SU1381249A1 - Foundation under equipment - Google Patents

Abstract

The invention relates to the construction of foundations for equipment and allows to increase the efficiency of damping base oscillations and reduce its material consumption. The foundation consists of a concrete block 1 and 2 vertical elements 3 buried in the ground, the elastic modulus of which material is assigned from conditions 4Е Е, or Е / 4 Е, where Е is the modulus of elasticity of the soil, Е, is the elastic modulus of the material of vertical elements. Vertical elements 3 are placed inside a contour located around the concrete block at a distance exceeding half its width. The distance between the vertical elements and their diameter is less than a third of the block width, and the depth of the vertical elements exceeds the wavelength of the oscillations of the block and its width. The width of the contour in which the vertical elements are placed exceeds the wavelength of the oscillations of the block. 1 hp f-ly. 2 Il. (O CO

Description

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: The invention relates to construction, specifically to the construction of foundations for equipment with dynamic loads.

The object of the invention is to increase the efficiency of damping the oscillations of the foundation for the equipment and reduce its material consumption.

Figure 1 shows schematically |) the equipment for the equipment, a cross-section; figure 2 - the same. view in the plan.

The foundation for the equipment includes a concrete block 1, located on a soil base 2, vertical elements 3, formed by wells filled with homogeneous material 4, within zone 5.

The geometrical dimensions of zone 5 are chosen from the conditions

L 2a; On; L, a + b; L 1; H 1

13

I where 1 - oscillatory wavelength

The process spreading, together with the concrete block 1, in the oscillations participates the attached ground mass of the base 2, located at the base from the working 25 under it. For anisotropic bases

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(E,) the modulus of elasticity of the foundation's base will have a substantial anisotropy of the deformation properties.

g As a homogeneous material 5, filling wells, having a greater modulus of elasticity, concrete, reinforced concrete, compacted sand-gravel mixtures can be used,

to polymeric materials, etc. Mineral wool, clay ticotropic solutions, sawdust, etc. can be used as a homogeneous material 5, filling the borehole 3, having a modulus of elasticity less than that of the base soil.

The damping of vibrations of the foundation, located on the base, having

20 anisotropy of deformation properties, occurs as follows.

Together with the concrete block 1, the attached mass of the ground of the base 2, located

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equipment installed on the foundation; dimensions in directions a and b, respectively, within which at the base of the device are 30 concrete blocks.

The scientific research institute the size at soil of the basis with the base in increases and

boreholes; H, - well depth;

a, b - the minimum and maximum dimensions of the foundation in the plan.

From the point of view of the consumption of materials, it is optimal for effective damping of vibrations to be such an arrangement of the concrete block 1 with respect to zone 5, within which it is suitable. vertical wells 3 are drawn when the centers of gravity of their horizontal sections lie on the same vertical, and the contours of the border of zone 5 repeat the contours of the concrete block 1.

The cross-sectional size of the well 3 and the distance between adjacent wells 3 in the design of the foundation are determined from the conditions

 dx: a / 3; ,

where c is the distance between neighboring

wells;

d is the transverse size of the well. The foundation 2 of the foundation for the equipment made in this way, with unfilled vertical wells 3 or filled with homogeneous material 4, the elastic modulus of which is greater (E, 4E) or less

concrete block.

The scientific research institute size of the attached ground mass of the base, participating together with the foundation in oscillations, sharply increases and reaches 1.5-2 masses.

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five

Thus, imparting artificial anisotropic properties to the base 2, increase the attached ground mass of the base, which participates together with the foundation block 1 in oscillations, and therefore, damps the vibrations of the foundation under the equipment by increasing the total oscillating mass of the foundation. The damping of the foundation vibrations occurs due to the detuning of the frequencies of the natural oscillations of the foundation for the equipment from the operating frequency of the machine to the region of lower frequencies.

The invention allows for damping basement oscillations by equipping the frequency of its natural oscillations from the operating frequency of the machine to lower frequencies to significantly reduce material costs, reduce the overall dimensions of the foundation by creating artificial base anisotropy instead of increasing the mass of the concrete block.

Claims (2)

1. The foundation for equipment, including concrete rectangular in The plan block and vertical elements buried in the ground, characterized in that, in order to increase the efficiency of damping foundation vibrations and reduce its material consumption, vertical elements are placed inside a contour located around the concrete block at a distance greater than half the width of the block. moreover, the distance between the vertical elements and their diameter less than a third of the block width and half the wavelength of the oscillations of the block, the width of the contour in which the vertical elements are placed, exceeds the wavelength of the oscillations of the block, and the depth of the vertical elements exceeds the wavelength of the block oscillations and its width, while the vertical elements are made of a homogeneous material, the elastic modulus of which is determined from the relations 4E - f E or E / 4 E,, where E is the modulus of elasticity of the material vertical element; E - the modulus of elasticity of the soil. 2. The foundation of claim 1, about tl and - h a 1b sch and so that the vertical elements are placed in plan in rows parallel to the sides of the block. (rig 2