SU1578587A1 - Device for determining capillary constant of liquid - Google Patents

Abstract

The invention relates to instrumentation engineering and can be used to study the surface properties of melts and solutions in metallurgy and the chemical industry. The aim of the invention is to reduce the determination time during repeated measurements. For this, the vertical probe, immersed in a liquid, is made in the form of a tube with a pointed lower edge. A cylindrical rod is placed in the tube with the possibility of vertical movement along the tube axis. The side surface of the stem and the inner surface of the tube form a capillary gap. 1 hp f-ly, 4 ill.

Description

The invention relates to instrumentation engineering, in particular, to a technique for measuring the physical properties of melts and solutions, and can be used to determine surface properties in the development of technological processes in metallurgy and the chemical industry.

The aim of the invention is to reduce the determination time when conducting multiple measurements and to improve accuracy by maintaining the constancy of the liquid level in the vessel.

FIG. Figure 1 shows the arrangement of the elements of the device at the moment when the tube touches the liquid Fig. 2 is the same at the final moment for lowering the cylindrical rod; Fig, 3 - the same, at the time of separation of the probe from the liquid; FIG. 4 is the same at the moment of raising the cylindrical rod from the tube.

The device consists of a vessel for liquid 1, above which is placed a vertical probe made of a material wetted by a liquid and placed above the vessel for a liquid with the possibility of vertical movement.

Vertical probe consists of a tube

2 diameter not exceeding 1/15 the diameter of the vessel for the liquid inside which is a cylindrical rod

3 with a capillary gap between the lateral surface of the cylindrical rod 3 and the inner surface of the tube 2.

The cylindrical rod 3 is installed in the tube 2 with the possibility of vertical movement along the axis of the tube 2, the lower end of the tube 2 is made pointed to the outer surface of the tube 2, the device is also equipped with a system for measuring the position (height) of the lower tori -vi

00

ate

00 -4

tube 2 relative to the level of liquid 1 in the vessel.

The device works as follows.

Liquid 1 is poured into a liquid container. Tube 2 is lowered until the lower end of tube 2 touches liquid 1 (Fig. 1). The position of the lower end of the tube 2 is measured at the moment of contact. Then the cylindrical rod 3 is lowered to align its lower end with the lower end of the tube 2, and the liquid 1 rises along the capillary gap (Fig. 2). After that, the tube 2 and the cylindrical rod 3 simultaneously rise to the separation of the probe from the liquid (Fig. 3 ) The position of the bottom end of the tube 2 is measured at the moment of burping. After detachment, a drop is formed on the dipstick. The tube 2 is secured and the cylindrical rod 3 extends upward from the tube 2. The liquid from the tube 2 pours out- | s; on the cylindrical rod 3 it remains - with hanging drops (Fig. 4). After this, the system is ready for repeated measurements.

I calculate the capillary constant as in the prototype, based on the difference in the positions of the lower end of the tube 2 at the moment of contact of the liquid and at the moment of separation.

five

d

0

Claims (2)

1. Device To determine a capillary constant liquid, containing a liquid container, a vertical probe made of evil mother wetted with liquid and placed vertically above the liquid container relative to the liquid vessel, and a system for measuring the position of the lower liquid. the end of the vertical probe relative to the level of liquid in the vessel, characterized in that, in order to reduce the determination time during repeated measurements, the vertical probe is made in the form of a tube, the lower end the probe is pointed to the outer surface of the tube; a cylindrical bolt is placed inside the tube; its lateral surface forms a capillary gap with the inner surface of the tube, while the cylindrical rod is installed in the tube with the possibility of vertical movement along the tube axis. 2. The device according to claim 2, in order to increase the accuracy by maintaining the level of the liquid in the vessel constant, the diameter of the tube does not exceed 1/15 of the diameter of the liquid container. 1 2 Figg Fig.Z Fig