DE3210239A1 - Air vessel for compensating flow rate fluctuations in pressure lines of pumps and the like - Google Patents

Abstract

The air vessel for compensating flow rate fluctuations in pressure lines of pumps and the like, especially of oscillating positive displacement pumps, has a tubular membrane (4) through which the flow medium (3) flows, a reservoir fluid (5), which surrounds the tubular membrane (4), in a housing (6) which contains the tubular membrane, and a feeler valve (11), arranged on the outer face of the tubular membrane, in the reservoir fluid (5), and a pressure vessel (7) holding the reservoir fluid. In this design and arrangement of the air vessel, the flow medium passes through the vessel in a straight line. Preferably, the tubular membrane is a double tube, so that the flow medium cannot come into contact with the reservoir fluid for the pressure vessel. <IMAGE>

Description

FROM KREISLER SCHÖNWALD EISHOLD FUES FROM KREISLER KELLER SELTING WERNER

-3-

PATENT LAWYERS Dr.-Ing. by Kreisler t 1973

Dr. Ing.K. Schönwald, Cologne

Dr.-Ing. K.W. Eisold, Bad Soden

Dr. J. F. Fues, Cologne

Dipl.-Chem. Alek von Kreisler, Cologne

Dipl.-Chem. Carola Keller, Cologne

Dipl.-Ing. G. Selling, Cologne

Dr. H.-K. Werner, Cologne

19.3.1982 Sch / Sd

DEICHMANNHAUS AT THE MAIN RAILWAY STATION

D-5000 COLOGNE 1

Heinz M. Nägel, Neuer Weg 5, 5568 Daun

Air tank to compensate for flow rate fluctuations in pressure lines of pumps and the like.

The invention relates to an air chamber for compensation of flow rate fluctuations in pressure lines from Puirpen and the like, in particular from oscillating displacement pumps, wherein a pressure vessel absorbing the pressure fluctuations is provided.

With oscillating displacement pumps, the periodically changing piston speed increases with each stroke total amount of liquid in the suction and pressure line accelerated and decelerated, whereby the acceleration heights become particularly large in the dead spots. At higher pressures and / or long pipelines, this leads to undesirable high pressure fluctuations and a correspondingly high stress on the engine.

BATH ORIGINAL

U.

Mar used to eliminate these phenomena. Air chamber, where only the amount of liquid between the air chamber and pump piston is accelerated and decelerated while the speed in the lines approximates remains constant - Here, the pressure air vessel is immediate connected to the pressure line, with the delivery medium flowing through the pressure air vessel and diverted for this purpose will. Particular difficulties arise here when it is a matter of chemical or mechanical transport aggressive and / or viscous conveyed animals. acts, which possibly n ^ eh a high dry matter indicator to have. There is a risk that corrosion and erosion phenomena will occur and get out of hand.

The object of the invention is to provide an air vessel that begins to create the type mentioned, which is also reliable when conveying chemically or mechanically aggressive media can be used. The invention is characterized in that the air chamber consists of one of the conveying medium flowed through the tube membrane, one through the tube membrane surrounding template liquid in a containing the tube Housing, a valve arranged on the outer surface of the hose membrane in the feed liquid and a pressure vessel receiving the original liquid.

5 Through such a design of the air chamber-like device the main advantage is that the Windkessel function making system and also that for Damping of pressure fluctuations Air or nitrogen cushions used do not come into contact with: the pumped medium

JO men can. Furthermore, wi ni Jas pumping medium in the hose air tank t; e :: .. ^; . : ^ u-, ": ■ .." fi nding in a straight line through the boiler: urn; nici ;! >. ;; ..; .- heads. This also results

BATH ORIGINAL

no impairment in the flow velocity of the conveyed medium, especially viscous fluids with a high dry matter content. The pumped medium only comes with it when it flows through the hose air chamber the inside of the hose in contact. This reduces corrosion and erosion to a minimum. The wind kettle works reliably. The construction of the air chamber is simple and its function is easy to control.

The structure of the sensing valve is expediently kept so that the sensing valve is a plate facing the hose membrane having. It is still under spring action and is in the axial displacement in the direction of the hose membrane limited by means of a stop. It is also important that the pressure vessel has a float valve at the bottom may have. This prevents the hose membrane Can not be excessively stressed even with external overpressure. At the same time one can the other Tubing membranes obligatory internal support body omitted that of the hose. has supported one-sided external overpressure.

According to a further feature of the invention is the hose membrane of the hose air vessel is preferably designed as a double hose consisting of two concentric individual hoses consists. In this case, the individual hoses are functional due to a liquid located between the hoses coupled. As a result, the safety effect of the hose air chamber is significantly increased without the Function of the Windkessdl is impaired. Simultaneously the space requirement of the hose air chamber is not greater than when using only one hose membrane.

O Δ i U Δ O O

The double hose air chamber offers the further advantage of using a hose break indicator. For this can the cylindrical space between the hoses through a line with the hose rupture indicator get connected. The display device expediently has a pressure vessel with a check valve and a probe. In this way there is an essential combination of advantages of the hose air chamber compared to the known designs.

The invention is explained below with reference to the embodiment shown in the drawing and embodying the invention explained.

Fig. 1 shows a hose air chamber according to the invention in longitudinal section and in a scheme.

Figures 2 and 3 show schematically different phases in the function of the hose air chamber according to the invention represent.

The air vessel 1 is made up of one of the conveying medium

3 flowed through hose membrane 4, one the hose membrane surrounding template liquid 5 in a housing 6, a

on the outer surface of the hose membrane 4 arranged sensing valve 11 in the feed liquid of the housing 5a and a liquid the feed liquid i. t on receiving pressure vessel 7 together. Instead of a single hose membrane 4, a 2 ^r > double hose can also be provided, which consists of the hose membrane

4 and another hose membrane 8 is made. The two hose membranes Λ and 8 are arranged concentrically to one another and by means of; Corresponding flanges between the flanges 6a and upper housing 6 are clamped. Between

"Hj the individual Mciilauciiu-mbranon 4 and 8 is a

BATH ORIGINAL

Gap 9, which is filled by a liquid, through which the two hose membranes 4 and 8 are functionally coupled to one another. The cylindrical space 9 between the two individual hose membranes 4, 8 can be made by spacer parts, such as elevations, projections, knobs, corresponding roughening and the like. Be formed on the surfaces facing the other tube.

The sensing valve 11 has a shaft 12 with a plate 13 which faces the outer tubular membrane 4 and is under the action of a compression spring 14. The shaft 12 is mounted so as to be longitudinally displaceable and, by means of the stop 15, is in the axial movement in the direction of the hose membrane limited. The plate 13 preferably has a conical shape which mesh with a conical seat surface of the housing 6 can.

The pressure vessel 7, to which the original liquid 5 leads, is designed closed and filled up to a predetermined Eöhe 17, so that it is above the liquid level 3in air cushion 18 forms. At the bottom of the pressure vessel 7 a float valve 19 is provided, to which a stop 20 is assigned at the top. With 21 is a pressure valve and at 22, a shut-off valve is designated.

The double hose 4, 8 with the cylindrical space 9 located between the hoses makes it possible to provide an ο chi ^ .uchbruch indicator priority 2 ^& can. This has a container 25 with a check valve 26 as well as a "^ eS or display conduit 27. A shut-off valve is denoted by 28. If the inner hose 4 is cracked or leaky, the delivery fluid 3 flows through the check valve 26 into the pressure-relieved container 25 and creates an overpressure here. This overpressure and /

BATH ORIGINAL

- ■ Β -

or the rising one: i ü.; .-. igke water levels in the container 25 signal a possible hose break by means of the probe 27, which can be a pressure vessel switch, for example. The display device '.ritt: Luch in activity when only the outer hose 8 "^ maybe w; .n ^- is andicht, since then the pressure of the Vorlageflüssigke It is effective. 5

Under normal. Betu "i>; .., £;., Conditions, the hose membrane 4, 3 is in a ^ i". "Position as shown in Fig. 1. In the case of overrr. - ""'der Zcrsc .: .llung of Fig. 2 ko: · ;; .. :: dor .Joopelschlauch ara Ge .. "." _: S .. ί ~ ur plant whereby the inner you :.: ^ . ^ ser d - / - s Sohäuset .. " ..- · .- ':: I =, r ii-; t aider outer Duron ... ·. ·:;. ■ ier hose r. ^ .. \ brar. '.. z. . of the double 1 hose. The oni:;:. ^: Icheiide Verhillvnis the diameter is directed xav. ; .., ίι.-u setzenden Conditionunc ar .. The plate 13 in the Tauc-v-ntil 11 prevents that the hose at the entrance opening to de. ':: Housing 5a can be damaged. In the event of an external overpressure in the initial fluid 5, the initial fluid 5 measured according to the tube volume flows through the pipeline 21 into the interior of the housing

6. The float valve 19 closes and blocks the air cushion 18 in the container 7 (Fig. 3). The hose membrane or the double hose cannot be subjected to excessive stress even in the event of excess pressure.

The tube-air chamber may everywhere com- 2 for use ', men, where Druck-WindkeH.se 1 are required, but a contact-zwiiii'hen conveying medium and damping medium must be avoided. With a constant usable capacity, the hose air chambers are still predestined for operational situations in which the operating pressure remains almost the same and requires minimal maintenance; The smallest possible pressure fluctuations are targeted see 11 ·. ·: ..> he hose air chamber can also be used as a pressure sensor,. ■ α <. ·.-ι: .. <"· list lie» everywhere there

where previously relatively complex special membrane pressure gauges were used / because the pressure gauge 21 does not come into contact with the pumped medium.

ORIGINAL

Blank page

Claims (6)

Claims y Air chamber to compensate for flow rate fluctuations in Pressure lines of pumps and the like, in particular oscillating displacement pumps, in which the pressure fluctuations receiving pressure vessel is provided, characterized in that the air chamber (1) from one of the Conveying medium 3 flowed through a hose membrane (4), a supply liquid surrounding the hose membrane (4) (-5) in a housing (6) containing the hose membrane, one arranged on the outer surface of the hose membrane Sensing valve (11) in the feed liquid (5) and a pressure vessel (7) that receives the feed liquid consists. 2. Air chamber according to claim 1, characterized in that the sensing valve (11) facing one of the hose membrane Has divider (13), is undor spring action (14) and is limited in the axial displacement in the direction of the hose membrane (4) by means of a stop (15). 3. Air chamber according to claim 1 or 2, characterized in that the pressure vessel (7) has a float valve "'19) at the bottom. 4. Willke-sel according to one .der claims 1 to 3, characterized geken ze :, nhr.et that the hose membrane is a double hose -S-,; τ consists of two concentrically arranged Z '· -e ".scr" cakes (4,8), and that the individual hoses (4 C = are functionally coupled by a flow between the hoses). BAD ORIGIN ^ΛΙ OZ. IU L OO 5. Air chamber according to claim 4, characterized in that the cylindrical intermediate space (9) between the hose membranes (4,8) by means of spacer parts, such as elevations, arranged on the surface facing the other hose, Projections, knobs, roughening and the like. Is formed. 6. Air chamber according to claim 4 or 5, characterized in that that the cylindrical space (9) is through a line with a hose rupture indicator (24) is connected, and that the display device (24) has a pressure-relieved container (25) with a check valve (26) and a display probe (27), e.g. a pressure gas switch.