SU1006603A1 - Standard hollow test pile - Google Patents

Abstract

INVENTORY TESTING FIELD PILING, including a barrel with a tip, a coupling mounted on a style and installed in the Barrel power tipper with a stem that connects with the coupling, which is different in that it is equipped with an additional coupling to improve the accuracy of the results, it is equipped with an additional coupling that is equipped with a coupling that differs from that in order to improve the accuracy of the results. main and installed with the possibility of interaction with the rod of the power cylinder, and the knob is set movably relative to the main coupling. eight

Description

One Invention is attributed to the construction of projects in part-time operations to investigate the physical and mechanical properties of soils at the construction site, and can be used in engineering and anological research and determination of the bearing capacity of foundations. A known test pile includes a hollow body, a movable sleeve and a retractable tip 1 3. The drawbacks of this pile are in the absence of stresses in the ground under the pile butt, which does not work during the testing of the coupling, and the friction of moving elements (coupling and tip) due to falling into the gap between them, which negatively affects the accuracy the results obtained. The closest to the invention in its essence and the achieved result is an inventory test floor, including a barrel with a tip, a sleeve placed on the barrel and mounted in the barrel of a power train with a shield that interacts with coupling 2. The disadvantage of the pile is that when tests of a full-scale pile, the resistance of the soil along its lateral surface near the end, as a result of the influence of stresses in the soil under the end of the pile, is much higher than for the sections distant 2-3 m from the end. When testing the pile, the movable coupling is moved with non-joint with the tip and gives the values of the resistance of the soil along the side surface of the pile, which is characteristic of the middle part of the natural pile. The distribution of these values in calculating the dryness of the pile capacity over its entire length leads to an underestimation of the g / nta resistance value of the side surface of the pile. The aim of the invention is to improve the accuracy of the results obtained. The accomplished goal is achieved by the fact that the inventory test floor, which includes a barrel with a tip, is placed on the barrel of a coupling and is mounted in the barrel of a power cylinder with a rod interacting with the coupling, provided with an additional coupling placed above the base and installed with the possibility of interaction with the shaft of the power cylinder, moreover, the tip is movable relative to the main clutch. The drawing shows the inventory pile, a cross-section. Inventory SEA retractable tip 1, mounted in the lower movable coupling 2. Above the coupling 2 on the bottom case 3 an additional movable coupling 4 is installed, which through the cross-section 5 and the bracket 6 is connected to the stem 7 of the power cylinder 8. The semi-cross-section 5 passes through the slots 9 in the housing 3 and fastened to the coupling 4 with screws 1O, and the brackets 6 are moved apart by a spring 11. The movable couplings are provided with sealing elements, in the form of a wiper 12 and cuff 13. To prevent damage to the wiper 12 of the clutch 2 when immersed in the ground piles n Tip 1 rests on annular extension 14, i.e. inside the coupling 2. The coupling 2 is moved by a nut 15, which is located on the tip 1. The integrity of the bottom coupling 2 and the pile body 3 when it is removed from the ground is provided by a stop nut 16 and an annular extension 17, which also serves as a limiter for the movement of the coupling 2 upwards when the pile is sinking, which eats the upper collector 12 of the coupling 2 against damage. To remove the clips 6 and half-treads 5 after the coupling 4 is moved, a hollow cone 18 serves. Returning the rod 7 to its original position after testing the pile provides clamps 19, which are pressed against the pile body 2O and hold the coupling 4 by engaging with horizontal grooves 21, while the bottom clutch 2 will not return to its original position. The brackets 19 are engaged with the grooves 21 by means of pin 22 on the stem. The hydraulic cylinder 8 is driven through the pressure hose 23 from the oil station 24. The fluid pressure in the hydraulic cylinder 8 is determined by the pressure gauge 25. The pile is increased by hollow rods 26 using a threaded connection 27. The working process of testing the pile is as follows. After being piled in the ground, it becomes enclosed. Then proceed to its testing. When the fluid is displaced from the oil station 24, the rod 7 moves to the hydraulic cylinder 8 and the upper coupling 4 is connected with it. Pressure gauge is fixed at the pressure gauge 25 at the oil station 24, the value of which, knowing the lateral area

the surfaces of the clutch 4, calculate the resistance of the soil along the lateral one. The quality of the piles, characteristic of the lateral portions of a full-scale pile, located above the points by 2-3 m.

After the sleeve 4 is moved by 40 mm, the clamps 18 are clamped with a hollow cone 18, which Bt Qcoafl out of engagement with the half-cams 5. Thus, the top sleeve 4 is excluded from operation, and the rod 7 with its further extension rests against the tip 1 and advances it. The ultimate pressure of the soil under the tip of the pile is determined by the magnitude of the pressure of the fluid in the hydro-gauge 8 when the tip extends into its cross-section. N

After moving the tip 1 to 40 mm, the coupling 2 is seized with the nuts 15 and mixed together with the tip. The pressure of the fluid in the hydraulic cylinder 8, required to move the lower coupling 2, is determined as the pressure difference when moving the tip 1 with the coupling 2 together and the tip 1 to separate. In magnitude of this pressure and the area of the sidewall, by: | coupling width 2, the limiting resistance of the soil along the lateral surface of the pile, characteristic of the Lower section of the lateral surface 2-3 m long naturist of the pile, is determined. The obtained values of the limiting resistances of the soils are the input data for the calculation. ability to pile. After the test, the piles of the 2 in 4 and the tip of 1 in the initial position are submerged by 15–20 cm in the pile. When the pile is immersed in the soil up to 8 °. mm in the peri. the initial position is returned by the nozzle 1 and the coupling 2. The upper part, the coupling 4, remains stationary, as they retain the brackets 19, are in engagement with the horizontal grooves 21 of the pile housing 3. After moving:. the piles of 80 mm of the staple 6 enter the engagement with the half-spanners 5, and the staples 19 are deflected with the help of broadening 22 and due to the disengagement with the grooves 21, freeing 7 the upper clutch 4, which returns to its original position upon further immersion of the pile.

Thus, the inventory of the pile floor allows to obtain the values of the limiting resistance of the soil under the center and along the lateral surface of the pile, which are sufficiently full of the corresponding values of these characteristics when operating full-scale piles in the soil.

Claims (1)

INVENTORY TEST HOLE, including a barrel with a tip, a coupling placed on the barrel and installed in the shaft of a power cylinder with a rod interconnecting with the coupling, characterized in that, in order to increase the accuracy of the results obtained, it is equipped with an additional coupling placed nat the main and installed with the possibility of interaction with the rod of the actuator, and the tip is mounted movably relative to the main coupling / friction of the movable and the tip) in the connection between which negatively IS .1 1006603