SU928198A1 - Device for measuring velocity - Google Patents

Description

(5) DEVICE FOR MEASURING VISCOSITY

I

The invention relates to studies of the chemical and physical properties of substances, in particular for measuring the viscosity of sealed corrosive, including polymerizing media, under conditions of single and small-scale production. The invention may also be used in other technical fields in measuring the viscosity of sealed corrosive media.

A small-volume viscometer with a sloping tube and a ball rolled into it is known. The time of movement of the ball between the fixed marks is determined by the acoustic signal generated by the ball 1.

Using an acoustic signal allows Dixix Pro6; The ball in the liquid placed the receiving device outside the liquid, but does not remove the question of cleaning such complex profiles as tubes from the polymer.

Closest to the invention is a viscometer consisting of a container with a lid in which the ball is placed, sensors for the upper and lower levels of fluid in the tube, a sensor for the ball, the upper position of the ball, valves for inlet and outlet for the fluid, and a meter for ball passage time. In this viscometer, the mechanism for fixing the discharge of a ball is an electromagnet located outside the container with the liquid under study 2.

However, this device is a laboratory-type device; it is structurally necessary for holding the ball. A necessary condition is the continuous presence of current in the circuit of the control unit, the switching connections and the winding of the electromagnetic restraint device, i.e. the device does not have the reliability necessary to use it in a production environment. 3 E2 The need to measure viscosity under production conditions is due to the fact that the viscosity of an aggressive polymerizing fluid is a measure of the possibility of its use for filling products. The product is filled directly from the container, without contact of the liquid with the environment, after which the suit of the container contaminated with hardened polymer (except for the simple form of the cover) is destroyed in a safe place. The viscosity measuring device in this case must be embedded in a sealed container. This device can measure the viscosity of a fluid in a hermetic volume, but its design is not designed to work with polymerizing liquids stuck in valves, on sensors, which it is practically impossible to clean for reuse. A device embedded in an airtight container must not contain parts inside the container and in contact with its contents. All parts of the device, except those built into the reusable lid, must be used once and then destroyed along with the parts of the container that have been cured with solidified polymer. The inside of the container part of the device must be single action, cheap and reliable in operation. This viscometer is not responding to these requirements. The purpose of the invention is to simplify the design and increase the reliability of the device when measuring the production conditions of aggressive hardening media. This goal is achieved by the fact that in a device for measuring viscosity containing a sealed container for a test medium with a lid and a ball inside, a mechanism for fixing and dropping the ball into the medium and measuring the passage time of the ball in it, the mechanism for fixing and dropping the ball consists of a magnetic conductive rod, a removable permanent, a magnet and a gasket of a non-magnetic material, the magnetic core being embedded in the lid of the hermetic container and divided into two parts by a gasket of a non-magnetic material, a permanent magnet in contact with the magnetic conductive rod with naru henna tank side, in the figure represented by the proposed device for measuring viscosity. The device consists of a magnetic conductive rod 1 fixed in the lid 2 of the container 3 made of a non-magnetic material. A removable permanent magnet is attached to the magnetic core 1 on the outer side. The magnetic core 1 is divided into two parts with a gasket 5 made of a non-magnetic material. On the inside of the lid, a ball 6 is installed on the connecting rod 1. in a way. At the moment of pouring the container with the polymerizable liquid, a removable permanent magnet k is mounted on the magnetic core 1 fixed in the lid 2 of the container 3. The removable permanent magnet k is positioned so that its poles are in contact with the magnetic conductor 1, and each pole must be in contact with only one part of the magnetic conductive rod 1, between which there is a non-magnetic gasket 5. The removable permanent magnet k is fixed on cover in the specified position. On the magnetic core 1c of the inside of the lid, a diarikb is installed, closing the magnetic field. In this case, the ball fits tightly to the surface of the magnetic core and is held on it by magnetic forces. A lid with a removable permanent magnet and a ball is placed on the filled container. Viscosity measurement is as follows. A sound receiver (for example, a microphone) with an amplifier is attached to the container from the outside. The permanent magnet is removed, the magnetic field is removed, and the ball falls into a liquid. At the same time, the countdown is turned on. The falling of the ball to the bottom of the container is accompanied by an acoustic signal, which is fixed by the acoustic receiver and the amplified signal is used to end the time count. The viscosity of the latter is determined by the time the ball passes a known distance in a liquid.

The technical and economic effect of using the proposed device in comparison with the known viscometer is that the proposed device is simpler both constructively and in operation, requires minimal cleaning costs from the polymerizing liquid, since this operation is combined with cleaning the container lid. The use of a permanent magnet eliminates the dependence on the power source, i.e. makes the device more reliable when used in production conditions. The device allows you to adjust the filling of long products in a safe manner with direct control of the technological parameters of the aggressive polymerizing fluid before the process of filling products.

Claims (2)

1.Fev. Sci Instrum Arthur .M. Pderson Viscosimeter, kB, K 7 ,, 1977. 2. USSR author's certificate №669269, cl. G 01 N P / Go, 1976 (prototype).