ES1310078U - CONNECTION SYSTEM BETWEEN MICROPILES AND EXISTING STRUCTURES (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Connection system between micropiles and existing structures characterized by having a volume of variable height (4) attached to the lower face of the existing foundation (2) and which forms part of the micropile structure itself (3).

Description

DESCRIPTION

CONNECTION SYSTEM BETWEEN MICROPILOTS AND EXISTING STRUCTURES

Field of technology

The present invention relates to a connection system between a micropile and an existing foundation that must be reinforced.

The foundation of any type of construction is usually carried out using isolated footings, slabs and, ultimately, if the resistance of the strata of the ground supporting these types of superficial foundations cannot support the loads transmitted by a certain structure, deep foundations are used, by means of the execution of micropiles that rest on a stratum of ground sufficiently resistant to the tension to which the structure subjects the ground.

When a structural calculation turns out to be wrong, or due to certain conditions, the resistance of the ground varies (water table, emptying of land adjacent to the foundation being studied, etc.), the level of the surface foundations varies, causing cracks of greater or lesser severity in the first instance, which in the most extreme case may lead to the technical ruin of a structure.

Micropiling is a well-known technique for supporting structures that involves, in practice, the execution, within the area of the prism that forms a footing or foundation slab, of multiple holes with a depth sufficient to reach the ground stratum with sufficient strength to withstand the stresses that the structure itself transmits to the ground.

Micropiles transmit loads to the ground in two ways: on the one hand, the friction force of the ground itself along the entire length of the micropile (shaft resistance) and on the other, the tip resistance at the bottom of the micropile itself.

The weakest point of the new assembly formed by the surface foundation itself (footing or foundation slab) and the micropiles that reinforce it is the union of the latter with the micropile itself, a point where the existing tensions are maximum and where the surface for their distribution is scarce.

The present invention changes the resistant model between the existing foundation and the micropile.

State of the art

This problem of reducing the tension between a foundation and the connection of a micropile has been addressed in other inventions.

Patent KR102324536B1 entitled "Method for preloading design load of reinforced foundation structure” and document KR20160065418A entitled "Method for constructing micro-pile used for underpinning in base foundation” disclose a method for carrying out micropiling of foundations in the thickness direction in the foundation structure and the soil through the foundation drill hole to a depth that can reach the support layer and the subsequent formation of an expansion part for the accommodation of a metallic element that, by means of a thread system on the micropile's own reinforcement, subjects the foundation to compression on its lower face. A subsequent filling with grout of the necessary gap on the lower face of a footing or slab is carried out and which transmits the reaction force of the ground through an extra-width element that reduces the stress on the foundation due to its larger support section and also reduces the sliding stress due to its larger support section under the slab.

Document KR20140017381A entitled "Method for reinforcing of foundation structure using micro pile” describes a method for reinforcing a foundation structure using a micro pile in which the reinforcement of the same is reinforced by a metallic element that makes the load better transmitted between the existing foundation and the metallic reinforcement of the micro pile itself.

Document KR20160015099A entitled “Micro pile reinforcement structure and Reinforcing method of foot concrete using it” describes a micropile having a male thread, a lock nut and a circular annular plate that is installed at predetermined intervals and a pile reinforcement bar whose end rests on the lower base of the foundation to be reinforced, leaving a reinforcement frame in the form of an inverted cone placed between the annular plate and the lower part of the foundation to be reinforced.

In view of the above-mentioned background, all of them use a joining system between the micropile reinforcement and its grout by means of an external element housed under the foundation on which the micropile acts.

In the case of the element used by patent KR102324536B1 entitled "Method for preloading design load of reinforced foundation structure” and KR20160065418A entitled "Method for constructing micro-pile used for underpinning in base foundation”, use is made of a kind of overturning plug that oscillates once it has crossed the foundation that supports the corresponding micropile; Once this overturning plug has been turned, it is necessary to thread the assembly so that it rests on the underside of the foundation, thereby fixing the assembly of the micropile reinforcement and the overturning plug to the underside of the foundation, transmitting the forces of the micropile to it through the rectangular surface of the plug.

In the case of document KR20140017381A entitled "Method for reinforcing of foundation structure using micro pile", it uses a type of washer housed between two nuts that provide a greater resistant surface at the specific point where it is housed between the grout filling the micropile and its reinforcement, this piece not resting on the lower face of the foundation to be reinforced using the micropile system.

Document KR20160015099A entitled "Micro pile reinforcement structure and Reinforcing method of foot concrete using it” is an inverted truncated cone reinforcement system that serves as support on the lower face of the foundation to be treated by means of a system of micropiles that reinforces its resistance to sliding through the foundation itself.

The present invention overcomes the drawbacks of the state of the art by creating a micropile provided with a wider area (circular section overwidth) than the micropile itself, attached in a solid manner to the lower part of the footing or foundation slab (the one that comes into contact with the ground where it sits) such that the punching or sliding of the micropile through the footing or foundation slab is minimised and with a variable height depending on the stress to be supported.

Description of the invention

The invention relates to a connection system between a micropile and the foundation of an existing structure that improves the current techniques in the execution of micropiles, reducing the number of them required when calculating the underpinning of a structure.

This results in an improvement in both the design and the execution process of micropiles, by improving the mechanical characteristics of the connection with the pre-existing foundations and the mechanical stresses supported by them.

As mentioned, the weakest point of a supported foundation is the connection between the micropile that passes through it to the deep stratum and the foundation itself, making it necessary to minimize the punching shear of the footing by the micropile and therefore the sliding of the micropile through the footing or foundation slab.

This connection, using traditional methods, is made by sealing the hole in the foundation made for the execution of the micropile with a cement grout.

The present invention consists in the creation of a micropile provided with a volume of greater section (extra width) than that of the micropile itself supported in solidarity with the lower part of the footing or foundation slab (the one that comes into contact with the ground where it sits) such that the tension between both elements is reduced by there being a larger support surface on which to distribute the stresses applied to the foundation itself. This cylindrical volume with a diameter greater than that of the micropile will have a variable height depending on the stress to be supported.

This extra-width volume, provided with a larger support surface than the micropile itself on the lower part of the footing, prevents sliding since, by having a larger support surface, the compression reaction force existing longitudinally in the micropile is distributed with less tension on the footing itself, as well as on the micropile joint.

As a direct consequence of the reduction in stress as a reaction on the footing in the "weak" zone, which is the drill hole through which the micropile is executed, the number of these to be executed is lower, and as a consequence, a smaller number of perforations and micropiles are necessary, with the consequent cost savings and speed of execution.

Similarly, and as an immediate consequence of the existence of a smaller number of micropiles necessary for the support of a structure, fewer "weak" points are produced, such as the holes drilled for the execution of each one of them.

This system is characterized by not requiring threaded elements or any other type to be fixed to the lower face of a foundation, and can also be applied to existing structures with both isolated and continuous foundations.

This system generates a contact surface (6) on the lower face of the existing foundation (2) that reduces the tension existing in the area by having a surface greater than that of the traditional uniform diameter micropile, also reducing the probability of slipping of the micropile that passes through it.

The system generates a better distribution of the stresses applied to the foundation, reducing the number of micropiles (3) required to underpin a foundation.

This method also represents an environmental improvement since, by carrying out fewer perforations, the amount of waste obtained from the process (drilling land) is lower.

The connection system between micropiles and existing structures includes:

- A perforation in the foundation with a diameter defined by the corresponding structural calculations.

- A volume with a cylindrical overwidth of a diameter greater than that of the micropile itself, attached and filled at the same time as the micropile itself is filled, the height of which is variable and defined based on the corresponding structural calculations.

- A tubular reinforcement with corrugated bars welded inside the micropile that serves, since it crosses the volume of extra width created, as reinforcement for both the micropile and the aforementioned volume of extra width generated on the lower face of the foundation.

Preferred embodiment of the invention

A preferred embodiment of the invention consists in the creation of a micropile provided with a volume of greater section (extra width) than that of the micropile itself supported in solidarity with the lower part of the footing or foundation slab (the one that comes into contact with the ground where it sits) such that the tension between both elements is reduced by there being a larger support surface on which to distribute the stresses applied to the foundation itself. This cylindrical volume with a diameter greater than that of the micropile will have a variable height depending on the stress to be supported.

This extra-width volume, provided with a larger support surface than the micropile itself on the lower part of the footing, prevents sliding since, by having a larger support surface, the compression reaction force existing longitudinally in the micropile is distributed with less tension on the footing itself, as well as on the joint of the micropile.

The connection system between micropiles and existing structures includes:

- A perforation in the foundation with a diameter defined by the corresponding structural calculations.

- A volume with a cylindrical overwidth of a diameter greater than that of the micropile itself, attached and filled at the same time as the micropile itself is filled, the height of which is variable and defined based on the corresponding structural calculations.

- A tubular reinforcement with corrugated bars welded inside the micropile that serves, since it crosses the volume of extra width created, as reinforcement for both the micropile and the aforementioned volume of extra width generated on the lower face of the foundation.

Brief description of the Figures

Figure 1.A shows a section of a footing or foundation slab that requires underpinning by introducing micropiles that rest on a more resistant stratum, as well as the micropiles themselves and the connection system between the micropile and the aforementioned foundation by means of a volume attached to the lower face of the existing foundation to prevent it from slipping and punching as a result of the transmitted stresses.

Figure 1.B shows a plan view of a footing or foundation slab that requires underpinning by introducing micropiles that rest on a more resistant stratum, as well as the micropiles themselves and the connection system between the micropile and the aforementioned foundation by means of a volume attached to the lower face of the existing foundation to prevent it from slipping and punching as a result of the transmitted stresses.

Figure 2 shows a detailed view of the new connection system between the lower face of the existing foundation and the micropile, showing the extra width volume and the contact surface it generates to reduce the stresses on the footing and minimizing the risk of foundation punching shear.

Figure references:

(1) structural pillar attached to the underside of the existing foundation

(2) bottom face of existing foundation

(3) micropile

(4) joining system using cylindrical overwidth attached to the lower face of the foundation

(5) Micropile steel reinforcement

(6) contact surface generated between the joining system between the micropile and the foundation to reduce the tension existing at this point.

Claims (1)

1.- Connection system between micropiles and existing structures characterized by having a volume of variable height (4) attached to the lower face of the existing foundation (2) and which forms part of the micropile structure itself (3).