SU1719552A1 - Method to test pile in sagging ground - Google Patents

Abstract

The invention relates to the construction, in particular to the testing of piles in the soils weighing from their own weight. The purpose of the invention is to reduce the labor intensity, expanding the information content and improving the accuracy of determining the carrying capacity of the ground of its own weight. When testing piles, it is initially arranged to the top of the broadening formed by the vlidernaya well at a depth corresponding to the lower boundary of the subsidence. The pile is loaded after soaking the soil until it collapses and then unloaded. Then finish off the pile to a predetermined depth and load it to stall or the estimated draft. According to the data obtained, additional loads on the pile are determined from the forces of the loading friction with natural moisture and with full water saturation of the soil with subsequent consideration for their effect on the bearing capacity of the pile. 5 il. THX

Description

The invention relates to the construction, in particular to methods for testing piles in soils with their own weight, which relate to type 2 of soil conditions for subsidence.

The purpose of the invention is to reduce the labor intensity, expanding the information content and improving the accuracy of determining the carrying capacity of the ground of its own weight.

Figure 1 shows the leading well with the broadening; Fig. 2 shows the pile immersed in the well after it has been loaded before the breakdown; in FIG. 3 - the same, when the pile is re-loaded after soaking the subsiding stratum; Fig. 4 - the same, after adding the pile to the design depth and loading it to stall or calculated draft; on

Fig. 5 shows the draft-load (S-P) graphs during the pile test.

The method of testing piles in subsided soil of the 2nd type by subsidence is carried out as follows.

Trench 1 (see Fig. 1) with a width (diameter) of 3-20 V is pulled off, where H is the cross section of the pile. The minimum width of the excavation is accepted for cases of testing piles in pile bushes and fields, when the volume of overhanging soil on the piles is minimal in the area of the EIS, and the maximum for single piles in the area with a diameter of 20V. Around the pit around its perimeter by the amount of 0.7-1 HSI, the depths of the subsidence layer 2 are performed by drilling frequently located wells, punching with a cutting knife, washing out

About JV JV

Yu

a high-pressure hydro-jet and a narrow deep slot 3, followed by filling it with a clay mortar, rounded sand, crushed sandy soil, etc. material. With a depth of 12 m HSI, the slit depth is assumed to be equal to HSI, with HSI 20 m - 0.7 HSI. a for intermediate interpolation values.

In the trench 1, the leader well 4 is arranged to the depth of the subsidence layer 2 and in the lower part of the well, broadening 5 is performed, for example, using a three-hole spreader with a diameter of 1.05-1.5 diameters (diagonally) of the pile. The minimum broadening diameter of 1.05 of the pile diameter is assumed based on the fact that, with a possible tolerance of the axis of the pile from the axis of the well, there will be no support under the end of the pile. The maximum allowable diameter, broadening, as the experience of soil soaking through the wells shows, should be taken as 1.5 pile diameters, at which soil collapse is almost completely excluded when it is soaked,

. Pile 6 is hammered (see Fig. 2) to the depth to the top of broadening 5, it is loaded in separate steps with measurement of sediment from each step to its collapse, and a plot of pile draft versus load is plotted (curve 1 in Fig. 5) . On this curve, over the point of a sharp increase in pile draft, the amount of load Pn perceived by the forces of friction and adhesion along the side surface of the pile is determined. This load is taken as the value of the additional load arising due to the forces of the friction load when the ground dips from its own weight for the case of soaking it from below, i.e. when the level of groundwater rises.

The pile is unloaded 6 (see fig. 3) and soaked down subsurface 2 to full water saturation by pouring water to the bottom of the excavation 1. Re-load the pile 6 with separate steps to the breakdown and unload it. Based on the results of reloading the pile, a graph of its draft from the load with full water saturation of the soil is plotted (curve 2 in Fig. 5): From the point of a sharp increase in the draft on this curve, the value of the additional load P n arising from the loading friction forces is determined ground from its own weight for the case of soaking it from above.

Finish the pile 6 (see fig. 4) to the design immersion depth (if necessary with increasing it along the length) and load the pile into separate

steps to stall or calculated sludge. According to the results of the loading of the pile reached to the design depth, a graph of its draft from the load (curve 3 in Fig. 5) is plotted. According to this graph, the load bearing capacity Fd of the pile is determined by the point of a sharp increase in precipitation in the absence of a ground slump from its own weight and local soaking around the pile.

According to the test results, the calculated load N on the pile, taking into account the additional load from the loading friction forces with full water saturation, i.e. when soaking from above, take equal

(one)

and at natural humidity or for the case of raising the level of groundwater Fd ". fr i nb

(Pn + P)

(2)

where the reliability coefficient, taken equal to SNiP 2.02.03-85, yk 1.2; US is the coefficient of working conditions, taken depending on the possible ground subsidence of its own weight .Ssi at Ssi Ј5 cm - us 0; when Ssi 2Sn - mustache 0,8Sn - the maximum allowable amount of precipitation; at 5 cm SSL 2Sn by interpolation from O to 0.8.

Example. Test of 35x35 cm connection in a 2nd type subsurface soil, including a device for widening the lower part of a leader well with a diameter of 1.2 pile width in cross section, driving the pile to the top of the broadening and loading it to breakdown, unloading the pile and soaking the subsiding soil , re-loading of the pile to the breakdown, unloading and finishing up the pile to the design immersion depth, loading of the pile to its breaking or estimated draft.

It is required to determine the design load on the pile in the 2nd type sabulous soil with a calculated subsidence from its own weight of 20 cm and the size of the subsiding soil layer 15 m thick, taking into account the loading force at natural humidity and. full water saturation of the soil for a dwelling house with an acceptable draft of 8 cm.

Trench is 7 meters wide, i.e. 20 V, where B is the pile width in the cross section, is equal to 0.35 m. Around the excavation pit along its perimeter to a depth of 0.9 of the subsidence, i.e. 13.5 m, often located wells with a diameter of 127 mm are drilled and filled with crushed sandy loam. The leader well is placed in the center of the pit by drilling to the depth of the subsidence layer and in the lower

its parts are made with the help of a three-edger broadening with a diameter of 1.2 V, t, 4 m. °

The pile is driven into the pile with a diesel hammer to the depth to the top of the broadening and the pile is loaded with separate steps with the measurement of sediment from each step to its collapse. Plots are plotted against load and at the point of sharp increase in precipitation, Pn is determined, i.e. load, perceiving force of friction and adhesion on the side surface of the pile, which turned out to be equal to 60 tons.

The pile is unloaded, the subsidence is soaked to full water saturation by supplying water to the excavation pit, and reloading is carried out with separate pile steps before the breakdown and is unloaded. According to the results of the reloading of the pile, a schedule of its precipitation from the load is made with full water saturation of the soil and Rp, i.e. the value of the additional load arising from the forces of the friction loading when the ground is sinking from its own weight, which turned out to be 30 tons.

Finish the pile to the design immersion depth in the non-subsurface underlying layer of soil for 20 m and load the pile in separate steps until breakdown. According to the schedule, the load bearing capacity Fd of the pile is determined in the absence of a ground subsidence of its own weight, which turned out to be 210 tons.

According to the results of the tests performed, the design load N on the pile is determined, taking into account the additional load from the loading friction forces with full water saturation according to the formula (T)

M -0.7-2-30 133 (t) p

and at natural humidity according to the formula (2) N - 0.7 (60 + 30) 112 (t)

Fo rmu l and z obre and the Method of testing a pile in a subsiding soil, including a passage of a pit with a width of 3 to 20 cross section of the pile, the device along its perimeter of the slot of 0.7-1 depth of subsidence - drilling, drilling of drainage and leader wells, installation of a rammer or a drive pile at a predetermined depth, loading it with steps with measuring precipitation, soaking the soil until the water is completely saturated with subsidence, loading the pile with saturated soil with measuring its settlement and determining it Carrying her ability to pile, characterized in that. in order to reduce labor intensity, expand information content and improve the accuracy of determining the carrying capacity of the subsidence of the ground, in a leader well at a depth corresponding to the lower boundary of the subsidence, broadening of a diameter of 1.05-1.5 diameter or pile diagonal is performed they first arrange to the top of the formed broadening, before and after the soaking of the soil they are loaded before the breakdown and then unloaded, and then the pile is pushed to a predetermined depth and it is loaded before the breakdown or reaching the settlement draft, after which, according to the data obtained, additional loads on the pile are determined from the forces of the loading friction with natural moisture and full water saturation with subsequent consideration of their effect on the bearing capacity of the pile:

figure 1

FIG. 2 FIG. FIG.

FIG. five

Claims (1)

Claim A method for testing piles in subsidence soil, including a fragment of a pit with a width of 3 to 20 cross-sectional dimensions of a pile, a device along its perimeter with a slot depth of 0.7-1 depth of a subsidence thickness, drilling drainage and leader wells, a device of a stuffed or driven pile to a predetermined depth, loading it in steps with measuring precipitation, soaking the soil up to. full water saturation of the subsiding stratum, loading the piles in water-saturated soil with measuring its precipitation and determining according to the test the bearing capacity of the piles, characterized in that, in order to reduce the complexity. to expand the information content and increase the accuracy of determining the bearing capacity of subsidence from its own weight of soil, in a leader well at a depth corresponding to the lower boundary of the subsidence, perform a broadening with a diameter of 1.05-1.5 diameter or diagonal size of the pile, the pile is arranged first to the top of the formed broadening , before and after soaking the soil, it is loaded until it breaks, followed by unloading, and then the pile is finished to a predetermined depth and it is loaded until it is broken or the races are reached etnoy precipitation, then further determined from the data obtained additional load on the pile by biasing forces of friction with the natural humidity and at full water saturation of soil, followed by considering their impact on the bearing capacity of the pile.