SU815626A1 - Instrument for plastic strength determination of raw cellular concrete - Google Patents

Description

The invention relates to the study of the mechanical properties of raw massifs of black concrete. A device is known for determining the plastic strength inside an array of raw cellular concrete by mechanical action on it. The device contains an elastic shell placed in an array, for example a rubber one, into which liquid is supplied and the plastic strength of raw material 1 is judged by the liquid and the pressure required to maintain a certain volume of the shell. The disadvantage of this device is the presence of an elastic shell that is under the action of bristles the massif, and high temperatures, quickly ages and loses its elastic properties, which makes the device unreliable in operation. In addition, the known instrument makes it impossible to measure plastic strength on the surface of an array. Closest to the proposed in ;; shvts device for determining the plastic strength of raw cellular concrete containing a tip and a dynamometer connected to it. The conical tip is immersed in raw material and the plastic strength of the raw material is determined by the strength of the raw material resistance and the height of the cone immersion. The disadvantage of this device is the error in measuring the plastic strength inside the array, since, when cozus is loaded, the layers of the array are interpreted in front of him there is a mixture in front of the cone and ostepevno ushhggavayuschy buffer mixture. The specified buffer layer distorts the results. The chain of yutenv - increase the accuracy of the measured. The delivered ael is comprehended by the fact that in a known device for determining the plastic strength of syrup of cellular concrete, containing a tip and connected to a 1 ШМ dynamometer, the tip is made in the form of a glass, whose walls 38 are formed by two intersecting conical planes whose vertices lie on one side of the plane their intersections, the angle at the apex of the inner conical surface is 10-30 °, the external 3-9 °, and the ratio of the diameter of the base of the tip to its height is from 2: 1 to 6: 1. nechnika contributes to the fact that the sampling time at uniform prefecture immersion nozzle, changing contacting tip pad and the crude will be minimal, since the surface area of contact of raw and opredelits tip of the formula (R4) where c - forming length, Q - radius of a base circle; G is the radius of the inner cone at the level of its immersion. If the cone is evenly immersed, at the moment of counting, the rate of increase in the surface of contact between the raw and the tip will be minimal, since the value of g decreases as the tip is immersed. This will ensure high accuracy in determining the contact surface and consequently plastic strength. In addition, the proposed shape of the tip contributes to the fact that when the tip is immersed in the mixture, its outer sharp edge cuts a zipingre, which, when the tip moves down, is deformed by the walls of the inner conical cavity. Therefore, the vertical component of the forces acting on the base of the cylinder being cut is very insignificant and a compacted buffer layer is not formed, and therefore the measurement data are not distorted. The drawing shows a general view of the device in section. A device for determining the plastic strength of raw cellular concrete contains a dynamometer, including housing 1, plunger 2 and pressure gauge 3. Plunger 2 has racks 4 attached to which a foam tip 5 is installed. The latter is made in the form of a glass, the walls of which are formed by two intersecting conical planes whose vertices lie one from the plane of their intersection, the angle at the apex of the inner conical surface being 10-30 external - 3-9, and the ratio of the diameter of the base of the tip to its height is from 2: 1 to 6: 1. Case 1 is oil-filled 6, raw is indicated with 64 Plastometer works as follows, Tip 5 is immersed in raw honest concrete. The tip 5 of the front sharp edge under the immersion cuts a cylinder in the massif, which deforms the passage through the inner conical surface of the tip. Since the outer surface of the tip 5 is also conical, there is no friction between it and the raw material. The specified limits of the angle of the inner cone 20-30 and the specified ratio of the diameter of the base to the height from 2: 1 to 6: 1 ensure that when the tip moves in the array, the mechanical transmission practically only affects the cylinder cut out of the array and prevents deformation of the raw material in front of the moving tip, t. e. prevent the formation of a compacted buffer layer. The force of the deformation reaction of raw 7 through the tip 5 of the rack 4 is transmitted to the plunger 2, which moves in the housing 1, compresses the oil 6, the pressure of which is shown by the pressure gauge 3. According to the pressure gauge, the plastic strength of the raw is calculated. The design of the device makes it possible to measure the plastic strength of the raw material with high accuracy both on the surface of the massif and in depth, which makes it possible to accurately determine the time of transfer and cutting of the raw material. Formula of the Invention A device for determining the plastic strength of raw cellular concrete containing a tip and a dynamometer connected to it, characterized in that, in order to improve the measurement accuracy, the tip is made in the form of a glass, the walls of which are formed by two intersecting conical planes whose apexes lie along one side of the plane of their intersection, with the angle at the apex of the inner conical surface being 1O-30 external-3-9, and the ratio of the diameter of the tip base to its height is from 2: 1 to 6: 1. Sources of information taken into account in the examination 1. USSR author's certificate hf 410313, cl. q 01 N 33/38, 1972. 2. USSR Copyright Certificate M. 352196, cl. Q01 N 11/12, 197O.

Claims (1)

Form π a Inventions A device for determining the plastic strength of raw cellular concrete containing a tip and a dynamometer connected to it, characterized in that, in order to improve the measurement accuracy, the tip is made in the form of a cup, the walls of which are formed by two intersecting conical planes, the vertices of which lie on one side of the plane of their intersection, and the angle at the apex of the inner conical surface is 10-30® outer — 3–9®, and the ratio of the diameter of the base of the tip to its height is from 2: 1 to 6: 1.