DE581593C - Tilting aerometer - Google Patents

Description

Tilting hydrometers Hydrometers are already known in which the density is indicated by a more or less inclined position and which is therefore called Can denote tilting hydrometers. The well-known Aräonieter have the disadvantage that they either move around a fixed pivot point and thus from the height of the Liquid level in the measuring vessel are dependent, or the reading only with the help of the liquid level by moving the pointer to one on the hydrometer attached scale forms; however, such a reading is particularly strong at Corrosive or boiling or .. sticky liquids not good if not not possible.

These disadvantages are avoided by the new hydrometer, which a movable organ for the direct or indirect display of the respective inclined position which is under the action of gravity relative to the hydrometer depending on whose inclination adjusts. This organ can either be a pointer pendulum, which is moved relative to a fixed scale of the hydrometer, or the moving mass of a Toggle switch, e.g. B. a mercury switch or ball switch. The order has the advantage, among other things, that it -so on the hydrometer, z. B. on the lever arm, the causes the inclination, can be attached that the display device itself is outside the "measuring liquid. The display device can be high enough. placed above the liquid level and even above the rim of the vessel protrude from the liquid to be measured. The whole device can be made of any material getting produced. By appropriate dimensioning of the float, the lever arm and the scale together with the pointer or the corresponding selection of the gear ratio great accuracy and sensitivity can be achieved. The display device can be encapsulated, it can have all shapes that are otherwise found in measuring instruments are common, so that z. B. the measured values can be read from above through supervision can.

When choosing the material, you can easily rely on acid resistance, Take thermal safety, fire resistance and the like into consideration.

The drawings show some exemplary embodiments.

Fig. I shows a tilting hydrometer a with a lever arm b. It carries a pointer z rotatably mounted about the axis c and a scale d. This arrangement is attached to the lever arm, for example.

Fig. A shows the display device in an encapsulated design, Fig. 3 an encapsulated design as a profile instrument and Fig. Q. a tilt hydrometer with a switch in the form of a mercury interrupter e with connection contacts f and g. In the case of the one shown in Fig. Q. example shown is. the switch is attached to the float and not to the lever arm, so that the mercury mass influences the measuring process as little as possible. In addition, the influence of this mass can be completely compensated for in that a holding rail i is attached to the lever arm b which carries a displaceable weight k. The weight is pressed by a spring L in the direction of a stop »z. A rotatably mounted pointer pendulum p, which can optionally also be used for display, counteracts the pressure. However, the pointer is initially used to move the weight against the spring force. The pointer can, as Fig. Qa shows, have the shape of a cam or a template u, the curve of which is chosen so that each position of the mercury mass corresponds to a certain position of the balance weight. This compensation arrangement can also be encapsulated. Compensation arrangement and switch can also swap places. If you attach an electrode h to the float, e.g. B. made of platinum, so you can with a contact, z. B. f, and thereby save a lead wire; you can also use the passage of current through the liquid to be monitored for electrolysis and use the switch to turn the current on and off. The mercury tube can have several contacts and switch positions so that different values can be displayed.

Instead of a mercury switch, a toggle switch can also be used a contact ball rolling in a raceway can be used. One such switch is particularly suitable if the liquid to be measured is so hot that` the use of mercury is no longer possible.

These arrangements can also be used below the liquid level so that the density can also be measured at greater depths. To do this too To be able to read the pointer positions, the lever arm must be extended upwards so that that the scale is outside of the liquid.

The switches attached to the tilting hydrometer make it possible to to display the respective density by electrical means at any point at a distance, by using electrical measuring instruments whose scale is calibrated. Instead of Ordinary electrical measuring instruments can also be used for writing instruments so that you can automatically register the density continuously. .

You can also optically or acoustically at certain limit values Trigger signals. The switching processes can also be used for supply taps or pumps be controlled, the liquids of various types flow into a mixing tank permit. You can automatically and uninterruptedly regulate to a constant density.

In order to avoid errors caused by cooking movements in all such processes o. The like. To compensate, several tilt hydrometers are used. These are connected either in series or in parallel. By using so-called A delay relay can also be managed with a tilting hydrometer.

The arrangements described above can be achieved by appropriate encapsulation -Also work below the liquid level and are independent of the degree of heat or acidity of the liquid.

Claims (12)

PATENT CLAIMS: i. Kipparnneter with lateral lever arm to determine the density of a liquid based on the inclined position of the hydrometer. characterized in that the same carries a movable member for direct or indirect display of the respective inclined position, which is set under the action of gravity relative to the hydrometer depending on its inclined position. 2. Tilting hydrometer Claim i, characterized in that it carries a visible scale, too the relative pendulum serving as a pointer under the influence of gravity emotional. 3. tilting aerometer according to claim r, characterized in that the same one Carries toggle switch that displays measured values by electrical means. q .. Tilt hydrometers according to claim i and 3, characterized in that the toggle switch is a per se known mercury switch or an O_uecksilberstufenschaltröhre and that these organs have two or more electrodes. 5. tilting aerometer according to claim i and 3, characterized in that the toggle switch has a contact ball is a working switch that has any number of contacts. 6. Tilting hydrometers according to claim ¢ and 5, characterized in that the contacts of two or more Switches or hydrometers can be connected in parallel or in series to avoid errors to compensate the z. B. arise by boiling the liquid. 7. Tilting aerometers after Claim q.und_5, characterized in that to compensate for the displacement of Mercury or the weight of the ball caused errors variable balance weight is attached. B. Tilting hydrometer according to claim y, characterized in that for the automatic change of the balance weight a weight pendulum is provided with a cam designed as a cam. 9. Tilting hydrometer according to claim q. to 8, characterized in that the float Made of non-conductive material with an electrode immersed in the liquid, z. B. made of platinum, which is connected to a contact of the switch is. ok Tilting hydrometer according to Claims 3 to g, characterized in that the hydrometer is used in conjunction with a contact thermometer or thermostat such that the hydrometer is switched depending on the temperature. i i. Tilting hydrometer according to claim i, characterized in that on the floating body Control surfaces are attached to prevent the same from turning. 12. Tilting hydrometers according to claim ii, characterized in that the control surfaces generate a twist, which is opposite to the twist of the lead wire to the switch.