DE19503488A1 - Differential pressure monitor for use in feed line of liquid or gas - Google Patents

Abstract

The appts. includes a pressure measuring device (1). This is protected against overload by an arrangement in which at least one valve is opened. A known measuring device is in connection with a computer and precisely displays the transmitted differential pressure. At least two safety valves (4,5) are arranged parallel to the measuring device and parallel to each other. These valves open when the pressure exceeds a predetermined value. At least two further valves (9,10) are provided parallel to the safety valves to equalise the pressure between the inlet and outlet lines. At least one gas volume expansion chamber (11) is arranged between the terminals. One throttle (12) is connected in front of the chamber in the flow direction. Another throttle (7) is connected after the chamber.

Description

The invention relates to a device for checking the Differential pressure in supply lines for liquids and / or Gases, the measuring device by an overload arrangement, in which at least one valve is opened is protected.

In known devices of this type, the differential pressure detected by so-called mercury manoscopes and constantly over watches. A disadvantage of this known arrangement is that the measured values can only be read irregularly, which leads to Leads to inaccuracies in the acquisition of the measured values and an exact Measurement prevented. It can also cause unpredictable pressure fluctuations to destroy the measuring element and thus  leakage of mercury, which is not only brings with it research-related disadvantages, which be that the previous measurements are unusable, but also to endanger employees and ins special can also lead to considerable environmental damage.

The invention is therefore based on the object, a direction of the type mentioned so that a reliable measurement is guaranteed even if the measurement pressure rises above a predetermined level, which is due to incorrect operation or system-related problems.

This object is achieved in that a known measuring device is connected to a computer and so accurately indicates the differential pressure transmitted, where parallel to the measuring device and parallel to each other at least two safety valves are arranged which when climbing open a predetermined pressure, continuing parallel to the two safety valves at least two valves for Pressure equalization between the inlet and the discharge line is provided are, at least one between their connections Gas volume expansion vessel is arranged, the flow Direction one throttle each and another throttle is connected downstream.  

With this arrangement it is achieved that by the inflow of the gas flowing at a relatively high speed into the compared to the presentation with a considerably larger volume provided expansion vessel in this a flow calming occurs because the incoming gases are essential there are exposed to less pressure than in the supply line, whereby this different pressure between the content of the Expansion vessel and the supply and discharge through the chokes is increased still further, so that a calming of the flow is absolutely guaranteed.

This allows the differences to be as accurate as possible limit pressure between the two lines leading to the measuring device determine that even if certain measuring device parts fail the other values remain usable.

In addition, the arrangement according to the invention creates the possibility of in the flow direction in front of the gas volume expansion vessel or whose chokes connect a bypass line with little at least two valves are used for fine adjustment, with which additionally or exclusively a differential pressure can be generated from the minus side of the supply lines. These Arrangement enables precise and accurate calibration and Calibration of the measuring devices used. Can be particularly advantageous it be here when the two between the plus and minus fine adjustment valves in the bypass line  at least two further valves arranged parallel to each other are connected downstream, which relieve the bypass line and thus serve to form the difference. With an additional valve in connection with a choke, this difference is generated pressure adjustable.

The invention is described below using an exemplary embodiment explained in more detail in the drawing.

The figure is a circuit diagram of the test device according to the invention. The designation of the individual parts and their symbols are shown in the figure at the bottom left. Thereafter, a precision measuring instrument 1 by a respective positive lead 2 and a negative conductor 3 is applied, so that the pressure difference Δ p is measured. In the flow direction in front of the measuring device 1 is provided with two safety valves 4 and 5 overload protection 6 , the safety valves 4 and 5 being parallel to the measuring device 1 and parallel to each other.

Furthermore, two pressure compensation valves 9 and 10 are arranged parallel to the two safety valves 4 and 5 , which serve to equalize the pressure between the supply line (the positive line 2 ) and the discharge line (the negative line 3 ).

A display device 8 is connected upstream of the measuring device 1 .

Between the connections of the two pressure compensation valves 9 and 10 , a pneumatic member consisting of a gas volume expansion vessel 11 and an upstream throttle 12 is arranged. This pneumatic element is provided both in the plus line and in the minus line.

A bypass line 13 is provided in the flow direction upstream of the respective expansion vessel with the interposition of the respective throttle 12 , with which a differential pressure can additionally or exclusively be generated from the minus side of the supply lines. Behind the bypass line 13 , the two fine and control valves arranged between the positive and the negative line 14 and 15 can be followed by at least two further valves 16 and 17 arranged parallel to one another, which serve to relieve the bypass line 13 and thus to form the difference. With an additional valve 18 in conjunction with a throttle 19 , this differential pressure generated in this way is adjustable.

Claims (4)

1. Device for checking the differential pressure in supply lines for liquids and / or gases, the measuring device is protected by an overload arrangement in which at least one valve is opened, characterized in that a known measuring device ( 1 ) in connection with a computer stands and so precisely indicates the transmitted differential pressure, parallel to the measuring device ( 1 ) and parallel to each other at least two safety valves ( 4 , 5 ) are arranged, which open when the predetermined pressure is exceeded, further parallel to the two safety valves ( 4 , 5 ) at least two Ven tiles ( 9 , 10 ) are provided for pressure equalization between the supply and the discharge line, at least one gas volume expansion vessel ( 11 ) being arranged between the connections thereof, each with a throttle ( 12 ) in the flow direction upstream and a further throttle ( 7 ) is connected. 2. Device according to claim 1, characterized in that a bypass line ( 13 ) is ruled out in the flow direction upstream of the gas volume expansion vessel ( 11 ) or the throttles ( 12 ) thereof, which is provided with at least two valves ( 14 , 15 ) serving for fine adjustment , with which, in addition or exclusively, a differential pressure can be generated from the minus side of the supply lines. 3. Apparatus according to claim 2, characterized in that the two between the plus and minus side arranged fine adjustment valves ( 14 , 15 ) in the bypass line ( 13 ) at least two parallel to each other further Ven tiles ( 16 , 17 ) are connected downstream of the Relieve the bypass line ( 13 ) and thus serve to form the difference. 4. The device according to claim 3, characterized in that with an in the bypass line ( 13 ) arranged additional valve ( 18 ) in conjunction with a throttle ( 19 ) so that he generated differential pressure is adjustable.