SU1675489A1 - Blade punch - Google Patents

Abstract

The invention relates to devices for determining the physicomechanical characteristics of soils during engineering surveys in construction. The aim of the invention is to increase the availability of definitions of the deformation characteristics of the soil. Blade stamp contains two coaxially arranged screw blades, one of which is a stamp, and the other an anchor, a load device in the form of a hydraulic cylinder located on the support platform, the inner and outer rods, the inner of which is connected to the die and the rod of the hydraulic cylinder, and the outer with an anchor and the basic platform. The leading cutting edges of the screw blades of the anchor and punch are made with mutually opposite sharpening; the inner rod from the front side has an oblique cut combined with the cutting edge of the punch blade on one semicircle and located under the punch blade on the other. The screw blade of the anchor cantilever is fixed to the outer rod and seizes the inner rod with the possibility of axial movement. The angle of inclination of the oblique cut is equal to the angle of inclination of the screw blade of the stamp, and the leading cutting edge of the anchor is located under the leading cutting edge of the stamp. 4 il.

Description

The invention relates to devices for determining the physicomechanical characteristics of soils during engineering surveys in construction.

The purpose of the invention is to increase the reliability of determining the deformation characteristics of the soil.

FIG. 1 shows the blade stamp, a general view; in fig. 2 is a view A of FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 is a view of B in FIG. 2

Blade stamp contains two coaxially located screw blades, one of which is a stamp 1, and the other - anchor 2, the load device in the form of a hydraulic cylinder 3, located on the support platform 4, the inner 5 and outer 6 rod.

The inner rod 5 is connected at one end with a stamp 1, and the other with a cylinder stem 3. The outer rod 6 is made hollow and is connected at one end to anchor 2, and the other to the support platform.

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4, wherein the screw blade of the anchor 2 is fastened on a stiffening rib 7 mounted on the outer rod 6, cantilever, and covers the inner rod 5 of the die 1 with axial displacement, and its leading cutting edge 8 is located above the leading cutting edge 9 of the helical blade of the die 1 and has the opposite of her inner race

The inner rod 5 from the front side on one semicircle has an oblique cut at an angle (p, coinciding with the angle of inclination of the screw blade of the stamp, and combined with the cutting edge 9 of the stamp 1, and on the other semi-circle - helical semi-cylindrical sample 10 located under the blade of the stamp. the stamp and the anchor have transition surfaces in the form of fillets,

A support plate 11 is placed on the support pad 4 for measuring the relative displacement of the die 1. The hydraulic cylinder 3 is connected via a pipe 12 to a oil station 13 equipped with a hydraulic stabilizer 14 and a pressure gauge 15.

Bladed stamp works as follows.

Axial relative movement of the punch 1 and the anchor 2 is limited. Rotating the outer rod 6 with the rotator of the drilling machine, the device is immersed to a predetermined depth of the ground mass. inter-blade space At the same time, the soil from under the barrel of the rod 1 is selected by the leading cutting edge 9 of the blade of the stamp 1 and, through a helical semi-cylindrical sample 10, is also spiraled out into the inter-blade space between the blades of the punch 1 and the anchor 2. At the same time, the soil under the punch 1 is in the undisturbed natural state.

The soil compression test is carried out according to the standard method by axial movement of the die 1 relative to the non-moving anchor 2. 11 by measuring the magnitude of the extension of the hydraulic cylinder rod.

According to the obtained measurement results, a graph of the soil deposition under the die is measured against the pressure below the die area and the modulus of the soil deformation is determined.

Claims (1)

Claims of the invention: Blade stamp comprising two axial helical blades, one of which is a stamp and the other is an anchor, a load device in the form of a hydrocydra placed on the support platform, the inner and outer rods, which are internally connected to the stamp and a hydraulic cylinder rod, and external with an anchor and a support platform, characterized in that, in order to increase the reliability of determining the deformation characteristics of the soil, the leading cutting edges of the screw blades of the anchor and the punch is made with mutually opposite sharpening, the inner rod from the front side has an oblique cut on one semicircle, and on the other a helical semi-cylindrical selection, located under the blade of the stamp, the oblique cut is combined with the cutting edge of the screw blade of the stamp, and the screw blade of the anchor is cantilevered attached to the outer rod and covers the inner rod with 0 the possibility of axial movement, wherein the angle of inclination of the oblique cut is equal to the angle of inclination of the screw blade of the punch, the leading cutting edge of the anchor is located above the leading cutting edge of the punch, 5 and the blades of the stamp and the anchor have a transition surfaces in the form of fillets.