CN217812116U - Transverse connecting assembly for floor - Google Patents

Abstract

The utility model discloses a transverse connection assembly on floor, including length direction parallel and next-door neighbour set up in two at least floor section bars on coplanar, be provided with flexible bag in the clearance of two adjacent floor section bars, flexible bag is used for pouring into the solidifiable material that makes its fixed shaping, flexible bag and floor section bar clearance fit before the notes material, and flexible bag and floor section bar after the fixed shaping are laminated mutually. The transverse connecting component of the floor is characterized in that the curable material is filled in the flexible bag between two adjacent floor sectional materials, so that the flexible bag deforms along with the injection amount of the curable material, and then is fixed and formed, is fully attached and contacted with the floor sectional materials, ensures common stress, enhances the pressure resistance, is convenient to operate, is beneficial to improving the construction efficiency, greatly reduces the cost, and is suitable for connecting the floor sectional materials with different sizes and shapes because the flexible bag deforms through the injected curable material amount, thereby enhancing the applicability.

Description

Transverse connecting assembly of floor

Technical Field

The utility model belongs to the technical field of floor connection structure technique and specifically relates to a transverse connection assembly on floor is related to.

Background

The alloy floor is indoor and outdoor special floor and wallboard, is widely applied to the fields of municipal transportation, garden landscape, tourist pens, public facilities, park communities, house villas, swimming pool platforms, exhibition halls, cruise ship decks and the like, and has the advantages of water resistance, moisture resistance, good anti-slip effect, wear resistance, ageing resistance and good touch feeling.

In order to enhance the load compression resistance of the transverse connection structure of the alloy floor, reduce the possibility of deformation and prolong the service life of the transverse connection structure, the Chinese utility model with the publication number of CN213087320U in the prior art discloses a transverse connection structure of the alloy floor, which comprises two alloy floors distributed side by side on the same plane, and two adjacent alloy floors are connected through a transverse connection piece.

The transverse connecting structure of the alloy floor connects the adjacent alloy floors through the transverse connecting piece to form a whole body stressed together, so that the compression resistance, the load resistance and the deformation resistance of the alloy floor are enhanced. However, in the actual construction process, the adjacent alloy floors and the transverse connecting pieces need to be laid simultaneously, the gap between the alloy floors is actually 5mm-8mm, and the gap is small, so that the transverse connecting pieces are inconvenient to pre-place, the installation is complicated, the construction efficiency is reduced, constructors need to have higher construction levels, and the labor cost is increased; moreover, because the transverse connecting piece is a rigid piece, the requirements on the size and shape precision of the transverse connecting piece are high, the transverse connecting piece is required to be completely matched with the alloy floor, if the size of the transverse connecting piece is too large, the transverse connecting piece is not easy to be installed between the alloy floors, and if the size of the transverse connecting piece is too small, the alloy floor is easy to loosen with the transverse connecting piece, so that the load capacity of the alloy floor is reduced, namely the transverse connecting piece with a single shape and size is only suitable for the alloy floor matched with the transverse connecting piece, and the application conditions are harsh.

Accordingly, there is a need for an improved prior art transverse connection assembly for floor panels.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the defect that exists among the prior art, provide a convenient construction, improve the installation effectiveness, reduce cost of labor and the lateral connection subassembly on suitability strong floor.

In order to realize the technical effect, the utility model adopts the technical scheme that: the utility model provides a transverse connection subassembly of floor, includes that length direction parallels and the next-door neighbour sets up in two at least floor section bars on coplanar, is provided with flexible bag in the clearance of two adjacent floor section bars, flexible bag is used for pouring into and makes its fixed fashioned solidifiable material, the flexible bag before the notes material with floor section bar clearance fit, the flexible bag after the fixed shaping with floor section bar laminates mutually.

Preferably, to facilitate the injection of the settable material into the flexible bag, the injection inlet of the flexible bag is located above the floor profile.

Preferably, in order to reinforce the connection strength of two adjacent floor profiles, at least two flexible bags are arranged and spaced along the length direction of the floor profiles.

Preferably, in order to increase the contact area between the floor profile and the flexible bag and further strengthen the connection firmness between the flexible bag and the floor profile, a protrusion and a groove which are matched with each other are arranged between the floor profile and the fixed and formed flexible bag, and the protrusion and the groove both extend along the length direction of the floor profile.

Preferably, in order to reduce the amount of the injected curable material and facilitate the rapid fixed molding of the flexible bag, a support member is arranged between two adjacent floor profiles, the support member extends in a direction parallel to the length direction of the floor profiles, the support member and the two adjacent floor profiles enclose to form an upward limiting opening, and the limiting opening is used for accommodating the flexible bag.

Preferably, in order to facilitate the injection of the curable material into the flexible bag, the bag opening of the flexible bag is connected with a rigid injection pipe communicated with the inner cavity of the flexible bag.

Preferably, for further convenience of operation, the material injection pipe comprises an assembly part penetrating through the plane of the bearing surface of the floor profile, the bottom end of the assembly part is smaller than the top end of the assembly part, the bottom end of the assembly part gradually transits to the top end of the assembly part, and the top size of the gap between two adjacent floor profiles is between the top size and the bottom size of the assembly part.

Preferably, the top of the filling pipe is flared for the convenience of adding the curable material into the flexible bag.

Preferably, for further convenience in operation, an elastic sealing ring is arranged on the circumferential outer edge of the material injection pipe, and the sealing ring is abutted against two adjacent floor profiles.

Preferably, in order to ensure the flexible deformable degree of the flexible bag, the interior of the flexible bag can be fully deformed after being filled with the curable material, so that the flexible bag is tightly attached and contacted with the adjacent floor sectional material, and the assembly cost is reduced.

To sum up, the utility model discloses transverse connection subassembly on floor compares with prior art, through filling solidifiable material in the flexible bag between two adjacent floor section bars for the flexible bag is out of shape along with solidifiable material's injection volume, and then fixed shaping, with the contact of fully laminating of floor section bar, guarantee common atress, when strengthening compressive capacity, convenient operation is favorable to improving the efficiency of construction, reduce cost by a wide margin, and because the solidifiable material volume that the flexible bag accessible was injected warp, make its floor section bar connection that is applicable to not unidimensional shape, thereby strengthen the suitability.

Drawings

FIG. 1 is a schematic diagram showing the structure of the apparatus of example 1 before, during and after the flexible pouch is fixed and formed;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is an exploded view of the apparatus of example 1 prior to filling the flexible bag;

FIG. 4 is a schematic view showing the structure of the device before the flexible bag is filled in the embodiment 2;

FIG. 5 is an exploded view of FIG. 4;

FIG. 6 is a front view of FIG. 4;

FIG. 7 is an exploded view of the filling tube according to example 2;

FIG. 8 is a schematic view showing the structure of the apparatus in example 3 after the flexible bag is fixed and formed;

FIG. 9 is an exploded view of FIG. 8;

FIG. 10 is a front view of FIG. 8;

FIG. 11 is a schematic view showing the structure of the device before the flexible bag is filled in example 4;

FIG. 12 is a front view of FIG. 11;

FIG. 13 is a schematic view showing the structure of the device before the flexible bag is filled in example 5;

FIG. 14 is an exploded schematic view of FIG. 13;

FIG. 15 is a front view of FIG. 13;

FIG. 16 is a schematic view showing the structure of an injecting tube in accordance with example 5;

in the figure: 100. the floor structure comprises a floor section bar, 200 flexible bags, 300 protrusions, 400 grooves, 500 supporting pieces, 600 filling pipes, 601 assembling parts, 700 sealing rings, 800 fixed pipes and 900 movable pipes.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1

As shown in fig. 1 to fig. 3, the transverse connection assembly of the floor in embodiment 1 includes two floor sections 100 distributed side by side on the same plane, where the two floor sections 100 are alloy floor sections and are arranged closely, a flexible bag 200 is arranged in a gap between the two floor sections 100, and the flexible bag 200 is a cloth bag and is used for injecting a curable material for fixing and forming the floor sections, where the curable material may be liquid, solid powder, or other material in a plastic state, for example, concrete is injected into the flexible bag 200, and after the concrete is solidified and formed, the flexible bag 200 is fixed and formed. As shown in fig. 1 (a) and 2 (a), the flexible bag 200 before injection is in clearance fit with the floor section 100, and as shown in fig. 1 (C) and 2 (C), two sides of the flexible bag 200 after fixed molding are respectively attached to the two floor sections 100.

In the embodiment, when two floors are transversely connected, two floor profiles 100 can be laid in advance, then the flexible bag 200 is placed in the gap between the two floor profiles 100, the flexible bag 200 can be deformed, the flexible bag 200 is small in size before material injection and is convenient to place between the two floor profiles 100, the flexible bag 200 placed between the two floor profiles 100 is in clearance fit with the floor profiles 100, then curable material such as concrete, slurry and the like is injected into the flexible bag 200 to deform the flexible bag 200, the flexible bag 200 is simultaneously fixedly molded along with the curing molding of the curable material, the fixedly molded flexible bag 200 is tightly attached to the two floor profiles 100, and then after the curing material in the flexible bag 200 is fixedly molded, the shape of the flexible bag 200 is fixedly molded, namely the shape of the flexible bag is kept unchanged, namely the flexible bag is kept attached to the floor profiles 100. At this moment, two adjacent floor profiles 100 are transversely connected into a whole which is stressed together through the fixed and formed flexible bag 200, when one floor profile 100 bears upper pressure, the pressure is transmitted to the other floor profile 100 through the flexible bag 200, so that the two floor profiles 100 bear the pressure together, the structural stability of the floor transverse connecting component is enhanced, the load capacity is improved, the bending resistance and the deformation resistance of the floor transverse connecting component are reduced, and the service life of the floor profiles 100 is further prolonged.

In the construction process, because the flexible bag 200 before material injection is small and is easy to be stuffed between two floor profiles 100, compared with the prior art that two alloy floors arranged next to each other are connected through a rigid transverse connecting piece, the connecting assembly does not need to install the flexible bag 200 and the floor profiles 100 at the same time, the floor profiles 100 can be laid in advance, the flexible bag 200 is placed between the two floor profiles 100, and then curable material is injected, so that the flexible bag 200 is fixed and formed, and the two floor profiles 100 are connected, the operation is convenient, the construction efficiency is improved, the experience requirements and labor cost for operators are reduced, and because the flexible bag 200 can be deformed, the deformation degree depends on the gap between the two floor profiles 100 and the amount of the curable material injected, the flexible bag 200 finally fixed and formed by injecting the curable material is suitable for installation between floor profiles 100 of various shapes and sizes, the application range is greatly expanded, the applicability is enhanced, compared with the rigid transverse connecting piece which needs to be matched with the floor profiles with high precision, the operation requirements are greatly reduced, the operation requirements are more convenient and quicker, and the construction efficiency is greatly improved.

In this embodiment, the two floor sections 100 are distributed side by side, and in the actual construction process, according to the laying requirement, the distribution mode of the two floor sections 100 is not limited to this, but only the two floor sections have the same length direction and form a gap consistent with the length direction, and the flexible bag 200 can be placed in the gap; the floor profile 100 can also be made of other materials, such as a wood floor profile 100, and the transverse connecting component thereof is also suitable for the embodiment; in addition, the flexible bag 200, which is a flexible member containing a curable material, may be a deformable bag structure such as a plastic bag.

The bag opening of the flexible bag 200 is fixedly connected with an injection pipe 600 communicated with the inner cavity thereof, the injection pipe 600 is a rigid plastic pipe, the top end of the injection pipe 600 is located above the bearing surface of the floor profile 100, and the bottom end of the injection pipe 600 is located below the bearing surface of the floor profile 100. After the structure is adopted, before material injection, the position of the flexible bag 200 can be conveniently controlled by controlling the position of the rigid material injection pipe 600, in the material injection process, curable material is only needed to be input into the material injection pipe 600, after the flexible bag 200 is fixed and formed, the material injection pipe 600 is forcibly pulled out upwards, and the material injection pipe is separated from the flexible bag 200, as shown in fig. 1 (C) and fig. 2 (C). The two ends of the injection pipe 600 are respectively located above and below the bearing surface of the floor section 100, so that the injection pipe 600 penetrates the plane of the bearing surface of the floor section 100, thereby facilitating the injection of the curable material into the flexible bag 200 through the injection pipe 600. Of course, as an alternative to the similar effect, the filling opening of the flexible bag 200 may be directly disposed above the floor section 100, and after the portion of the flexible bag 200 located between the two floor sections 100 is cured and molded, the portion of the flexible bag 200 above the bearing surface of the floor section 100 is isolated, so as to keep the lower portion of the cured and molded flexible bag 200 tightly attached to the two floor sections 100.

The flexible bags 200 are provided in three, and are equally spaced between two floor profiles 100 along the length direction of the floor profiles 100. By adopting the structure, the number of the flexible bags 200 is increased, so that the contact area between the flexible bags 200 and the floor sectional material 100 is enlarged, the structural stability of the transverse connecting assembly of the floor is further reinforced, the common stress of the two floor sectional materials 100 is realized, the deformation resistance is enhanced, and the service life is prolonged.

Example 2

As shown in fig. 4-7, the transverse connection assembly for floor boards of embodiment 2 is based on embodiment 1, and is different in that both sides of the floor profiles 100 are provided with protruding strips extending along the length direction thereof, so that after two floor profiles 100 are disposed next to each other, the protruding strips between the two floor profiles 100 form two supporting members 500, and the two supporting members 500 and the two floor profiles 100 enclose a limiting opening for accommodating the flexible bag 200.

After the supporting piece 500 and the floor section bar 100 are enclosed to form a limiting opening, the supporting piece 500 is used for limiting and supporting the fixed and formed flexible bag 200, the size of the fixed and formed flexible bag 200 is reduced, curable materials injected into the flexible bag 200 are reduced, the material injection cost is reduced, meanwhile, the flexible bag 200 is conveniently and quickly cured and formed in the construction process, and the working efficiency is improved.

The material injection pipe 600 comprises a fixed pipe 800 fixed at the mouth of the flexible bag 200 and communicated with the inner cavity of the flexible bag and a movable pipe 900 detachably connected with the fixed pipe 800, the fixed pipe 800 and the movable pipe 900 are both rigid metal pipes, and the circumferential outer edge of the bottom of the movable pipe 900 is in threaded connection with the circumferential inner wall of the fixed pipe 800. Fixed pipe 800 is disposed below the bearing surface of floor section 100, and the top end of movable pipe 900 is located above the bearing surface of floor section 100.

After the structure is adopted, in the construction process, curable materials are injected into the flexible bag 200 through the movable pipe 900 and the fixed pipe 800 in sequence, after the curable materials are solidified and formed, the flexible bag 200 is fixedly formed between the two floor profiles 100 and is attached to the floor profiles 100 and the supporting piece 500, so that the two floor profiles 100 form a jointly pressed whole through the fixedly formed flexible bag 200, then the movable pipe 900 is rotated to be separated from the fixed pipe 800, and the flatness of the surface of the transverse floor connecting assembly is ensured after the movable pipe 900 is separated from the fixed pipe 800 because the fixed pipe 800 is positioned below the bearing surface of the floor profiles 100.

Example 3

As shown in fig. 8 to 10, the transverse connecting assembly for a floor in embodiment 3 is based on embodiment 2, and is different from embodiment 2 in that a protrusion 300 and a groove 400 are disposed between the floor profile 100 and the fixed-formed flexible bag 200, and both the protrusion 300 and the groove 400 extend along the length direction of the floor profile 100, wherein the protrusion 300 is integrally formed on the side surface of the floor profile 100, and the groove 400 is integrally formed on the fixed-formed flexible bag 200.

Through the arrangement of the protrusion 300 and the groove 400, the joint contact area of the fixedly formed flexible bag 200 and the floor profile 100 is increased, and the connection strength of the flexible bag 200 and the floor profile 100 is reinforced. It should be noted that, as an alternative to the same technical effect, the groove 400 can also be integrally formed on the floor section 100, and correspondingly, the protrusion 300 is formed on the fixedly formed flexible bag 200.

The cross section of the groove bottom of the groove 400 is arc-shaped with a central angle larger than 180 degrees, and by adopting the structural design, the fixed and formed flexible bag 200 cannot be separated from the protrusion 300 along the radial direction of the groove 400, so that the connection between the floor section bar 100 and the flexible bag 200 is reinforced, and as a replacement of similar effects, the groove 400 can also be a dovetail groove, a T-shaped groove and other structural forms.

Example 4

As shown in fig. 11 and 12, the transverse connecting assembly for a floor according to embodiment 4 is different from embodiment 3 in that an elastic seal ring 700 is fixedly provided on the outer circumferential edge of a movable pipe 900, the seal ring 700 is a rubber ring, and the seal ring 700 is interposed between two floor profiles 100, that is, the seal ring 700 abuts against the two floor profiles 100.

Through locating sealing washer 700 between two floor section bars 100 at the periphery fixation clamp of activity pipe 900, in actual work progress, fill in sealing washer 700 between two floor section bars 100 to can lock the high position of activity pipe 900 and fixed pipe 800, lock the high position of annotating material pipe 600 promptly, need not with the help of other equipment, perhaps need other people to cooperate fixed notes material pipe 600, when the construction is more convenient, be favorable to reduce cost.

Example 5

As shown in fig. 13-16, the transverse connection assembly for a floor in embodiment 5 is based on embodiment 4, and is different in that the injection pipe 600 includes an assembling portion 601 axially disposed along its circumference and penetrating through a plane where the bearing surfaces of the floor profiles 100 are located, the assembling portion 601 is disposed at the top end of the movable pipe 800, the bottom end of the assembling portion 601 is smaller than the top end thereof in size, the bottom end of the assembling portion 601 gradually transitions to the top end thereof, the gap size between the two bearing surfaces of the floor profiles 100 is smaller than the top size of the assembling portion 601 and larger than the top size of the assembling portion 601, and the assembling portion 601 is in a trumpet shape.

Compared with embodiment 4, in this embodiment, the movable pipe 900 is conveniently inserted into the space between two floor profiles 100 through the trumpet-shaped assembling portion 601, and the bottom end and the top end of the movable pipe are respectively located below and above the bearing surface of the floor profile 100 by means of the trumpet-shaped structural design of the assembling portion 601, and the size of the injection pipe 600 is fixed; in addition, the horn-shaped assembling portion 601 facilitates adding a curable material into the movable pipe 900, further facilitates construction, and improves installation efficiency.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A transverse connection assembly for floors, comprising at least two floor profiles (100) arranged in parallel and in close proximity in the same plane in the length direction, characterized in that:

the flexible bag (200) is arranged in a gap between every two adjacent floor section bars (100), the flexible bag (200) is used for injecting curable materials for fixing and forming the flexible bag, the flexible bag (200) before injection is in clearance fit with the floor section bars (100), and the flexible bag (200) after fixing and forming is attached to the floor section bars (100).

2. The transverse connection assembly of a floor panel according to claim 1, wherein: the filling opening of the flexible bag (200) is arranged above the floor profile (100).

3. The transverse connection assembly of a floor panel according to claim 1, wherein: the number of the flexible bags (200) is at least two, and the flexible bags are arranged at intervals along the length direction of the floor section bar (100).

4. The transverse connection assembly of a floor panel according to claim 1, wherein: a protrusion (300) and a groove (400) which are matched with each other are arranged between the floor sectional material (100) and the fixed and formed flexible bag (200), and the protrusion (300) and the groove (400) extend along the length direction of the floor sectional material (100).

5. The transverse connection assembly of a floor panel according to claim 1, wherein: a supporting piece (500) is arranged between every two adjacent floor profiles (100), the supporting piece (500) extends in the length direction parallel to the floor profiles (100), the supporting piece (500) and the two adjacent floor profiles (100) are enclosed to form an upward limiting opening, and the limiting opening is used for accommodating the flexible bag (200).

6. The transverse connection assembly of a floor panel according to claim 1, wherein: the bag mouth of the flexible bag (200) is connected with a rigid material injection pipe (600) communicated with the inner cavity of the flexible bag.

7. The transverse connection assembly of a floor panel according to claim 6, wherein: the material injection pipe (600) comprises an assembly part (601) penetrating through the plane of the bearing surface of the floor section bar (100), the size of the bottom end of the assembly part (601) is smaller than that of the top end of the assembly part, the bottom end of the assembly part (601) is gradually transited to the top end of the assembly part, and the size of the top of the gap between two adjacent floor section bars (100) is between the size of the top and the size of the bottom of the assembly part (601).

8. The transverse connection assembly of a floor panel according to claim 7, wherein: the top of the material injection pipe (600) is in a horn shape.

9. The transverse connection assembly of a floor panel according to claim 6, wherein: the periphery of the material injection pipe (600) is provided with an elastic sealing ring (700), and the sealing ring (700) is abutted against two adjacent floor profiles (100).

10. The transverse connection assembly of a floor panel according to claim 1, wherein: the flexible bag (200) is a plastic bag or a cloth bag.

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