SU670855A1 - Rotary viscosimeter - Google Patents

Description

one

The invention relates to the field of measurement technology, in particular, to study the properties of fluids with the help of rotating bodies and can be used in the production and industrial processing in fluids.

A known mechanism for the balance of hours, the movable vertical axis of which its pivots are installed in stone supports. The magnetic support of the balance mechanism is intended for unloading bearings and balances its weight by the force of interaction of permanent magnets, having the form of bushings, the end surfaces of which face each other with like poles. The top sleeve is rigidly mounted on the balance axis, and the bottom is fixed at the base of the watch 1.

With the loss of the magnetic properties of the sleeves and the need to replace the magnetic balance bearing, operations are performed on the decompression of the sleeves, the attachment of new magnetized sleeves and the grinding of the end working surfaces. These operations are time consuming. In some cases, for example, in devices of small dimensions, such operations are inexpedient, and in the event of a failure of the magnetic supports, it is easier to replace the entire balance mechanism with a new one. This is a significant disadvantage of these mechanisms.

The closest technical solution is a rotational viscometer containing a drive, a base with a measuring element mounted on the supports, ring permanent magnets located around the lower support and facing each other with the same poles, and the measuring system 2.

The disadvantage of a known viscometer is the difficulty of replacing magnets that have lost their magnetic properties.

The aim of the invention is to simplify the replacement of magnets.

This goal is achieved due to the fact that the magnets are installed in two annular grooves, one of which is made at the base, and the other in the body 1 of the measuring element in its lower part.

FIG. 1 presents the proposed range; in fig. 2 shows section A-A in FIG. one.

The viscometer contains a base 1 consisting of a holder 2 and a flange 3, and a measuring element 4, having the form of a biconical cylinder and mounted on the top 5 and more than 6 trunnion supports.

Around the lower support 6 in the annular grooves 7 and 8, made respectively in the measuring element 4 on the base 1, there are annular permanent magnet 9 and 10, facing each other with the same poles. On the forming surface of the measuring element 4, the ring in alternating order are multipole magnets forming the driven half coupling 11.

The base 2 of the base 1 is covered with a cup 12, connected with the drive and centered in the frame with a bearing 13.

The ring 12 is suspended by the four flat springs 14 by a ring 15 with a leading magnetic coupling half 16 embedded inside it, facing inwardly towards the measuring element 4. The leading coupling half 16 is also designed as alternating magnets arranged in a ring in alternating order.

The inductance coil body 17 is also attached to the cup 12, and the coil core 18 is fixed to the ring 15.

In addition, on the glass 12 are the rings of the collector 19.

Rotational viscometer works as follows.

When rotating the cup 12 from the drive with a constant angular velocity, the leading coupling half 16 interacts through the thin wall of the clip 2 of the base 1 with the driven coupling half AND of the measuring element 4 and carries it along, forcing it to rotate at the same speed.

Trunnion bearings 5 and 6 cl) guide the rotational movement of the measuring element 4.

Through the use of a magnetic support (of permanent magnets) around the lower trunnion support 6, the measuring element 4 is hung and the load is distributed evenly on the lower 6 and upper 5 supports. With a change in the viscosity of the fluid, which is located in the narrow gap between the measuring element 4 and the base 1, the torque acting on the measuring element 4 changes

causes a corresponding change in the reactive moment acting on the leading half coupling 16. The angular movement of the leading coupling half 16 due to the bending of the flat springs 14 is fixed by the inductor, and through the collector 19 a signal is fed to a recording device.

A feature of the proposed meter is the ease of replacement.

magnets that have lost their magnetic properties during operation. The magnets 9 and 10 are planted loosely in the annular grooves 7 and 8 of the measuring element 4 and the base 1 and are held in them by

magnetic repulsive forces. The operation of replacing the support magnets of the proposed device is quite simple and convenient as compared with the known devices. Magnets are replaced as follows.

The flange 3 is twisted out of the holder 2 bases, freeing the measuring element 4 and the ring magnets 9 and 10. Then the magnets are replaced with new ones and the device is assembled

again.

Claims (2)

Invention Formula A rotational viscometer containing: a single drive, a base with a measuring element mounted on the supports, ring permanent magnets located around the lower support and facing each other with the same poles, and a measuring system characterized in that In order to simplify the replacement of magnets, they are installed in two annular grooves, one of which is made at the base, and the other in the body of the measuring element in its lower part. Information sources, taken into account during the examination 1. Instrument-making and automatic equipment means ki. Directory. M., “Mechanical Engineering 1964, Vol. 2, p. 264. 2. Ibid, p. 263. A