SU1052662A1 - Hydraulic chamber for testing rock samples - Google Patents

Abstract

HYDRAULIC CAMERA FOR TESTING SAMPLES OF MOUNTAIN ROCKS, including a housing, upper and lower pistons, a cavity for placing a sample, sealed with a cuff, and a piping system, characterized in a split cage, wherein the upper rim in its upper part is made with a bore for accommodating a spring, and in the case there is a window located on the side surface.

Description

The invention relates to mining and can be used in the study of the physical properties of rocks.

There are hydraulic chambers, including a housing with Ptutserami, pistons, elastic cuffs to protect the sample of rock from the working fluid 1.

The disadvantage of such hydraulic chambers is the low productivity of measurements, which is associated with the complexity of placing and retrieving rock samples in the chamber, especially when tested at elevated temperatures.

The purpose of the invention is to reduce the complexity of the measurements.

This goal is achieved by the fact that the hydraulic chamber, including the housing, the upper and lower pistons, the cavity for the size and samples, sealed with the cuff, and the piping system, is equipped with a compression spring, and the cuff has a split the piston in its upper part is made with a bore to accommodate the spring, and in the housing there is a window located on the side surface.

FIG. Figures 1 and 2 depict a high pressure hydraulic chamber, general view, in section.

A hydraulic high pressure chamber consists of body 1, bottom 2 and top 3 nornes, pressure nut 4, support 5, rubber cuff 6, compression springs 7, insulating gaskets 8, rubber sealing ring 9, split casing 10, sample 11 of the rock to be examined, shtaper 12 to create intra pore pressure, nipple 13 to create axial pressure, nipple 14 to create lateral pressure, and a window 15 in the housing for installation of the sample.

The hydraulic chamber operates as follows.

The test sample 11 is placed on the piston 2 through the window 15 in the housing 1. Oil from the pressure source is supplied through the fitting 13 from below, and the lower piston 2 begins to move upwards. When moving upward the spring 7, squeezing, are installed in special sockets made in the upper piston 3. The force required to compress the springs is 5-7 kg. The motion continues until the upper piston 3 is abutted against the support point 5. The length of the pistons is calculated in such a way

that in the upper position in the side crimping cuff 6, a specimen with a length of 30-40 cm can be placed.

After the end of the movement of the pistons

Upward camera is considered ready for use.

Supply oil from pressure sources

- through fitting 13 into the cavity of the lower piston and to the lateral pressure cuff 6 through fittings 14 and 13, the sample is subjected to thorough crimping. The meter is designed to work with pressure up to 200 MPg.

5 The sample is removed from the chamber as follows. The crimping pressure is released. Under the action of the springs 7, the piston 3 begins to move downward, transferring movement through the sample to the piston 2. The latter squeezes the oil from the cavity under the piston into the receiving tank of the hydraulic system. (Not shown). The entire system returns to the initial position shown in FIG. 1. The sample is removed from the window through a window in the camera body.

The hydraulic chamber can be used to study the water and oil saturation of cylindrical samples of hot rocks with a diameter of 28–30 mm in the range of all-round pressure up to 150 MPa and

0 short-term mode up to 200 MPa, reservoir pressure up to 60 MPa and temperature up to 150 ° C. A wide range of comprehensive crimping pressure measurements allow studies of rock samples from depths of up to 10 km.

5In contrast to known installations for

studies of rocks that are difficult to manufacture, bulky, scrap, we offer. our installation is compact, easy to manufacture and has ample opportunities for research.

0 Tests of the proposed hydraulic chamber under laboratory conditions showed high reliability, significant time savings when examining samples by simplifying the process, installing and removing samples from the chamber.

Claims (1)

HYDRAULIC CHAMBER FOR TESTING SAMPLES OF ROCKS, including a housing, upper and lower pistons, a cavity for placing a sample, sealed with a cuff, and a piping system, characterized in that in order to reduce the complexity of the measurements, it is equipped with a compression spring, and the cuff on its outer surface has a split clip, while the upper piston in its upper part is made with a groove to accommodate the spring, and in the housing there is a window located on the side surface. FIG. Τ