FI104747B - Column Shoe - Google Patents

Abstract

Spot footing especially designed for the attachment of a precast concrete or wooden pillar to a foundation and for the extension of such a pillar, said spot footing comprising a bottom plate (3) and a protective casing with a top plate (2) and a partially open side wall part (4), the main dowel bar (1) of the spot footing being attached to the top plate (2). The side wall part (4) of the protective casing is a cylindrical structure of a circular cross-section with one side open, and the bottom and top plates are of a circular shape and their diameters are substantially equal to the diameter of the cross-section of the cylindrical side wall part. <IMAGE>

Description

This invention relates to a pillar structure required for attaching or extending a concrete element and a wood pillar to the foundation of claim 1.

The precast concrete pillars are reinforced and extended by a technique known in the art such that at the lower end of the precast column, a column shoe is placed at the prefabricated factory, the joints of which are molded into the column. Loads from the pillar shoe are transferred through shoe grips to the pillar concrete.

In addition, end columns are placed in the pillar, which are usually mounted in the corners of the pillar over the entire length of the pillar. Here, the forces from the pillar shoe grips are transferred to the end steel in the pillar corner 15, which, depending on the type of shoe used, has three to four blades in parallel transmitting only the force required by one steel. At the top of the pillar, extension bolts are placed in the corners of the pillar, whereby the forces at the top of the pillar are transferred from the main steels of the pillar to the pins at the top of the pillar. brush-steel tar-25 per hour, with at least two steels in parallel in the corner of the column at one end of the steel, plus installation of the column shoe and end steels and extension bolts 1

requires the installation of at least nine separate parts in the pillar mold. This traditional structure thus consumes a lot of I

> -. 30 brushed steel, with lots of parts to install, making it an expensive solution.

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Fl utility models Nos. 320, 341, and 544 disclose a solution that has been able to substantially reduce the number of pillar shoe infections, while simultaneously providing shoe reinforcement.

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Ko. in utility models, the pillar shoe has a square bottom shoe and has a hole for the lower-tier pillar threaded end steel, and a nut shield with an inner corner rounded to 5 quarters. The shoe has a main grip on the shoe, which also acts as the end steel of the pillar.

The disadvantage of such solutions in the area of the actual shoe joint is that the forces of the pillar shoe are circulated through the vertical plate outside the shield 10 and the shoe base plate substantially larger than the shield shoe to the base bolt. This solution causes quite high eccentric forces on the shoe structure, and the shoe requires a large amount of steel plate and is therefore expensive. If shoe forces could be transferred from the pillar reinforcement to the base bolt as close as possible to the center line of the shoe grips, the shoe structure could be lightened and a more economical solution provided.

The solution we present in the present invention employs, in part, the prior art used in the above utility models, but only in terms of shoe grips and base bolt placement. The actual pillar shoe structure has been completely redesigned to provide a more economical solution.

The present invention is based on the solution that in the columnar shoe region, the shoe gripping force is applied to the base bolt as close as possible to the center line of the shoe gripper and base bolt 30. In this case, the eccentricities of the pillar shoe and the resulting additional forces remain as Pier and the structure of the shoe can be substantially lightened. This requirement can be fulfilled by making the shoe protector casing a circular cylindrical structure with one side open that transmits the forces exerted by the pillar to the base bolt. A round plate is welded to the upper end of the circular protective casing, and the shoe is secured in the middle with the shoe. A circular plate 5 with a hole for attaching the base bolt is welded to the lower end of the housing. In addition, additional panels are provided on the sides of the opening of the protective housing, which rest on the surface of the column mold and guide the shoe to its correct position during installation. The details of the invention! The features of the solution according to the invention are set forth in the appended claims.

The solution saves the vertical plate shown in the prior art area of the pillar shoe and the shoe base plate is substantially smaller. In this solution, the weight of the shoe is lighter and its structure simplified. The solution is thus more economical than prior art pillar shoes.

The invention will now be described in more detail by way of example with reference to the accompanying drawings, in which:

Fig. 1 is a side elevational view of a pillar shoe according to the invention.

2 shows a top view of a pillar shoe according to the invention.

Fig. 3 is a side elevational view of a pillar shoe according to the invention.

Fig. 4 shows a top view * of a pillar shoe according to the invention and cut at the housing.

The part 1 shown in Figures 1 and 3 is a shoe grip which is attached either by welding or screw threading to the roof plate 2 of the shoe 4 104747 housing. Part 3 is a shoe bottom plate which is circular in shape and has a central hole 7 for a base bolt of the lower layer. The part 4 forms the side wall of the nut sheath, which is a cylindrical steel plate of circular cross-section and has an opening 5 on one side for mounting the nut. At the edges of the opening 5 of the protective housing 4 are two pieces 10 of rectangular projection plates 6 which guide the shoe when mounted against the edges of the column mold. The roof plate 2 and the bottom plate 3 have the same diameter as the inner surface of the cylinder wall portion of the sidewall, so that they can be welded into the top and bottom edges of the cylinder portion according to Figs.

Part 8 is a balance steel located in the back of the shoe, typically brushed steel and secured to part 3.

20 The shoe is intended for use in concrete element and wooden pillars, but the shoe can also be mounted on a foundation, so that only the threaded rods that are mounted inside the shoe are exposed.

The invention is not limited to the above embodiments, but may be varied within the scope of the appended claims.

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Claims (3)

1. Pillar shoe in particular for attaching to a foundation and jointing a concrete element and wood pillar, which shoe has a bottom plate (3) and a protective case with a roof plate (2) and a partially open side wall part (4), and where the shoe's main grip (1) is fixed to the roof sheet (2), characterized in that the side wall part (4) of the protective case is cylindrical and open from one side, and that the bottom and roof panels are round in shape, and their diameter is substantially the same as the diameter of the cross-section of the cylindrical side wall portion. 2. A pillar shoe according to claim 1, characterized in that on the open sides of the round cylindrical side wall part (4) at the protective case, two protruding discs (6) have been arranged in particular to guide the shoe when mounted against the pillar mold *; edges. Pillar shoe according to claim 1, characterized in that the grip of the shoe 25 is fixed to the center of the round roof sheet. ! W: «· i ·« i · <1 m