SU808586A1 - Device for measuring sagging of embankment base - Google Patents

Description

(54) DEVICE FOR MEASURING SEDIMENTS OF FOUNDATION BASE

one

The invention relates to instrumental observations of the deformations of structures, in particular for measuring the draft of road and railway embankments built on weak bases.

A device for measuring the precipitation of the base of the embankment is known, which includes a slab or a welded grate and a pipe rigidly fixed in the center of the slab 1. As the precipitation increases and the height of the embankment increases the pipe. The amount of precipitation is set by leveling, the trace of the movements of the top of the pipe with respect to the permanent frame.

The drawbacks of the device are the complexity of the measurement process, as well as the fact that the use of the device prevents dumping embankment.

The closest in technical essence to the present invention is a device for measuring the settlement of the embankment base, including a measuring tape, placed in the enclosing device, and a measuring device connected to one end of the measuring tape 2. A metal sleeve with a measuring tape located inside it is placed on the base of the embankment

before her dumping. In the process of filling the embankment and after its construction, the displacement of a measuring tape is measured by means of a measuring device, on which the settlement of the embankment base is judged.

The drawbacks of the known device are that with this measuring circuit, only the total deposit of the embankment base is determined and it is impossible to determine the settlement of the base at any particular point along the transverse or longitudinal profile of the embankment, which significantly reduces the accuracy of determining the embankment settlement.

The purpose of the invention is to improve the measurement accuracy.

This goal is achieved by the fact that

5, a device for measuring the precipitation of the embankment base, including a measuring tape, placed in the enclosing fixture, and a measuring device connected to one end of the measuring tape, are fitted with connecting panels and a sedimentary plate with a central opening, and through the opening of the sedimentary plate, the enclosing device is placed on the connecting panels, and the free end of the measuring tape is fixed on the sedimentary plate.

FIG. 1 shows the device, a general view; in fig. 2 - the same, top view; in fig. 3 - fastening the measuring tape on the sedimentary plate; in fig. 4 - construction of enclosing device; in fig. 5 — pile construction; in fig. 6 - pile with connecting panel.

The device is made in the form of a sedimentary plate 1, a barrier device 2, a measuring steel tape 3, a connecting plate 4, piles 5 and a measuring cabinet 6. In the center of the sedimentary plate 1, if it is made of a solid metal sheet or of reinforced concrete, there is an opening 7 for passage piles 5. A measuring steel tape 3 is rigidly attached to the edge of the plate opening, on which there is a corresponding scale. The measuring tape 3 passes inside the enclosing device 2. The free end of the measuring tape 8 is placed in the measuring cabinet 6, in the bottom of the cabinet there is an opening through which the zero reference 9 passes.

The barrier device 2 serves to protect the measuring tape 3 from clamping it with a primer and to ensure free movement. The fencing device 2 consists of a brand 10, side walls 11, a connecting bolt 12. The fencing is composite, the length of the elements is taken depending on the width of the base plate of the watch 13 within 2 - 3 m. The fencing device 2 through the connecting panels 4 rests on piles 5. The piling is a metal pipe with a diameter of 50–70 mm, at the end of which there is a conical tip 14. The piling consists of individual pipe lengths of 0.5–1 m. fencing and tape and prevent its precipitation.

To measure the draft, the device is constructed before the embankment is erected. For this, along the road axis, and if it is necessary to know the draft along the perimeter, then the sedimentary plate 1 with the measuring tape 3 is placed along the transverse profile. Then the piles 5 are driven into the weak soil at a distance of 2 - 3m from each other. Piles are slaughtered to a complete failure in the mineral soil underlying the weak layer. If a

the thickness of the weak soil is longer than the length of one piece of pile 5, it is built up by joining individual segments. On each pile install connecting panel 4. On connecting panels

they put a protecting device 2, inside which the measuring tape 3 is pulled. The free end of the tape 8 is placed in measuring plate 6, which is instilled at the base of the embankment.

After the construction of the proposed device, at the free end of the measuring tape, a readout is taken regarding the zero-point 9 and recorded in the log. Then they proceed to the construction of a landbed, during which, as well as after its construction,

sediment of the weak base of the embankment occurs. Together with the draft of the weak base, the sedimentary plate 1 is lowered (see Fig. 1). Sedimentary plate is not behind a measuring tape. The value of the embankment sediment is determined by the amount of advance

the end of the measuring tape relative to the nolpera.

The use of the invention improves the measurement accuracy and simplifies the process of measuring the embankment sediment.

Claims (2)

1.Methodical guidelines for designing the earth bed on weak soils. M., 1968, p. 104- 106. 2. USSR author's certificate for application number 2545022, -kl. E 02 D 1/00, 1977. wdn tr- / C4J t " "Sj cvi is Q "XJ j. «3 x 3i i -BUT 7 1 U77 ////// L X //// 77ZZ FIG. ya 4 o.