CN218437994U - Overhead floor with staggered pipe arrangement - Google Patents

Abstract

The utility model discloses a built on stilts floor of dislocation stringing, its characterized in that: the supporting module comprises a supporting module, a connecting structure and leveling supporting legs, wherein communicated longitudinal and transverse gaps capable of being used for laying pipelines are formed between the supporting modules, a heat preservation layer is laid below the supporting modules, the corners of the adjacent supporting modules are connected through the connecting structure, the supporting module comprises a standard module and a pipe collecting module, a groove for laying heating pipes is formed in the top of the standard module, a plurality of spaced convex columns are arranged at the top of the pipe collecting module, a channel for laying the heating pipes is formed between the convex columns, and the leveling supporting legs are respectively installed on the standard module and the pipe collecting module.

Description

Overhead floor with staggered pipe arrangement

Technical Field

The utility model relates to a raised floor of dislocation stringing.

Background

The existing fabricated floor is generally composed of adjusting feet, a supporting layer, a heat insulation layer and a balance layer, wherein the heat insulation layer is positioned above the supporting layer, the balance layer is positioned above the heat insulation layer, and a gap between the lower part of the supporting layer and the foundation floor has the purpose of accommodating other pipelines besides the leveling requirement. Such a structure, while fully functional, makes the overall implementation height significantly higher than conventional floor practices. As a result, not only is the application of fabricated aerial flooring led to a series of changes not common to conventional processes, but also a loss of height in the available space is caused.

Specifically, the overhead floor in the prior art is made by: firstly, laying a water and electricity pipeline, then laying a layer of bottom plate above the water and electricity pipeline, mounting the bottom plate on an adjustable supporting ground foot, and leveling through the supporting ground foot after mounting; and paving a heating module on the adjusted bottom plate, paving a heating pipeline on the heating module, installing a layer of balance plate above the heating module, and paving wood floors or floor tiles above the balance plate.

Specifically, when water and electricity pipelines are laid, the water and electricity pipelines can be overlapped vertically and horizontally, the height after vertical and horizontal overlapping is about 5cm, the distance between a bottom plate and the ground is at least 5cm, the thickness of the bottom plate is about 3cm, a heating module is laid on the bottom plate, the thickness is increased by 1.5-2cm, the heating pipeline is laid on the heating module, a wood floor or ceramic tiles cannot be laid directly above the heating module, a balance plate with the thickness of at least 1cm needs to be laid above the heat insulation module, the height is about 11cm (the ceramic tiles or the wood floor are not laid at this moment), the frame height of the foundation ground is high, the general room height is 2.6-2.7m, and the utilization height of the room is reduced by the method. When the water and electricity pipeline goes wrong, the disassembly and the maintenance are very difficult.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a built on stilts floor of dislocation stringing, its pipeline and heating pipe occupation space height alone not.

In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides an overhead floor of dislocation stringing, includes support module, connection structure and leveling supporting legs, forms the communicating vertical and horizontal gap that can lay the pipeline between the support module, lays the heat preservation in the below of supporting the module, connects through connection structure between the bight of adjacent support module, should support the module and include standard module and collection pipe module, and the top of this standard module is equipped with the slot of laying the heating pipe, the top of collection pipe module is equipped with several spaced projection, forms the passageway of laying the heating pipe between the projection, installs the leveling supporting legs on standard module and collection pipe module respectively.

The heat-insulating layer is a whole layer and/or a block layer which are tiled, and the block layer is positioned above the whole layer at intervals.

A pipeline in one direction is laid between the whole layer and the supporting module, and a pipeline in the other direction is positioned in the gap; or the pipeline is located in a gap.

The standard module comprises a substrate, corner protrusions are arranged at four corners of the substrate, side protrusions are arranged between the corner protrusions, middle protrusions are arranged between the side protrusions, a groove A is arranged on the top wall of the corner protrusions, vertical connecting holes A are arranged below the groove A, side mounting holes used for mounting leveling supporting legs are arranged at two ends of each side protrusion, each middle protrusion comprises an elliptical ring protrusion, a cross protrusion is arranged in each elliptical ring, and a central mounting hole used for mounting the leveling supporting legs is arranged at the cross position of each cross protrusion.

The collecting pipe module comprises a bottom plate, a convex column and four corner bosses are arranged on the bottom plate, grooves B are arranged on the corner bosses, vertical connecting holes B are arranged below the grooves B, corner mounting holes for mounting leveling supporting legs are arranged on the corner bosses outside the grooves B, and mounting holes for mounting the leveling supporting legs are arranged between the convex columns.

The connecting structure comprises a connecting plate, a connecting screw and a nail holding piece inserted into a vertical connecting hole at the corner of a supporting module, the connecting plate comprises four corner connecting plates used for connecting four supporting modules and two corner connecting plates used for connecting two supporting modules, an expansion plug is inserted into the corner connecting hole A and the corner connecting hole B, a partition plate is arranged in the middle of a side plate of each corner connecting plate, a partition plate is arranged in the middle of each two corner connecting plates, the corner of each connecting plate is lapped on a corresponding groove, a through hole is formed in the corner of each connecting plate, the through hole faces the vertical connecting hole, and the lower end of the connecting screw penetrates through the through hole of the connecting plate and is connected with the nail holding piece.

And laying a balance plate above the support module.

And a pressing pipe piece for limiting the heating pipe is arranged on the convex column of the collecting pipe module.

The utility model has the advantages that: possible three-layer pipeline arrangement (including ground heating pipe, other pipelines existing crosswise) with the height required for laying the ground heating pipe, coinciding with each protrusion in the standard module; at least one layer of water and electricity pipelines can be arranged in gaps among the plates, so that the total height of the structure can be obviously reduced, the height occupation is not limited by the structure, and the conversion of an assembly type construction method is realized in the total height similar to that of the traditional construction method.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the embodiments will be described below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 1a is a schematic structural view of fig. 1 with a plurality of support modules removed.

Fig. 2 is a schematic structural diagram of a standard module.

Fig. 3 is a schematic structural view of a manifold module.

Fig. 4a is a first schematic structural diagram of the connecting plate.

Fig. 4b is a schematic structural diagram of the connecting plate.

Detailed Description

The following description is given by way of example only, and not by way of limitation, of the scope of the invention.

As shown in fig. 1 to 4b, for the utility model discloses a raised floor of dislocation stringing, including support module 1, connection structure 2 and leveling supporting legs 3, form communicating vertical, horizontal gap that can lay the pipeline between the support module 1. The supporting modules are made of rigid materials such as cement, the supporting modules are preferably rectangular cement plates, a heat insulation layer 4 is laid below the supporting modules, the corners of the adjacent supporting modules 1 are connected through the connecting structures 2, the supporting modules 1 comprise standard modules 11 and pipe collecting modules 12, grooves for laying heating pipes are formed in the tops of the standard modules 11, and rigid supporting surfaces are arranged on balance plates or facing materials on the upper surfaces of the standard modules. The top of the collecting pipe module 12 is provided with a plurality of convex columns at intervals, channels for distributing heating pipes are formed among the convex columns, leveling supporting legs 3 are respectively arranged on the standard module and the collecting pipe module, and the leveling supporting legs of the supporting modules are independent, so that the supporting modules can be realized in the same structure when the thickness and the overhead height of the supporting modules are different.

The heat preservation layer is laid below the supporting module, and according to the requirement of the overhead height, the heat preservation layer can be formed by a whole layer which is tiled and a block layer which is locally added, or can be formed by any one of the two layers.

When the heating pipe is applied, other pipelines (called pipelines) outside the heating pipe can be distributed below the supporting modules (without supporting legs), can be distributed below the supporting modules in one direction and distributed in gaps among the supporting modules in the other direction, and can also be uniformly distributed in gaps among the supporting modules according to the height required to be controlled by the overhead ground. When there are other pipelines crossing in a certain area, the pipeline arrangement in one direction needs to be limited.

The standard module 11 comprises a substrate, corner protrusions 111 are arranged at four corners of the substrate, edge protrusions 112a and 112b are arranged between the corner protrusions, middle protrusions 113 are arranged between the edge protrusions, a groove A114 is arranged on the top wall of the corner protrusion, a vertical connecting hole A115 is arranged below the groove A114, edge mounting holes 116 for mounting leveling supporting feet are arranged at two ends of the edge protrusion 112a, the middle protrusion comprises an elliptical ring-shaped protrusion, a cross protrusion is arranged in the elliptical ring, and a central mounting hole 117 for mounting the leveling supporting feet is arranged at the cross of the cross protrusion. The standard module is used for conventional ground to warm up the region of arranging, forms the slot between the arch, and the heating pipe card is between relative arch, and the heating pipe makes the big area of contact of standard module and ground heating coil do benefit to upwards to get hot with protruding high coincidence, and the bar of standard module at the slot periphery is protruding, when increasing the heat conduction effect, still makes the anti performance of rolling over of module strengthened, perhaps can make the board attenuate.

The header module 12 includes a bottom plate, on which convex columns 121 and four corner bosses 122 are provided, the corner bosses 122 are provided with grooves B123, vertical connection holes B124 are provided below the grooves B123, corner bosses outside the grooves B are provided with corner mounting holes 125 for mounting leveling support legs, and mounting holes 126 for mounting leveling support legs are provided between the convex columns. The pipe collecting module is provided with the bosses which are uniformly distributed, so that the pipe collecting module not only can be used for areas with dense pipelines and needing flexible bending, but also can be used for cutting and conforming non-standard parts at the periphery; the convex columns of the collecting pipe module are provided with the pressure pipe sheets for limiting the heating pipes, and the distance between the bosses of the collecting pipe module is obviously larger than the pipe diameter, so that the reliable positioning can be realized while the bending radius of the heating pipes is changed.

The connecting structure 2 comprises connecting plates, connecting screws 22 and nail holding pieces inserted into corner vertical connecting holes of the supporting modules, the nail holding pieces can be customized nuts, expansion plugs or rubber plugs, the connecting plates comprise four-corner connecting plates 21a used for connecting four supporting modules and two-corner connecting plates 21b used for connecting two supporting modules, and the two-corner connecting plates are used for corner positioning, module transverse and vertical splicing and high-low dislocation; the expansion plugs are inserted into vertical connecting holes A and B of the corners, the middle parts of the side plates of the four-corner connecting plates are provided with partition plates, the middle parts of the two-corner connecting plates are provided with partition plates, the partition plates are located at the corresponding longitudinal and transverse gaps, the corners of the connecting plates are lapped on the corresponding grooves, the corners of the connecting plates are provided with through holes, the through holes face the vertical connecting holes, and the lower ends of connecting screws penetrate through the through holes of the connecting plates to be connected with the nail holding pieces.

By the utility model discloses the built on stilts ground of implementing, its necessary height is steerable within 8 centimeters, and the total thickness of ground that contains the finish coat can realize being less than 10 centimeters, dismantles easy maintenance.

Claims (8)

1. The utility model provides a built on stilts floor of dislocation stringing which characterized in that: the supporting module comprises standard modules and a header module, the top of each standard module is provided with a groove for laying heating pipes, the top of each header module is provided with a plurality of spaced convex columns, channels for laying the heating pipes are formed between the convex columns, and the standard modules and the header module are respectively provided with leveling supporting legs.

2. The mis-plumbed raised floor as in claim 1, wherein: the heat-insulating layer is a whole layer and/or a block layer which is tiled, and the block layer is positioned above the whole layer at intervals.

3. The mis-plumbed raised floor as in claim 2, wherein: a pipeline in one direction is laid between the whole layer and the supporting module, and a pipeline in the other direction is positioned in the gap; or the pipeline is located in a gap.

4. The elevated floor with staggered tubes as set forth in claim 1, wherein: the standard module includes the base plate, it is protruding to be equipped with bight in four bights of this base plate, it is protruding to be equipped with limit portion between the bight arch, it is protruding to be equipped with the middle part between the limit portion arch, it is equipped with recess A to be equipped with at the bellied roof in this bight, be equipped with vertical connecting hole A below recess A, be equipped with the limit portion mounting hole that is used for installing the leveling supporting legs at the bellied both ends in limit portion, this middle part is protruding including oval ring form, it is protruding to be equipped with the cross in oval ring, be equipped with the central mounting hole that is used for installing the leveling supporting legs in the bellied intersection of cross.

5. The mis-plumbed raised floor as in claim 1, wherein: the collecting pipe module comprises a bottom plate, a convex column and four corner bosses are arranged on the bottom plate, grooves B are arranged on the corner bosses, vertical connecting holes B are arranged below the grooves B, corner mounting holes for mounting leveling supporting legs are arranged on the corner bosses outside the grooves B, and mounting holes for mounting the leveling supporting legs are arranged between the convex columns.

6. The mis-plumbed raised floor as in claim 1, wherein: the connecting structure comprises a connecting plate, a connecting screw and a nail holding piece inserted into a vertical connecting hole at the corner of a supporting module, the connecting plate comprises four corner connecting plates used for connecting four supporting modules and two corner connecting plates used for connecting two supporting modules, an expansion plug is inserted into the corner connecting hole A and the corner connecting hole B, a partition plate is arranged in the middle of a side plate of each corner connecting plate, a partition plate is arranged in the middle of each two corner connecting plates, the corner of each connecting plate is lapped on a corresponding groove, a through hole is formed in the corner of each connecting plate, the through hole faces the vertical connecting hole, and the lower end of the connecting screw penetrates through the through hole of the connecting plate and is connected with the nail holding piece.

7. The mis-plumbed raised floor as in claim 1, wherein: a balancing plate is laid above the support modules.

8. The elevated floor with staggered tubes as set forth in claim 5, wherein: and a pressing pipe piece for limiting the heating pipe is arranged on the convex column of the collecting pipe module.

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