DE1648858B2 - ROTARY VISCOSIMETER - Google Patents

Description

lower end of the shaft 260 is a coupling marked position is rotated so that the magnet

gnetkörper27 attached so that it cannot rotate. Its pole faces / V, forces repel it instead of attracting it.

Fturn with the Antriebsw, Jle260 over a through the interaction between itself

liquid-tight and gas-tight in the housing 1 in the liquid that fills and envelops it,

set partition 11, from the center of which the viscosity is to be measured according to 5, rotating measuring

below a bearing pin 12 with a bearing ball 120 body 3 and the fixed measuring cylinder 4 act

other top goal is. depending on the speed and the internal

An exchangeable, cup-shaped measuring body 3 friction of the liquid braking torques on the

contains a central point bearing 32 rotation body 3 in its bottom. These braking torques are on

to accommodate the bearing tip 120 of the bearing journal io which counteracts the restoring forces of the spring ■ za yer-

12 and in its upper side magnetic body 31, which is transmitted in the pivotable stator shaft 23, so that this

Cooperation with the clutch magnetic body to the extent of the effective viscosity from lürer Kune-

27 is twisted on the WeUe 260 as driver organs and also laae. This stator rotation occurs

to carry and center the only in the tip a measuring pointer 5 transferred, the super one in

bearing 32 bearing rotating body 3 serve 15 viscosity grades calibrated scale scneioe au plays.

At the lower end of the housing 1 are carriers 130. The displayed viscosity value is due to an accurate

designed for a ring 13, through which in the slide 16 readable that with the hooves of a Haltermges l & w

metric direction a holder 131 for an out and of sealing rings 161,162 as «enter ad-

exchangeable measuring cylinder 4 is detachably inserted. The end cover removes the housing 1 at the top. That

Holder 131 also serves to ensure that the body of revolution 3 ao whole viscometer can be in without damage

to prevent it from falling off once it is dipped out of the measuring or cleaning fluid.

1 sheet of drawings

Claims (1)

1 2 ^ completed expansion of the drive unit from the Claim: Outer housing forming liquid space possible is With this flow viscometer there is an Rotational viscometer with a rotatable in fit of the measuring device to liquids with essential the liquid containing the measuring liquid s lent different viscosity ranges not anteroom mounted, cup-shaped measuring body that is seen. from a drive motor via a magnet- On the other hand, rotational viscometers are known, table driver coupling, which by one of the where the drive mechanism with measuring mechanism and the Liquid space from the drive space sealing body independent of the liquid end, non-magnetic partition through io space-forming measuring container is. You will be with that acts around its vertical central axis in rotation measuring body in the contained in a measuring container is added, being immersed in the viscosity of the liquid Liquid-dependent, on the measuring body The invention is based on the object Acting braking torque for the viscosity measurement interchangeability of the measuring body in exchange Solution or display in one with the drive 15 against one with a significantly different through-shaft connected measuring mechanism is evaluated, knife and wall thickness dimensions for adjustment characterized in that the measuring to other viscosity ranges of measuring liquids body (3) in its interior a central tip to facilitate. bearing (32) for receiving the bearing tip (120) , this task is achieved with a rotary one of the partition (11) coaxially to the anao viscometer of the type mentioned, driven shaft (260) in the liquid space that the measuring body has a central protruding bearing pin (12) in its interior and in the top bearing for receiving the bearing tip one of In the area of the opening of the cup-shaped measuring body, the partition wall is arranged coaxially to the driven shaft in pers (3) on the inner wall of the magnet body (31) on the liquid space projecting bearing journals which point to the end of the drive 35 and in the area of the opening of the cup-shaped shaft (260) beyond the partition (11) attached measuring body to the inner wall of the magnet body and the exchangeable measuring body (3) are arranged, which is attached to the end of the drive shaft on the same bearing and centering coupling side of the partition and the exchangeable magnetic poles ( 27) are aligned. ble measuring body magnetically bearing centering 30 clutch magnetic poles are aligned. The fact that the measuring body in a single central, also axial in the direction of its axis of rotation Forces absorbing point bearings on one of the Partition wall protruding coaxially to the drive shaft 35 bearing journals and the magnets of the center The invention relates to a rotary viscometer not only the torque in the cosimeter with a rotatable in which the liquid is transferred in a known manner, but in connection containing liquid space stored, pot-shaped with the top bearing at the same time for the holder Migen measuring body, which take care of a drive motor and centering of the measuring body, is a Ausüber a magnetic drive coupling, which change the measuring body by pulling it off and 40 by replacing the fluid space from the drive space with another measuring body the same final, non-magnetic partition wall design allows. The state of the art is not by acting in order to take the excitation from its vertical central axis in red, the magnetic entrainment station is offset, which depends on the viscosity of the coupling due to the special structural design and The measuring body is dependent on the measuring body and is at the same time bearing the measuring body acting braking torque for viscosity measurement or and centering bracket for the measuring body -display in a connected to the drive shaft. There is therefore no contamination from the measuring mechanism is evaluated. set connection components for replacement The invention thus relates to a ratio of the measuring body outside the full ratio of the viscometer many extremely simple viscosity measuring devices have a tightly sealed partition, advise upscale type of viscometers in which an embodiment of the invention For example, by switching the speed of the measuring viscometer, the replacement of the measuring body and / or the attached drawing is explained below with reference to the auxiliary bodies. The only illustration of a cooperating with the rotary body shows a diametrical section of the viscometer.
fixed measuring cylinder quantitatively with relative 55 In the housing 1 of the viscometer a synchronous high accuracy viscosities is built into a large motor, for which fixed windings value range can be measured. 21.22 include power supply lines 210,220. the A known viscometer of the initially mentioned windings by the alternate type supplied (German patent specification 47 814) has the wake-induced magnetic fluxes via air part that the cup-shaped measuring body in its shape gaps L ₁ , L ₂ , L ₃ transferred to interconnected, ferro design and its dimensions through the magnetic parts 231 of a stator, the structure of the inner drive mechanism and the inner diameter of the shaft 23 delimiting the liquid space with a torsion spring 25 via a bearing 24 in the fixed plate 10 the outer housing is largely determined. The type of measurement is connected with the fact that it is rotatable about its vertical axis against the restoring force of the body in spring 25 each and can be pivoted out of the rest position. In a bearing of the outer housing and in a bearing on the inside of the stator parts 231 , 232, 233, the rotor 26, the inner drive mechanism, is mounted, the motor is mounted; its shaft 260 is in the hollow so that a replacement of the measuring body only after stator sleeve 232 by means of bearings 261 . At the