RU23201U1 - HYDROMETER - Google Patents

Description

The utility model relates to measuring technique and can be used in the oil and gas industry to control the density of cement and drilling fluids, as well as in other areas of industry and agriculture for measuring the given density of various suspensions and emulsions in the process of portion preparation.

In the practice of preparing cement and bzf solutions, their density parameters are of great importance. It is known that the density measurement performed at a given pressure of the working solution gives more accurate results of its value.

Known weight densitometer, designed to measure the density of cement mortar under pressure created by compressed vzozos. The weight densitometer consists of a pump, a pressure test valve, an airtight cover, and a cup of working fluid. 1 .

The disadvantage of the weight densitometer is the inconvenience of using it directly at the workplace when preparing cement slurry, the complexity of its construction and the complexity of the operation to determine the density of the cement slurry.

Known hydrometer AG-1, the closest in technical essence to the claimed solution, used to determine the density of the washing fluid and cement slurry. The hydrometer AG-1 consists of a float with a scale, a glass for the working fluid and a removable weight. 2.

The disadvantage of the AG-1 hydrometer is the impossibility of determining the density of drilling and cement slurries at a given pressure.

IPC COIN 9/10 AREOMETER

The objective of the proposed technical solution is to improve the accuracy of measuring the density of working solutions at a given pressure and reduce the time spent on measurement.

The problem is solved in that in the hydrometer, consisting of a float with a measuring ruler and screwed onto its lower part of the glass for the working fluid, in the bottom of the glass there is a hole for the tube, pressed by a spring, designed for a given pressure, which is rigidly fixed to the bottom of the glass, this float is equipped with an annular seal.

The drawing shows a General view of the hydrometer in section.

The hydrometer consists of a float 1 with a measured flap 2. A sealing ring 3 is placed on the float 1, for a more tight connection with the nozzle 4 for the working fluid. In the bottom of the glass 4, there is a hole 5 with a plug 6, which is fixed by a spring 7.

The device operates as follows.

The cup 4 is filled with a working solution and hermetically connected to the float 1. When the float 1 is twisted, pressure is created in the cup 4 and, when pressure is reached, for example, 2.5 kg / cm, the plug 6 presses a rigid spring 7, opening the hole 5 in the bottom of the cup 4. How only the cement slurry begins to be displaced through the hole 5, the twisting of the float 1 is stopped and the plug 6 under the pressure of the spring 7 closes the hole 5.

With the pressure obtained, the hydrometer is lowered into a container of water. But the division on the scale of the measuring line 2, to which the hydrometer drops, determines the density of the cement slurry, corresponding to a pressure of 2.5 kg / cm.

Used sources:

l.Cementing. Dwight C. Smith. Monograph volume 4 of the Henry L. Doherty series. 1976. p. 184 2. Inochkin I.T., Nrokshits V.L. Handbook of the drill master. Bosom. M, 1968.S. 342

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Claims (1)

A hydrometer consisting of a float with a measuring ruler and screwing onto its lower part of the glass for the working fluid, characterized in that a hole for the stopper is made in the bottom of the glass, pressed by a spring designed for a given pressure, which is rigidly fixed to the bottom of the glass, while the float is equipped with o-ring seal.