DE2842557A1 - Flow velocity in pipe measuring device - has sensor with intermediate element through which passes pin connected to oscillation detector - Google Patents

Abstract

An obstructing element is fastened to the pipe wall transversally to the flow direction. It has a through hole transversal to its longitudinal axis and to the flow direction, in which a sensor is placed, measuring pressure variations caused by the obstructing element. The sensor has an intermediate element (5) movable axially in the through hole (4). A pin (12) coaxial with the obstructing element (3) passes through the intermediate element (5). The pin (12) has its other end (17) outside the pipe (1) is connected to an evaluating device (16) detecting oscillations. It is flexibly supported between its two ends (13, 17).

Description

Device aim measuring the speed of a flow

The invention relates to a device for measuring speed a flow in a pipe section with a transverse to the flow direction and an obstacle body attached to the wall of the pipe section, one of which is transverse to its longitudinal axis and through opening extending transversely to the direction of flow a sensor device for detecting the pressure fluctuations caused by the obstacle body having.

The obstacle body calls on the basis of a known physical Effect a so-called KErminiche vortex street with speed and pressure fluctuations in the current.

In a known device of this type (DE-OS 21 64 180) is the obstacle body transversely to the direction of flow and transversely to its longitudinal axis on opposite sides Each side has several holes. The holes open on each side In each case an inner cavity, which is separated from one another by a central wall are. There is an opening in this central wall provided that allows a flow between the two cavities. Located inside the opening a flow sensor, which consists of a flow sensor element, e.g. B. an electric heated wire, and a surrounding sheath made of synthetic resin, for example consists. The flow sensor element is arranged asymmetrically, so that its responsiveness depends on the direction of the flow through the opening in the central wall.

The known device has the advantage of a relatively precise measurement the flow, because noise components do not affect the measurement result, however the device is relatively complex, so that it is, for example, for Such applications where material flows such as gases or liquids have to be monitored continuously and the required accuracy need not be very high because of its is not suitable due to the complicated structure due to the high price.

The invention has for its object to provide a device for measuring the To propose the speed of a flow in a pipe section, the relative can be produced easily and thus inexpensively, with a conscious focus on a high resolution the advertisement is waived.

To solve this problem, the device described at the beginning contains the device According to the invention, the sensor device has an opening in the axial direction of the passage of the obstacle body displaceable intermediate body from one end of an in Axial direction of the obstacle body extending rod is penetrated; the pole is at its other end lying outside the pipe section with a vibration Detecting evaluation device connected and articulated between its two ends stored.

The main advantage of the device according to the invention is that that it is relatively simple in structure by the obstacle body only a through opening and a further central recess for receiving the rod must have. Both the through opening and the recess can be achieve in a simple manner by drilling. The intermediate body is also easy to manufacture, because it is cylindrical. Another advantage of the invention Device consists in the fact that it works independently of an auxiliary energy source, because the sensor device and the evaluation device do not require any auxiliary energy can be designed so that it gets by without any auxiliary energy.

In the device according to the invention, special seals are not required, when the intermediate body with such tolerances within the through opening is held that it causes a seal.

In order to get the most exact possible detection of the ends of the passage opening To achieve the resulting pressure fluctuations, however, it is advantageous if the through opening at their ends by a membrane each is closed and if the intermediate body rests with its end faces on the membranes. The seal does not then need more take place between the intermediate body and the through opening, but they is made by the membranes, so that the intermediate body with such large play within the through opening can be done that he in his Movement is not significantly hindered by friction.

For particularly simple manufacture of the device according to the invention it appears advantageous if the obstacle body represents a circular cylinder and the two Diaphragms from one of the obstacle bodies in the area the through opening comprehensive cuff are formed.

Such a cuff is particularly easy to attach.

Should the device according to the invention also be used to measure corrosive substances be designed, then it is easier for reasons of production to record the pressure fluctuations advantageous, a hollow cylindrical insert made of corrosion-resistant in the passage opening Material to be fastened on both ends by means of membranes made of corrosion-resistant Material is complete; the intermediate body is arranged inside the insert, which rests with its end faces on the membranes. The membranes can be used in this Fall, for example, be connected to the insert by welding before this used in the obstacle body and there, for. B. also fixed by welding will.

The rod can in the device according to the invention in different Articulated way. For example, this can be achieved in that the Rod is rotatably held in a simple joint. But to get the interior of the To protect the obstacle body from contamination and to close it off from the outside, Storage by means of a retaining membrane is advantageous.

It is considered to be particularly advantageous if the retaining membrane between an outer flange of the obstacle body or a flange of the pipe section and a flange of the evaluation device is clamped.

The evaluation device of the device according to the invention can also be designed in different ways. With a view to making the device possible simple in its structure and can also be operated independently from an auxiliary power supply should, however, it is considered viewed part if the evaluation device a tongue comb with vibratory, tuned to different frequencies Contains tongues and if the tongue comb is located outside of the pipe section at the other end of the rod. The tongues are of course open the frequencies are matched with which the pressure in terms of using the device detected flow velocity at the obstacle body fluctuates.

The display is thus based on the familiar tongue frequency meter, where here the scale is not in units of frequency, but of speed or the flow rate, is labeled. A general reference to the possibility of using vibratory tongues to record the frequencies in a device for measuring the flow velocity with an obstacle body is contained in U.S. Patent 3,116,639.

The simple structure of the device according to the invention also allows one easy replacement of the obstacle body and thus easier maintenance, if according to a development of the invention, the pipe section for introducing the obstacle body is provided with a through hole and if the wall of the pipe section on both Ends of the through hole each contain two seals at a distance from one another; the distance between the two seals corresponds at least to the diameter the passage opening of the obstacle body. -This way it is ensured that when replacing the obstacle body with kefalltem pipe section while pushing no liquid or no gas can escape from a dummy piece. Even when reintroducing it another impeccable obstacle body does not result in any difficulties.

To explain the invention, FIG. 1 shows a cross section through a pipe section in place of an embodiment of the device according to the invention with a longitudinal section through the device, in Fig. 2 a plan view of the same embodiment with a longitudinal section through the pipe section, in FIG. 3 a further longitudinal section through the pipe section and the same embodiment of the device according to the invention along the line III-III, in Fig. 4 a side view of the same embodiment of the device according to the invention, in Fig. 5 a section through a further embodiment of the device according to the invention, in Fig. 6 a section across the obstacle body this embodiment along the line VI-VI and in Fig. 7 by a Schaitt an additional example is shown.

The device shown in Figures 1 to 4 for measuring the speed a flow is housed in a pipe section 1, which on its in Fig. 1 has an opening 2 on the right side. Through this opening 2 is an obstacle body 3 introduced such that it is transverse to the direction of flow and transverse to the longitudinal axis of the pipe section 1 is located. The obstacle body 3, which forms a hollow cylinder, is provided with a through opening 4 (see. Also Fig. 3), within which an intermediate body 5 is accommodated with a sufficiently large game. The through opening 4 is on its two ends 6 and 7 closed by means of membranes shown in FIG AusfuhFungsbeispiel formed by a cuff 8 encompassing the obstacle body 3 are.

The intermediate body 5 is dimensioned in its length so that it with his End faces 9 and 10 rests on the membranes or on the sleeve 8.

Inside the obstacle body 3, which at its from the opening 2 remote end 11 is held in the pipe section 1, a rod 12 extends one end 13 passes through the intermediate body 5. In the area of the exit from the pipe section 1, the rod 12 is articulated by means of a retaining membrane 14 stored; the retaining membrane 14 in turn is between the pipe section 1 and a Flange 15 of an evaluation device 16 clamped.

With its end 17 protruding from the pipe section 1, the rod is sufficient 12 into the evaluation device 16 and is here - as in particular Fig. 2 shows firmly connected to a tongue comb 18. The tongue comb 18 is with tongues 19 provided, using masses, not shown, at different frequencies are tunable. At their end, the tongues 19 have small plates 20 to - as later will be explained - to facilitate readability. The tongues 19 with their plates 20 are behind a front panel 21, which is in a housing 22 of the evaluation device 16 is held.

The device according to the invention shown in FIGS. 1 to 4 operates in the following way: Through the obstacle body arranged transversely to the direction of flow 3 a so-called Karman is formed due to a known physical effect Vortex street characterized by rhythmic fluctuations in speed and pressure is. These pressure fluctuations are through the membranes or the cuff 8 of the intermediate body 5 detected and lead to this at one of the speed frequency proportional to the flow oscillates. The vibrations of the intermediate body 5 are transmitted via the rod 12 to the tongue comb 18 and cause each tongue 19 to vibrations, the natural frequency of which because corresponds to the detected frequency. Since the detected frequency is a clear measure of the Flow velocity and thus also for the strength of the flow is, leaves assign a scale 23 to the individual tongues 19, for example in m3 / h can be calibrated. In Fig. 4 it is shown that the fourth tongue swings from the left and thus indicates a flow rate of 4m3 / h.

The embodiment shown in Figures 5 and 6 of the invention The measuring device agrees with the exemplary embodiment, in particular with regard to the evaluation device according to Figures 1 to 4, which is why here to avoid repetitions only the different configuration is described. Located in the through opening 4 an insert 30 from possibly

corrosion-resistant material, which on its front sides by each a membrane 31 and 32 is completed. The fastening of the membranes 31 and 32, which can also consist of corrosion-resistant material on the insert 30 can advantageously before the attachment of the insert 30 in the obstacle body 3 take place. Before attaching the membranes 31 and 32 is a inside the insert Intermediate body 33 introduced which is in turn dimensioned in the axial direction so that that it rests against the membranes 31 and 32 with its end faces.

The insert 30 held in the through opening 4 or the one in it accommodated intermediate body 33 is in turn penetrated by one end 13 of the rod 12, which - as it is described in connection with Figures 1 to 4 - articulated stored and with an evaluation device not shown in FIGS connected is.

In Fig. 5 there is an additional safeguard against leakage of the medium in the event of a possible rupture of the membranes: On the rod 12, a collar 34 is attached, which in the operating state a small distance of the retaining membrane 14, but in the event of a rupture of the membranes 31 and 32 from excess pressure of the medium is pushed against the retaining membrane 14, which then acts as a seal works. Above the retaining membrane 14, the collar 34 is then supported on the outer one Flange 15 and can also absorb larger internal pressures.

In its mode of operation, the embodiment according to the figures 5 and 6 are identical to that according to FIGS. 1 to 4.

The additional exemplary embodiment shown in FIG. 7 enables an exchange of the obstacle body 3 when the pipe section 1 is filled, without it there is a leak of gas or liquid. This is achieved in that the pipe piece 1 is provided with a through hole 40 into which the obstacle body 3 is introduced. The through hole has two at each end Seals 41 and 42 or 43 and 44 are provided. On the side of the seals 41 and 42, the through hole 40 is closed with a plate 45.

If a defense occurs on the obstacle body 9, then it becomes his Exchange first unscrewed the plate 45 and the flange 15 of the otherwise evaluation device not shown solved. Then by inserting a dummy piece, not shown, with the same diameter as that of the obstacle body in the direction of arrow 46 of the obstacle body 3 pushed out, initially the seals 41 and 42 ensure that at the point of separation between the end face 47 of the obstacle body 3 and the end face of the not shown Dummy piece with a corresponding diameter, a substance discharge is not possible.

The seals 43 and 44 have such a distance from one another, that even if the passage opening 4 is between them, fabric cannot escape. In this way, a defective obstacle body 3 is initially replaced by a dummy body.

The introduction of a new obstacle body then takes place in the direction of the arrow 48, the dummy body located within the pipe section 1 is pushed out again. If the new obstacle body 3 has assumed the position shown, the flange 15 and also the plate 45 are reattached and the measurement can be carried out be continued.

With the invention a device for measuring the speed of a Proposed flow in a pipe section, which is characterized by a simple structure and thus favorable manufacturing costs and is characterized by the fact that it does not require any auxiliary energy gets by.

9 claims 7 figures

Claims (9)

Claims device for measuring the speed of a flow in a pipe section with a transverse to the flow direction and arranged on the Wall of the pipe section attached obstacle body, the one transverse to its longitudinal axis and through opening running transversely to the direction of flow with a sensor device to detect the pressure fluctuations caused by the obstacle body, d a d u r c h e k e n n n z e i c h n e t that the sensor device one in the axial direction the through opening (4) of the obstacle body (3) displaceable intermediate body (5) contains, from one end (13) one in the axial direction of the obstacle body (3) extending rod (12) is penetrated, and that the rod (12) on its outside of the pipe section (1) lying other end (17) with a vibration sensing Evaluation device (16) connected and articulated between its two ends (13, 17) is stored. 2. Apparatus according to claim 1, d a d ur c h g e k e n n -z e i c h n e t that the through opening is closed at its ends by a membrane in each case is and that the intermediate body rests with its end faces on the membranes. 3. Apparatus according to claim 2, d a d u r c h g e k e n n -z e i c h n e t that the obstacle body (3) represents a circular cylinder and that the two Membranes of one of the obstacle bodies (3) in the area of the passage opening (4) comprehensive rubber elastic sleeve (8) are formed. 4. Apparatus according to claim 1, d a d wr c h g e k e n n -z e i c h n e t that in the through opening (4) a hollow cylindrical insert (30) is attached is that on both end faces closed with membranes (31, 32) is, and that the intermediate body (33) is arranged within the insert (30), which rests with its end faces on the membranes (31, 32). 5. Device according to one of the preceding claims, d a -d u r c h g It is not noted that the rod (12) is by means of a retaining membrane (14? Is articulated. 6. Apparatus according to claim 5, d a d u r c h g e k e n n -z e i c h n e t that the retaining membrane (14) between an outer flange of the obstacle body or a flange of the pipe section (1) and a flange (15) of the evaluation device (16) is clamped. 7. Apparatus according to claim 5 or 6, d a d u r c h g e -k e n n z e i c h n e t that on the rod (12) a collar (34) at a short distance from the retaining membrane (14) is attached and that the collar (34) has a larger diameter than the Through-hole for the rod (12) in the flange (15) of the evaluation device (16). 8. Device according to one of the preceding claims, d a -d u r c h g e k e n n n z e i c h n e t that the evaluation device (16) has a tongue comb (18) with vibratory tongues (19) that are tuned to different frequencies and that the tongue comb (18) in front of the other lying outside the pipe section (1) End (17) of the rod (12) is carried. 9. Device according to one of the preceding claims d a -d u r c h g e it is not indicated that the pipe section (1) for introducing the obstacle body (3) is provided with a through hole (40) so that the wall manure of the pipe section (1) at both ends of the through hole (40) two seals each (41, 42; 43, 44) at a distance from one another, the distance between the two Seals (43, 44) at least the diameter of the passage opening (4) of the obstacle body (3) corresponds.