CN220814385U - Module framework for facing integrated partition wall - Google Patents

Abstract

The module framework comprises two opposite structural keels and a plurality of transverse keels arranged between the two structural keels, wherein the structural keels are vertically arranged, and the transverse keels are positioned at different horizontal heights of the structural keels; the lateral surface of the structural keel is provided with a splicing groove arranged along the length direction of the structural keel, and two ends of the transverse keel are provided with splicing blocks matched with the splicing groove; the inserting blocks at two ends of the transverse keels are simultaneously inserted into inserting grooves of the opposite structural keels; compared with the prior art, through peg graft simultaneously on the structure fossil fragments of relative setting with horizontal fossil fragments both ends, realize being connected between horizontal fossil fragments and the structure fossil fragments, peg graft many horizontal fossil fragments between relative setting structure fossil fragments, form required frame type module skeleton, the structure type of horizontal fossil fragments and structure fossil fragments is single to be convenient for prefabricate horizontal fossil fragments and structure fossil fragments.

Description

Module framework for facing integrated partition wall

Technical Field

The utility model relates to the technical field of assembled walls, in particular to a module framework for a facing integrated partition wall.

Background

The assembled building is formed by transferring a large amount of field operation work in a traditional building mode to a factory, processing and manufacturing building components and accessories in the factory, transporting to a building construction site, and assembling and installing on site through a reliable connection mode.

The prefabricated building mainly comprises a prefabricated concrete structure, a steel structure, a modern wood structure building and the like, and is representative of a modern industrial production mode because standardized design, industrial production, assembly construction, informatization management and intelligent application are adopted.

The assembled inner partition wall, the pipeline and the decoration integrated wall are novel building industry technology which accords with the social development and the consumption requirement and is derived in the social industrialization process, compared with the traditional decoration, the assembled inner partition wall, the pipeline and the decoration integrated wall can save 20% of materials and 70% of man-hours, the assembled integrated decoration wall is far lower than the traditional decoration in comprehensive cost, in addition, the single module of the assembled integrated wall can be detached and replaced and recycled, the maintenance and the upgrading are convenient, and the secondary transformation cost is reduced.

Chinese patent No. 213806001U discloses an assembled partition wall unit structure and partition wall system, comprising: the keel frame is an installation frame formed by splicing vertical keels, transverse keels, top components and bottom components; the first connector is suitable for being connected with the transverse keel in an inserting mode; the second plug member is adapted to plug with the top member; the panel layer is vertically spliced by at least two panel units, and the panel units are suitable for being fixedly spliced with the first plug connector and the second plug connector.

The partition wall system disclosed above forms a required partition wall structure by matching the vertical keels and the transverse keels with different plug-in components, and the different plug-in components greatly increase the prefabrication time of a factory, and simultaneously increase the prefabrication cost of the plug-in components, and aggravate the field classification steps and the construction procedures.

Disclosure of utility model

The utility model aims to overcome the defects in the prior art, and provides the module framework for the facing integrated partition wall, which is simple in structure, convenient to install and convenient to prefabricate.

In order to achieve the above object, the present utility model adopts the following technical scheme: the module framework comprises two opposite structural keels and a plurality of transverse keels arranged between the two structural keels, wherein the structural keels are vertically arranged, and the transverse keels are positioned at different horizontal heights of the structural keels; the lateral surface of the structural keel is provided with a splicing groove arranged along the length direction of the structural keel, and two ends of the transverse keel are provided with splicing blocks matched with the splicing groove; the plug-in blocks at two ends of the transverse keels are simultaneously plugged in the plug-in grooves of the opposite structural keels.

As a preferable scheme of the utility model, the inserting groove is formed on one side of the structural keel, and the inserting groove is of a frame structure with one side open.

As a preferable scheme of the utility model, two ends of the inserting groove are communicated with two ends of the structural keel.

As a preferable scheme of the utility model, when the plug-in blocks are plugged in the corresponding plug-in grooves, the inner sides of the structural keels are abutted with the transverse keels.

As a preferred scheme of the utility model, the plug block is in interference fit with the plug groove.

As a preferred aspect of the utility model, the plug is flush with the transverse keel surface.

As a preferred aspect of the present utility model, the transverse runners attached to the tops of the structural runners are flush with the tops of the structural runners.

As a preferred aspect of the present utility model, the transverse runners attached to the bottom of the structural runners are flush with the bottom of the structural runners.

As a preferred aspect of the utility model, the lateral keel sides are flush with the structural keel sides.

As a preferable scheme of the utility model, the transverse keels and the structural keels are respectively provided with a splicing strip for installing the panel.

Compared with the prior art, the utility model has the beneficial effects that: through peg graft simultaneously on the structure fossil fragments that set up relatively with horizontal fossil fragments both ends, realize being connected between horizontal fossil fragments and the structure fossil fragments, peg graft many horizontal fossil fragments between setting up the structure fossil fragments relatively, form required frame type module skeleton, the structure type of horizontal fossil fragments and structure fossil fragments is single to be convenient for prefabricate horizontal fossil fragments and structure fossil fragments.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a top view of the present utility model;

Fig. 4 is a schematic structural view of a structural spine;

Fig. 5 is a schematic view of the structure of the transverse keel;

Reference numerals: the structure keel 1, the grafting groove 11, the transverse keel 2, the grafting block 21 and the grafting strip 3.

Detailed Description

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, a module framework for a veneer integrated partition wall comprises two opposite structural keels 1 and a plurality of transverse keels 2 arranged between the two structural keels 1, wherein the structural keels 1 are vertically arranged, and the transverse keels 2 are positioned at different horizontal heights of the structural keels 1; the side surface of the structural keel 1 is provided with a splicing groove 11 arranged along the length direction of the structural keel 1, and two ends of the transverse keel 2 are provided with splicing blocks 21 matched with the splicing groove 11; the plug-in blocks 21 at the two ends of the transverse keels 2 are simultaneously plugged in the plug-in grooves 11 of the oppositely arranged structural keels 1.

The structure fossil fragments 1 parallel arrangement that set up relatively, and be equipped with two piece at least horizontal fossil fragments 2 between two structure fossil fragments 1 that set up relatively, when being equipped with two horizontal fossil fragments 2 between the structure fossil fragments 1 that set up relatively, two horizontal fossil fragments 2 correspond respectively and set up in the upper and lower both ends of structure fossil fragments 1, and the quantity of horizontal fossil fragments 2 also can exceed two according to actual need.

The plug blocks 21 are formed at two ends of the transverse keels 2, the plug blocks 21 extend outwards along the length direction of the transverse keels 2, and the plug blocks 21 at two ends of the transverse keels 2 are simultaneously plugged with the oppositely arranged structural keels 1, so that the splicing between the transverse keels 2 and the structural keels 1 is realized.

The grafting groove 11 forms in structure fossil fragments 1 one side, and grafting groove 11 is one side open-ended frame structure, and the grafting groove 11 of two structure fossil fragments 1 set up relatively, and horizontal fossil fragments 2 set up on the different level of structure fossil fragments 1 through the grafting.

The two ends of the inserting groove 11 are communicated with the two ends of the structural keel 1, and the two ends of the inserting groove 11 are of a slotted structure, so that the connection condition of the inserting groove 11 and the inserting block 21 can be observed conveniently, and the connection between the structural keel 1 and the transverse keel 2 can be adjusted in time.

When the plug-in block 21 is plugged in the corresponding plug-in groove 11, the inner side of the structural keel 1 is abutted with the transverse keel 2, so that when the plug-in groove 11 is plugged with the plug-in block 21, the end part of the transverse keel 2 is abutted with the structural keel 1, the contact area between the transverse keel 2 and the structural keel 1 is increased, and the plug-in stability of the transverse keel 2 and the structural keel 1 is improved.

The plug block 21 is in interference fit with the plug groove 11, and under the action of the interference fit, the fixed connection between the plug block 21 and the plug groove 11 is realized, so that the fixed plug of the transverse keel 2 and the structural keel 1 is realized.

The plug-in block 21 is flush with the surface of the transverse keel 2, the transverse keel 2 connected to the top of the structural keel 1 is flush with the top of the structural keel 1, the transverse keel 2 connected to the bottom of the structural keel 1 is flush with the bottom of the structural keel 1, and the lateral surface of the transverse keel 2 is flush with the lateral surface of the structural keel 1.

The structural joist 1 is connected with the transverse joist 2 to form a frame-shaped structure, and the surface and the side surface of the frame-shaped structure are flush, so that the subsequent panel installation on the structural joist 1 and the transverse joist 2 is facilitated.

The transverse keels 2 and the structural keels 1 are respectively provided with a plugging strip 3 for installing a panel, the plugging strips 3 on the transverse keels 2 are arranged along the length direction of the transverse keels 2, the plugging strips 3 on the structural keels 1 are arranged along the length direction of the structural keels 1, and the strip-shaped protrusions corresponding to the plugging strips 3 are arranged on the panel, so that the strip-shaped protrusions are plugged in the corresponding plugging strips 3, and the panel is installed on the transverse keels 2 and the structural keels 1.

The previous description of the disclosed embodiments, to enable any person skilled in the art to make or use the present utility model, is provided that many modifications of these embodiments will be readily apparent to those skilled in the art, and that the general principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model; thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Although the reference numerals in the figures are used more herein: the terms of structural joist 1, socket 11, transverse joist 2, socket block 21, socket strip 3, etc. do not exclude the possibility of using other terms. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (10)

1. The module framework for the veneer integrated partition wall is characterized by comprising two opposite structural keels (1) and a plurality of transverse keels (2) arranged between the two structural keels (1), wherein the structural keels (1) are vertically arranged, and the transverse keels (2) are positioned at different horizontal heights of the structural keels (1); the side surface of the structural keel (1) is provided with a plug-in groove (11) arranged along the length direction of the structural keel (1), and two ends of the transverse keel (2) are provided with plug-in blocks (21) matched with the plug-in groove (11); the plug-in blocks (21) at two ends of the transverse keels (2) are simultaneously plugged in the plug-in grooves (11) of the opposite structural keels (1).

2. The module skeleton for the veneer integrated partition wall according to claim 1, wherein the insertion groove (11) is formed on one side of the structural joist (1), and the insertion groove (11) is a frame structure with one side open.

3. A modular framework for a facing integrated partition according to claim 2, characterized in that the two ends of the insertion groove (11) are in communication with the two ends of the structural joist (1).

4. A modular framework for a facing integrated partition wall according to claim 1, characterized in that the inside of the structural keel (1) abuts against the transverse keel (2) when the plug-in blocks (21) are plugged in the corresponding plug-in grooves (11).

5. A modular skeleton for finishing integrated partition walls according to claim 4, characterized in that said plug-in blocks (21) are interference-fitted with plug-in grooves (11).

6. A modular framework for a facing integrated partition according to claim 1, characterized in that the plug-in blocks (21) are flush with the surface of the transverse keels (2).

7. A modular framework for a veneer integrated partition according to claim 1, characterized in that the transverse runners (2) attached to the top of the structural runners (1) are flush with the top of the structural runners (1).

8. A modular framework for a veneer integrated partition according to claim 1, characterized in that the transverse runners (2) attached to the bottom of the structural runners (1) are flush with the bottom of the structural runners (1).

9. A modular framework for a facing integrated partition according to claim 1, wherein the lateral runners (2) are flush with the structural runners (1) sides.

10. A modular framework for a facing integrated partition according to claim 1, characterized in that the transverse keels (2) and the structural keels (1) are each formed with a plug strip (3) for mounting panels.