CN206448171U - A kind of component for controlling hollow slab beam core mould to float - Google Patents

Abstract

The utility model discloses a kind of component for controlling hollow slab beam core mould to float, reinforcement cage skeleton including pouring hollow slab girder, two side templates, to drawing reinforcing bar, core, described two side templates are arranged on reinforcement cage skeleton both sides and pass through the two groups up and down width to drawing reinforcing bar control to pour rear hollow slab girder, the core is placed in the steel reinforcement cage, multiple anti-floating components are additionally provided with above the core to set along hollow slab girder is longitudinally spaced, its length is consistent with hollow slab girder width, it is stuck between the side template of both sides and by being fixed to drawing reinforcing bar to realize, the anti-floating component is rectangular parallelepiped structure, 40cm width is provided with the arcwall face of fovea superior in the middle of its horizontal bottom surface, and the arcwall face fovea superior depth is 5cm, so that core is located in arcwall face, when pouring, limitation is floated and moved left and right thereon.The component that a kind of control hollow slab beam core mould that the utility model is provided floats, is arranged on core upper end, effectively spacing to the progress of its position, effectively prevents the appearance of floating situation.

Description

A kind of component for controlling hollow slab beam core mould to float

Technical field

The utility model is related to a kind of building element, more particularly to a kind of component for controlling hollow slab beam core mould to float.

Background technology

In Modern Bridge Engineering, armored concrete and prefabricated concrete hollow slab girder are structural because it is from heavy and light Can it is good, many favorable factors such as easy construction and be widely used, and at present China construction most of prestressed hollow slab beams Core have two kinds of forms, one kind is simple wooden model, and another is aerated capsule, wherein simple wooden model is difficult to tear open after pouring Remove, so being used compared to aerated capsule more extensive.

Core is drawn to steel reinforcement cage core by its principle of aerated capsule when being construction, and the blowing pressure reaches operating pressure after-pouring Concrete, when concrete initial set, core deflation extraction can be completed to be molded, but aerated capsule（Including simple wooden model）Make When being constructed for core, easily there is core skew, the reason such as float causes top plate thickness thinning, so as to cause hollow slab girder not conform to Lattice.

Because concrete is a kind of plastic material, and its rigidity of core is low is easily deformed, and can be produced in casting process Raw certain buoyancy, particularly in process of vibrating, buoyancy can become much larger, when buoyancy is more than the upward power of constraint core, just Core rising phenomenon occurs, therefore in bridge beam slab engineering construction, how to control core position ensure non-rising be always One technical barrier.

Utility model content

The purpose of this utility model is to overcome the defect of prior art to control what hollow slab beam core mould floated there is provided a kind of Component, is arranged on core upper end, effectively spacing to the progress of its position, effectively prevents the appearance of floating situation.

To achieve the above object, the utility model proposes following technical scheme：

A kind of component for controlling hollow slab beam core mould to float, including pour the reinforcement cage skeleton of hollow slab girder, two side forms Plate, to drawing reinforcing bar, core, it is multigroup to drawing reinforcing bar control to pour by upper and lower ends that described two side templates are arranged on steel reinforcement cage both sides The width of rear hollow slab girder is built, the core is placed in the steel reinforcement cage, and multiple anti-floatings are additionally provided with above the core Component is set along hollow slab girder is longitudinally spaced, and its length is consistent with hollow slab girder width, is stuck between the side template of both sides and leads to Cross and fixation is realized to drawing reinforcing bar, the anti-floating component is rectangular parallelepiped structure, and 40cm width is provided with fovea superior in the middle of its horizontal bottom surface Arcwall face, and the arcwall face fovea superior depth is 5cm so that core is located in arcwall face, and when pouring, control limits its floating And move left and right.

Preferably, multiple anti-floating components are set at intervals of 1 ~ 1.5m on hollow slab girder.

Preferably, the anti-floating surface member width be 6cm, be highly 10cm, its top both sides and to draw reinforcing bar between set Regulation cushion block is equipped with, to limit anti-floating component and to drawing the distance between reinforcing bar.

Preferably, the anti-floating component and regulation cushion block are wood materials.

Compared with prior art, the component that a kind of control hollow slab beam core mould that the utility model is disclosed floats, with such as Lower usefulness：By setting anti-floating component above core, a pressure is given above core, casting process is effectively prevented There is rising phenomenon in core mould, while laterally setting the arcwall face consistent with core radian in anti-floating component lower surface so that core Mould position is effectively controlled in arcwall face, can not move left and right, and the installation for anti-floating component uses the cooperation pair of two side templates Reinforcing bar is drawn, anti-floating component is fixedly installed in two side templates the tension for drawing reinforcing bar, while the setting of anti-floating component makes It is not in swollen mould phenomenon to obtain when hollow slab girder is poured, and causes to pour dimensional discrepancy.

Brief description of the drawings

Fig. 1 is the scheme of installation for the component that the utility model control hollow slab beam core mould floats；

Fig. 2 is side view of the present utility model.

Embodiment

Below in conjunction with accompanying drawing of the present utility model, the technical scheme progress to the utility model embodiment is clear, complete Description.

As shown in Figure 1 and 2, the component that a kind of control hollow slab beam core mould disclosed in the utility model floats, including pour The reinforcement cage skeleton 1 of hollow slab girder, two side templates 2, to drawing reinforcing bar 3, core 4, anti-floating component 5 and regulation cushion block 6, two sides Template 2 is arranged on the both sides of reinforcement cage skeleton 1, and multigroup to drawing reinforcing bar 3 to fix by upper and lower ends, passes through in casting concrete Hollow slab girder width is shaped and controlled to two side templates 2, and the core is placed in reinforcement cage skeleton 1, and the anti-floating component 5 is set Put above core, and set along hollow slab girder is longitudinally spaced, spacing distance is 1 ~ 1.5m and each anti-floating component is placed exactly in To drawing below reinforcing bar, the anti-floating component 5 is cuboid framework, and its length is consistent with hollow slab girder width, and width is 6cm, high Spend for 10cm, by being stuck between two side templates 2, by top to drawing 3 pairs of drawings of reinforcing bar to realize that position is fixed, the regulation Cushion block 6 is arranged on the upper surface two ends of anti-floating component 5 and is located to drawing the lower section of reinforcing bar 3, and anti-floating component is adjusted by adjusting the thickness of cushion block 6 With to drawing the distance between reinforcing bar so that the hollow slab girder upper surface distance after limiting anti-floating component and pouring.

Particularly, 40cm width is provided with the arcwall face 7 of fovea superior, and the arc in the middle of the horizontal bottom surface of the anti-floating component Face fovea superior depth is 5cm so that core is located in arcwall face, and when pouring, control limits it and floats and move left and right.

The anti-floating component 5 and regulation cushion block 6 be wood materials, when hollow slab girder is poured, cored slab is cast in together Inside beam.

The component that a kind of control hollow slab beam core mould disclosed in the utility model floats, by setting anti-above core Floating component, a pressure is given above core, effectively prevents casting process core mould from rising phenomenon occur, while in anti-floating structure Part lower surface laterally sets the arcwall face consistent with core radian so that core position is effectively controlled in arcwall face, can not Move left and right, the installation for anti-floating component is coordinated to drawing reinforcing bar using two side templates, causes anti-floating structure to the tension for drawing reinforcing bar Part is fixedly installed in two side templates, while the setting of anti-floating component causes to be not in that swollen mould shows when hollow slab girder is poured As causing to pour dimensional discrepancy.

Technology contents and technical characteristic of the present utility model are had revealed that as above, but those skilled in the art still may be used A variety of replacements and modification without departing substantially from the utility model spirit can be made based on teaching of the present utility model and announcement, therefore, this Utility model protection scope should be not limited to the content disclosed in embodiment, and should include various without departing substantially from replacement of the present utility model And modification, and covered by present patent application claim.

Claims (4)

1. a kind of component for controlling hollow slab beam core mould to float, including pour the reinforcement cage skeleton of hollow slab girder, two side templates, To drawing reinforcing bar, core, it is multigroup to drawing reinforcing bar to control by upper and lower ends that described two side templates are arranged on reinforcement cage skeleton both sides The width of rear hollow slab girder is poured, the core is placed in the reinforcement cage skeleton, it is characterised in that：Above the core It is additionally provided with multiple anti-floating components to set along hollow slab girder is longitudinally spaced, its length is consistent with hollow slab girder width, is stuck in both sides Side template between and by being fixed to drawing reinforcing bar to realize, the anti-floating component is rectangular parallelepiped structure, in the middle of its horizontal bottom surface 40cm width is provided with the arcwall face of fovea superior, and the arcwall face fovea superior depth is 5cm so that core is located in arcwall face, is pouring Control limits it and floats and move left and right when building.

2. the component that control hollow slab beam core mould according to claim 1 floats, it is characterised in that：Multiple anti-floating components exist Set on hollow slab girder at intervals of 1 ~ 1.5m.

3. the component that control hollow slab beam core mould according to claim 1 floats, it is characterised in that：The anti-floating component is wide Spend for 6cm, be highly 10cm, its top both sides and be provided with regulation cushion block between reinforcing bar to drawing, to limit anti-floating component with To drawing the distance between reinforcing bar.

4. the component that control hollow slab beam core mould according to claim 3 floats, it is characterised in that：The anti-floating component and Regulation cushion block is wood materials.