This application claims benefit of Finnish Patent Application No. 20155054, filed 27 Jan. 2015, the entire contents of which are incorporated herein by reference for all purposes.
1. Field
The present disclosure relates to casting of prefabricated concrete products with a substantially horizontal slipform casting, where concrete mass is fed through a restricted cross-section, which restricted cross-section proceeds along with the casting.
2. Description of Related Art
Prefabricated concrete elements and products, such as hollow-core slabs and solid concrete slabs, are conventionally cast as slipform casting on elongate casting beds in a continuous casting process. The length of said continuous casting process is defined either on the basis of the combined length of the elements to be cast, or on the basis of the maximum length of the casting bed. The length of casting beds used in slipform casting can be up to 150-200 m, depending on the size of the element factory. After the slipform casting equipment has cast a continuous slab on the casting bed, the cast concrete mix is allowed to cure on the casting bed. When the concrete mix is cured, the uniform cast concrete slab is sawed in predetermined lengths on the basis of the targets of usage of the final elements, and the sawn concrete elements are lifted off the casting bed to storage, to wait for transportation to their respective locations of usage.
In slipform casting devices, concrete mix is fed either in one or several stages to a casting mold moving along with the casting device, said mold being formed by side walls of the mold and vibrating beam defining the top surface of the mold, together with the casting bed. The side walls and vibrating beam of the casting mold perform a vibrating and/or trowelling compacting motion for compacting the concrete product. When casting hollow-core slabs, the slipform casting device is provided with means for forming the cavities. Generally a slipform casting device is a casting machine moving on a stationary casting bed along with the casting process, but a slipform casting device can also be realized as a stationary casting station, in which case the casting bed moves along with the casting process with respect to the casting station.
One of the most common types of slipform casting devices is an extruder. In an extruder-type slipform casting device, the concrete mix is fed on feed screws that extrude the concrete mix under pressure to the slipform casting mold. Thus, in an extruder-type casting device, the feeding of the concrete mix to a slipform casting mold is carried out in one single feed step. When casting hollow-core slabs, at the end of the feed screws is attached hollow-core forming members, such as hollow-core mandrels.
The form of the slipform cast product is defined by the restricted cross-section, i.e. the slipform casting mold, formed in an extruder by the top surface of the casting bed, and side plates and top trowelling plate. Thus the top trowelling plate of the slipform casting mold defines the shape of the upper surface of the product to be cast.
In the present day buildings and constructions the requirements for concrete elements vary greatly, which include their shapes also. Due to the compaction effect of the slipform mold in slipform casting, the change of the shape of the cross-section of the product to be cast from the normal rectangular is problematic.
The present disclosure provides a solution for casting concrete products with wider variety of cross-sectional shapes with an extruder-type slipform casting process. This is achieved with a novel trowelling plate which is divided in plurality of level sections in relation to the casting direction, where the sections are moved in trowelling motion at different phases or at different speeds than the adjacent sections.
Preferably the adjacent sections are moved in back-and-forth trowelling motion in opposite phases at same speed so, that the adjacent sections move opposite direction through the whole movement distance. This achieves the greatest shearing compaction effect to the upper surface of the product to be cast.
With the sectional trowelling plate of an embodiment of the invention, the effect of the shearing compaction in the concrete product to be cast is enhanced, especially in the corners and angles of the product, which allows wider variety for the upper surface forms. This is not possible with prior art single part trowelling plates, since these cannot achieve sufficient compaction for corners and angles within the area of the trowelling plate.
In the method of an embodiment of the invention for casting prefabricated concrete products with a substantially horizontal slipform casting process, where concrete mass is fed under pressure through a restricted cross-section defining the product to be cast, the upper surface of the restricted cross-section is formed of a plurality of sections, and the sections are moved in back and forth trowelling motion in the casting direction, wherein the adjacent sections are moved at different phases and/or at different speeds. The different movement phases of speeds of the adjacent sections improve the compaction of the upper surface of the product to be cast and provide sufficient compaction for corners formed on the upper surface of the product to be cast.
The present disclosure also provides an apparatus for casting prefabricated concrete products with a substantially horizontal slipform casting, which apparatus comprises a restricted cross-section defining the product to be cast. The restricted cross-section is formed with side plates of the apparatus defining the side surfaces of the restricted cross-section, an upper surface of the casting bed defining the bottom surface of the restricted cross-section, and with a top trowelling or vibrating beam or plate defining the upper surface of the restricted cross-section. The apparatus also comprises elements for feeding concrete mass to the restricted cross-section, such as feed screws and/or concrete mass containers for example, in at least one feed stage. In the apparatus of an embodiment of the invention, the upper surface of the restricted cross-section comprises a plurality of sections, and the apparatus comprises devices for moving adjacent sections back and forth in trowelling motion at different phases and/or at different speeds.
In an embodiment of the invention at least some of the adjacent sections of the upper surface of the restricted cross-section are arranged at an angle relative to each other. This embodiment allows for casting of different upper surface shapes for the products to be cast.
In an embodiment of the invention between the adjacent sections of the upper surface of the restricted cross-section is arranged a gap of 0.5-2 mm. This distance is sufficient so that the movement of adjacent sections does not hinder each other but still small enough so that the concrete mass under pressure within the restricted cross-section does not excessively rise through the gap.
In an embodiment of the invention the upper surface of the restricted cross-section consist of sections in vertical orientation and horizontal orientation in relation to the lower surface of the restricted cross-section. This embodiment allows casting of concrete products with vertical extensions on the upper surface of the product to be cast, such as T and TT slabs.
In an alternative embodiment of the invention between the adjacent sections of the upper surface of the restricted cross-section is arranged a gap of 10-20 mm. This embodiment allows reinforcement bars and other similar parts extending from the upper surface of the concrete product to be cast pass through the trowelling plate, and through the whole casting machine, via the said gaps.
The features defining a method of the invention are more precisely presented as a method for casting concrete products with a substantially horizontal slipform casting process, where concrete mass is fed under pressure through a restricted cross-section defining the product to be cast, characterized in that the upper surface of the restricted cross-section is formed of a plurality of sections adjacent in the casting direction, which sections are moved in back and forth trowelling motion in the casting direction, wherein the adjacent sections are moved at different phases and/or at different speeds, and the features defining an apparatus of the invention are more precisely presented as an apparatus for casting concrete products with a substantially horizontal slipform casting, which apparatus comprises a restricted cross-section defining the product to be cast, and elements for feeding concrete mass under pressure to the restricted cross-section, characterized in that the upper surface of the restricted cross-section comprises a plurality of sections adjacent in the casting direction, and the apparatus comprises devices for moving adjacent sections back and forth in trowelling motion at different phases and/or at different speeds.
In the following an embodiment of the invention is discussed in greater detail in the sense of example and with reference to accompanying drawings, where
In the embodiment of
After the trowelling plate sections 7a, 7b and 7c is located a levelling plate 8, which finishes and levels the upper surface of the concrete product to be cast.
In the embodiment of
The embodiment of
In the embodiment of
The casting of concrete product shape show in
The specific exemplifying embodiments of the invention shown in figures and discussed above should not be construed as limiting. A person skilled in the art can amend and modify the embodiments in many evident ways within the scope of the attached claims. Thus the invention is not limited merely to the embodiments described above.
Number | Date | Country | Kind |
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20155054 | Jan 2015 | FI | national |