RU220669U1 - Concrete pile - Google Patents

Abstract

The utility model relates to devices for the construction of structures and foundations of buildings or highways on different types of soil. The essence of the utility model is a concrete pile, at the end of which a locking pile connection is installed, which contains a base including dowels and cups for the counter dowels of another castle pile connection, and rods attached to each dowel and cup for securing the interlocking pile connection in the structure of the pile, with In this case, the shortest distance from the face of the pile to the axis of each core of the interlocking pile connection is from 72 to 94 mm. The technical result that the utility model is aimed at achieving is to reduce the risk of the interlocking pile connection rods slipping out of the pile structure by increasing the concrete resistance to displacement of these rods. 4 salary f-ly, 2 ill.

Description

The utility model relates to devices for the construction of structures and foundations of buildings or highways on different types of soil and can be used in the construction or transport industry to ensure quick and reliable connection of piles to each other and thus their rapid expansion.

As a prototype, a concrete pile was chosen, having a square cross-section and reinforced with rods located symmetrically on the diagonals of a square lying in its cross-section, while at the end of the pile a welded pile connection was installed, consisting of a plate in contact with the end of the pile, welded to it plates for connection with another pile, a connecting rod and rods for securing the welded pile connection in the structure of the pile, the axes of which are located symmetrically on the diagonals of a square lying in the cross section of the square, and the rods with which the pile is reinforced are located around them, with the smallest distance from the axes rods for securing the welded pile connection in the pile structure to the edge of the pile are not disclosed in the document [RU 84405 U1, publication date: 07/10/2009].

The disadvantage of the prototype is the increased risk of cracks in the structure of the concrete pile, which may be due to the fact that with a small value of the smallest distance from the axes of the rods for securing the pile connection in the structure of the pile to the edge of the pile, the clear distance between the mentioned and reinforcing rods of the pile will also be have a small size, and the rods themselves have a small thickness of the protective layer of concrete. The small thickness of the protective layer of concrete reduces its resistance to displacement of the reinforcement in the stress-strain state of the pile and, as a result, increases the risk of the interlocking pile connection rods slipping out of the structure of the pile, and also increases the risk of cracks in the structure of the pile, which collectively reduces its strength, leading to loss of bearing capacity of the pile and its subsequent destruction.

The described drawback significantly reduces the reliability of the concrete pile, and therefore its modification is required, in particular, modification of the principle of the relative arrangement in the structure of the pile of reinforcing and fastening elements that violate the continuity of concrete.

The technical problem that the utility model is aimed at solving is the need to increase the reliability of the concrete pile.

The technical result that the utility model is aimed at achieving is to reduce the risk of the interlocking pile connection rods slipping out of the pile structure by increasing the resistance of concrete to the displacements of these rods.

The essence of the utility model is as follows.

The concrete pile has a square cross-section and is reinforced with rods located symmetrically on the diagonals of a square lying in its cross-section, while at the end of the pile a locking pile connection is installed, which contains a base including dowels, each of which has a through hole for installing a pin, and cups for the mating dowels of another interlocking pile connection, each of which has a channel for installing a pin, with a rod attached to each dowel and cup for securing the interlocking pile connection in the structure of the pile, and the rods with which the pile is reinforced are located around the rods of the interlocking pile connections. In contrast to the prototype, the shortest distance from the face of the pile to the axis of each rod of the interlocking pile connection ranges from 72 to 94 mm.

The concrete pile has a square cross-section and is reinforced with rods located symmetrically on the diagonals of a square lying in its cross-section. The axes of the rods with which the pile is reinforced can be parallel to the faces of the pile along their entire length. The diameter of the rods with which the pile is reinforced can range from 12 to 25 mm, which reduces the risk of the interlocking pile connection rods slipping out of the pile structure by increasing the resistance of the concrete to the displacement of these rods. In this case, the implementation of reinforcing rods with a diameter of more than 25 mm will lead to a decrease in the clear distance between the reinforcing rods and the interlocking pile connection rods, which negatively affects the resistance of concrete to reinforcement displacements in the area between the mentioned rods. Making reinforcing rods less than 12 mm thick reduces the coefficient of specific linear area of concrete crushing under reinforcement protrusions (G. Rehm criterion) and prevents them from fulfilling their main function, which is to strengthen the concrete pile.

The rods with which the pile is reinforced can be located in the pile structure in such a way that the shortest distance from the face of the pile to the surface of each reinforcing rod is 35 mm, which corresponds to the minimum permissible thickness of the protective layer of concrete for rods that are part of a prefabricated structure pile.

The interlocking pile connection provides the ability to join and connect concrete piles to each other and consists of a base and rods for securing the interlocking pile connection in the structure of the pile.

The base provides the function of a supporting structure for the components of the interlocking pile connection, in particular for the dowels and cups for the counter dowels of another interlocking pile connection. The base is advantageously of a hollow box structure and can be opened on one side to allow the interlocking pile connection to be positioned on the pile.

Dowels and cups for the counter dowels and cups of another interlocking pile connection provide the ability to connect two interlocking pile connections to each other and center their position relative to each other. To install a pin that secures the position of two locking connections relative to each other, each dowel has a through hole, and each cup has a channel. The pins and cups are installed on the base in such a way that their axes are located symmetrically on the diagonals of a square lying in the cross section of the pile.

A rod is attached to each dowel and cup to secure the interlocking pile connection in the structure of the pile, while the rods with which the pile is reinforced are located around the rods of the interlocking pile connection. Locking connection rods can be presented in the form of building reinforcement. The axes of the rods of the interlocking pile connection coincide with the axes of the dowels and cups to which they are attached, and are parallel to the faces of the pile along their entire length.

The diameter of the interlocking pile connection rods can be from 16 to 25 mm, which reduces the risk of the interlocking pile connection rods slipping out of the pile structure by increasing the resistance of the concrete to the displacements of these rods. In this case, the implementation of interlocking pile connection rods with a diameter of more than 25 mm will lead to a decrease in the distance in light between the reinforcing rods and the interlocking pile connection rods, which negatively affects the resistance of concrete to reinforcement displacements in the area between the mentioned rods. Making the cores of the interlocking pile connection less than 16 mm thick reduces the coefficient of the specific linear area of concrete crushing under the protrusions of the reinforcement (G. Rehm criterion) and prevents them from fulfilling their main function, which is to ensure reliable fastening of the interlocking pile connection in the structure of the pile and the transfer of forces arising in the interlocking pile connection into the body of the pile.

The interlocking pile connection rods are located in the pile structure in such a way that the shortest distance from the face of the pile to the axis of each rod for securing the interlocking pile connection is from 72 to 94 mm, which reduces the risk of the interlocking pile connection rods slipping out of the pile structure by increasing the resistance of concrete displacements of these rods. Moreover, if the mentioned distance is less than 72 mm, this will lead to a decrease in the clear distance between the reinforcing rods and the interlocking pile connection rods, which negatively affects the resistance of concrete to reinforcement displacements in the area between the mentioned rods. If the mentioned distance is more than 94 mm, this will lead to the fact that the conditions for joint work on the perception of forces by the reinforcing rods and the interlocking pile connection rods will be worsened, and the cups and dowels to which the interlocking pile connection rods are coaxially attached will be located too close to the center of the base, resulting in a decrease in the overall rigidity of the hinge formed as a result of connecting the piles to each other.

Additionally, to reduce the risk of the interlocking pile connection rods slipping out of the pile structure, the clear distance between the reinforcing bars and the interlocking pile connection rods should not exceed four diameters of whichever of the two rods has the larger diameter, which ensures that the concrete works most effectively to prevent the slipping of these rods .

The smallest distance, in the case of the distance from the edge of the pile to the surface of the rod with which the pile is reinforced, in the framework of this useful model is understood as the length of the perpendicular dropped from the point that is common to the tangent to the circle, that is, to the surface of the reinforcing rod, and this circle, on a straight line that bounds the face of the pile in its cross section.

In the case of the distance from the face of the pile to the axis of each rod of the interlocking pile connection, the shortest distance in the framework of this utility model is understood as the length of the perpendicular lowered from a point lying on the axis of the rod to the straight line limiting the face of the pile in its cross section.

A utility model can be made from known materials using known means, which indicates its compliance with the patentability criterion of “industrial applicability”.

The utility model is characterized by a set of essential features previously unknown from the prior art, characterized in that the shortest distance from the edge of the pile to the axis of each interlocking pile connection rod is from 72 to 94 mm, which makes it possible to maintain the clear distance between the reinforcing rods and the interlocking pile rods connections, at a level of at least 30 mm, which corresponds to the minimum permissible thickness of the protective layer of concrete, at which the resistance of the concrete to the displacement of the reinforcement is sufficient to prevent the rods of the interlocking pile connection from slipping out of it. In addition, an increase in the shortest distance from the face of the pile to the axis of each core of the interlocking pile connection also leads to an increase in the resistance of concrete to reinforcement displacements in the area between the bars.

Thanks to this, the achievement of a technical result is achieved, which consists in reducing the risk of the interlocking pile connection rods slipping out of the pile structure by increasing the resistance of concrete to the displacement of these rods, thereby increasing the reliability of the concrete pile.

A utility model is characterized by a set of essential features previously unknown from the prior art, which indicates its compliance with the patentability criterion of “novelty”.

The utility model is illustrated by the following figures.

Fig. 1 - concrete pile, side view, fragment.

Fig. 2 - concrete pile, cross section.

To illustrate the possibility of implementation and a more complete understanding of the essence of the utility model, a variant of its implementation is presented below, which can be changed or supplemented in any way, while this utility model is in no way limited to the presented variant.

The concrete pile 10 has a square cross-section and is reinforced with rods 12 located symmetrically on the diagonals of a square lying in its cross-section. The rods 12 have a diameter d = 12-25 mm. The rods 12 are located in the structure of the pile 10 in such a way that the shortest distance from the face of the pile 10 to the surface of the rods 12 is 35 mm, and the shortest distance from the face of the pile 10 to the axes of the rods 12 is y = 35 + (d/2) = 41-47 .5 mm. At the end of the pile 10 there is an interlocking pile connection containing a base 14, the cross-sectional shape of which follows the cross-sectional shape of the pile 10.

The base 14 contains welded to it: a pair of dowels 16, each of which has a through hole for installing a pin, and a pair of glasses 18 for the mating dowel of another lock pile connection, each of which has a channel for installing a pin. A rod 20 is welded to each dowel 16 and cup 18 to secure the interlocking pile connection in the structure of the pile 10.

The rods 20 have a diameter D = 16-25 mm. The dowels 16 and cups 18 are arranged in such a way that the rods 12, with which the pile 10 is reinforced, are located around the rods 20 of the interlocking pile connection. The distance from the face of the pile 10 to the axis of each rod 20 is x = 72-94 mm.

The utility model works as follows.

Glasses 18 and pins 16 of one pile 10 are combined with corresponding glasses and pins of another pile. Pins are installed into the aligned holes made in the dowels 16 and the channels made in the cups 18 and fix the position of the piles relative to each other. The rods 20, attached to the cups 18 and dowels 16, provide fastening of the interlocking pile connection in the structure of the pile 10, and also provides compensation for the tensile and bending forces that arise in it along with the rods 12.

The arrangement of the rods 20, such that the distance from the edge of the pile 10 to the axis of each rod 20 is x = 72-94 mm, provides the optimal clear distance s between the rods 12 and 20 and, as a consequence, the optimal thickness of the protective layer of concrete for each of the rods 12 and 20, which ensures reliable fastening of the interlocking pile connection rods in the structure of the pile and reduces the risk of their slipping.

To confirm the possibility of achieving a technical result in the entire range of the specified values of the pile parameters, 18 piles were manufactured in accordance with them, the parameters of which are indicated in Table 1. For each of piles 1-18, the clear distance s between rods 12 and 20 was measured, which is also reflected in Table 1.

Table 1 No. d, mm D, mm y, mm x, mm s, mm 1 12 16 41 72 29.9 2 12 20 41 77 34.9 3 12 25 41 81 38.1 4 14 16 42 78 35.9 5 14 20 42 82 39.6 6 14 25 42 77 30.0 7 16 16 43 80 36.3 8 16 20 43 77 30.1 9 16 25 43 79 30.4 10 18 16 44 80 33.9 eleven 18 20 44 85 39.0 12 18 25 44 81 30.8 13 22 16 46 85 36.2 14 22 20 46 88 38.4 15 22 25 46 90 38.7 16 25 16 47.5 89 38.2 17 25 20 47.5 86 31.9 18 25 25 47.5 94 40.8

From Table 1 it can be seen that for piles 1-18 the clear distance s between rods 12 and 20 ranged from 29.9 to 40.8 mm, while the minimum permissible value s = 30 mm, while for pile 1, having the smallest values of all piles are the diameters of the rods 12 and 20, the deviation of the value s by 0.1 mm from the minimum permissible value is also acceptable, which indicates that the arrangement of the rods 20, such that the distance from the face of the pile 10 to the axis of each rod 20 is x = 72-94 mm - provides the optimal clear distance s between rods 12 and 20 and, as a consequence, the optimal thickness of the protective layer of concrete for each of the rods 12 and 20, at which the resistance of concrete to reinforcement displacement is sufficient to prevent rods 20 from slipping out of it .

This ensures the achievement of a technical result, which consists in reducing the risk of the interlocking pile connection rods slipping out of the pile structure by increasing the concrete resistance to displacement of these rods, thereby increasing the reliability of the concrete pile.

Claims (5)

1. A concrete pile having a square cross-section and reinforced with rods located symmetrically on the diagonals of a square lying in its cross-section, while at the end of the pile a locking pile connection is installed, which contains a base including dowels, each of which has a through hole for installation of a pin, and cups for the mating dowels of another interlocking pile connection, each of which has a channel for installing a pin, with a rod attached to each dowel and cup for securing the interlocking pile connection in the structure of the pile, and the rods with which the pile is reinforced are located around rods of the interlocking pile connection, characterized in that the shortest distance from the face of the pile to the axis of each rod of the interlocking pile connection is from 72 to 94 mm. 2. Concrete pile according to claim 1, characterized in that the diameter of the rods with which the pile is reinforced ranges from 12 to 25 mm. 3. Concrete pile according to claim 1, characterized in that the shortest distance from the face of the pile to the surface of each reinforcing rod is 35 mm. 4. Concrete pile according to claim 1, characterized in that the diameter of the cores of the interlocking pile connection is from 16 to 25 mm. 5. Concrete pile according to claim 1, characterized in that the clear distance between the reinforcing rods and the rods of the interlocking pile connection does not exceed four diameters of whichever of the two rods has the larger diameter.