RU2728072C1 - Device for pile foundation for machines with dynamic loads and vibration-sensitive equipment - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction and can be used in construction of pile foundations for machines with dynamic loads or vibration-sensitive equipment on any non-rocky soil. Method of pile foundation for machines with dynamic loads and vibration-sensitive equipment includes injection of movable cement-sand mortar into soil base under sole or concrete preparation of grillage wall through introduced therein injector. Non-detachable injector in form of spirally laid perforated pipe is installed in contact zone under sole or concrete preparation of grid in pre-formed spiral horizontal slot, wherein one end of the injection pipe is plugged, and the second end is connected to the pipe vertical outlet, through which cement-sand mortar is supplied under pressure, wherein vertical pipe outlet is located beyond grill boundary edge to their lateral edge. End injection of cement-sand mortar is taken by volume of injected cement-sand mortar for inclusion in operation of soil massif under sole or concrete preparation of grillage. Required volume of cement-sand mortar is specified depending on floor area of grillage. After hardening of the injected mortar, the non-detachable injector acts as horizontal reinforcement of the fixed contact ground zone under the grillage or its concrete preparation.EFFECT: technical result consists in enabling considerable reduction to safe level of oscillations of pile foundations for machines with dynamic loads and vibration-sensitive equipment due to the most optimal mode of injecting cement-sand mortar for the grillage pad or its concrete preparation, increasing service life of machines and equipment, reducing negative impact on surrounding building structures.1 cl, 2 dwg

Description

The invention relates to construction and can be used in the construction of pile foundations for machines with dynamic loads or vibration-sensitive equipment on any non-rocky soils.

Known pile foundation (AS USSR No. 1502716, IPC E02D 27/20, 27/12, 1989), including a low grillage with through holes through which piles and jacks are passed. In this pile foundation, to ensure the possibility of adjusting the rigidity of the "foundation-base" system during operation when used for machines with dynamic loads and vibration-sensitive equipment, each jack is installed on the upper end of the corresponding pile in the holes of the grillage, and the body of each jack is rigidly attached to the grillage, and its rod - to the upper end of the pile.

The disadvantages of this pile foundation are the relative high cost of equipment and means for regulating the rigidity of the "foundation-foundation" system and the possibility of maintaining gaps between the base of the grillage and the base soil.

Of the known technical solutions, the closest to the claimed invention is the "Method for correcting the vertical position of buildings on a slab foundation" (RF patent No. 2352723, IPC E02D 35/00, 2009) (prototype), characterized by the fact that vertically oriented injection conductors with the elevation of one end above the top edge of the slab or the level of the ground level and the deepening of the other end into the ground under the sole or concrete preparation of the slab, through which the rolling mortar is injected under a part of the building in the direction of the roll until the falling pressure increases by 40-50% in relation to to the working pressure or to the flow rate of a mobile solution in a volume of 2 m ³ on one injection horizon, while the number and altitude of the injection horizons are assigned according to the data of engineering and geological surveys and are specified based on the results of measuring the speed of immersion of the injector into the ground, and the need for injection work is determined by materials of geodetic observations of a building or structure during construction and the first years of operation. As injection conductors, plastic, metal or asbestos-cement pipes of industrial production with an inner diameter sufficient for immersing injectors through them with a minimum clearance are used.

The disadvantages of the prototype method are the uneven injection of the cement-sand mortar under the slab, the tolerance of such a high injection pressure of the solution, which contributes to a change in the vertical position of the foundation, and in general, the problem of reducing the vibration level of the pile foundation with a grillage is not solved.

The objective of the claimed invention is to reduce the level of vibrations of the pile foundation for machines with dynamic loads and vibration-sensitive equipment created by dynamic loads or due to kinematic excitation, and as a result, increase the service life of machines and equipment, as well as reduce the negative impact on the surrounding building structures.

The problem is solved by the fact that in the "Method for the construction of a pile foundation for machines with dynamic loads and vibration-sensitive equipment", including the injection of a movable cement-sand mortar into the soil base under the sole or concrete preparation of the grillage through an injector introduced therein, according to the invention, a non-removable injector in the form of a spiral the laid perforated pipe is installed in the contact zone under the base or concrete preparation of the round grillage in a pre-formed spiral horizontal groove, with one end of the injection pipe plugged, and the other end connected to a vertical pipe outlet through which a cement-sand mortar is supplied under pressure, while vertical the pipe outlet is located outside the grillage limit end-to-end to its lateral edge, the end of the injection is taken according to the volume of the injected cement-sand mortar to be included in the work of the soil mass under the sole or concrete preparation of the grillage, and The required volume of cement-sand mortar is assigned depending on the area of the base of the grillage; after the injected mortar has hardened, the non-removable injector acts as a horizontal reinforcement of the fixed contact soil zone under the grillage or its concrete preparation.

The essence of the claimed invention lies in the fact that a non-removable injector in the form of a spirally laid perforated pipe is installed in the contact area under the sole or concrete preparation of a round grillage in a previously formed spiral horizontal groove, one end of the injection pipe being plugged, and the other end connected to a pipe vertical outlet, through which a cement-sand mortar is supplied under pressure, while the vertical pipe outlet is located outside the grillage end-to-end to its lateral edge, the end of the injection of the cement-sand mortar is taken by the volume of the injected cement-sand mortar to be included in the work of the soil mass under the sole or concrete preparation grillage, and the required volume of cement-sand mortar is assigned depending on the area of the base of the grillage, after the injected mortar has hardened, the non-removable injector acts as a horizontal reinforcement of the fixed contact soil zone under the grillage and whether its concrete preparation.

The first new feature, which consists in the fact that a non-removable injector in the form of a spirally laid perforated pipe is installed in the contact zone under the sole or concrete preparation of a round grillage in a previously formed spiral horizontal groove, allows the proposed technical solution to acquire a new property, which is that the most simple Thus, under the entire surface of the sole of the grillage or its concrete preparation, an injector is located, through which, if necessary, a cement-sand mortar is supplied, while there is no need to form special conductors in the grillage, complicating its design. The second new feature, which consists in the fact that one end of the injection pipe is plugged, allows the proposed technical solution to acquire a new property, which excludes the possibility of excessive leakage of the injected solution beyond the grillage. The third new feature, which consists in the fact that the second end of the injector is connected to a pipe vertical outlet through which cement-sand mortar is supplied under pressure, allows the proposed technical solution to acquire a new property, namely that the simplest form of injection under pressure is achieved. from the surface under the grillage or its concrete preparation. The fourth new feature, which is that the vertical pipe outlet is located outside the grillage end-to-end to its lateral edge, allows the proposed technical solution to acquire a new property, which consists in the fact that the solution is supplied into a spirally laid in a horizontal plane under the grillage or its concrete preparation an injection pipe without the formation of conductors in the body of the grillage. The fifth new feature, which consists in accepting the end of the injection of the cement-sand mortar according to the volume of the injected cement-sand mortar for inclusion in the work of the soil mass under the base or concrete preparation of the grillage with the required volume of cement-sand mortar assigned depending on the area of the grillage base, allows the proposed technical solution to acquire new properties, consisting in the fact that the gaps between the base of the grillage or its concrete preparation and the base soil are eliminated and the soil base of the pile foundation is compacted. The latter leads to an increase in the mass of the oscillating system due to the involvement of an additional volume of soil, leading to a significant decrease in the amplitude of oscillations of the pile foundation. The sixth new feature, consisting in the fact that after the injected solution has hardened, the non-removable injector plays the role of horizontal reinforcement of the fixed contact soil zone under the grillage or its concrete preparation, allows the proposed technical solution to acquire a new property, namely, that the fixed injector does not simply remain in the contact the zone between the grillage and the soil base in the form of ballast, which is inconvenient to remove, but plays the role of reliable horizontal reinforcement of the soil-cement array under the grillage or its concrete preparation. This makes it possible to achieve additional strength of the fixed soil in the contact zone, which will prevent the formation of cracks there during prolonged dynamic impact. These new features and properties are absent in the known technical solutions and allow the claimed technical solution to show efficiency, which consists in reducing vibrations to a level that is safe for operation of the pile foundation, machine or vibration-sensitive equipment.

The foregoing allows us to assert that the proposed technical solution meets the criteria of the invention "novelty" and "inventive step".

FIG. 1 shows a diagram of the pile foundation in plan; in fig. 2 shows a longitudinal section AA shown in FIG. 1.

FIG. 1 and 2 show: a pile foundation, consisting of piles - 1 and a grillage - 2; 3 - machine with dynamic loads or vibration-sensitive equipment; 4 - soil base; 5 - injection spirally laid pipe; 6 - vertical pipe outlet of the injection pipe; 7 - the level of the upper edge of the grillage; 8 - the level of the grillage sole; 9 - horizontal spiral groove; 10 - perforations of the injection pipe.

A horizontal spiral groove 9 is formed on the surface of the base under the future grillage 2 or its concrete preparation, with a configuration, length, width and height such that an injection metal spiral pipe 5 can be freely placed there 5. Before laying the injection spiral pipe 5 into a horizontal spiral groove 9, it is wrapped with a thin paper or a thin polymer film (not shown) to prevent clogging of the perforations 10 of the injection pipe with concrete during the manufacture of the grillage 2 or its concrete preparation (not shown). After the piles 1 are immersed, the grillage 2 is erected, including the installation of the formwork, the laying of reinforcing bars and embedded parts (not shown), and its subsequent concreting. After the concrete set of the grillage of the design strength, a machine with dynamic loads or vibration-sensitive equipment 3 is installed and fastened on it. During the construction of the pile foundation 1 and the grillage 2 and the operation of the machine or vibration-sensitive equipment 3, as a rule, the entire load is transferred to the piles 1, as a result of which the soil under the base of the grillage 2 or its concrete preparation remains uncompacted. As a result, during vibrations between the base of the grillage 8 (or its concrete preparation) and the soil base 4, the contact surface is disturbed and gaps may occur. To eliminate gaps and include in the work of the soil massif, a mobile cement-sand mortar is injected under the base of the grillage 8 (or its concrete preparation) using a spiral injection pipe 5, the end of which is plugged, and along the entire surface of the injection pipe 5 there are evenly spaced perforations 10 The solution is fed into the spiral injection pipe 5 from above through the vertical pipe outlet 6 of the injection pipe, which is located outside the grillage 2 end-to-end to its lateral edge. The end of the injection process is taken according to the volume of the injected cement-sand mortar, while the required volume of the solution is assigned depending on the area of the base of the grillage 8. During the injection process under the pressure of the cement-sand mortar, thin paper or plastic film breaks without interfering with the solution to penetrate into the gaps and pores soil under the sole of the grillage 8 (or its concrete preparation). After the injected solution has hardened, the fixed snake-shaped injector 5 serves as a horizontal reinforcement of the fixed contact soil zone under the grillage or its concrete preparation.

As a result of the studies, it was found that when injecting a cement-sand mortar under the base of the grillage, the gaps between the sole of the grillage and the base soil were practically eliminated, the soils of the base of the pile foundation were compacted and the mass of the oscillating system was increased due to the involvement of additional soil volume. This led to a significant decrease in the amplitude of vibrations of pile foundations (from 1.8 to 2.6 times). After the injection mortar hardened (after 21 or more days), a further decrease in the amplitude of oscillations of the pile foundation was noted (by another 15-20%), due to the formation of a solid soil-cement body under the bottom of the grillage, which unites the piles with each other.

A similar decrease in vibrations was observed for the receiver foundation (for vibration-sensitive equipment) with its kinematic excitation. The oscillations were excited by elastic waves propagating along the ground from a source - a metal stamp with a vibrator installed on it. After the injection of the solution, the amplitude of the oscillations of the pile foundation decreased by 1.2-2.0 times, and by another 15-20% after the formation of a solid soil-cement body due to the hardening of the injection solution.

The technical and economic efficiency of the proposed technical solution, in comparison with the prototype method, is that a significant reduction to a safe level of vibrations of pile foundations for machines with dynamic loads and vibration-sensitive equipment is achieved due to the most optimal injection mode of cement-sand mortar under the base of the grillage (or its concrete preparation).

Claims (1)

A method of constructing a pile foundation for machines with dynamic loads and vibration-sensitive equipment, including injecting a mobile cement-sand mortar into a soil base under the sole or concrete preparation of a grillage through an injector inserted there, characterized in that a fixed injector in the form of a spirally laid perforated pipe is installed in the contact zone under the sole or concrete preparation of the grillage in a pre-formed spiral horizontal groove, with one end of the injection pipe plugged, and the other end connected to the vertical pipe outlet, through which the cement-sand mortar is fed under pressure, while the vertical pipe outlet is located outside the grillage limit butt to its lateral edge, the end of the injection of the cement-sand mortar is taken according to the volume of the injected cement-sand mortar to be included in the work of the soil mass under the sole or concrete preparation of the grillage, and the required volume of cement-sand vat solution is prescribed depending on the area of the base of the grillage; after the injected solution has hardened, the non-removable injector acts as a horizontal reinforcement of the fixed contact soil zone under the grillage or its concrete preparation.

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