SU641286A1 - Stand for determining soil resistance to cutting by working member - Google Patents

Claims (2)

The invention relates to the field of construction or agriculture and can be used when carrying out laboratory and experimental work related to cutting the soil, as well as in all those cases when it is necessary to measure the resistance to mixing of the body in a consistent environment. Lime stands for determining the cutting resistance of the working tool ground. One of them is made in the form of a knife-type working tool attached to a gachi with separated gaps from its stand with side stands connected to the stand through transverse rods and interacting with one of the rods and a resistant strain element with the ohmic resistance strainer fl. However, due to the absence of the possibility of rotation of the stand and the absence of strain elements for measuring the normal and lateral component of a known stand, it is possible to measure only the tangible component of the cutting force. The closest technical solution to this invention is a stand that includes a section of rail track placed on It is equipped with a traction winch and a trolley carrying a model of the working body and suspension with strain gauges of ohmic resistance, horizontally and vertically located between its working and bearing chambers. Station and trolley 2. The disadvantage of this technical solution, which provides the mobility of the working part of the working body in the longitudinal direction and the possibility of measuring both the tangential and the normal component of the cutting force, is the lack of universality of use, since turning the working part in the transverse direction and the possibility of measuring there is no transverse component of the cutting force. The aim of the invention is the versatility of using the stand by imparting the working part to any position in space and enabling the three orthogonal components of the cutting force to be measured simultaneously, for which the bearing part of the working body model is made up of a three-piece toe rack with a lower protruding forward 36 between themselves and the carriage flanged joints with orthogonal with respect to one another located geometric axes, one of which is formed by The roller is arranged with a rod and fixing its rotation by a sleeve, and the working part of the working body is made in the form of a U-shaped shoe, which covers the toe of the stand from the top of the performances with the formation of lateral gaps in which the connecting hanger is placed and horizontally and vertically glued located suspensions and longitudinal roller for measuring, respectively, the tangential, normal and lateral components of the cutting force. FIG. 1 is a side view of the stand; FIG. 2 - its working body, and in FIG. 3-6 - sections A-A, BB, B-B and D-G, respectively; FIG. 2. The stand for determining the cutting resistance of the working body is made in the form of a segment 1 of a rail track with a traction winch 2 and a carriage 3 bearing the model of the working body having a carrier 4 and a working part 5. The carrier part 4 of the working body model is made in the form of a rack consisting of three elements 6, 7 and 8 with a lower protruding toe 9, fastened to each other and the carriage 3 by flange connections 10, 11 and 12 orthogonal to each other. geometric axes. The flange connection 11 is formed by a longitudinally located roller 13 and a sleeve 14, fixing its rotation relative to the flange 15 connected with it by means of a cotter pin 16. The working part 5 of the working body is made in the form of a U-shaped shoe, which extends from above the protruding Nasek 9 of the rack with lateral side arrays The ditch between the Nrsky and the vertical walls 17 of the shoe. Between the toe 9 of the stand and the vertical walls 17 of the shoe, horizontal 18 and vertical 19 and 20 suspensions connecting them by means of fingers are placed in the gaps formed. The strain gauges 21 of ohmic resistance stuck on them and on the longitudinal roller 13 provide for measuring the tangential, normal and lateral components of the cutting force, respectively. The stand operates as follows. Before switching on the pull winch 2, set the parts 6, 7, 4 and 8 of the working tool stand into the desired position, as a result of which the cutting part 5 is set to the required spatial position. For this, a rotational displacement of the flanges of each of the flange connections is relative to one another. When the winch is turned on, suspensions 18, 19 and 20 create a compressive force, and on the roller 13 there is a torque, which are simultaneously fixed by strain gauges 21 of ohmic resistance and transmitted to the recording equipment. Claims of the invention A stand for determining the cutting resistance of a working tool ground comprising a section of a rail track with a traction winch and carriage placed on it carrying a model of the working body and suspension with load cells of ohmic resistance horizontally and vertically located between its carrier and working parts and carriage attributed to the fact that, in order to universalize use by imparting the working part of any position in space and enable the simultaneous measurement of three orthogonal The main components of the cutting force, the carrier part of the working body model, is made up of a composite of three elements of a stand with a lower toe protruding forward, fastened to each other and the carriage by flange connections with spaced geometrical axes orthogonal to one another, one of which is formed longitudinally 1 is located with a roller and a sleeve fixing its rotation, and the working part of the working body model is made in the form of a U-shaped shoe, which extends from above the protruding toe of the stand to form lateral gaps, in which the connecting suspensions are placed, and strain gauges of the ohmic resistance are glued on these horizontally and vertically arranged pendants and longitudinal roller for measuring, respectively, the tangential, normal and lateral components of the cutting force. Sources of information taken into account in the examination; USSR Author's Certificate No. 180992, cl. E 02 F 5/10, 1972. 2. Copyright certificate of the USSR No. 275481, cl. G 01 L 1/08, 1969.