DE1847184U - CAPSULE SPRING FOR PRESSURE MEASURING DEVICES WITH CONTINUOUSLY ADJUSTABLE SPRING CHARACTERISTICS. - Google Patents

Description

B e s c h r e i b u n g The invention relates to a method in which a capsule spring by an additional continuously variable Use spring loading for any desired measuring range with a constant stroke is.

In the case of pressure gauges and pneumatic remote tank level indicators, their principle the measurement and transmission of the hydrostatic ground pressure at the bottom of the tank it is necessary to use a special capsule spring for each desired measuring range to be used, since the stroke of a capsule spring within the Hooke's area is a The function of the sheet metal thickness of the capsule spring is provided that the geometric shape of the same remains unchanged.

So it makes sense to look for a possibility, a capsule measuring system to develop which can be used within wide limits.

The principle forming the subject of the application is the actual principle Capsule spring is also a resilient element, but mainly serves as an airtight element Capsule in which the pressure to be measured builds up. The adjustment of the spring characteristics to the respective desired measuring range is carried out by additionally applied spring loads by coil or plate springs.

Sketch 2 shows a normal pressure measuring instrument, which is used in manometers and pneumatic remote tank level indicators are used and an additional Diaphragm spring behavior can be changed within large limits can.

If the pressure inside the capsule spring (A) increases, it expands and overcomes both the resistances that occur due to the inherent deformation, as well as the spring force of the diaphragm. The starting point can be through the adjusting screw (D) can be changed. The hub is activated via the tongue (B) on the lever (L) of the measuring mechanism. The measuring mechanism, which is attached to the circuit board (R) transmits the measured value to the pointer shaft (M) on which the pointer is attached is. The reading is made on the dial (N).

With the screw (K) the slide (J) can be placed on the web (H) move and this changes the effective spring length of the leaf spring (F). If the dimension "a" becomes smaller, the spring characteristics of the system become steeper. These is as shown in Fig. 4, in the limits between 2 and (3 to any intermediate value z. B. to adjust.

The slide (J) has a scale (P) on which you can read pressure gauges can read the full scale value (e.g. 0-Gkp / cm). The dial (N) has a break (0) and is at a mark on the scale any value can be set using the adjusting screw (K).

In the case of pneumatic remote tank level indicators, the hydrostatic one is of interest Ground pressure; the actual content is read off the scale, since the Rule of tank shape and specific weight already taken into account when designing the scale. With a suitable design, one can almost do so with a single such measuring mechanism equip all cylindrical and cubic liquid containers and in any case you have the entire pointer deflection for reading the respective content Disposal.

Sketch 1 shows an arrangement in which the leaf spring is replaced by a helical spring is replaced. The spring preload is changed by turning the adjusting screw (K) of the coil spring (F), as the nut (J) is fixed, by the lever (Y), which is in the Dial (N) is guided. The spring force for the different spring lengths is "a" using the angle lever (X) in the manner described above on the capsule spring brought as an additional burden.

The bolt (Y) carries the pointer (P) and the scale is here as well housed on the dial (N).

Fig. 4 shows the spring diagram.

While the respective final pressure is set on the scale for pressure gauges, In the case of pneumatic tank gauges, there is an "index" that defines the product Tank height and specific weight of the liquid to be measured.

Claims (3)

New protection claims 1. Capsule spring for pressure gauges with continuously adjustable spring characteristics, characterized in that the spring characteristics of the capsule spring (A) shown in sketch 2, Fig. 1, 2 and 3 can be changed by an additional leaf spring (F), which by the screw (G) is attached to the circuit board (H). The additional force of the leaf spring (F) is via the adjusting screw (K) and the slide on the plate (H) (J) changeable within wide limits. Fig. 4 shows the extent the adjustment option within the limit curves and? The capsule spring stroke is transmitted via the Bracket (B) and the lever (L) of the pointer mechanism (R) on the Pointer shaft (M). This makes it possible to cover a measuring range with a measuring device, for which several devices are necessary with conventional pressure gauges with the same reading accuracy. The measuring range set by the additional spring can be shown on the scale (N) of the measuring device. The sledge (J) carries a scale (P) showing the set measuring range on a window (o) in the dial (N) indicates. 2. Capsule for pressure gauges with continuously adjustable Spring characteristic according to Claim 1, characterized in that there is also a helical spring can be used as an additional spring. Sketch 1, Fig. 1-3, show one such Arrangement. The cable screw spindle (K) is movably mounted in the housing. On the The nut (J) sits on the cable screw spindle, which over the pointer rod (Y) in one Slot of the dial (N) is secured against rotation. By turning the cable screw spindle (K) the preload of the helical spring (F) is changed and thus the force on the angle lever (X), which is mounted on the shaft (Z), transferred. The angle lever transfers the continuously variable force via the adjusting screw (D) the capsule spring (A) of the pressure gauge. Fig. 4 shows this in a parametric representation Spring behavior of the system. The stroke is transferred to the dial in a conventional way. Fig. 3 shows the amount of additional spring force is available or directly the set measuring range of the device. 3. Capsule for pressure gauges with continuously adjustable Spring characteristic according to Claims 1 and 2, characterized in that pressure measuring devices Can also be used as pneumatic content meters by measuring the hydrostatic ground pressure in a suitable form. In sketch 2 Fig. 5 or sketch 1 Fig. 3, the scale can then indicate the tank diameter or represent the tank height and an individual calibration of the devices is not necessary.