CN209817347U - Prefabricated high-strength concrete floor tile bearing structure of assembled - Google Patents

Abstract

An assembly type prefabricated high-strength concrete floor tile supporting structure belongs to the technical field of building assembly type concrete components. Comprises a bottom support, an upper support and an adjustable screw rod connected between the bottom support and the upper support; the bottom support comprises a bottom plate, a cylindrical support seat for connecting an adjustable screw in an internal thread manner and at least three support rib plates which are connected with the bottom plate into a whole; the supporting rib plates radiate towards the periphery by taking the outer cylindrical surface of the cylindrical supporting seat as an initial point to be connected with the bottom plate to form an integrated supporting frame body; the upper support comprises a support plate, a cylindrical communicating hole seat penetrating through the support plate and a connecting rib plate connected to the cylindrical communicating hole seat, the connecting rib plate is connected to the support plate in a radiation mode towards the periphery by taking the outer cylindrical surface of the cylindrical communicating hole seat as a starting point, and the cylindrical communicating hole seat, the connecting rib plate and the support plate form an integrated structural member. The utility model discloses adjustable support has independent installation dismantlement function as the atress strong point of polylith assembled floor tile simultaneously, is favorable to not destroying whole ground and fitment layer.

Description

Prefabricated high-strength concrete floor tile bearing structure of assembled

Technical Field

The utility model belongs to the technical field of building assembled concrete member, a prefabricated high strength concrete floor tile bearing structure of assembled is related to.

Background

The construction method aims at the situation that the national building industrialized assembly type building is vigorously promoted, wet operation is adopted on the ground of domestic buildings in a large quantity, geothermal pipelines, water supply pipelines and electric pipelines are poured into a whole through secondary pouring, the floor slab load is large, hidden dangers are caused to a concealed pipeline system, pipelines cannot be replaced, fault points are difficult to find, maintenance and secondary decoration and transformation are not facilitated, the durability cannot be guaranteed by adopting other overhead materials, single blocks are inconvenient to disassemble and assemble, the requirements for developing the assembly type building cannot be met, and a large amount of garbage and resources are wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the technical problems, the utility model provides an assembled prefabricated high-strength concrete floor tile supporting structure which is suitable for the assembled high-strength concrete floor tile dry construction method, through the factory prefabrication and the installation on the construction site, the height of the upper support is adjusted through the adjustable supporting bolt installed on the supporting base, so that a cavity is formed between the structural floor slab and the floor tile, the integral flatness and stability of the floor tile are ensured, the bearing capacity is high, the overhead layer has the advantages of sound insulation, heat insulation, fire prevention, proper ground temperature and humidity, the secondary decoration and transformation are convenient, the main structure and the geothermal heating and water supply and drainage system are not damaged, the floor tile matched with the supporting structure can be repeatedly used, the great environment-friendly and energy-saving effects can be produced, the dead weight of the floor slab is reduced while the production cost is reduced, and the safety and reliability of the building are increased, the service life of the building is prolonged.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: the utility model provides an assembled prefabricated high strength concrete floor tile bearing structure which characterized in that: comprises a bottom support, an upper support and an adjustable screw rod connected between the two supports; the bottom support comprises a bottom plate, a cylindrical support seat for connecting an adjustable screw in an internal thread manner and at least three support rib plates which are connected with the bottom plate into a whole; the supporting rib plates radiate towards the periphery by taking the outer cylindrical surface of the cylindrical supporting seat as a starting point and are connected with the bottom plate to form an integrated supporting frame body; the upper support comprises a support plate, a cylindrical communicating hole seat penetrating through the support plate and a connecting ribbed plate connected to the cylindrical communicating hole seat, the connecting ribbed plate is connected to the support plate in a radiation mode towards the periphery by taking the outer cylindrical surface of the cylindrical communicating hole seat as a starting point, and the cylindrical communicating hole seat, each connecting ribbed plate and the support plate form an integrated structural member; the bottom plate and the supporting plate are the same in shape.

The supporting structure comprises a standard adjustable support used for supporting and installing floor tiles in the middle of the floor, a wall side adjustable support used for supporting and installing floor tiles at the edge of a wall body, and a wall internal corner adjustable support used for supporting and installing floor tiles at the internal corner part of the wall body.

The bottom plate and the support plate of the standard adjustable support are both circular, and three support rib plates with equal length are uniformly distributed and connected on the bottom plate; the connecting ribbed slab is four, and the equipartition is connected in the backup pad.

The bottom plate and the support plate of the wall-side adjustable support are rectangular, the number of the support rib plates is three, the tail end points of the two long ribs are respectively connected with the end point of one long side of the rectangular bottom plate, and the tail end point of one short rib is connected with the middle point of the other long side of the rectangular bottom plate; the number of the connecting rib plates is three, the two long ribs are connected along one long edge of the rectangular supporting plate, the tail end points are respectively connected with the end points of the long edge, and the tail end point of one short rib is connected with the middle point of the other long edge of the rectangular supporting plate.

The bottom plate and the supporting plate of the wall internal corner adjustable support are both square in shape, the internal thread bolt hole of the cylindrical supporting seat and the screw communicating hole of the cylindrical communicating hole seat are respectively positioned at the same angular point position of the bottom plate and the supporting plate, and the hole center axes of the upper hole and the lower hole are on the same axis; the number of the support rib plates is three, the two short rib plates are respectively connected along two sides of the square, and the tail end point of one long rib plate is connected with the other angular point opposite to the cylindrical support seat; the two connecting rib plates are respectively connected along two edges of the square.

The adjustable screw rod comprises a screw rod upper section adjusting rod piece, a screw rod middle supporting boss and a screw rod lower part adjusting thread rod piece.

The supporting rib plates and the connecting rib plates are all right-angled triangles.

The bottom support, the upper support and the adjustable screw are all supporting stressed basic structural members made of metal or high-strength resin.

The utility model has the advantages that:

1. the utility model discloses prefabricated high strength concrete floor tile bearing structure's of assembled advantage: mould batch standardization during production can carry out mass production, processing in the mill, also need not to take wet process operation during the field erection, all does not occupy the main part engineering time, consequently the shortcoming on cast in situ concrete ground is in the background narration the utility model discloses the dry-type worker method that adopts all can avoid in the construction, has improved productivity greatly moreover, reduces production installation cost.

2. Compared with the traditional cast-in-place concrete floor slab, the dry construction method of the assembled high-strength concrete floor tile has the advantages that: the total thickness of the floor slab is reduced, so that a series of economic benefits and environmental protection benefits are brought, and simultaneously, the dead weight of the building is reduced due to the reduction of the consumption of concrete, so that the safety and reliability of the building are improved, and the service life of the building is prolonged.

3. For other built on stilts ground construction methods in China, the utility model discloses every adjustable support is simultaneously as the atress strong point of support of the prefabricated assembled high-strength floor surface brick of polylith assembled, and every brick needs four adjustable supports, all has independent installation, dismantles the function, does not receive on the same support other three blocks of ground bricks to influence, more is favorable to not destroying the advantage on whole ground and fitment layer, and the floor (ground) face brick of dismantlement, installation can reuse, to various pipeline inspection in the built on stilts layer, it is more convenient to maintain, save time, high-efficient.

Drawings

Fig. 1 is a cross-sectional view of a standard adjustable support in embodiment 1 of the present invention.

Fig. 2 is a top view of an upper support of a standard adjustable support in embodiment 1 of the present invention.

Fig. 3 is a top view of the bottom support of the standard adjustable support in embodiment 1 of the present invention.

Fig. 4 is a perspective view of a standard adjustable support in embodiment 1 of the present invention.

Fig. 5 is a sectional view of a wall-side adjustable support in embodiment 2 of the present invention.

Fig. 6 is a top view of an adjustable wall mount according to embodiment 2 of the present invention.

Fig. 7 is a top view of the bottom support of the adjustable wall support according to embodiment 2 of the present invention.

Fig. 8 is a perspective view of the adjustable wall support in embodiment 2 of the present invention.

Fig. 9 is a sectional view of the support with adjustable internal corner of the wall in embodiment 3 of the present invention.

Fig. 10 is a top view of an adjustable support for the internal corner of a wall in embodiment 3 of the present invention.

Fig. 11 is a top view of the bottom support of the adjustable support of the internal corner of the wall in embodiment 3 of the present invention.

Fig. 12 is a perspective view of the adjustable support for the internal corner of the wall in embodiment 3 of the present invention.

Fig. 13 is a schematic view of the structure of the adjustable screw rod of the present invention.

In the figure: the device comprises a bottom support 1, a bottom plate 1-1, internal thread bolt holes 1-2, support rib plates 1-3, cylindrical support seats 1-4, an upper support 2, a support plate 2-1, screw communicating holes 2-2, connecting rib plates 2-3, cylindrical communicating hole seats 2-4, an adjustable screw 3, a screw middle support boss 3-1, a screw upper section adjusting rod piece 3-2 and a screw lower section adjusting thread rod piece 3-3.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Example 1

An assembly type prefabricated high-strength concrete floor tile supporting structure comprises a bottom support 1, an upper support 2 and an adjustable screw 3 connected between the two supports; the bottom support 1 comprises a bottom plate 1-1, a cylindrical support seat 1-4 for connecting an adjustable screw rod 3 through internal threads, and at least three support rib plates 1-3 which are connected with the bottom plate 1-1 into a whole; the supporting rib plates 1-3 radiate towards the periphery with the outer cylindrical surface of the cylindrical supporting seat 1-4 as a starting point and are connected with the bottom plate 1-1 to form an integrated supporting frame body; the upper support 2 comprises a support plate 2-1, a cylindrical communication hole seat 2-4 penetrating through the support plate 2-1 and a connecting ribbed plate 2-3 connected to the cylindrical communication hole seat 2-4, the connecting ribbed plate 2-3 is connected to the support plate 2-1 in a radiation mode towards the periphery with the outer cylindrical surface of the cylindrical communication hole seat 2-4 as an initial point, and the cylindrical communication hole seat 2-4, the connecting ribbed plate 2-3 and the support plate 2-1 form an integrated structural member; the bottom plate 1-1 and the support plate 2-1 are the same in shape.

The supporting rib plates 1-3 and the connecting rib plates 2-3 are all right-angled triangles.

As shown in FIG. 13, the adjustable screw 3 comprises a screw middle support boss 3-1, a screw upper section adjusting rod 3-2, and a screw lower section adjusting screw rod 3-3

The bottom support 1, the upper support 2 and the adjustable screw 3 are supporting stress base components and are made of metal or high-strength resin.

As shown in fig. 1-4, the support structure in this embodiment is a standard adjustable pedestal for supporting and installing floor tiles in the middle of a floor. The bottom plate 1-1 and the support plate 2-1 of the standard adjustable support are both circular, and three support rib plates 1-3 with equal length are uniformly distributed on the bottom plate 1-1; the four connecting rib plates 2-3 are uniformly distributed and connected on the supporting plate 2-1.

Example 2

As shown in fig. 5-8, the support structure in this embodiment is a wall adjustable support for supporting wall-mounted edge floor tiles. The bottom plate 1-1 and the support plate 2-1 of the wall-side adjustable support are both rectangular, three support rib plates 1-3 are provided, the tail end points of two long ribs are respectively connected with one long-side end point of the rectangular bottom plate, and the tail end point of one short rib is connected with the middle point of the other long side of the rectangular bottom plate; the number of the connecting rib plates 2-3 is three, two long ribs are connected along one long edge of the rectangular support plate, the tail end points are respectively connected with the end points of the long edge, and the tail end point of one short rib is connected with the middle point of the other long edge of the rectangular support plate.

Example 3

As shown in fig. 9-12, the supporting structure in this embodiment is an adjustable supporting seat for supporting and installing floor tiles at the internal corner of the wall. The bottom plate 1-1 and the support plate 2-1 of the wall internal corner adjustable support are both square in shape, the internal thread bolt hole 1-2 of the cylindrical support seat 1-4 and the screw communicating hole 2-4 of the cylindrical communicating hole seat 2-4 are respectively positioned at the same angular point position of the bottom plate 1-1 and the support plate 2-1, and the hole center axes of the upper hole and the lower hole are on the same axis; the number of the support rib plates 1-3 is three, two short rib plates are respectively connected along two sides of a square, and the tail end point of one long rib plate is connected with the other angular point opposite to the cylindrical support seat; the two connecting rib plates 2-3 are respectively connected along two edges of the square.

Claims (8)

1. The utility model provides an assembled prefabricated high strength concrete floor tile bearing structure which characterized in that: comprises a bottom support, an upper support and an adjustable screw rod connected between the two supports; the bottom support comprises a bottom plate, a cylindrical support seat for connecting an adjustable screw in an internal thread manner and at least three support rib plates which are connected with the bottom plate into a whole; the supporting rib plates radiate towards the periphery by taking the outer cylindrical surface of the cylindrical supporting seat as a starting point and are connected with the bottom plate to form an integrated supporting frame body; the upper support comprises a support plate, a cylindrical communicating hole seat penetrating through the support plate and a connecting ribbed plate connected to the cylindrical communicating hole seat, the connecting ribbed plate is connected to the support plate in a radiation mode towards the periphery by taking the outer cylindrical surface of the cylindrical communicating hole seat as a starting point, and the cylindrical communicating hole seat, each connecting ribbed plate and the support plate form an integrated structural member; the bottom plate and the supporting plate are the same in shape.

2. The fabricated precast high strength concrete floor tile support structure of claim 1, wherein: the supporting structure comprises a standard adjustable support used for supporting and installing floor tiles in the middle of the floor, a wall side adjustable support used for supporting and installing floor tiles at the edge of a wall body, and a wall internal corner adjustable support used for supporting and installing floor tiles at the internal corner part of the wall body.

3. The fabricated precast high strength concrete floor tile support structure of claim 2, wherein: the bottom plate and the support plate of the standard adjustable support are both circular, and three support rib plates with equal length are uniformly distributed and connected on the bottom plate; the connecting ribbed slab is four, and the equipartition is connected in the backup pad.

4. The fabricated precast high strength concrete floor tile support structure of claim 2, wherein: the bottom plate and the support plate of the wall-side adjustable support are rectangular, the number of the support rib plates is three, the tail end points of the two long ribs are respectively connected with the end point of one long side of the rectangular bottom plate, and the tail end point of one short rib is connected with the middle point of the other long side of the rectangular bottom plate; the number of the connecting rib plates is three, the two long ribs are connected along one long edge of the rectangular supporting plate, the tail end points are respectively connected with the end points of the long edge, and the tail end point of one short rib is connected with the middle point of the other long edge of the rectangular supporting plate.

5. The fabricated precast high strength concrete floor tile support structure of claim 2, wherein: the bottom plate and the supporting plate of the wall internal corner adjustable support are both square in shape, the internal thread bolt hole of the cylindrical supporting seat and the screw communicating hole of the cylindrical communicating hole seat are respectively positioned at the same angular point position of the bottom plate and the supporting plate, and the hole center axes of the upper hole and the lower hole are on the same axis; the number of the support rib plates is three, the two short rib plates are respectively connected along two sides of the square, and the tail end point of one long rib plate is connected with the other angular point opposite to the cylindrical support seat; the two connecting rib plates are respectively connected along two edges of the square.

6. The fabricated precast high strength concrete floor tile support structure of claim 1, wherein: the adjustable screw rod comprises a screw rod upper section adjusting rod piece, a screw rod middle supporting boss and a screw rod lower part adjusting thread rod piece.

7. The fabricated precast high-strength concrete floor tile support structure according to any one of claims 1 to 6, wherein: the supporting rib plates and the connecting rib plates are all right-angled triangles.

8. The fabricated precast high-strength concrete floor tile support structure according to any one of claims 1 to 6, wherein: the bottom support, the upper support and the adjustable screw are all supporting stressed basic structural members made of metal or high-strength resin.