SU964055A1 - Apparatus for dynamic testing of piles - Google Patents

Description

The invention relates to the field of construction and is intended to determine the bearing capacity of welded foundations at seismic loads.

A device for dynamic testing of piles, including an anchor " ⁵ piles, thrust and cantilever beams, a jack, devices for creating static and dynamic loads G1].

The disadvantage of this device yavlyaet- ¹⁰ Xia limited range of studies of test piles.

The closest technical solution to the described invention is ^ 'a device for dynamic testing of piles containing anchor piles, a thrust beam, a jack, a spring compensator and a device for creating vibration, connected to an electric motor ₂ 0 and mounted on the base-T2']. ' ^-

However, this device cannot provide both separate and simultaneous testing of piles for horizontal and vertical dynamic loads.

The purpose of the invention is the expansion of the range of studies.

The goal is achieved in that a device for dynamic testing of piles containing anchor piles, a thrust beam, a jack, a spring compensator and a device for creating vibration, connected to an electric motor and installed on the base, is equipped with a cantilever beam with support rollers and additional spring compensators, a device for creating BIO - radium is made in the form of a shaft with a gear and discs mounted on it, taken with connecting rods, while the cantilever beam is located between the spring compensator jack and connected to the vertical rod and the anchor pile, one of the additional compensator spring mounted between the jack and the stop beam, while the other is on the side surface of the test

964055 4 piles and connected to a horizontal connecting rod. In addition, the mounting points of the connecting rods on the disks are shifted relative to each other by L / 2 rad. and in the disks there are made 5 radially spaced holes for hinged mounting of the connecting rods.

The device consists of anchor piles 1 connected with a grillage 2, on which a shaft 4 10 is attached with brackets 3 with disks 5 and 6 rigidly fixed on it. The shaft 4 is driven by a gear 7 rotated by an electric motor; Lemma 8.

The disk 5 is connected by means of a connecting rod 9 and a charm 55 of peers 10 to a cantilever beam 11, which is attached to the anchor pile 13 by means of a hinge 12 and, through a spring compensator 14, acts on the test pile 15 by a vertical variable * 20 load. ¹

The disk 6 is connected by means of a connecting rod 16 and hinges 17 through a spring compensator 18 to the test pile 15 and, when rotated, acts on the tested test pile 15 by a horizontal variable load. The cantilever beam 11 is provided with rollers 19, which allow the tip of the test pile 15 to move * in the horizontal direction. jq A permanent vertical load is created by a jack 20 abutting through a spring compensator 21 into a support beam 22 connected to anchor piles according to a known pattern.

To change the magnitude of the created variables of horizontal and vertical loads, the disks 5 and 6 are radially. located holes 23.

Installation works as follows.

A permanent vertical load is created on the tested pile 15 with a jack 20, then an electric motor 8 is connected, which rotates the disks 5 and 6, which drive the connecting rods 9 and

16. The connecting rod 9 moving translationally in the vertical direction, through the cantilever beam 11 and the spring compensator 14 creates a vertical variable load on the test pile 15. ⁵⁰ At the same time, the connecting rod 16, moving forward in the horizontal direction through the spring compensator 18, creates an alternating horizontal load acting on the test pile 15 simultaneously with the vertical load.

In order to simultaneously create a maximum and horizontal load, · · affecting the test pile 15, the attachment points of the connecting rods 10 and 17 on the disks 5 and 6 are shifted relative to each other by L / 2 rad.

Claims (2)

1 The invention relates to the field of construction and is intended to determine the bearing capacity of welded foundations under seismic loads. A device for dynamic testing of piles, including anchor piles, thrust and cantilever beams, a jack, devices for creating static and dynamic loads, is known. The disadvantage of this device is the limited range of study of the test pile. The closest technical solution to the described invention is a device for dynamic testing of piles, comprising anchor piles, a drop beam, a jack, a spring compensator, and a vibradium device connected to the base. TZG. However, this device cannot provide both separate and simultaneous testing of piles to horizontal and vertical dynamic loads. The purpose of the inventions is to expand the range of research. The goal is achieved by the fact that the device DP of dynamic testing of piles, containing anchor piles, 6sfu jack, jack, spring compensator and a vibrating tool, connected to an electric motor and fixed on the base, is equipped with a console beam with support rollers and additional spring compensators, the device to create an EfHfrapsy, it was made on the shaft with the gears and disks fixed to it with connecting rods, while the cantilever beam is placed between the spring- and-tube compensator and the It is connected with a vertical connecting rod and an anchor pile, one of the additional spring compensators is installed between the jack and thrust beam, and the other on the side surface of the test pile and connected with a horizontal shaft. In addition, the hooking points of the connecting rods on the discs are shifted relatively. each other on j / 2 rad. and in the discs are made radially located from the length of the hinge connecting rods. The device consists of anchor piles 1 connected to a grillage 2 on which shaft 4 is fixed with brackets 3 with disks 5 and 6 fixed on it. Shaft 4 is mounted in motion by gear wheel 7 rotated by an electric motor © lem 8, Disk 5 by means of a connecting rod 9 and the ball of the peers 10 are connected to a cantilever beam 11 which, by means of the hinge 12, is attached to the anchor pile 13 and through the spring compensator 14 acts on the test pile 15 with a vertical variable uar rvtrriTr ft load. The disk 6 is connected by means of the connecting rod 16 and shaft 1 through the spring compressor 18 with the test pile 15 and, during rotation, acts on the test pile 15 with a variable load. The cantilever 11 is provided with rollers 19, which allow the tip of the test pile 15 to move in the horizontal direction. A permanent vertical load is created by a jack 2 O, which wets out through a spring compensator 21 into a support beam 22, connected to anchor pegs in a known pattern. To change the variables of horizontal and vertical loads created by the discs 5 and 6, I have-g radially. located holes 23. The installation works as follows. On the test pile 15, a jack 2 O creates a constant vertical load, then an electric motor 8 is connected, which rotates the disks 5 and 6, which drive the connecting rods 9 and 16. The connecting rod 9 moves progressively in a vertical direction, through the cantilever beam 11 and the spring The compensator 14 creates a vertical load that is being measured by a pile 15. At the same time, the connecting rod 16, moving progressively in a horizontal direction through the spring compensator 18, creates a variable horizontal load acting on the test pile 15 at the same time as the vertical load, L1 The attachment points of connecting rods 1O and 17 on disks 5 and 6 are shifted relative to each other by L / 2 rad. Formula Shadow Image 1. A device for dynamic piling of piles, containing anchor piles, thrust beam, jack, spring KON sensor and device for creating vibration, mounted on the base, oh m & . . In order to expand the range of research, the device is equipped with a cantilever beam, with support rollers and additional spring compensators, the device for creating vibration is implemented in the form of a shaft with gears attached to it and the disks interacting with the rods. spring compensation with a torus and a jack and connected to a vertical shatun and anchor pile, one of the additional spring compensators is installed between the jack and the support beam, and the other a side surface ispyz uemoy piles connected with the horizontal connecting rod. 2. The device according to claim 1, stating that the points of attachment of shchartun on the disks are shifted relative to each other by L / 2 rad. 3. The device according to paragraphs. 1 and 2, it is due to the fact that there are radially arranged holes in the disks for hinged connecting rods. Sources of information taken into account during the examination 1. USSR author's certificate No. 487985, cl. Е 02 D ЗЗ / ОО, 1973. 2. Recommendations for testing sovaysch 1X foundations, buildings and structures erected in CEJMIC regions. Krasno5fsk, Institute of Krasnoyarsk PromstroyNIIProekgG 1976, p. eight. FIG.