RU128212U1 - STAND FOR TESTING MODELS OF PILES FOR HORIZONTAL LOAD - Google Patents

Abstract

1. A stand for testing models of piles for horizontal load, containing a rectangular box, partially filled with soil, a model of the pile immersed in the soil to a predetermined depth, and a platform with a load suspended at one end of a flexible connection thrown over a block, characterized in that that the axis of flexible coupling is located in the vertical plane A of symmetry of the pile model, at least one pair of brackets is fixed on the pile model located in plane A symmetrically with respect to the vertical plane of symmetry of the pile model, p perpendicular to plane A, the other end of the flexible connection is attached to one of the brackets, and the block is fixed to the outer wall of the box at such a height that the flexible connection section from the block to the bracket is horizontal, in addition, the stand is equipped with a dial indicator mounted on the outer wall of the box so that the axis of its measuring rod is horizontally in plane A, and the stand is equipped with a second flexible connection connecting the measuring rod of the indicator to the second bracket of the pair, while the indicator The OR is mounted on the wall opposite the wall with the block, and at such a height that the second flexible connection is horizontal, and holes or grooves are made in the walls of the box for the passage of flexible connections. 2. The stand according to claim 1, characterized in that the block and the dial type indicator are mounted on the outer walls of the box with the possibility of reinstalling them in height.

Description

The utility model relates to devices for horizontal load testing of pile models used as single supports of wind power plants, power lines, rolling stock contact lines, billboards, etc.

A known bench for testing the stability of the supports of power lines, including a glass-shaped box placed in the ground, in the cavity of which the test support is placed, and a device for creating horizontal load [USSR Author's Certificate No. 169271, IPC G01M 19/00. Test bench for stability of power transmission towers / Gabliya Yu.A. - application No. 885501; declared 03.03.1964 - 3s.].

In this stand, to simulate the work of the underground part of the support, jacks are mounted on the inner walls of the box, to the rods of which springs are attached, connected to grippers, compressing the test support. As a result of this, this stand cannot imitate the work of the underground part of the support with broadening. Therefore, this stand does not allow comparative tests of supports with and without broadening. This limits the technological capabilities of the stand.

There is also a stand for testing pile models, containing a rectangular box, partially filled with soil, a pile immersed in soil at a given depth, and a platform with a load suspended at one end of a flexible connection thrown over the block [USSR Author's Certificate No. 1013580, IPC E02D 33/00. Installation for static testing of piles / Grishin P.A. and others, - application No. 3320754; declared 07/23/1981 - 3s.] - prototype.

In this stand, the other end of the flexible connection is connected to the end of the lever, the opposite end of which interacts with the end of the pile model. In this case, the lever is located horizontally, and the flexible connection section from the block to the lever is vertical. With the help of a lever, flexible connection and load, the pile model is loaded with a vertical load. As a result of this, this bench cannot be used to test pile models for horizontal load. This limits the technological capabilities of the stand.

The proposed utility model is aimed at expanding the technological capabilities of the bench by providing the possibility of comparative tests for horizontal load of pile models without broadening and broadening.

To solve this problem, in a test bench for pile models containing a rectangular box, partially filled with soil, a pile model immersed in soil at a given depth, and a platform with a load suspended at one end of a flexible connection thrown over the block according to a utility model , the axis of flexible coupling is located in the vertical plane A of symmetry of the pile model, at least one pair of brackets is fixed on the pile model, located in plane A symmetrically with respect to the vertical plane of symmetry of the pile model, perpendicular to plane A, the other end of the flexible connection is attached to one of the brackets, and the block is fixed to the outer wall of the box at such a height that the flexible connection section from the block to the bracket is horizontal. In addition, the stand is equipped with a dial indicator mounted on the outer wall of the box so that the axis of its measuring rod is horizontally in plane A, and the stand is equipped with a second flexible connection connecting the measuring rod of the indicator to the second bracket of the pair, while the indicator is fixed to to the wall opposite the wall with the block, and at such a height that the second flexible connection is horizontal. Holes or grooves are made in the walls of the box for passage of flexible connections.

At the same time, the block and the dial-type indicator are fixed on the outer walls of the box with the possibility of their reinstallation in height.

The essence of the utility model is illustrated by drawings. Figure 1 shows the proposed stand, front view; figure 2 is a section aa in figure 1.

The proposed bench for testing models of piles for horizontal load contains a box 1 of a rectangular shape, partially filled with soil 2, and a model of piles 3, immersed in soil at a given depth.

To the pile model at different heights brackets 4 are attached in pairs, located in the vertical plane A of the symmetry model of the pile. In each pair, the brackets are located symmetrically with respect to the vertical plane. In the symmetry of the pile model perpendicular to plane A.

The end of the flexible connection is attached to one of the brackets 5. The flexible connection is passed through an opening in the box wall and is thrown through a block 6 mounted on the outer wall of the box. To the other end of the flexible connection, platform 7 is suspended with a load. The axis of the flexible connection is located in the plane A. The block is fixed at such a height that the flexible connection section 8 from the unit to the bracket is horizontal.

The stand is equipped with an indicator of 9 hour type, mounted on the outer wall of the box. The indicator is fixed in such a way that its measuring rod 10 is located horizontally in the plane A. Using the second flexible connection 11, the measuring rod of the indicator is connected to the second bracket of the pair. The indicator is mounted on the wall opposite to the wall on which the unit is fixed. The indicator is fixed at such a height that the second flexible connection 11 is located horizontally.

The block and indicator of the sentry type are fixed on the outer walls of the box with the possibility of their reinstallation in height.

Holes or grooves are made in the walls of the box for passage of flexible connections.

The stand works as follows.

The box is filled with soil to the required level. In this case, the soil is laid in layers with moisture and compaction to create a homogeneous environment that imitates the natural soil to the maximum extent.

Tests of pile models for horizontal load are carried out in several series. First they test the pile model without broadening. To do this, it is immersed in the soil to a predetermined depth. Fasten the end of the flexible connection 5, connected through the unit with the load, for the bracket located at the ground level. The block 6 is fixed at such a height that the flexible connection section 8 from the block to the bracket is located horizontally. For the second bracket of the pair fix the end of the second flexible connection 11 connected to the measuring rod 10 of the indicator. The indicator is fixed at such a height that the second flexible connection is also located horizontally. When loading the platform with a load, the readings of indicator 9 are recorded, showing the horizontal movements of the pile model.

After that, the end of the flexible connection connected with the load is fixed to the bracket located at a different height. The end of the second flexible connection connected to the measuring rod of the indicator is fixed to the second bracket of this pair. Install the unit and indicator at such heights that the flexible connection section 8 from the unit to the bracket and the second flexible connection 11 are located horizontally. They load the platform with cargo and, according to the indications of the indicator, measure the horizontal movements of the pile model.

Then they put broadening 12 on the pile model and deepen it into the ground flush with the ground level. Similarly, test piles with broadening. First, flexible connections are fixed to the brackets at ground level, and then at a different height. Compare the horizontal displacements of the pile model without broadening and the model of pile with broadening.

Thus, the proposed stand allows testing of pile models for horizontal load under conditions as close as possible to real conditions, and to compare horizontal movements of pile models without broadening and broadening .. This extends the technological capabilities of the stand.

Claims (2)

1. A stand for testing models of piles for horizontal load, containing a rectangular box, partially filled with soil, a model of the pile immersed in the soil to a predetermined depth, and a platform with a load suspended at one end of a flexible connection thrown over a block, characterized in that that the axis of flexible coupling is located in the vertical plane A of symmetry of the pile model, at least one pair of brackets is fixed on the pile model located in plane A symmetrically with respect to the vertical plane of symmetry of the pile model, p perpendicular to plane A, the other end of the flexible connection is attached to one of the brackets, and the block is fixed to the outer wall of the box at such a height that the flexible connection section from the block to the bracket is horizontal, in addition, the stand is equipped with a dial indicator mounted on the outer wall of the box so that the axis of its measuring rod is horizontally in plane A, and the stand is equipped with a second flexible connection connecting the measuring rod of the indicator to the second bracket of the pair, while the indicator The OR is mounted on the wall opposite the wall with the block, and at such a height that the second flexible connection is horizontal, and holes or grooves are made in the walls of the box for the passage of flexible connections. 2. The stand according to claim 1, characterized in that the block and the dial type indicator are mounted on the outer walls of the box with the possibility of reinstalling them in height.

Images