards 2, and in this embodiment, it is a strip extending along the longitudinal direction Z of the wall body, and the strip-shaped sealing member 11 is embedded in the groove of the aforementioned sealing member mounting portion 10D. After the adjacent inner wall boards 2 are spliced, the sealing member 11 is positioned in the splicing groove 2A of the adjacent inner wall board 2.

The above is an embodiment of the present application, and in another embodiment, the wallboard splicing element 10 may not have the sealing element mounting portion 10D, and the mounting mechanism 5 may omit the sealing element 11, while the wallboard splicing element 10B may be adjusted to have a splicing groove, and the inner wallboard 2 may be adjusted to have a thin splicing wall.

The application further provides an assembly type building, which comprises the wall body.

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. A wallboard splice for splicing adjacently disposed interior wallboards, the wallboard splice having: a frame connecting part (10A) used for being connected with a frame (1) for installing the inner wall board (2), a wall board splicing part (10B) used for splicing the adjacent inner wall boards (2), and a gap maintaining part (10C); the gap maintaining part (10C) is fixedly arranged between the frame connecting part (10A) and the wallboard splicing part (10B), and keeps a preset distance between the wallboard splicing part (10B) and the frame connecting part (10A).

2. The wall panel splice according to claim 1, wherein the inner wall panel (2) has a splice groove (2A), the wall panel splice (10B) has splice thin walls on both sides, and the wall panel splice (10B) splices adjacent inner wall panels (2) by embedding the splice thin walls on both sides into the splice groove (2A) of the adjacent inner wall panels (2), respectively.

3. The wallboard splicing element of claim 2, wherein the joining location of the splicing thin walls of the two sides has a seal mounting portion (10D), the seal mounting portion (10D) being configured to mount a seal that seals the splicing gap of the adjacent inner wallboards (2).

4. A wall body of an assembly type building comprises a frame (1), an inner wallboard (2) and an installation mechanism (5) for installing the inner wallboard (2) on the inner side of the frame (1); the wall-mounted type wall-mounted system is characterized in that a pouring gap (L) is formed between the frame (1) and the inner wall plate (2) by the mounting mechanism (5); the mounting mechanism (5) comprises a wallboard supporting piece (9) and a wallboard splicing piece (10); the wallboard supporting piece (9) is fixedly arranged on the frame (1) and is provided with a supporting part (9B) for supporting the bottom side of the inner wallboard (2) along the longitudinal direction (Z) of the wall body; the wallboard splicing piece (10) is provided with a frame connecting part (10A), a wallboard splicing part (10B) and a gap maintaining part (10C); frame connecting portion (10A) sets firmly on frame (1), wallboard concatenation portion (10B) set up in frame connecting portion (10A) inboard and along the horizontal (Y) concatenation adjacent interior wallboard (2) of wall body along the inside and outside direction (X) of wall body, clearance holding portion (10C) set firmly between frame connecting portion (10A) and wallboard concatenation portion (10B) and keep wallboard concatenation portion (10B) and frame connecting portion (10A) predetermined interval.

5. The wall body of the prefabricated building according to claim 4, wherein the adjacent inner wall panels (2) are provided with splicing grooves (2A) which are oppositely arranged along the transverse direction (Y) of the wall body, the wall panel splicing parts (10B) are provided with splicing thin walls which are positioned at two sides along the transverse direction (Y) of the wall body, and the splicing thin walls at the two sides are respectively embedded into the splicing grooves (2A) of the adjacent inner wall panels (2).

6. The wall body of the prefabricated building as claimed in claim 5, wherein the mounting mechanism (5) further comprises a sealing member (11) for sealing the joint seam of the adjacent inner wall panels (2), the joint position of the joint thin walls at the two sides is provided with a sealing member mounting part (10D) for mounting the sealing member (11), and the sealing member (11) is positioned in the joint groove (2A) of the adjacent inner wall panels (2).

7. The wall of a fabricated building according to claim 4, wherein the frame (1) has a first frame face (S1) and a second frame face (S2) facing the outer surface of the inner wall panel (2), and the casting gap (L) comprises: a first casting gap (L1) between the first frame surface (S1) and the outer surface of the inner wall panel (2), and a second casting gap (L2) between the second frame surface (S2) and the outer surface of the inner wall panel (2); the thickness of the first pouring clearance (L1) along the inner and outer direction (X) of the wall body is smaller than that of the second pouring clearance (L2) along the inner and outer direction (X) of the wall body.

8. The wall body of the prefabricated building according to claim 7, wherein the frame (1) comprises an outer frame component, an inner frame component fixedly arranged inside the outer frame component; the inner frame assembly includes a plurality of rib members (6C) arranged in a wall body transverse direction (Y), the rib members (6C) having the first frame face (S1), the second frame face (S2), and a transition face (S3) perpendicular to the first frame face (S1) and the second frame face (S2) and facing an upper side.

9. The wall body of the prefabricated building according to claim 4, wherein the frame (1) comprises an outer frame component, an inner frame component fixedly arranged inside the outer frame component; the outer frame assembly includes: a longitudinal keel (6A) arranged along the longitudinal direction (Z) of the wall body and a transverse keel (6B) arranged along the transverse direction (Y) of the wall body; one said cross runner (6B) being located on the underside of said longitudinal runner (6A) and the one said cross runner (6B) having a pair of side walls which grip said longitudinal runner (6A); the frame (1) comprises a U-shaped clamping piece (8) for clamping the pair of side walls, the wallboard supporting piece (9) is provided with a supported part (9C), and the U-shaped clamping piece (8) is provided with a clamping wall (8A) for supporting the supported part (9C).

10. A fabricated building incorporating the wall of any one of claims 4 to 9.

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