EP1923576B1 - Bend for a fluid duct - Google Patents

Abstract

The elbow (10) has guiding elements (26,27), which are led parallel to each other and to the curved inner walls (29) and external walls (25). The guiding elements with a manifold of a flat channel to a circular channel, exchanges from a flat channel to a circular channel in a straight piece direction flat channel. If required, the external guiding elements have another inner guiding element in elliptical form. The width of circular channel connection is proportionate to flat duct connection.

Description

The invention relates to a pipe bend for fluid channels according to the preamble of claim 1.

Such bends are an essential element of fluid channels, which are increasingly used in buildings of all kinds for ventilation, for ventilation, for air conditioning. In principle, it is possible to use it on all fluids, liquids and gases, including natural gas pipelines or oil pipelines.

A preferred application are supply air ducts and in particular exhaust ducts for extractor hoods in modern kitchens.

Fluid channels have a certain line resistance, which leads to pressure losses, they require certain cross-sections and drive motors for transport, such as fans; These can be associated with high noise.

The aim of the invention is to reduce the pressure loss through the line resistance, and thus the power cross section, or to increase the flow rate, while reducing the noise level and also the motor power required for fluid transport.

This object is solved by the features of claim 1. Further embodiments of the invention are provided in the subclaims under protection.

An essential idea of the invention is to install guide elements in the pipe bends in a very specific manner, so that the fluid flow within the pipe bend is completely subdivided into a plurality of sections, preferably two or three sections. Previous guide elements in pipe bends so in Dubbel, paperback for mechanical engineering, Springer-Verlag Berlin, 1970, DE patent 588113 , or DE-PS 742475 could not contribute anything to this problem solution.

The BE 510469 A discloses a pipe bend for fluid channels having a circular cross-section, which has in the interior parallel to the outer and inner wall running extending circular guide surfaces, which are adapted to minimize pipe bends with a continuous circular cross section, the pressure drop in Durchflußrichtun.

The guide elements according to the invention, also referred to as a guide body, reduce the vortex formation and ensure more uniform speed.

• höhere Strömungsleistung
• - geringerer Energieverbrauch
• weniger Lärm, z. B. an einer Ablufthaube
• - größere mechanische Festigkeit
• - leichtere Montage durch Einführfasen
• kompaktere Abmessungen, insbesondere geringere Höhe.

The improvements are summarized:

• higher flow capacity
• - lower energy consumption
• less noise, eg. B. on an exhaust hood
• - greater mechanical strength
• - easier installation through chamfers
• more compact dimensions, especially lower height.

One reason why such inner, guiding elements have not yet prevailed could also be due to the relatively difficult production problems. The following claims show, inter alia, specific embodiments of a two-part production of different pipe bends and special features of the assembly of these two-part pipe bends, and advantageous embodiments and arrangements of the guide elements and the end edges of the connection flanges. As a result, on the one hand a very quick, simple and precise assembly is possible, on the other hand, the flow profile is practically unaffected in the interior of the pipe bends, and further provides for a firm grip of the two interconnected halves of the pipe bends.

Depending on the pipe bend, the sections of the flow guide elements are different. Such pipe bends can also be designed as deflecting pieces between different pipe sections, for example flat-round. All angles of pipe bends are possible, the sharper the angle, the more significant the invention affects; most common are 90 ° angles.

Embodiments of the invention are illustrated in the drawing.

• Figur 1 ein Ausführungsbeispiel der Erfindung in Form eines Umlenkstückes zwischen vertikalem Flachkanal und kreisrundem Kanal in perspektivischer Explosionsdarstellung,
• Figur 2 das Umlenkstück von Figur 1 perspektivisch im zusammengebauten Zustand, wobei auch die unterschiedlichen Kanalbreiten sichtbar werden,
• Figur 3 den Querschnitt durch das Umlenkstück von Figur 2 entlang der Schnittlinie A-A.

It shows:

• FIG. 1 An embodiment of the invention in the form of a deflection between vertical flat channel and circular channel in a perspective exploded view,
• FIG. 2 the deflector of FIG. 1 in perspective in the assembled state, whereby the different channel widths are visible,
• FIG. 3 the cross section through the deflection of FIG. 2 along the section line AA.

FIG. 1 shows a further embodiment of the invention in the form of a deflection piece 80 between a flat channel and a circular channel to allow a connection between flat channels and round channels.

In this particular embodiment, there are some design features. So here are the two, parallel guided guide elements not parallel to the inner wall or outer wall. In order to maintain an equal throughput volume for the fluid, there is also a rejuvenation of the channel section from the flat channel to the circular channel. Finally, too no preparation of two sections provided, but the preparation of complete inserts 86. 88 with side portions 87 and 89. Here are the two provided guide elements as complete components 86. 88 formed with side walls 87 and 89, which are inserted as a whole in the pipe bend and anchored. The side walls of these vanes and the corresponding outer walls of the Umlenk-pipe bend are designed so that they are flush with each other in the installed state and thus give no additional wall resistance. The narrower edge 90 of the inner guide element 88 in this case engages slightly in the flange portion 92 of the circular connection piece, which is designed for the sliding over a round duct fitting. These guide elements are thus somewhat more expensive to manufacture, but allow a waiver of a two-part production of the pipe bends. Of course, this different type of technology can be used in all possible pipe bends and not only in the deflector shown.

FIG. 2 shows the complete connector 80, wherein the flat channel 82 vertically and the circular channel 84 are arranged horizontally. Well visible are the outer baffle 86 and the inner baffle 84. In this embodiment, the exit width of the central channel is about 20 percent wider than the other two channels. The same applies to the area of the flat channel.

FIG. 3 shows the cross section through the diverter pipe elbow of FIG. 2 , Here, in particular, the precise curvatures of outer wall 92, outer guide plate 86, inner guide plate 88, which protrudes slightly into the flange region of the round terminal 84.

The curved outer surface 92 describes, starting from the circular channel connection, substantially initially a circular arc with a large radius and then merges into a flat surface in the direction of the flat channel connection. The outer guide element 86 and the inner guide element 88 have essentially the shape of an ellipse. The channel widths of the flat-channel connection and the round-channel connection are in the same relationship to each other.

Claims (5)

1. Pipe bend for fluid ducts with rigid fluid directing elements (86, 88), in particular for air inlet and exhaust ducts, in particular for kitchens, with a transition piece (80) from flat duct (82) to circular duct (84), characterised in that the directing elements (86, 88) are essentially elliptical in shape and do not run parallel to the inner wall or outer wall respectively and also transition into a straight piece (87, 89) in the direction of the flat duct, and that the duct widths of the circular duct connection (84) and of the flat duct connection (82) are proportional to each other.
2. Pipe bend according to claim 1, characterised in that the pipe bend is a deflection piece (80) from a vertical flat duct (82) to a circular duct (84), in which the preferably two directing elements (86, 88) run equidistantly or with an approximately 10 to 30% wider inner duct.
3. Pipe bend according to claim 2, characterised in that the two elliptical directing elements (86, 88) run from the circular connection piece to the flat duct connection piece, and that alternatively the curved outer surface (92) likewise runs elliptically or is attached to the circular connection piece (84) firstly as a circular arc with a large radius and then transitions in the direction of the flat duct into a straight planar piece, the proportions of the duct widths in the circular connection piece and in the flat duct connection piece being essentially identical, and the middle duct preferably being some 10 to 30% wider than the two outer ducts.
4. Pipe bend according to one of the preceding claims, characterised in that the pipe bend is formed all in one piece and that the directing elements (86, 88) are pushed into the pipe bend and attached thereto so as to form a seal, by welding or luting.
5. Pipe bend according to claim 4, characterised in that the side walls (87, 89) of the directing elements (86, 88) can be inserted and fixed in corresponding recesses (83) on the inner wall of the pipe bend or in outwardly extending protrusions so as to produce a planar inner surface of the pipe bend.

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