SE511606C2 - column shoe - Google Patents

Abstract

The shoe has a baseplate (1) with bolt-hole (2) and main anchoring members (3). A rigid angular steel structure (5) is fixed to the baseplate, with its sides at right angles to the plane of the plate. This deflects compensating forces counterbalancing the loads generated by the bolt in the hole and the anchoring members at right angles to these loads, thus avoiding the need to increase the rated load for the members. At the top of the structure there can be an anchoring component securing it to the pile, and which can form part of the pile reinforcement.

Description

The side planes of the angular steel structure are substantially vertical to the plane of the base plate, the angular steel structure being arranged to direct the forces balancing the action of forces generated by a bolt to be arranged in the bolt cavity and by the main gripping means transversely to the the bolt and the main gripping means generated the forces, so that the balancing forces do not increase the capacity requirements of the main gripping means.

An advantage of the invention is above all that a two-sided fastening in the base plate is achieved by attaching a rigid angular steel construction: the base plate, whereby the thickness of the base plate can be reduced compared with the previous solutions. A further advantage of the invention is that by using an embodiment with two main gripping means and as small bottom dimensions as possible, prestressed piles can be manufactured, which has not been done previously by pile splicing. In such a solution, cords can be passed through the roof of the housing without the main gripping means interfering with the realization of the solution. It is thus possible to manufacture a plurality of piles on a single substrate so that a cord runs through the plurality of piles. The cords are cut off after the concrete has hardened. For prestressed poles, additional cords are often needed in addition to the cords in the corners, which cords in this case run through the roof of the casing and the bolt hole. Since the side dimensions of the wrist shoe according to the invention are small, it is possible to use more cords within an area between wrist shoes, which area in this case is free, since there is no bottom plate as in the previously used constructions. By means of a rigid plate fixed in the angular steel structure above the protective housing, the main gripping means can be fixed within the angle of the angular steel, the eccentrics between the bolt force and an anchoring gripping means and at the same time the forces directed at the angular steel structure reducing and enabling use. a smaller angle steel. The plate above the protective cover also enables a transverse shear force generated by a hook to be received by means of the angular steel construction, whereby the hook force does not load the main gripping means, ie. the hook force does not cause any additional load on the main gripping means and thus does not reduce their capacity.

In the following, the invention will be described in more detail by means of the exemplary embodiments shown in the accompanying drawing, wherein figure 1 shows a principal side view of an embodiment of a wrist shoe according to the invention, figure 2 shows a view of the embodiment according to figure 1 from above, figure 3 shows a principal side view of an embodiment in which the basic idea of the invention is used, figure 4 shows the embodiment according to figure 3 from above, figure 5 shows a second embodiment of the device according to figure 3 from above, figure 6 shows a principal view of a second embodiment of the invention from above and figure 7 shows a principal side view of the embodiment according to figure 6.

A preferred embodiment of a wrist shoe according to the invention is shown in Figures 1 and 2. Reference numeral 1 denotes a base plate and reference numeral 2 denotes a bolt hole in the base plate 1. Reference numeral 3 denotes main gripping means which can be made of, for example, comb steel. The reference numeral 4 denotes a protective cover, which is intended to prevent concrete from entering the area of the base plate provided with the bolt hole 2. The purpose of the pole shoe is to make it possible to attach a pole made of concrete to a base .

A pole shoe according to the invention is arranged in the construction during casting of the poles so that it is attached to the concrete, for example by means of the main gripping means. Figures 1 and 2 show only one pole shoe. If a pile with, for example, a square cross-section is manufactured, it should be noted that at each corner of the lower end of the pile a pile shoe according to Figures 1 and 2 is arranged, which pile shoe is attached to the concrete as shown above. Spaces above the bolt holes and below the protective cover remain open, so a finished pile can be fastened by means of bolts and nuts arranged in advance at the mounting site so that the bolts are arranged to run through the bolt holes 2 and the nuts are screwed into the bolts.

The above facts consist of a technique which is completely conventional to the person skilled in the art, which is why they are not described in more detail in this context.

The basic idea of the wrist shoe according to the invention is that a moment generated by the eccentricity of the loading bolt and the main gripping means 3 is balanced with a force pair which acts perpendicular to the forces of the bolt and the main gripping means 3, the balancing forces not increasing the main gripping means capacity requirements.

An essential fact of the invention is thus that a rigid angle steel structure 5 is fixed in the base plate 1 so that the side plane of the angle steel structure 5 is substantially vertical relative to the plane of the base plate 1. The angular steel structure 5 is arranged to direct the balancing forces transversely in relation to the forces generated by the bolt to be arranged in the bolt hole 2 and by the main gripping means 3 so that the balancing forces do not increase the capacity requirements of the main gripping means 3. The balancing forces are thus directed transversely so that the angular steel structure is welded to the base plate 1, whereby a moment generated by the eccentric can be transferred to a reinforcement of the pile or to the concrete as pressing or drawing of the upper and lower part of the angular steel structure. 5. Pressing and pulling the upper and lower parts acts as a stabilizing force pair.

Both pressing and pulling forces are directed via the bolt on the wrist shoe. Depending on the direction of the force, the upper and lower parts of the angular steel structure 5 of the pole shoe are exposed either to forces which press the pole or to forces which pull the pole, which forces are considered in the following manner.

When tensile forces are applied to the pile shoe, the lower part of the angle steel structure is subjected to pressing, which is transferred to the pile concrete and does not require any special measures. On the other hand, the upper part of the angle steel structure is subjected to a force that tries to get out of the pile cross section by breaking concrete from the corners of the pile.

The forces of the upper part of the angle steel structure should be anchored in the pile in some way. These forces can be anchored with at least one anchoring piece arranged in the upper part of the angular steel structure, which piece is arranged to anchor the forces of the upper part of the angular steel structure in the pile. Anchor pieces can be, for example, hooks, which are mounted in connection with a reinforcement of the pile and removed? part of the reinforcement of the pile. The forces can also be joined by an anchoring piece attached to the upper part of the angular steel structure, for example by a cam steel anchor or an anchoring rod or the like connecting the pole shoes of the piles to each other.

An embodiment of this is shown in Figures 3 and 4 with the reference numeral 6. Figures 3 and 4 also clearly show how the pole shoes are arranged at the end of the pole. These forces can also be anchored by means of an anchor piece, which is provided with an end anchor, or some other corresponding means, which can transmit the forces to the concrete.

When pressing forces are directed at the pole shoe, the upper part of the angle of the angle steel structure is subjected to a force which presses the pole, which does not require any special measures. The lower part of the angle steel structure is subjected to a pull, which tries to come out of the pile cross section and thus break the lower corner of the pile.

This pulling force should be stabilized so that the forces are transmitted to the pole. The forces can be transmitted with at least one anchoring means attached to the lower part of the angle steel structure and arranged to anchor the forces of the lower part of the angle steel structure 5 in the pile. This anchoring means may be, for example, a similar device arranged in the lower part of the angle steel structure 5, as shown in Figures 1 and 2. The anchoring means may also be a part provided with an end anchor or even a means connecting the wrist shoe to the other wrist shoes of the pile, for example a base plate 8, to which the pole shoes are attached, as shown for example in Figures 3 and 4. The base plate transmits the forces on the pole shoe on the opposite side. The wrist shoes are welded to the base plate 8, thereby creating a uniform piece, which has wrist shoes on opposite sides or at opposite corners. The transverse pull to which the lower part of the footwear is subjected is transmitted to the opposite footwear via the base plate 8 and from the opposite footwear further onto the concrete. The shape of the base plate can vary as required in each individual case, Figure 5 shows an embodiment with a round base plate 8. As for the other parts, the example in Figure 5 corresponds to the example in Figures 3 and 4. 511 606 7 The base plate 8 forms an end piece, which can be used, for example, as an end mold during casting.

A uniform bottom plate is also advantageous, because it is used, for example, for round piles due to accuracy problems. This previously led to a thick base plate of the entire size of the pallet cross section becoming expensive and heavy to handle. Since the wrist shoe according to the invention has small side dimensions, it follows that a construction with a base plate 8 can be used.

According to the examples in the figures, the main gripping means 3 are welded to the inner surface of the angle steel structure 5. The main gripping means can also be welded within the range of the angle of the angular steel structure or on the outer surface of the angular steel structure. The main gripping means may be straight or provided with an end anchor. The main gripping means may be one or more in number. In addition, the main gripping means 3 can be welded to a rigid plate which is transverse to the angular steel structure and similar to the bottom plate 1. This plate can be welded to the upper edge of the angular steel structure so that it extends above the protective housing. If the main gripping means are welded on this plate, the eccentricity between the bolt and the main gripping means decreases and the forces directed at the angular steel structure 5. The protective cover can of course be realized in many different ways. The protective cover can be made into a fixed part of the wrist shoe or also into a loose part, which is arranged in place for the time that the casting lasts.

Figures 6 and 7 show an alternative embodiment of the invention. In the embodiments according to Figures 1 - 5, the angular steel construction consists of a conventional angular steel. In the embodiment according to Figures 6 and 7, an angular steel structure 15 is designed so that the anchoring piece and the anchoring means consist of flanges 16, 17, which are parallel to the sides of the angular steel structure and arranged to form extensions of the sides outside the angular point. This is clear from Figure 6. In this embodiment, the flanges 16, 17 transmit transverse loads on the concrete. As far as the other details are concerned, the embodiment in Figures 6 and 7 corresponds to the embodiments in Figures 1 - 5. In Figures 6 and 7, the same reference numerals are used as in the corresponding places in Figures 1 - 5.

The above-mentioned exemplary embodiments are not in any way intended to limit the invention, but the invention can be varied completely freely within the scope of the claims. Thus, it is clear that the wrist shoe according to the invention or its parts need not necessarily be exactly as shown in the figures, but solutions of another kind are also possible. For example, the side dimensions of the angular steel structure may be equal to, greater than or less than the bottom plate, and so on.

Claims (11)

511 606 PATENT CLAIMS Column shoe for attaching a concrete pillar to a base, which column shoe has a bottom plate (1) with a bolt hole (2), main gripping means (3) and balance gripping means, characterized in that a rigid angular steel structure (5, 15) is fixed in the base plate (1) so that the side plane of the angular steel structure (5, 15) is substantially vertical to the plane of the base plate (1), that in the upper part of the angular steel structure (5, 15) at least one anchoring piece is arranged, which is arranged to anchoring the forces of the upper part of the angular steel structure (5, 15) in the pillar, that in the lower part of the angular steel structure (5) at least one anchoring means is arranged which is arranged to anchor the forces of the second plane of the angular steel structure (5), the angular steel structure (5) , 15) is arranged to direct the forces balancing the action of forces generated by a bolt to be arranged in the bolt hole (2) and by the main gripping means (3) transversely with respect to those of the bolt and hood the gripping means (3) generated the forces, so that the balanced forces do not increase the capacity requirements of the main gripping means. Pillar shoe according to claim 1, characterized in that the anchoring piece forms part of the column reinforcement. Column shoe according to claim 1, characterized in that the anchoring piece is a comb steel anchor or the like arranged in the upper part of the angular steel structure (5). A column shoe according to claim 1, characterized in that the anchoring piece is an anchoring rod or the like (6), which connects the column shoe to the other column shoes of the column. Pillar shoe according to claim 1, characterized in that the anchoring means is a cam steel anchor or the like (7) arranged in the lower part of the angle frame structure (5). 511 606 10 A column shoe according to claim 1, characterized in that the anchoring means is a means which connects the column shoe to the other column shoes of the column. Pillar shoe according to claim 5, characterized in that the means is a bottom plate (8), to which the pillar shoes are attached. Column shoe according to claim 1, characterized in that the anchoring piece and the anchoring means consist of flanges (16, 17) which are substantially parallel to the sides of the angle steel structure (15) and arranged to form extensions of the sides of the angle steel structure (15) outside wine. - kelpunkten. Column shoe according to one of the preceding claims, characterized in that the main gripping means (3) are fastened to the angular steel construction (5, 15). Pillar shoe according to claim 9, characterized in that the main gripping means (3) are attached to the inner surface of the angular steel structure (5, 15). Column shoe according to one of the preceding claims 1-10, characterized in that a rigid transverse plate is fastened in the upper part of the angular steel structure (5, 15) and that the main gripping means (3) are fastened in the rigid transverse plate. .