DE934437C - Flow meter - Google Patents

Description

Flow meter addendum to patent 929329 The invention pays off on a flow meter or flow meter with a differential pressure applied Measuring membrane, the deflections of which are transferred to a display or recorder.

The invention provides an improvement and a further embodiment of the invention protected in patent 929,329.

According to the main patent, that of the measuring membrane is under the effect the force exerted by the differential pressure on one outside the differential pressure space arranged force transducer, softer relatively small force strokes of the Measuring membrane in correspondingly larger deflections of the display or registration element converts a force measuring device. Preferably, according to the main godfather, the force the measuring membrane on a hydraulic working body, z. B. one with pressure fluid transferred filled spring tube body, which the pressure force of the measuring membrane in a Fluid pressure is converted, the height of which is transferred to the fluid space of the working body connected manometer or the like. That the Meßmembarn with the hydraulic Working body coupling connecting link can according to an advantageous embodiment of the main patent with the help of elastic sealing elements, preferably by means of oppositely directed, connecting the measuring membrane on both sides with the membrane housing Spring tubes, are led out of the pressure chamber. The membrane movements can thereby through An overpressure safety device can be limited to protect the flow meter from damage or to protect destruction from overload.

The axial movements of the measuring membrane can according to the invention for the purpose Achieving such overpressure security by means of one or better two stops which are limited when a certain differential pressure or

Hubes. the measuring membrane come into effect.

The practical implementation of such an overpressure safety device is difficult because the travel of the measuring membrane according to the invention is very great is small.

If z. B. outside of the diaphragm housing on the connecting member a stop is arranged between the membrane and the hydraulic working body is that works with stationary counter-stops, requires both manufacturing a great precision as well as the assembly a very delicate adjustment in order to the desired result. to achieve. This will start the manufacture of the apparatus more expensive and also reduced operational reliability. In addition, the elastic Measuring membrane absorb the entire, g, possibly occurring overpressure. She must then be made so strong for this purpose that the exact measurement of the im Compared to static pressure, small differential pressures are affected.

According to an advantageous. Design of the winding is therefore the measuring membrane is preferably supported by a rigid disc, which with a or two stops arranged on both sides of the support disc on the diaphragm housing cooperates. According to a particularly simple embodiment, these stops of one or two stop surfaces provided on the inner wall of the membrane housing are formed, which the peripheral edge zone of the support disc with a corresponding distance opposite. The stop play of the diaphragm, in the above case the play of the rigid support disc opposite one or both of the annular abutment surfaces of the membrane housing should not be significantly larger than that required to achieve this the maximum admissible display value required stroke of the measuring diaphragm or the hydraulic Working body or other force converter, this leeway if necessary can be increased by a low manufacturing or safety tolerance.

This ensures that the support disc of the membrane is only so much axial play is obtained, as for the measurement, taking into account the manufacturing inaccuracies is required. In the event of a one-sided pressure effect, the support disc can move after exceeding the required maximum stroke of the hydraulic work body od. The like. And the possible tolerance path with its outer peripheral edge, d. H. that is, close to the fastening of the elastic measuring membrane, against the corresponding one Place the inner stop surface of the diaphragm housing the required axial play of the measuring membrane reaches a stroke limitation that can be carried out in a relatively simple manner.

The elastic measuring membrane is in this way when the occurrence of unilateral overpressure relieved and can therefore be measured in strength so, that they have sufficient sensitivity d n required for the measurement owns.

The inner wall of the membrane housing is also useful on that one Place the measuring diaphragm in between the clamping in the diaphragm housing and the attachment to the support disc lying ring zone are adjacent, with Provided support surfaces against which the measuring membrane spars excessive further expansion can create when the support disc against one of the limit stops to the plant has come. These support surfaces can practically be continuations of the stop surfaces be and at such a distance and in such an arrangement to the measuring membrane and whose support disc lie that the membrane after relatively little further elastic expansion on all sides against the relevant support surface and the The edge of the support disc. As a result, the measuring membrane is without undesirably strong Training to be able to withstand the greatest pressures.

Another embodiment of the invention is that of the Mießmembran controlled hydraulic working body of a the housing of a Hydraulic fluid space final working membrane is formed on which a with the control membrane or with its support disc coupled by a connecting member Pressure piston acts. E: in such a hydraulic working body can opposite one Federrrohrarbeïtskkörper be designed very flat, creating an advantageous compact construction of the entire flow meter is made possible.

Another essential embodiment of the invention, which is preferably together with one or more of the features mentioned above are used is seen in the fact that the measuring membrane or its support disc with the hydraulic Working body through a normally s, tarres, but when the measuring membrane is overloaded compliant safety device is coupled This safety device can be advantageous consist of a pressure spring, which with a substantially the scale value The force corresponding to the pressure gauge or the other maximum display value is pre-tensioned is, so that when the differential pressure corresponding to this maximum value is exceeded yields and the application of the support disc of the measuring membrane against the associated stop 'allowed. This device also protects the hydraulic working body and the associated manometer or other display instrument against harmful excess pressures, because the force acting on the working body cannot be greater than that of force exerted by the pressure relief spring.

With a combination of this overload protection with the initially The measuring diaphragm or its support disc has marked stop fuse those for the membrane to work properly, including those that can hardly be avoided Inaccuracies required freedom of movement, but nevertheless the plunger or other moving part of the hydraulic working body only the small, for the display of. Manometer od. The like required movement without an overload of these parts is possible because of the overpressure on one side caused greater force is absorbed by the stop of the diaphragm housing.

Finally, there is a further advantageous embodiment of the im Main patent described invention is that one of the spring tubes or other Sealing elements which are used to seal the measuring membrane or support disk of the same serve against the membrane housing, at the same time to seal the liquid space of the hydraulic working body is used. In this case, e.g. B. the relevant Sealing spring tube together with the middle part of the support disc and the opposite one The housing wall binds the fluid space of the hydraulic working element, so that the entire device of bland flow meter huddled together in a very small space is.

The invention is shown in the drawing in two embodiments, for example illustrated.

Fig. I shows in a schematic longitudinal section a flow meter according to the invention with safety catch and overload protection, and FIG. 2 illustrates schematically a flow meter with inside the diaphragm housing arranged hydraulic working body.

The flow meter illustrated in Figure 1 of the drawings has a membrane housing, which consists of two approximately plate-shaped housing halves I and 2 is composed, an elastic membrane 3 clamped between the flange edges is.

The membrane 3 is ring-shaped and by a rigid disc 4 supported. The membrane provided with the support disc 4 divides the interior of the Membrane housing 1, 2 in two chambers 5 and 6, in which the differential pressure lines 7 or 8 lead, which to a differential pressure transducer not shown in detail in the drawing are connected. Such a differential pressure transducer can, for. B. from a dust lobe, a stagnation nozzle, a benturi tube or some other throttle point that is installed in a pipeline, which is from the gaseous or liquid medium is flowing through, whose flow rate is to be measured.

In the middle zone of the support plate 4 are on both sides of the membrane plane two equally sized spring tubes 9 and 10, concentric to the housing axis, which on the one hand with the support plate 4 and on the other hand with the left half of the housing 1 or the right housing half 2 are tightly connected. Through these spring tubes which can optionally be replaced by other sealing elements are Idie Pressure comb, ren 5 and 6 after. the middle of the housing completely sealed off.

The support disk 4 works with the housing halves I, 2 provided Stops together to increase the stroke movement of the membrane or support disc to the maximum limit required amount. Consist in a particularly simple and advantageous manner these stops from annular Anschlafglächen 11 and I2, which of the after Circumference of the housing towards correspondingly drawn-in inner walls of the housing halves I, 2 can be formed. If there is overpressure on one side, the support disc can move 4 with its outer edge zone against one or the other of these stop surfaces 11 or 12 place. The distance between the stop surfaces II and 12 from the support disk 4 or from each other is chosen so that the support disc 4 is only so much axial Play has, as for the achievement of the maximum measured value plus a tolerance game required igst.

The space, which after the stop of the support disc 4 on one of the Stop surfaces 11 and 12 of the diaphragm housing for a one-sided overpressure for the movement of the elastic membrane 3 remains is still dimensioned in this way and shaped so that the membrane with a further increase in one-sided Excess pressure without excessive stretching only stretches so far that it is possible on all sides comes to rest on the inner wall of the diaphragm housing and on the support disc 4. The membrane housing is provided with appropriate support surfaces for this purpose, which in a simple manner from radial; outwardly directed continuations of the stop surfaces II, 12 can be formed.

The measuring membrane 3 or the supporting disk 4 connected to the latter controls a hydraulic working body, for example according to the main patent can consist of a spring tube with a movable floor. However, it is advantageous the hydraulic working body from a flat, elastic working membrane 13 formed, which can consist of rubber or some other material. The working diaphragm 13 closes the pressure fluid space 14 of a flat housing 15 like a cover, at the edge of which it is clamped.

The housing 15 is for example by supports 16 or a corresponding The ring wall is connected to the housing half 1. Acts on the working diaphragm I3 Pressure piston I7 with the control diaphragm 3 or its support disc 4 drch Link, for example a piston rod 18, is coupled.

The connection of the measuring membrane 3 or the support disc 4 with the pressure piston 17 of the hydraulic working body is not carried out rigidly by the piston rod 18, but with the activation of an overload protection. This security exists expediently from a pre-tensioned overpressure spring 19, which on the one hand against the pressure piston I7, the working diaphragm I3 and on the other hand against a the coupling rod 18 supports the sliding sleeve 20. The socket 20 will pressed by the pretensioned spring 19 against a sleep head that is on the free Attached to the end of the coupling rod 18, for example, is detachably screwed on. The stop head 21 of the coupling rod 18 protrudes freely displaceably through an opening 22 of the support disc 4, so that the support disc on the stop head in the direction can move freely on the stop surface 12 while they are normally under the action of a pressure prevailing in the pressure chamber 6 'against the Sleeve 20 is located.

The pressure fluid space 14 of the hydraulic working body is connected by a line 23 to a manometric pressure gauge 24, which as Display device or as a writing recorder or simultaneously displaying and can be designed to write. The deflection of the manometer 24 is a measure for the force exerted by the differential pressure on the measuring membrane 3 or the support disc 4 is exercised so that the pressure gauge shows the respective flow rate of the can indicate the differential pressure transducer flowing through the medium.

The bias of the pressure spring 19 is chosen such that the The spring with a force corresponding to the full scale value of the pressure gauge 24 counteracts it the sleeve 20 and the latter press against the stop head 21. As the coupling rod 18 is firmly connected to the stop head and to the pressure piston I7, the spring exercises 19 has no effect on the display under normal conditions, but rather acts the power transmission device as a rigid coupling between the support disc 4 and the plunger I7. But if that as a result of one-sided overpressure the supporting disk 4 acting force corresponds to the full scale value of the manometer; appropriate Force and thus also the force of the pressure relief spring 19 exceeds the latter after, so that the force exerted on the plunger I7 can never be greater than that of the overpressure spring 8. On the other hand, there is an overpressure in the front Membrane housing chamber 5, the support disk 4 can easily be removed from the sleeve 20 lift off and slide on the stop head until the disc edge hits the stop surface 12 hits. In the opposite case, i. H. at an overpressure in the chamber 6, is on the other hand, the support disc 4 is shifted to the left with compression of the spring 19, until the edge of the disc rests against the stop surface 11, so that the membrane housing absorbs the overpressure force. The membrane 3 is then under the action of the Overpressure against the radial extension of the stop surface serving as a support surface II. In this way, all parts of the facility including the hydraulic Working body and pressure gauge are protected against harmful excess pressures.

The embodiment of the illustrated in Fig. 2 of the drawing The invention shows only schematically a particularly simple design of the flow meter, which consists in that one of the sealing elements I the measuring membrane or

Claims (15)

Support disc at the same time as an elastic part of a hydraulic one Working body serves. In a housing composed of two halves 1 and 2 is similar to the main patent or the embodiment according to FIG Membrane 3 is arranged with a rigid support disc 4. The pressure chambers 5 and 6 are sealed, for example, by spring tubes g and 10. The middle part 25 the support disc 4 has no opening, but forms the bottom an elastically compressible working body, the side wall of which from the Spring tube 9 is formed, while the solid wall of this body from the middle Part of the housing half 1, to which a capillary tube or line 23 is connected is, which od to a manometer 24. The like. Leads. Of the spring tube g and the central part 25 of the disc 4 and the middle part of the housing half I surrounding space 26 is with a liquid filled. The hydraulic formed in this way inside the diaphragm housing 1, 2 The working body is connected directly to the membrane 3 without a special coupling member or their support disc 4 is controlled according to the fluctuations in the differential pressure. Also in the embodiment according to FIG. 2, stops and support surfaces be provided according to FIG. The invention is by no means restricted in any other way either to the illustrated and described embodiments, but includes all possible variants and modifications within the scope of the essential features of the invention. P A T E N T A N S P R Ü C H E: I. Flow meter according to patent 929 329, characterized in that the axial movements of the measuring membrane (3) by one or preferably two opposing stops are limited. 2. Flow meter according to claim I, characterized in that the The measuring diaphragm is supported by a rigid disc (4) with one or two on both sides of the disc on the diaphragm housing (1, 2) arranged stops cooperates. 3. Flow meter according to claim I and 2, characterized in that that the stop or stops of one or two of the peripheral edge zone of the disc (4) at a distance from opposite inner stop surfaces (11, 12) of the diaphragm housing (1, 2) are formed. 4. Flow meter according to one or more of claims I to 3. characterized in that the stop play of the measuring membrane (3), for. B. the scope the rigid disc (4) opposite one or both stop surfaces (11, I2), not significantly greater than that required to achieve the maximum permissible display value required stroke of the measuring membrane or the force controlled by the latter converter, z. B. a hydraulic working body, possibly plus a manufacturing and / or safety tolerance. 5. Flow meter according to one or more of claims I to 4, characterized in that the inner wall of the membrane housing (I, 2) with at least one, preferably two opposing support surfaces is provided against which the measuring membrane (3) can put on after reaching one of the limit stops. 6. Flow meter according to claim 5, characterized in that the Support surfaces are formed by continuations of the stop surfaces (1I, I2). 7. Flow meter according to claim 5 or 5 and 6, characterized in that that the stop and support surfaces (11, 12) at such a distance and in such Arrangement of the measuring membrane (3) and its support disc (4) are, Idaß the Measuring membrane (3) after hitting the support disc (4) on one of the stop surfaces (11, I2) without excessive elastic stretching against the relevant support surface and if necessary, places the adjacent edge of the support disc. 8. Flow meter according to one or more of claims 1 to 7, characterized in that the membrane housing consists of two plate-shaped housing halves (1, 2) exists, between the edge bottles of which the peripheral edge of the measuring membrane (3) is clamped is, and its inner walls from the circumference to the housing center axis, e out initially on both sides of the membrane edge zone for the purpose of forming the support and stop surfaces (11, 12) run essentially radially and then extend outwards, preferably up to approximately to the concentrically arranged sealing elements, for. B. spring tubes (9, Io) expand. 9. Flow meter according to patent 929 329, in particular according to one or several of claims 1 to 8, characterized in that the measuring membrane, (3) or its support disc (4) controlled hydraulic working body from a the housing (I5) of a hydraulic fluid chamber (14) closing the working diaphragm (I3) is formed on the one with the control diaphragm (3) or with its support disc (4) through a connecting member (t8) coupled pressure piston (17) acts. 10. Flow meter according to claim 9, characterized in that the housing (I5) of the hydraulic working element with the adjacent half of the housing (I) of the diaphragm case is connected. II. Flow meter according to patent 929 329, in particular after a or more of Claims I to I0, characterized in that the measuring membrane (3) or its support disc (4) with the hydraulic working body, e.g. B. with the Pressure piston, ben (I7) of the working diaphragm (13), by a normally rigid, at Overload of the measuring membrane but a flexible safety device is coupled. 12. Flow meter according to claim 11, characterized in that the safety device consists of a spring (Ig) under tension, which on the one hand against each wall of the hydraulic working body, z. B. against the pressure piston (17) of the working diaphragm (I3) and on the other hand against a on the coupling rod (I8) sliding sleeve (20) is supported by the spring (I9) is pressed against a stop head (2I) of the coupling rod (I8) and against which the measuring membrane (3) or its support disc (4) lays. 13. Flow meter according to claim 11, characterized in that the stop head (2I) of the coupling rod (18) can be moved freely through an opening (22) of the support disc (4) protrudes. 14. Flow meter according to claim 11, characterized in that the safety spring (I9) with a value that essentially corresponds to the maximum display value Force is biased so that it is when this maximum value is exceeded corresponding differential pressure yields and the application of the support disc (4) against the associated stop. 15. Flow meter according to patent 929329, in particular according to one of Claims 1 to 8, characterized in that the of the measuring membrane (3) or its Support disc (4) controlled hydraulic working body at least partially by the sealing elements is formed, which the pressure chambers (5, 6) of the membrane housing seal to the outside. I6. Flow meter according to claim 15, characterized in that the hydraulic working body of one of the sealing spring tubes (9 or 10) of the Membrane housing and the central part (25) of the rigid support disc (4) formed is.