RU2173747C1 - Method and device for static tests of piles - Google Patents

Abstract

FIELD: construction engineering; testing small diameter piles whose stability reduces under longitudinal thrusts. SUBSTANCE: method involves gradual loading of piles by vertical pressure and measurement of settings by means of measuring devices. Novelty is that displacements perpendicular to pile axis and angles of turn of pile top part are prevented by displacement limiter. Device for static test of piles has hydraulic jack, fixture joined to anchors and used for stopping the jack, and measuring devices. Novelty is introduction of displacement stop fixed in position relative to ground and installed in top part of pile. EFFECT: enhanced measurement accuracy of ultimate bearing capacity of pile. 9 cl, 8 dwg

Description

 The invention relates to the construction and is intended for testing piles of small diameter, losing stability when loaded with a longitudinal load.

 A known method of static testing of piles, including the gradual loading of piles with an pressing vertical load and measuring sediment. Based on the results of the experiment, a graphical dependence of the pile settlement on the load is built and the ultimate resistance of the pile is determined from it by the bearing capacity of the foundation soil (B.I. Dalmatov. Soil mechanics, foundations and foundations.- M .: Stroyizdat, 1981, p. 192).

 The disadvantage of this method is that when testing small-diameter piles, the pile head deviates from the vertical and rotates due to loss of stability under loads not reaching the maximum soil bearing capacity.

 The prototype of the invention is a method of static testing of piles, including the gradual loading of piles with an indenting vertical load and the measurement of sediment from measuring instruments. The test results are presented in the form of graphs of the dependence of draft (displacement) on load and change in draft (displacement) over time by loading steps (GOST 5686-94. Piles. Field test methods, p. 4). According to the results of these tests, the bearing capacity of the pile over the foundation soil is taken.

 The disadvantage of the prototype is that when testing small piles, the head of the piles deviates from the vertical and rotates due to loss of stability under loads that do not reach the maximum bearing capacity of the base soil, which leads to underestimated values of the bearing capacity of the pile on the base soil.

 In real conditions, when working piles as part of the foundation, the length of embedment of their upper part into the foundation is structurally assigned equal to the five diameters of the pile (SNiP 2.02.03-85. Pile foundations, clause 7.5, note 2). This ensures a rigid pairing of piles with the foundation, eliminating the rotation angles of the upper part of the pile. In addition, the piles are tilted and tilted along the length of the foundation, through one, in different directions. This prevents the movement of the top of the piles perpendicular to their axis.

 In standard tests according to GOST 5686-94, the displacements and rotation angles of the upper part of the piles are not limited in any way, and it is for this reason that the pile loses stability, and the bearing capacity of the pile on the foundation soil cannot be determined. Therefore, the bearing capacity of piles, determined by assessing the ultimate load on a pile in terms of stability, is significantly underestimated in comparison with their real bearing capacity, provided that the upper part of the piles is tightly sealed.

 A device for static testing of piles, including thrust devices, a jack and rods connecting the thrust device with anchor piles (ed. St. USSR N 195979, class E 02 D 33/00, 1966).

 The disadvantage of this device is the impossibility of testing small-diameter piles with a pressing vertical load at load values that reach the maximum bearing capacity of the base soil, since horizontal displacements and rotation angles of its upper part occur due to loss of stability.

 The closest technical solution to the invention is a device for static testing of pile foundations, including a thrust platform, a distribution plate for transferring load to the pile, a jack installed between the platform and the distribution plate, a lower plate with holes for passing piles, supported on the ground as a low grill, connected by flexible connections with a distribution plate made with clamps for fixing on piles, a reference system with deflection meters, force meters installed m between plates through which part of the load is transferred to the lower plate, and recording devices (ed. St. USSR N 1423696, class E 02 D 33/00, 1986).

 The disadvantage of the prototype is that the device is unsuitable for testing small diameter piles with a vertical pressing load, due to the occurrence of displacements perpendicular to the axis of the pile and rotation angles of the upper part of the pile. This leads to the impossibility of obtaining values of the bearing capacity of piles on the soil of the base.

 The invention is aimed at increasing the accuracy of determining the values of the ultimate bearing capacity of piles on the foundation soil during a static test of small diameter piles with an indenting vertical load by preventing displacements perpendicular to the axis of the pile and rotation angles of the upper part of the pile.

 The solution to the problem is achieved in that in the method of static testing of piles, including the gradual loading of piles with a pressing vertical load and measuring sediments using measuring instruments, displacements perpendicular to the axis of the piles and the rotation angles of the upper part of the piles are prevented by a movement limiter.

 The solution to the problem is achieved by the fact that the device for static testing of piles, including a hydraulic jack, a device for stopping the hydraulic jack connected to anchors, and measuring instruments, is equipped with a movement limiter fixed to the ground and installed in the upper part of the pile.

 The result is also achieved by the fact that the movement limiter is embedded in the ground.

 The result is also achieved by the fact that the limiter is rigidly fixed using additional anchors.

 The solution is also achieved by the fact that the limiter can be made in the form of a broadening of the upper part of the test piles with the possibility of longitudinal movement of the piles relative to the broadening.

 Also, the movement limiter can be made in the form of a plate with a hole (s) for passing the test pile (s).

 Also, the movement limiter can be made in the form of a clamp connected by rigid ties with additional anchors.

 As a limiter for the movement of an inclined pile, an additional same inclined pile made with a mirror inclination, lying with it in the same plane, a grillage that combines the heads of two piles, and a plate with an opening for passing piles can be used to prevent movements normal to the plane of the piles.

 As a limiter for the movement of an inclined pile, a system of n identical piles (n> 1) can be used, united by a grillage, located along the edges of an (n + 1) -faceted pyramid, starting from a common vertex with a regular (n + 1) -gon in the base, moreover, the test pile is one of the edges of this pyramid.

 The drawings (Figs. 1-8) show devices for static testing of small diameter piles with vertical pressing load, including a hydraulic jack 1, a hydraulic jack stop device 2 connected to anchors 3, a test pile 4, and a travel stop 5 with an opening 6.

 In FIG. 1 shows a device for static testing of piles of small diameter with a vertical pressing load, including a hydraulic jack 1, a device for stopping a hydraulic jack 2 connected to anchors 3, a test pile 4 and a limiter 5, made in the form of a monolithic concrete block with an opening 6 for passing the pile 4, embedded in the ground.

 In FIG. 2 shows a device including a hydraulic jack 1, a device for stopping the hydraulic jack 2, connected to the anchors 3, the test pile 4 with broadening in the upper part 5, acting as a limiter of displacements and rotation angles of the upper part of the pile, in which the hole 6 is drilled, and a conductor pipe 7 .

 In FIG. 3 shows a device in which the movement limiter is made in the form of a plate 5 embedded in the ground through the hole (s) in which the test pile (s) 4 are passed (s).

 In FIG. 4 shows a device in which the movement limiter is made in the form of a clamp 5, worn on a pile 4 and connected by rigid ties 8 with additional anchors 9.

 In FIG. 5 shows a device for simultaneous testing of two piles 4 made with a mirror slope, the heads of which are joined by a grillage 10, and the movement limiter is made in the form of a plate 5 embedded in the ground and having an opening 6.

 In FIG. 6 is a view A of FIG. 5.

 In FIG. 7 shows a device for simultaneously testing at least three piles 4 located along the edges of a regular pyramid. The upper parts of piles 4 are joined by grillage 10.

 In FIG. 8 is a view A of FIG. 7.

 In all figures, measuring devices are conventionally not shown.

 The method of static testing of piles is as follows. Anchor 3 and test pile 4 are made. A limiter of displacements 5 is installed in the upper part of the pile 4. A thrust device 2 is mounted, a hydraulic jack 1 is installed, and measuring devices are mounted. Using a hydraulic jack 1, the piles 4 are gradually loaded with an indenting vertical load and sediment is measured using measuring instruments.

 A method for static testing of piles using the device shown in FIG. 1 is carried out as follows. Anchor 3 and test pile 4 are made. Around the pile 4, the foundation pit is torn off, and the pile 4 itself is coated with antifriction material or wrapped with roll material. Then in the pit, a monolithic concrete block 5 is made and rigidly fixed in the ground by compacting the backfill. At the same time, pile 4 has the possibility of longitudinal movement in block 5, which is a limiter of displacements perpendicular to the axis of the pile 4 and the rotation angles of the upper part of the pile 4. Then, the thrust device 2 is mounted, a hydraulic jack 1 is installed, and measuring devices are mounted. Using a hydraulic jack 1, the longitudinal load is transferred to the tested pile 4 and its test is carried out in accordance with GOST 5686-94.

 A method for static testing of piles using the device shown in FIG. 2 is carried out as follows. Using a Yamobur or a drill reamer, a shallow well is made in the ground and concreted. Broadening 5 is drilled. Inside the drilled well, an injection pile 4 is arranged, provided with a conductor pipe 6 in the upper part, the outer diameter of which is smaller than the diameter of the hole in the broadening 5 to allow longitudinal movement of the pile 4 relative to the limiter - broadening 5. Anchor piles 3 are made, on which the thrust device 2 is mounted . Install a hydraulic jack 1 and measuring instruments. Next, a test is carried out similarly to the description of the device in FIG. 1.

 A method for static testing of piles using the device shown in FIG. 3 is carried out as follows. Anchor 3 and test pile 4 are made. Around the pile 4 open the pit. A plate 5 with an opening 6 is mounted on the pile under test with lifting means. Then it is fixed in the array by compaction of the backfill soil. Preliminarily, pile 4 is coated with antifriction material or wrapped with roll material to allow unhindered longitudinal movement in the plate 5 through the hole 6. The plate 5 plays the role of a limiter of displacements perpendicular to the axis of the pile 4 and the rotation angles of the upper part of the pile 4. Further, similar to the description of the device in FIG. 1. Plate 5 is an inventory, is removed from the soil after testing and is included in the set of testing equipment.

 A method for static testing of piles using the device shown in FIG. 4 is carried out as follows. Anchor piles 3 are made, test pile 4 and additional anchors 9. A clamp 5 is mounted on the test pile with the possibility of longitudinal movements along the pile 4. Clamp 5 is connected by rigid connections 8 with anchors 9. Mount the thrust device 2 and install a hydraulic jack 1. Next, test the same the description to the device of FIG. 1.

 A method for static testing of piles using the device shown in FIG. 5 is carried out as follows. Anchor piles 3 and test piles 4 are made. The test piles 4 lie in the same plane and are made with a mirror tilt. A pit is opened around the piles being tested and a plate 5 with an opening 6 for passing piles 4 is mounted using a lifting device in it. Then, the plate 5 is fixed in the array by compaction of the backfill soil. The heads of the test piles 4 are joined by a grill 10. In this case, the piles 4 in their plane will limit the displacements perpendicular to the axis of the piles and the rotation angles of the upper part of each other. To limit the displacements normal to the plane of arrangement of piles 4, a plate 5 is used. Installation of thrust devices and testing is similar to the description for the device in FIG. 1.

 A method for static testing of piles using the device shown in FIG. 7 is as follows. Anchor piles 3 and test piles are made 4. The upper parts of the test piles are joined with a grill 10. In this case, the piles will limit the movement and rotation angles of the upper part of each other. Mounting the thrust devices and conducting the test is similar to the description for the device in FIG. 1.

 The use of the devices shown in FIG. 5 and 6, reduces the complexity and cost of testing due to the simultaneous testing of two or more piles, since according to GOST 5686-94 it is required to test at least two piles.

 Using devices allows you to simulate during testing the static operating conditions of piles of small diameter during operation. At the same time, by increasing the stability of piles, ultimate loads are reached in respect to the bearing capacity of the foundation soil. The use of the device allows to increase the accuracy of the results obtained, their reliability and provides the possibility of rational design of pile foundations with piles of small diameters due to a more complete use of the bearing capacity of piles.

Claims (9)

 1. A method of static testing of piles, including the gradual loading of piles with a pressing vertical load and measuring sediments using measuring instruments, characterized in that the displacements perpendicular to the axis of the piles and the rotation angles of the upper part of the piles are prevented by a movement limiter.  2. A device for static testing of piles, including a hydraulic jack, a device for stopping the hydraulic jack, connected to the anchors, and measuring instruments, characterized in that it is equipped with a movement limiter fixed to the ground and installed in the upper part of the pile.  3. The device according to claim 2, characterized in that the movement limiter is embedded in the ground.  4. The device according to claim 2, characterized in that the limiter is rigidly fixed using additional anchors.  5. The device according to one of claims 2 and 3, characterized in that the limiter is made in the form of a broadening of the upper part of the test pile with the possibility of longitudinal movement of the pile relative to the broadening.  6. The device according to one of paragraphs.2 and 3, characterized in that the limiter is made in the form of a plate with one or more holes for passing tested piles.  7. The device according to one of paragraphs.2 and 4, characterized in that the limiter is made in the form of a clamp.  8. The device according to p. 2, characterized in that the limiter of movement of the inclined pile includes an additional same inclined pile made with a mirror slope lying with it in the same plane, a grillage connecting the heads of two piles, and a plate with holes for passing piles, preventing movement normal to the pile plane.  9. The device according to claim 2, characterized in that the movement limiter of the inclined pile is made in the form of a system of n identical piles (n> 1), united by a grillage, located along the edges (n + 1) - a faceted pyramid coming from a common vertex with a regular (n + 1) - square at the base, and the test pile is one of the edges of this pyramid.

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