CN210659087U - Adjustable support floor module system - Google Patents

Abstract

The application discloses an adjustable support floor module system, which comprises a composite floor, an adjustable support strip-shaped cross keel, a transverse joint filling strip, a longitudinal joggle joint support and a longitudinal joint filling strip; the strip-shaped transverse keel of the adjustable bracket comprises a front-back movement screw, a keel and a support; the keel is provided with a threaded through hole in screw connection with the front and back movement; an inner movement is arranged at the first end part of the forward and reverse movement screw; the second end part of the front and back movement screw is rotatably connected with the support; the longitudinal joggle bracket is used for being erected on the strip-shaped cross keel of the adjustable bracket so as to longitudinally support the composite floor, and can be joggled with the strip-shaped cross keel of the adjustable bracket; the transverse joint filling strip is used for transversely filling a gap between two composite floors; the longitudinal joint strip is used for filling a gap between two composite floor boards in the longitudinal direction. The application can conveniently and comprehensively realize dry construction.

Description

Adjustable support floor module system

Technical Field

The application relates to the technical field of dry construction and materials, in particular to an adjustable support floor module system.

Background

With the vigorous advocation of hardbound rooms, the requirements for removing the blanks and the basic decoration gradually tend to be standardized. The dry construction ground is adopted in the wet construction, the standardized installation of the modules is realized as the raised floor of a ground system, but the structural plate frame is formed by adopting galvanized steel plates at one time, the manufacturing cost is too high, and the construction method is not suitable for popularization and use. The improved raised floor facing needs secondary paving and pasting, the leveling adjustment of the bearing supporting part is complex, and the base needs to be adjusted from the cavity in a double-person matching manner.

The above background disclosure is only for the purpose of assisting in understanding the inventive concepts and technical solutions of the present application and does not necessarily pertain to the prior art of the present application, and should not be used to assess the novelty and inventive step of the present application in the absence of explicit evidence to suggest that such matter has been disclosed at the filing date of the present application.

SUMMERY OF THE UTILITY MODEL

The application provides a support floor module system with adjustable can conveniently realize dry-type construction comprehensively.

An adjustable bracket floor module system comprises a composite floor, an adjustable bracket strip-shaped cross keel, a transverse joint filling strip, a longitudinal joggle bracket and a longitudinal joint filling strip;

the composite floor comprises a base layer and a decorative layer positioned on the base layer; the bottom surface of the base layer is provided with a clamping groove;

the strip-shaped transverse keel of the adjustable bracket comprises a front-back movement screw, a keel and a support; the keel is provided with a threaded through hole in screw connection with the front and back movement; an inner movement is arranged at the first end part of the forward and reverse movement screw; the outer side of the first end part of the front and back movement screw is provided with a thread; the second end part of the front and back movement screw is rotatably connected with the support;

two sides of the strip-shaped cross keel of the adjustable bracket are used for being connected with the clamping grooves so as to transversely support the composite floor;

the longitudinal joggle bracket is used for being erected on the strip-shaped cross keel of the adjustable bracket so as to longitudinally support the composite floor, and can be joggled with the strip-shaped cross keel of the adjustable bracket;

the transverse joint filling strip is used for being placed on the adjustable bracket strip-shaped transverse keel so as to transversely fill a gap between two composite floors; the longitudinal joint filling strip is used for being placed on the longitudinal tenon joint support to fill a gap between two composite floor boards in the longitudinal direction.

In some preferred embodiments, the cross-section of the transverse joint strip is T-shaped; the cross section of horizontal joint strip includes first upper portion, first bottom and connects first upper portion with the first middle part of first bottom, first upper portion is the rectangle, first middle part is trapezoidal, first bottom be used for with the fossil fragments are connected.

In some preferred embodiments, the first bottom is rectangular and covers the threaded through hole.

In some preferred embodiments, the longitudinal joint strip is T-shaped in cross-section; the cross section of the longitudinal joint strip comprises a second upper part, a second bottom and a second middle part, wherein the second middle part is used for connecting the second upper part with the second bottom, the second upper part is rectangular, the second middle part is trapezoidal, and the second bottom is used for being connected with the longitudinal joggle joint support.

In some preferred embodiments, the second bottom portion is fan-shaped, and the second bottom portion is penetrated in an upper portion of the longitudinal mortise bracket.

In some preferred embodiments, the lower portion of the longitudinal mortise bracket is provided with a tenon place for mortise-jointing both sides of the keel.

In some preferred embodiments, the base layer is a high strength inorganic fiber board; the veneer layer is made of stone, bamboo and wood, ceramic, artificial stone and rubber.

In some preferred embodiments, the facing layer is bonded to the base layer.

In some preferred embodiments, the keel is provided with a blind rivet nut, and the threaded through hole is located in the blind rivet nut.

In some preferred embodiments, the cross-direction joint compound and the longitudinal joint compound are both adhesive strips; the keel and the support are made of galvanized steel; the longitudinal joggle bracket is an aluminum bracket; the inner machine core is an inner hexagonal machine core.

Compared with the prior art, the beneficial effect of this application has:

the longitudinal joggle bracket is arranged on the strip-shaped transverse keel of the adjustable bracket to form a frame for supporting the composite floor, the transverse joint filling strip can be used for filling a transverse gap of the two composite floors, the longitudinal joint filling strip can be used for filling a longitudinal gap of the two composite floors, the front side can be leveled through the front-back machine core screws, and the dry construction can be conveniently and comprehensively realized.

Drawings

FIG. 1 is a cross-sectional view of an adjustable rack floor module system according to an embodiment of the present application;

FIG. 2 is another cross-sectional view of an adjustable rack floor module system according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a composite floor according to an embodiment of the present application;

fig. 4 is a schematic structural view of a strip-shaped cross keel of the adjustable bracket according to the embodiment of the application;

FIG. 5 is a schematic structural view of a longitudinal dovetail bracket and a longitudinal joint strip according to an embodiment of the present application;

FIG. 6 is a schematic structural view of a cross-direction joint strip according to an embodiment of the present application;

FIG. 7 is a schematic structural view of a longitudinal joint strip according to an embodiment of the present application;

FIG. 8 is a perspective view of an adjustable support floor module system according to an embodiment of the present application.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the embodiments of the present application more clearly apparent, the present application is further described in detail below with reference to fig. 1 to 8 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description of the embodiments and simplifying the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present application, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1, 2 and 8, the adjustable support floor module system of the present embodiment includes a composite floor 1, an adjustable support strip-type cross keel 2, a cross joint strip 3, a longitudinal joggle support 4 and a longitudinal joint strip 5.

Fig. 4 and 5 schematically show a cross section of the adjustable bracket strip cross runner 2 and the longitudinal joggle bracket 4, respectively. The adjustable support strip-shaped cross keel 2 and the longitudinal joggle support 4 are both strip-shaped. Referring to fig. 8, the adjustable bracket-bar-type cross runner 2 is used to form a rectangular frame together with the longitudinal joggle bracket 4, thereby supporting the composite floor 1. Wherein, the adjustable support strip-shaped horizontal keel 2 is used as a horizontal rod in the frame, and the longitudinal joggle joint support 4 is used as a vertical rod in the frame.

Referring to fig. 3, the composite flooring 1 includes a base layer 11 and a finishing layer 12. The base layer 11 is used for load bearing. The decorative layer 12 is used for decoration and is positioned on the base layer 11; specifically, the finishing layer 12 and the base layer 11 are bonded by an adhesive, thereby forming an adhesive layer 13 between the finishing layer 12 and the base layer 11. In the present embodiment, the base layer 11 is a high-strength inorganic fiber board, such base layer 11 is economical and practical and has a fire-retardant rating of a; the veneer layer 12 is in the form of stone, bamboo, wood, ceramic, artificial stone, and plywood.

Referring to fig. 3, a bottom surface 111 of the base layer 11 is provided with a card slot 110. The clamping groove 110 is used for clamping the strip-shaped cross keel 2 of the adjustable bracket.

Referring to fig. 4, the adjustable bracket bar type cross keel 2 includes a front and back movement screw 21, a keel 22 and a support 23.

In this embodiment, the keel 22 is a galvanized steel keel, which facilitates standardized production. The keel 22 is provided with a threaded through hole 220 connected with the front and back movement screws 21. Threaded throughbore 220 is a throughbore extending through both the bottom and front faces of keel 22. Specifically, the keel 22 is provided with a rivet nut 221, and the threaded through hole 220 is positioned in the rivet nut 221; the threaded through hole 220 is an internal threaded hole of the blind rivet nut 221; therefore, the keel 22 can be machined firstly, and then the rivet nut 221 is installed on the keel 22, so that the material can be saved, and the cost can be reduced.

The forward and reverse movement screw 21 can rotate forward and backward. Referring to fig. 4, the first end 21A of the front and back movement screw 21 is provided with an inner movement 210. The inner movement 210 is a counter bore arranged at the first end 21A of the front and back movement screws 21; specifically, the inner core 210 is an inner hexagonal core. The inner core 210 is engageable with an installation and removal tool to allow adjustment of the front and back core screws 21 by the installation and removal tool. In this embodiment, the mounting and dismounting tool is a socket head cap screw.

Referring to FIG. 4, the forward/reverse movement screw 21 is threaded at an outer side of the first end 21A and the second end 21B is rotatably coupled to the support 23 such that the forward/reverse movement screw 21 is rotatable within the threaded bore 220.

In this embodiment, the material of the support 23 is galvanized steel. The support 23 is intended to be in contact with the ground and thus to support the entire adjustable bracket strip cross runner 2.

Two sides of the adjustable bracket strip-shaped cross keel 2 are used for being connected with the clamping grooves 110 so as to transversely support the composite floor 1. Specifically, referring to fig. 4, the two sides of the adjustable support strip-shaped cross keel 2 are vertical edges.

In the present embodiment, the longitudinal dovetail mounting 4 is an aluminum mounting. The longitudinal joggle bracket 4 is used for being erected on the adjustable bracket strip-shaped cross keel 2 so as to longitudinally support the composite floor 1, and can be joggled with the adjustable bracket strip-shaped cross keel 2. Specifically, referring to fig. 5, the longitudinal mortise bracket 4 is T-shaped in cross section, and the lower portion 4A is provided with mortise locations 41 for mortise-jointing both sides of the keel 22.

Fig. 6 and 7 schematically show cross sections of the transversal joint strip 3 and the longitudinal joint strip 5, respectively. In the present embodiment, the transverse joint compound 3 and the longitudinal joint compound 5 are strip-shaped adhesive tapes, which facilitates standardized production.

When the composite floor boards 1 are spliced together to be paved into a floor, a gap is formed between the two composite floor boards 1. The transverse joint strip 3 is used for being placed on the adjustable bracket strip-shaped transverse keel 2 to transversely fill a gap between two composite floor boards 1. The longitudinal joint strip 5 is used for being placed on the longitudinal tenon bracket 4 to fill the gap between the two composite floor boards 1 in the longitudinal direction.

Referring to fig. 8, when the floor is paved, the adjustable bracket strip-shaped cross keel 2 is placed on the ground, and then the longitudinal joggle bracket 4 is placed on the adjustable bracket strip-shaped cross keel 2. The longitudinal joggle brackets 4 are joggled with the adjustable bracket strip-shaped cross keel 2, thus forming a framework for supporting the composite floor 1. Aligning the clamping grooves 110 on the transverse edges of the composite floor 1 with the two sides of the strip-shaped transverse keel 2 of the adjustable bracket, and placing the longitudinal edges of the composite floor 1 on the longitudinal joggle bracket 4, so that the composite floor 1 is overhead; the same is true for the subsequent composite floor panels 1, the transverse gaps of the two composite floor panels 1 being filled with transverse joint strips 3 and the longitudinal gaps being filled with longitudinal joint strips 5. The height of the adjustable bracket strip-shaped cross keel 2 from the ground can be adjusted by placing the mounting and dismounting tool into the inner machine core 210 from the front side, and the height can be adjusted by screwing the forward and reverse machine core screws 21 forward or reversely. The height of the longitudinal joggle joint support 4 from the ground is also adjusted because the longitudinal joggle joint support 4 is erected on the strip-shaped cross keel 2 of the adjustable support. Therefore, the composite floor 1 can be leveled to adapt to uneven foundations, and dry construction can be conveniently and comprehensively realized.

According to the above, the longitudinal joggle bracket 4 is erected on the strip-shaped cross keel 2 of the adjustable bracket to form a frame for supporting the composite floor 1, the transverse joint strip 3 can be used for filling a transverse gap of the two composite floors 1, the longitudinal joint strip 5 can be used for filling a longitudinal gap of the two composite floors 1, the front side can be leveled through the front-back movement screw 21, and the dry construction can be conveniently and comprehensively realized.

The cross-section of the transverse joint strip 3 is T-shaped, or approximately T-shaped. Referring to fig. 6, the cross-section of the transversal joint strip 3 comprises a first upper portion 31, a first lower portion 32 and a first middle portion 33 connecting the first upper portion 31 and the first lower portion 32, the first upper portion 31 being rectangular and the first middle portion 33 being trapezoidal, the first lower portion 32 being adapted to be connected to the keel 22. In the transverse direction, the rectangular first upper portion 31 just fills the gap between the two composite floor panels 1, and the trapezoidal first middle portion 33 serves to firmly connect the first upper portion 31 and the first bottom portion 32, so that the rectangular first upper portion 31 is tightly filled between the two composite floor panels 1 in the transverse direction.

The longitudinal joint strip 5 is T-shaped, or approximately T-shaped, in cross-section. Referring to fig. 7, the cross-section of the longitudinal joint strip 5 includes a second upper portion 51, a second bottom portion 52 and a second middle portion 53 connecting the second upper portion 51 and the second bottom portion 52, the second upper portion 51 is rectangular, the second middle portion 53 is trapezoidal, and the second bottom portion 52 is used for connecting with the longitudinal mortise bracket 4. In the longitudinal direction, the rectangular second upper portion 51 just fills the gap between the two composite floor panels 1, and the trapezoidal second middle portion 53 serves to firmly connect the second upper portion 51 and the second bottom portion 52, so that the rectangular second upper portion 51 is tightly filled between the two composite floor panels 1 in the longitudinal direction.

Thus, the composite floor boards 1 can be tightly attached in the transverse direction and the longitudinal direction.

In order to achieve a cooperation with the trapezoidal first central portion 33 and the second central portion 53, the edges of the composite floor 1 have inclined portions. Specifically, referring to fig. 3, the edges of the finishing layer 12 are vertical and the edges of the base layer 11 are inclined.

Referring to FIG. 6, the first bottom 32 is rectangular, and the first bottom 32 covers the threaded through hole 220; that is, the transverse joint strip 3 is located in the middle of the length direction of the keel 22, which is convenient for paving the floor.

Referring to fig. 7, the second bottom portion 52 is fan-shaped, and the second bottom portion 52 is penetrated in the upper portion of the longitudinal mortise bracket 4. Accordingly, the upper portion of the longitudinal mortise bracket 4 is also formed in a sector shape in cross section, so that the longitudinal joint strip 5 can be directly inserted into the longitudinal mortise bracket 4, thereby securely fixing the longitudinal mortise bracket 4. Accordingly, referring to fig. 2, the edge of the composite floor 1 is matched with the upper portion of the longitudinal mortise bracket 4, and particularly, the edge of the composite floor 1 is also provided with a fan-shaped groove, so that the longitudinal mortise bracket 4 is tightly contacted with the composite floor 1.

The adjustable support strip-shaped cross keel 2, the transverse joint strip 3, the longitudinal joggle support 4 and the longitudinal joint strip 5 of the embodiment are standardized industrial products. The composite floor 1 uses the high-strength inorganic fiber board as the base layer 11 and different veneers such as stone, wood board, ceramic and rubber board, and forms a floor module by compounding the veneers with different properties, the product size can be determined according to the surface material properties of the veneers, the decorative effects such as modeling or mosaic can be realized, and the product model can be enriched. The adjustable support floor module system of this embodiment is prefabricated through the mill, in addition reasonable design, can realize standardized production, diversified output. The construction process can be optimized, the method has the advantages of standard industrial production and industrial worker installation, and the productivity is promoted. The whole process of floor paving is dry type assembly construction, which is beneficial to shortening the construction period, reducing the labor cost, reducing the resource (material) loss, and the engineering quality is stable and controllable, thus being an important component assembly type part for implementing the assembly interior decoration engineering.

The floor module field installer is an industrial installer, is as simple as installing a traditional wood floor, does not need special technology, and can be put on duty simply by training. The adjustable support strip-shaped keel has high environmental adaptability, the blank ground does not need to be leveled, the adjustable support strip-shaped keel is suitable for uneven foundations, and the height of the finished surface is adjusted by adopting a special tool. The veneer leveling work can be operated by one person, and is quick, simple and convenient. The support 23 with different thicknesses (or the front and back movement screws 21 with different lengths) can be used for adapting to the requirements of different foundation heights. The cavity formed by the floor is beneficial to paving various electromechanical pipeline equipment belts, excavation and backfilling are not needed, the artificial damage to the building main body in the later period is effectively reduced, and SI (S (Skeleton, supporting body) and I (infill, filling body)) separation is realized; the later-stage use increases and decreases and maintains conveniently, demolishs when renovating or renovating and resumes to the original shape of the building, demolishs and retrieves conveniently, and old floor can also recycle, reducible production building scum.

The adjustable support floor module system of the embodiment can optimize the construction process and has the advantages of standard industrial production, logistics distribution and industrial worker installation. The floor can be paved to realize dry type assembly construction in the whole process, the accurate capital planning is convenient, the cost pre-control is facilitated, the construction period can be shortened, the construction efficiency is improved, the labor cost (including higher wages of technical workers) is reduced, the resource (material) loss is reduced, and the engineering quality is stable and controllable. The construction site of the paving floor is clean and tidy, and the green construction standard without noise and dust can be achieved.

The foregoing is a further detailed description of the present application in connection with specific/preferred embodiments and is not intended to limit the present application to that particular description. For a person skilled in the art to which the present application pertains, several alternatives or modifications to the described embodiments may be made without departing from the concept of the present application, and these alternatives or modifications should be considered as falling within the scope of the present application.

Claims (10)

1. An adjustable support floor module system, comprising: the composite floor comprises a composite floor, an adjustable bracket strip-shaped transverse keel, a transverse joint filling strip, a longitudinal joggle bracket and a longitudinal joint filling strip;

the composite floor comprises a base layer and a decorative layer positioned on the base layer; the bottom surface of the base layer is provided with a clamping groove;

the strip-shaped transverse keel of the adjustable bracket comprises a front-back movement screw, a keel and a support; the keel is provided with a threaded through hole in screw connection with the front and back movement; an inner movement is arranged at the first end part of the forward and reverse movement screw; the outer side of the first end part of the front and back movement screw is provided with a thread; the second end part of the front and back movement screw is rotatably connected with the support;

two sides of the strip-shaped cross keel of the adjustable bracket are used for being connected with the clamping grooves so as to transversely support the composite floor;

the longitudinal joggle bracket is used for being erected on the strip-shaped cross keel of the adjustable bracket so as to longitudinally support the composite floor, and can be joggled with the strip-shaped cross keel of the adjustable bracket;

the transverse joint filling strip is used for being placed on the adjustable bracket strip-shaped transverse keel so as to transversely fill a gap between two composite floors; the longitudinal joint filling strip is used for being placed on the longitudinal tenon joint support to fill a gap between two composite floor boards in the longitudinal direction.

2. The adjustable rack floor module system according to claim 1, wherein: the cross section of the transverse joint filling strip is T-shaped; the cross section of horizontal joint strip includes first upper portion, first bottom and connects first upper portion with the first middle part of first bottom, first upper portion is the rectangle, first middle part is trapezoidal, first bottom be used for with the fossil fragments are connected.

3. The adjustable rack floor module system according to claim 2, wherein: the first bottom is rectangular and covers the threaded through hole.

4. The adjustable rack floor module system according to claim 1, wherein: the cross section of the longitudinal joint filling strip is T-shaped; the cross section of the longitudinal joint strip comprises a second upper part, a second bottom and a second middle part, wherein the second middle part is used for connecting the second upper part with the second bottom, the second upper part is rectangular, the second middle part is trapezoidal, and the second bottom is used for being connected with the longitudinal joggle joint support.

5. The adjustable rack floor module system according to claim 4, wherein: the second bottom is fan-shaped, and the second bottom is worn in the upper portion of longitudinal joggle support.

6. The adjustable rack floor module system according to claim 1, wherein: the lower part of the longitudinal joggle bracket is provided with a joggle position for joggling with two sides of the keel.

7. The adjustable rack floor module system according to claim 1, wherein: the base layer is a high-strength inorganic fiberboard; the veneer layer is made of stone, bamboo and wood, ceramic, artificial stone and rubber.

8. The adjustable rack floor module system according to claim 1, wherein: the decorative layer is bonded with the base layer.

9. The adjustable rack floor module system according to claim 1, wherein: the keel is provided with a rivet nut, and the threaded through hole is located in the rivet nut.

10. The adjustable rack floor module system according to any one of claims 1 to 9 wherein: the transverse joint filling strip and the longitudinal joint filling strip are adhesive tapes; the keel and the support are made of galvanized steel; the longitudinal joggle bracket is an aluminum bracket; the inner machine core is an inner hexagonal machine core.

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