SU779879A1 - Vessel-containing density meter for soils - Google Patents

Description

(54) HOLLOW DENSITY FOR GROUNDS I The invention relates to the field of building engineering, in particular, to the technique for controlling the quality of the construction of embankments of a roadbed of roads and railways. A device is known for determining the quality of a seal, for example, a crushed stone layer, comprising an elastic cylinder filled with a liquid, and a measuring cup tank l. However, this device does not provide a determination of the density of the soil, but determines only the porosity of the macadam layer as a percentage by volume ratio. The closest technical solution to the invention is a balloon densitometer, including a cylindrical body with a vessel placed in it, a piston with a rod passed through a vessel, an elastic cylinder attached to the body 21. The disadvantage of such a device is that the extracted soil is additional: but weighed what it needs scales. Separate the weight of the soil sample to its volume, find the bulk weight of the soil. Weighing soil lengthens and increases the density control. The aim of the invention is to expand the functional capabilities of the device by providing ground weighing. The goal is achieved by the fact that in a balloon densitometer that includes a cylindrical body with a vessel placed in it, a piston with a rod passed through a vessel and an elastic cylinder attached to the body. With working fluid, the vessel is supplied with weights, filled with the soil under study and has the top of the graduation, and the piston is installed below the vessel .., The drawing shows the device, a general view. The device is a cylinder 1, in which there is a graduated rod 2 and a piston 3. To the lower chabti of the cylinder with the help of ring base 4, bearing

on the plate-jig 5, the epastic balloon 6 is attached. The CYLINDER and the balloon are filled with working fluid 7, usually water. There is a threaded hole in the piston that is closed with a stopper 8 in order to bypass water into the super piston space.

Inside the cylinder is placed the vessel 9, in which the loads 10 are located. The vessel has a removable lid in which it is placed, divisions. The vessel and the lid have through holes; to pass the rod. The cylinder is closed on top by a cap 12, a la of which there is a nonius. At the end of the rod is a removable handle 13c with an air valve 14.

The device works as follows. A plate-conductor 5 and a cylinder are placed on the leveled surface of the test soil layer. 1, filled with liquid 7. A rubber cylinder 6 with an OT-J closed air vent valve .14 is located on a dirt surface under the action of a mass of water. According to the nonius and graduated rod 2, the initial position of the piston 3 is noted. Air valve

Allow and lift the piston up. The device is removed from the plate and the soil inside the conductor is selected in such a way that the walls of the hole are as pliable as possible. The removed soil sample is placed in a vessel 9 outside the cylinder.

Device snsea put on the plate-jig. The air valve is opened and the rubber canister is lowered into the well. Then press down and take his position when measured in the well. The difference of the samples, multiplied by the area of the pistons, is equal to the volume of the well.

Then, do not remove the device from the punches, from to the cylinder cover and unscrew the plug 8 of the piston hole in the piston. The piston of the piston |) moves to the lower position by re-passing the water into the piston above the piston. Handle 13 with airblower and put-on the stem the vessel b with a n {soil any. Make sure that cocfa is free in the cylinder, hydrostatic weighing is done; Ysyol; Zug division, deposited on the lid 11.

IF the vestibules are not sufficient for the vessel to sink into the water up to the neck, weights 10 of a certain weight are used. From the measured values of the volume and mass of the sample, the density of the soil is determined.

After measurements, the vessel is taken out and released (ayt from the sample, the piston is lifted to the upper position and the stopper is screwed into it. The device is prepared squeezed to take measurements, in a different place.;

It should be noted that when transporting a balloon densitometer, the vessel is located inside the cylinder.

Thus, it is possible to determine with the same instrument both the volume and mass of the extracted soil sample, without resorting to the help of another measuring device, for example, weights.,.

The proposed density meter provides ease of measurement and increased efficiency in monitoring the quality of land structures.

The need for weights with the use of the invention is reduced by 30%, the amount in the Ministry is approximately 10,000 rubles.

Claims (2)

1. USSR author's certificate Ns 162988, cl. E 02 D 1/00, 1964. 2. The author's certificate of the USSR № 462004, cl. E 021) 1/02, 1972 {prototype) ..