CN213166013U - General flange mosaic structure of prefabricated floor - Google Patents

Abstract

The utility model discloses a general flange mosaic structure of prefabricated floor, enclose including two liang of neighbours and establish four group's flange subassemblies that constitute to make the prefabricated floor region, wherein two sets of vertical flange subassemblies that parallel among four group's flange subassemblies, two sets of horizontal flange subassemblies that parallel in addition, every group the one end of vertical flange subassembly and horizontal flange subassembly links to each other with the adjacent flange subassembly in one side, and the other end surpasss the adjacent flange subassembly of opposite side and is located to make outside the prefabricated floor region. The utility model provides a can make things convenient for in a flexible way to adjust the width and the length of precast floor slab, and the general flange mosaic structure of precast floor slab that can improve precast floor slab quality is carried in easy to assemble transport.

Description

General flange mosaic structure of prefabricated floor

Technical Field

The utility model relates to a prefabricated floor's general flange mosaic structure belongs to building engineering technical field.

Background

At present, a general flange splicing structure for manufacturing a prefabricated floor slab comprises two rows of longitudinal flanges and two rows of transverse flanges, wherein the longitudinal flanges and the transverse flanges are symmetrically arranged, two ends of the two rows of transverse flanges are arranged between the two rows of longitudinal flanges, the width of the manufactured prefabricated floor slab is the length of the transverse flanges, the length of the prefabricated floor slab is the length of a longitudinal flange part between the two transverse flanges, the length and the width of the prefabricated floor slab are manufactured as required, the length of the prefabricated floor slab of the existing general flange splicing structure can be adjusted by adjusting the distance between the two transverse flanges, and when the width of the prefabricated floor slab is adjusted, the transverse flanges with corresponding lengths need to be replaced, so that the operation is labor-consuming and not convenient and flexible enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a general flange mosaic structure of prefabricated floor is provided, can make things convenient for in a flexible way to adjust the width and the length of prefabricated floor, can solve the not enough of prior art.

The technical scheme of the utility model is that: the utility model provides a general flange mosaic structure of prefabricated floor, includes two liang of adjacent encloses to establish four group's flange subassemblies that constitute and make the prefabricated floor region, two sets of vertical flange subassemblies that are parallel among four group's flange subassemblies, and the other two sets of horizontal flange subassemblies that are parallel, every group vertical flange subassembly and horizontal flange subassembly's one end link to each other with the adjacent flange subassembly of one side, and the other end surpasss the adjacent flange subassembly of opposite side and is located and makes the prefabricated floor region outside. The whole structure is in a windmill shape with the middle part being a prefabricated floor area, and the length or the width of the prefabricated floor area can be adjusted by moving one group of the longitudinal flange assemblies and the transverse flange assemblies, so that prefabricated floors with different specifications can be manufactured without replacing the flange assemblies, and the structure is flexible and convenient.

Further vertical flange subassembly includes first flange module and the second flange module that length direction set up along the same straight line, horizontal flange subassembly includes third flange module and the fourth flange module that length direction set up along the same straight line, first flange module, second flange module, third flange module, fourth flange module are by aluminium alloy integrated into one piece stretch forming. Vertical flange subassembly is connected through two flange modules respectively with horizontal flange subassembly, can reduce the length of every flange module, and convenient transportation and storage, every flange module is by the convenient processing of aluminium alloy integrated into one piece stretch forming to weight alleviates greatly, easy to assemble transport.

Further it is evenly seted up a plurality of U type grooves that open side up along length direction that first flange module, second flange module, third flange module, fourth flange module, the U type groove at both ends is 25mm from respective tip respectively, first flange module, second flange module on two sets of vertical flange subassemblies are the diagonal angle distribution each other, and third flange module, fourth flange module on two sets of horizontal flange subassemblies are the diagonal angle distribution each other. The U-shaped groove is used for placing steel bars for manufacturing the prefabricated floor slab, the first flange modules and the second flange modules on the two groups of longitudinal flange assemblies are distributed diagonally, and the third flange modules and the fourth flange modules on the two groups of transverse flange assemblies are distributed diagonally, so that the distance between the outermost steel bars is 25mm, and the quality of the prefabricated floor slab is improved.

Further the longitudinal rib assembly is characterized in that the lengths of the first rib module, the second rib module, the third rib module and the fourth rib module are 950 mm-2000 mm, and the distance between every two adjacent U-shaped grooves is 100mm or 150mm or 180 mm.

To sum up, the utility model provides a can make things convenient for in a flexible way to adjust the width and the length of precast floor slab, and the general flange mosaic structure of precast floor slab that prefabricated floor slab quality can be improved in easy to assemble transport.

Drawings

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

Shown in the figure: a longitudinal flange assembly 1; a transverse flange assembly 2; a first flange module 3; a second edge blocking module 4; a third edge module 5; a fourth rib module 6; a U-shaped groove 7; and (5) manufacturing a prefabricated floor slab area 8.

Detailed Description

The embodiment of the utility model provides a: as shown in fig. 1, a general rib splicing structure of a prefabricated floor slab comprises four groups of rib assemblies which are arranged two by two and adjacently to form a prefabricated floor slab manufacturing area 8, wherein two groups of the four groups of rib assemblies are parallel longitudinal rib assemblies 1, the other two groups of the four groups of rib assemblies are parallel transverse rib assemblies 2, one end of each group of the longitudinal rib assemblies 1 and one end of each group of the transverse rib assemblies 2 are connected with the rib assembly adjacent to one side, and the other end of each group of the longitudinal rib assemblies 1 and the other group of the transverse rib assemblies exceeds the rib assembly adjacent to the other side and is positioned outside the prefabricated floor slab manufacturing area 8. The whole structure is in a windmill shape with the middle part being a prefabricated floor area 8, the length or the width of the prefabricated floor area 8 can be adjusted by moving one group of the longitudinal flange assemblies 1 and the transverse flange assemblies 2, so that prefabricated floors with different specifications can be manufactured without replacing the flange assemblies, and the structure is flexible and convenient.

The preferred vertical flange subassembly 1 of this embodiment includes that length direction sets up along the same straight line first flange module 3 and second flange module 4, and horizontal flange subassembly 2 includes that length direction sets up along the same straight line third flange module 5 and fourth flange module 6, and first flange module 3, second flange module 4, third flange module 5, fourth flange module 6 are by aluminium alloy integrated into one piece by tensile shaping. Vertical flange subassembly 1 is connected through two flange modules respectively with horizontal flange subassembly 2, can reduce the length of every flange module, and convenient transportation and storage, every flange module is by the convenient processing of aluminium alloy integrated into one piece to weight alleviates greatly, easy to assemble transport.

The first flange module 3 that this embodiment is preferred, second flange module 4, third flange module 5, fourth flange module 6 is evenly seted up a plurality of openings U type groove 7 up along length direction, U type groove 7 at both ends is apart from respective tip 25mm respectively, first flange module 3 on two sets of vertical flange subassemblies 1, second flange module 4 is diagonal distribution each other, third flange module 5 on two sets of horizontal flange subassemblies, fourth flange module 6 is diagonal distribution each other. The length of the first flange module 3, the second flange module 4, the third flange module 5 and the fourth flange module 6 is 950mm to 2000mm, the distance between adjacent U-shaped grooves 7 is 100mm or 150mm or 180mm, the first flange module 3 and the second flange module 4 on two groups of longitudinal flange assemblies 1 are mutually distributed in diagonal angle, the third flange module 5 and the fourth flange module 6 on two groups of transverse flange assemblies 2 are mutually distributed in diagonal angle, the first flange module 3, the second flange module 4, the third flange module 5 and the fourth flange module 6 with proper length are selected according to the specification of the prefabricated plate and are combined and placed on a trolley and fixed by fasteners, the first flange module 3 and the second flange module 4, the third flange module 5 and the fourth flange module 6 are connected by plastic foam, the U-shaped grooves 7 are used for placing the reinforcing steel bars of the prefabricated floor, the distance between the outermost steel bars and the edge is ensured to be 25mm, and the quality of the prefabricated floor slab is improved.

The above is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (4)

1. The utility model provides a general flange mosaic structure of prefabricated floor, includes two liang of adjacent encloses and establishes four group's flange subassemblies that make the prefabricated floor region, wherein two sets of vertical flange subassemblies that parallel among four group's flange subassemblies, other two sets of horizontal flange subassemblies that parallel, its characterized in that: one end of each group of the longitudinal rib assembly and the transverse rib assembly is connected with the rib assembly adjacent to one side, and the other end of each group of the longitudinal rib assembly and the transverse rib assembly exceeds the rib assembly adjacent to the other side and is positioned outside a prefabricated floor manufacturing area.

2. The universal flange splicing structure of precast floor slabs according to claim 1, wherein: vertical flange subassembly includes first flange module and the second flange module that length direction set up along the same straight line, horizontal flange subassembly includes third flange module and the fourth flange module that length direction set up along the same straight line, first flange module, second flange module, third flange module, fourth flange module are by aluminium alloy integrated into one piece stretch forming.

3. The universal flange splicing structure of precast floor slabs according to claim 2, wherein: first flange module, second flange module, third flange module, fourth flange module it has evenly seted up a plurality of openings U type grooves up along length direction, and the U type groove at both ends is separated from respective tip 25mm respectively, first flange module, second flange module on two sets of vertical flange subassemblies are the diagonal angle distribution each other, and third flange module, fourth flange module on two sets of vertical flange subassemblies are the diagonal angle distribution each other.

4. The universal flange splicing structure of precast floor slabs according to claim 2 or 3, wherein: the length of the first rib module, the second rib module, the third rib module and the fourth rib module is 300mm to 2000mm, and the distance between every two adjacent U-shaped grooves is 100mm or 150mm or 180 mm.

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