DE19537063C2 - Volume flow controller - Google Patents

Description

The invention relates to a volume flow controller.

In a HN volume flow controller known from practice Plastic is a solid assembly from a so-called Venturi nozzle, coaxial with the Venturi nozzle closing tubular body with a position stored in it flap and a control unit mounted on it. The rule Unit is in the signal flow path between a pressure sensor and an actuator of the valve. About the Re Gel unit is determined by a target / actual comparison of the with the Set value set volume flow kept constant. It can can be assumed that the pressure sensor the difference pressure between a minus pressure withdrawal and a plus Extraction of pressure into a control unit that can be evaluated Signal transformed. All of the assembly described should the air flow whose volume is to be regulated best plastic parts, namely PVC, PP, PPS, PE hen. One end of the tube body, in which the valve is arranged, and the so-called Venturi nozzle, can Flange or a socket connection to the pipe connection point. This HN volume controller is for regulation and shutoff provision of air flows in the corrosive area. The the so-called Venturi nozzle used consists of cone-shaped moderate sections, the cone shapes being straight, ie do not have a rounded profile. These may be ferti Design-related construction is nevertheless complex because the so-called called Venturi nozzle is composed of two parts. A housing around the Venturi nozzle is not provided. As the Removal of pressure on the plus side and on the minus side follows, is not apparent. It must therefore be assumed be that a usual pressure drop at unfavorable to flow conditions at the nozzle, in particular through immit upstream moldings not reliably a high measuring accuracy of the differential pressure and thus the volume flow control guaranteed.  

In a similar known volume flow controller in the form a solid assembly, especially plastic, the one Venturi nozzle and an adjoining tubular body with a flap mounted in it, are on the Venturi nozzle arranged pressure openings that are suitable an actuator via pressure transducer and a control unit to control the valve (WO 92/16882). The Venturi nozzle has a narrowing inlet part, to which in Flow direction a cylindrical neck part and a diffuser connect, and in front of the inlet part of this one outer annular chamber is arranged. Here is the Venturi nozzle three parts, the inlet valve is not a round one tes profile. The tubular body with valve closes not preferably co-axially with the Venturi nozzle, but can be placed somewhere downstream or upstream his. Of the three nested pipe sections from which the venturi tube is one over its entire length embedded in a first pipe part. Therefore there is no you Embed the connection of the Venturi tube in a Venturi tube end pipe part provided. - This volume flow sensor leaves do not expect very high measurement and control accuracy, this is rather in an unfavorable relationship with the Ferti effort, although the assembly is made of plastic.

The manufacturing effort is generally high for others Venturi tubes belonging to the technology and not made of art fabric are made (US 4,651,572, DE-AS 10 68 905, DE-PS 602 545, US 3,273,390) and the non-integral Be are components of volume flow controllers. With one of these Venturi tubes is an inner part made of Sinterme, for example tall, which is made of a metallic outer tube is included (US 4,651,572), in particular for Pressure measurement very hot and with dust and dirt particles loaded gas streams. There is an inner annulus through a multi-part design of the inner part under free allowance for a circumferential gap or must be made in one piece Formation of the inner part from its outer jacket specifically be formed.  

In another known throttle device is from a nozzle body formed an annulus in a complicated way, because this of an inner wall, an outer wall and wall gene is delimited on the end faces (DE-AS 10 68 905).

In other known venturi tube arrangements, the inner is Venturi not on a pipe behind the diffuser and partially also not close to the inlet part, rather it is minde at least one web is formed from the outside of the Venturi tube, the forms part of a chamber (DE-PS 602 545, US 3,273,390).

In other volume flow belonging to the prior art regulators with air flaps made of plastic, like the present Volume flow controller especially for laboratories and laboratories deductions were developed, the differential pressure is recorded as a measure of the volume flow especially for cost reasons through ring covers, storage rings or storage strips. This ring blinds, storage rings and storage rails have the disadvantage, however, that there are fluids, crystals of regulated air electricity or gas flow to a significant extent, whereby the flow surface and thus the measuring accuracy be affected.

The present invention is therefore based on the object a volume flow controller of the type mentioned shape that long-term with fluids polluted air flows or gas flows that are to be regulated, guarantee a high measurement accuracy and thus control accuracy is achieved, even in difficult flow conditions nissen on the inlet side.

This task is accomplished through the formation of the volume flow reg lers solved with the features specified in claim 1.

The formation of those used in the volume flow controller Venturi nozzle with a narrowing inlet part with a gerun detem profile to which a cylindri  neck and a diffuser for pressure recovery close, is known in particular from DIN 1952, has however in connection with the generic volume flow controller has not yet been used. For fulfillment also high demands on the measuring accuracy with unfavorable against flow conditions on the Venturi nozzle in particular due to the upstream fittings it is immediately in front the inlet part of the Venturi nozzle arranged on this Annular chamber provided through which he can take the plus pressure follows. Especially with regard to the exact minus pressure withdrawal The venturi tube is advantageous over its entire length installed coaxially in a first pipe part and closes in Flow direction in front of the inlet part and behind the diffuser close to the inside of the first pipe part by being with this is connected in such a way that an inner annular chamber between the venturi tube and the interior of the tube part is formed, the through individual holes in the neck part of the Venturi nozzle is directly connected to its interior in a pressure-conducting manner. This Construction also has manufacturing advantages as it allows easy formation of the Venturi nozzle itself, because the first outer tube part supports the Venturi nozzle takes and fully protects the outside. Advantageously the best hen the first pipe part, which forms the housing, with the Venturi nozzle made of plastic, wherein the Venturi nozzle through a Deformation process is produced, which is a smooth Guaranteed inner surface. This is the flow path largely against settling of fluid particles or crystals secured. Nevertheless, the manufacturing effort exceeds that some conventional differential pressure forming devices, which can be expected to be less accurate over time, not worth mentioning, so that overall a considerable advantage results.

For exact minus pressure withdrawal are according to claim 2 esp special 4 to 5 individual holes on a vertical cross cutting plane of the neck part evenly over its circumference distributed. These individual holes connect differently  che flow points in the neck part with the inner ring came over which the minus pressure is extracted.

In a particularly production-friendly manner while maintaining the vol len advantage of the high measurement or control accuracy is at a volume flow controller with a sleeve before the on running part, here the Venturi nozzle, is designed according to An say 3 the sleeve from the first pipe part made of plastic molded, the outer annular chamber to an annular Section of the sleeve is molded around this. The outer Annular chamber therefore encloses part of the sleeve and stands in their area via through holes with the flow away in connection.

The volume flow controller preferably exists, in particular the Pipe body with the valve as well as the first pipe part the Venturi nozzle made of thermoplastic material. The art fabric can be selected from the group PVC, PPS and PP.

The invention is explained below with reference to a drawing, in the only Fig. 1, the volume flow controller in the form of a fixed assembly is a side view Darge, the essential parts of the interior of the volum menstromreglers are shown with broken lines.

The assembly assembled to the fixed unit consists essentially of a tubular body 1 with pivotally mounted in this valve flap 2 , which is adjustable via a pin 3 protruding from the tubular body with an actuator, not shown. The actuator can optionally be designed for electrical or pneumatic operation, which also depends on the design of the control unit, also not shown, which connects a pressure transducer, also not shown, on a plus pressure side and a minus pressure side of a Venturi nozzle 3 to the actuator.

The tubular body 1 has at its outlet end a sleeve 4 for connection to other tubular fittings. At its opposite - inlet-side - end, a second sleeve 5 is formed from the tubular body, which firmly receives a first tubular part 6 . It should be noted at this point that the following does not refer to a second tube part, although said tube body 1 can be understood as a second tube part.

The first tube part 6 includes the outer circumference of the coaxially arranged Venturi nozzle 3 and is seen in flow direction 7 in front of an inlet part 8 and behind a diffuser 9 of the Venturi nozzle in a gas-tight manner. As a result, an inner annular chamber 10 is formed between the outer jacket of the Venturi nozzle 3 and the inner jacket of the first tube part 6 , which represents the minus pressure withdrawal. For this purpose, the inner annular chamber 10 is in a pressure-conducting connection via individual bores drilled in a vertical cross-sectional plane 11 in a neck part 12 of the Venturi nozzle, of which the recognizable individual bore is designated by 13. Another three individual holes are net at regular intervals of 90 ° in the cross-sectional plane. The minus pressure withdrawal from the inner annular chamber 10 cannot be seen in the drawing, in contrast to a plus pressure withdrawal 14 .

The plus pressure tapping 14 sits on an outer annular chamber 15 , which is molded onto a sleeve 16 in front of the inlet part 8 of the Venturi nozzle. The outer annular chamber 15 is above through bores, of which the through hole 17 can be seen in Fig. 1, with the inside of the sleeve 16 in a pressure-conducting connection. Further through holes, not shown, can be provided in the same cross-sectional plane in which the through hole 17 lies, distributed uniformly around the circumference of the outer annular chamber 15 .

The described volume flow controller, which is also used as a control comm combination can be described and generally in addition and Exhaust systems can be used is inexpensive to manufacture made of thermoplastic material.

The rounded profile of the inlet part 8 of the Venturi nozzle 3 used here can be seen in detail from FIG. 1, as can the cylindrical shape of the neck part 12 and the diffuser 9 widening in the flow direction 7 .

Claims (6)

1.Volume flow controller in the form of a solid assembly made of plastic, in which a Venturi nozzle ( 3 ) produced by a deformation process and a pipe body ( 1 ) which is preferably connected coaxially to this Ven turi nozzle are combined with a valve ( 2 ) mounted in it,
wherein on the assembly ring chambers with Druckentnahmöff openings are arranged, which are suitable for pressure transducers and a control unit to control an actuator of the valve,
wherein the venturi nozzle ( 3 ) has a narrowing inlet part ( 8 ) with a rounded profile, to which a cylindrical neck part ( 12 ) and a diffuser ( 9 ) are connected in the direction of flow,
the venturi nozzle ( 3 ) being installed coaxially over its entire length in a first tube part ( 6 ),
wherein an outer annular chamber ( 15 ) is formed on the first pipe part ( 6 ) in front of the inlet part ( 8 ), and
wherein the venturi nozzle ( 3 ) in the flow direction ( 7 ) in front of the inlet part ( 8 ) and behind the diffuser ( 9 ) on the inside of the first pipe part ( 6 ) and is connected to it in such a way that an inner annular chamber ( 10 ) between the Venturi nozzle ( 3 ) and the interior of the first tube part ( 6 ) is formed, the stanchions ( 13 ) in the neck part ( 12 ) is directly connected to the inner space in a pressure-conducting manner. 2. Volume flow controller according to claim 1, characterized in that 4 to 5 individual bores ( 13 ) in a vertical cross-sectional plane ( 11 ) of the neck part ( 12 ) are evenly distributed over its circumference. 3. Volume flow controller with a sleeve in front of the inlet part, according to claim 1 or 2, characterized in that the sleeve ( 16 ) from the first tube part ( 6 ) is molded from plastic and that the outer annular chamber ( 15 ) on an annular portion of the sleeve ( 16 ) is molded around it. 4. Volume flow controller according to one of claims 1 to 3, characterized in that the tubular body ( 1 ), in which the control flap ( 3 ) is gela gert, is formed at least at an inner end as a sleeve ( 5 ) that the outer diameter of the tubular body ( 1 ) and the first tube part ( 6 ) are substantially the same and that the first tube part is inserted into the sleeve ( 5 ) of the tube body ( 1 ) and is firmly connected to it. 5. Volume flow controller according to one of the preceding claims che, characterized, that it consists of a thermoplastic. 6. Volume flow controller according to one of claims 1 to 4, characterized, that it is made of a plastic from the group PVC, PPS and PP is made.