DE1303449C2 - FLOW METER WITH DIFFERENTIAL PRESSURE MEASURING UNIT - Google Patents

Description

30th

The invention relates to a flow meter with a differential pressure measuring mechanism and a vibrating, under the effect of the differential pressure, its frequency is proportional to the square root of the differential pressure changing organ, for example a clamped, by any, preferably electrical Excitation means in vibrations displaceable string, a tension band or a toggle lever.

From French patent specification 1,232,506 is a Flow meter with a differential pressure measuring mechanism and a vibrating one under the effect of the differential pressure its frequency is known proportional to the square root of the organ changing the differential pressure, which is under the effect of the differential pressure measuring mechanism. In this known device is a only differential pressure measuring membrane provided, which is connected to one end of the vibrating organ the other end is attached to a fixed point is. It is now useful in many cases, for reasons of accuracy, as a differential pressure measuring mechanism not to use a single measuring membrane, but a pair of differential pressure membranes.

The connection of the vibrating organ with such a differential pressure membrane pair and their arrangement should now be as simple and as possible according to the underlying task of the invention be carried out in a space-saving manner.

This object is achieved in that the vibrating organ in one with a Contact liquid-filled space between the two measuring membranes of the differential pressure measuring mechanism is, which the cavity of one, housed in a measuring chamber measuring membrane with the The cavity of the other measuring membrane housed in a second measuring chamber connects and in which the vibrating organ attacking one measuring membrane extends to one of the other MeQ membranes neighboring fixed point extends.

In the drawing the invention is in one embodiment for example and schematically

In a measuring chamber that absorbs the lower pressure 21, a measuring membrane 22 is accommodated while in an opposite one with the higher one Pressurized measuring chamber 20, the second measuring membrane 23 is arranged hollow measuring diaphragms 22 and 23 are connected to one another via a space 24 and are inclusive of the space 24 is filled with a contact liquid. This contact liquid should have a low viscosity and have the lowest possible temperature expansion coefficient. The low temperature expansion coefficient is required to avoid the inherently unavoidable temperature error due to the finite To keep the spring stiffness of the measuring membrane 23 as low as possible. The membrane 23 itself should be as small as possible Have spring stiffness so that the pressure of the contact liquid in the space 24 is practically the pressure in the Measuring chamber 20 corresponds. This ensures that the differential pressure to be measured at the measuring membrane 22 is applied. .

The vibrating string 25, which with stabilizing masses 26 and 27 is connected is located between the two measuring diaphragms 22 and 23 in the with the contact liquid-filled space 24. One end of the string 25 is connected to the measuring membrane 22, while the other end of the string 25 is clamped at a fixed point Since the differential pressure is on the measuring membrane 22 occurs, the string 25 is tensioned by this differential pressure. As a result, the Frequency of the vibrated string 25 is a measure of the differential pressure between the measuring chambers 20 and 21.

The string 25 is a path measuring element 28, a exciting drive element 29 and an amplifier

30 set in vibration. The measuring element 28 and the drive element 29 are in the embodiment arranged outside the housing wall surrounding the space 24, but they can also be inside of the space 24 containing the contact liquid, so that only the electrical connection lines are led to the outside. At the exit

31 of the amplifier 30, a converter 32 can be arranged, which z. B. at its output 33 an embossed Outputs direct current.

In order to protect the clamped string 25 against overload, it can be connected to a fixed point End are supported by means of a pretensioned spring 34. The spring 34 acts, for. B. on one Slidably mounted piston body 37 which is provided with longitudinal bores and which is provided with a fastening part 35 is connected to which the string 25 is attached. The fastening part 35 can be used as a closure body for an opening 36 may be formed between the lower part of the space 24 and the upper part, the string 25 receiving part of the same is provided. When an excessive force occurs, the fastening part becomes 35 from the string 25 under compression

öTg of the spring 34 pulled against the seat of the opening 36, so that this opening is closed. The one below the opening 36 and in the cavity of the measuring membrane 23 contact liquid then increases the pressure of the measuring chamber 20, whereby the storage membrane 23 is protected against mechanical overload is

1 sheet of drawings

Claims (2)

Patent claims: 1. Flow meter with a differential pressure meter and that vibrating, under the effect of the differential pressure changing its frequency proportionally to the Wju-zel from the differential pressure Organ, characterized in that the vibrating organ (25) in one with a Contact liquid-filled space (24; between the two measuring membranes (22, 23) of the differential pressure measuring mechanism is arranged, which the cavity the one in a measuring chamber (21) housed measuring membrane (22) with the carbon chamber of the other, in a second measuring chamber (20) imtergebraen Measuring membrane (23) connects and in which the one measuring membrane "(22) engages vibrating organ (25) up to a fixed point adjacent to the other measuring membrane (20) (35) extends 2. Flow meter according to claim 1, characterized in that the fixed point (35) consists of a lower the action of a pretensioned spring (34) standing closure body is the opposite an opening (36) dividing the contact liquid space (24) is arranged Since the pressure of the contact fluid in the connection space when using one in the second measuring chamber housed measuring membrane with low spring stiffness practically the pressure in this measuring chamber corresponds, it is achieved that on the first measuring membrane on which the vibrating organ acts, the differential pressure to be measured with great accuracy