DE102006043801B4 - Component for crossing pipes through which a medium can flow - Google Patents

Abstract

Component for crossing pipes through which a medium can flow,
- With a housing (1),
With a first line (2) arranged in the housing (1),
With a second line (3) arranged in the housing (1), the second line (3) crossing the first line (2) in an intersection area (4),
with a dividing wall (5) separating the first line (2) from the second line (3) in the crossing area (4) and being connected to the housing (1), the dividing wall (5) being connected to a connecting piece (7) for the Connecting the component is connected to a first pipeline of a piping system, wherein the partition (5) is integral with the connector (7) and wherein the partition wall (5) is formed by a pipe section (6),
characterized in that the pipe section (6) has an inner diameter which corresponds to that of the second conduit (3).

Description

The present invention relates to a component for crossing of medium-flowable pipelines, for example in a heating or cooling system, with a housing having a first conduit disposed in the housing, with a second conduit disposed in the housing, wherein the second conduit intersects the first conduit in an intersection region having a divider wall separating the first conduit from the second conduit at the crossing region and connected to the housing, the partition wall being connected to a fitting for connecting the component to a first pipeline of a pipeline system is, wherein the partition wall is formed integrally with the connector and wherein the partition wall is formed by a pipe section.

A corresponding component is for example from the AT 392 829 B known. Other components for crossing passages with a medium pipes are from the DE 2 412 303 A1 , of the DE 296 22 770 U1 and the DE 642 407 C known.

In heating or cooling systems, it is known to lay the leading to the heat exchanger flow lines and leading away from the heat exchanger return lines as possible to save space in the floor or in the wall. If a plurality of heat exchangers are connected to a common flow and a common return of a heating or cooling system in a room, it inevitably leads to individual lines, such as a flow line and a return line, intersect.

In order to obtain as small a height as possible at the points in the floor structure or in the wall at which two separate lines intersect, a component for crossing two separate lines in a common housing is known from the prior art, in which the two lines converging in a common plane and in the region in which intersect the two lines, a partition wall is provided, which separates the first line from the second line.

The previous casings are usually produced by means of the brass die casting process, cores, preferably sand cores, being used during the casting, which form the later ducts and a flat partition wall in the housing. However, the cores are relatively long and thin and often prone to a core failure.

In addition to an integrally formed by chill casting with the housing of the component flat partition wall, it is also known to provide a sleeve which crosses the path of a line and is flowed around by the medium in this line, in the crossing region of the housing. A partition in the form of a sleeve is described, for example in the DE 93 10 774 U1 , However, a sleeve is relatively difficult to install and seal against the other line, resulting in increased manufacturing and assembly costs.

The initially mentioned AT 392 829 B also discloses a component for crossing medium-flowable pipelines, having a first housing, having a first conduit disposed in the housing, a second conduit disposed in the housing, the second conduit crossing the first conduit, and with a partition that separates the first line from the second line in the crossing area and is connected to the housing. The partition wall is formed by a pipe section, which is connected to a connection piece for connecting the component to a pipeline of a pipeline system. The partition is made in one piece with the connector. In this case, the pipe section is reduced in diameter in the region, which is surrounded by the medium in the first conduit, in order to release a certain flow cross-section in this section of the first conduit. Under certain conditions, an optimal flow through the second conduit through the connection piece and the pipe section integrally connected therewith is not provided.

It is therefore an object of the present invention to develop a component for crossing of a medium-flowable pipes of the type mentioned in such a way that an optimal flow through the second line is ensured.

The previously derived and indicated object is achieved according to the invention in a component of the type mentioned in that the pipe section has an inner diameter corresponding to that of the second line. The fact that the partition is connected to a connector, which is anyway necessary for connection to a piping system, the partition wall, which is formed by a pipe section, can be mounted in a simple manner. Thus, with the connection of the connection piece with the housing having the two intersecting lines, the dividing wall or the pipe section is simultaneously introduced into the intersection area, whereby the first line is automatically separated from the second line. The assembly of the partition and the connector takes place together with a single handle. The assembly effort is considerably reduced.

This applies even more if, according to one embodiment of the component according to the invention, the dividing wall or the pipe section is designed in one piece with the connecting part. Such a design has the advantage of a particularly simple production, since the fitting and the pipe section can be made of the same material and / or in a single process step.

According to the invention, the dividing wall or the pipe section, which can have any conceivable cross-section and is preferably sleeve-shaped, is connected to the connection piece, in particular in one piece, compared to a design in which the sleeve and the connection piece are separately mounted and sealed, As is known from the prior art, a simpler sealing done. There is only one more seal between the housing and fitting and a seal between the housing and the partition or pipe section necessary to accomplish the required seals. In this case, the respective sealing by means of a sealing compound, preferably an adhesive and / or by means of at least one sealing insert, preferably an O-ring done. The use of an adhesive has the advantage that it can serve as a safeguard against unscrewing the connector from its socket. It is also a metallic seal conceivable, for example by welding or soldering.

According to a further embodiment of the component according to the invention, the longitudinal axis of the tube section, which serves to separate the two intersecting lines, extends coaxially to the longitudinal axis of the second line. In other words, the pipe section forms part of the second pipe. In this way, a particularly low height and low-loss flow through the crossing component is achieved.

According to a further embodiment, the longitudinal axis of the pipe section extends at an angle to the longitudinal axis of the first line. Preferably, the longitudinal axis of the pipe section intersects the longitudinal axis of the first pipe in the crossing region. In other words, the pipe section passes through the first pipe. As a result, the height of the component according to the invention is reduced to a minimum, despite crossing lines, which allows the possibility of a clean embedding in, for example, the impact sound insulation of a floor.

It can be provided that the angle between the longitudinal axis of the pipe section and the longitudinal axis of the first conduit is 45 ° to 135 °. Preferably, the angle is at 90 °, that is, the first line extends, at least in the crossing region, perpendicular to the second line. Such an arrangement, in particular with an angle of 90 ° between the longitudinal axis of the pipe section and the longitudinal axis of the first line, allows the integration of the crossing component according to the invention in a pipeline system, for example in a heating or cooling system, since the individual connections easily accessible are.

As said, according to the invention, the pipe section and optionally the connecting piece has an inner diameter which corresponds to that of the second line. In this way, unwanted flow changes do not occur in the region of the pipe section or in the crossing region in the second line. It only has to be ensured that the first line, which crosses the second line and thus the pipe section, has a cross section which allows the medium located in the first line to flow around the second line, that is to say the pipe section or the partition wall, in the crossing area or at least it can flow past it. Preferably, in the crossing region, the outer circumference of the pipe section is smaller than the inner circumference of the pipe crossing the pipe section. It can also be provided that the outer circumference of the pipe section and / or the connecting piece tapers in the crossing region. Alternatively or additionally, it can also be provided that the inner circumference of the pipe crossing the pipe section widens in the crossing area.

According to yet another embodiment of the component according to the invention, the pipe section and / or the connecting piece is connected by means of a thread with the housing of the crossing component. In this case, the pipe section and / or the connecting piece have an external thread and the housing have a corresponding internal thread. The use of a thread has the advantage that, during assembly and disassembly, the connection piece and the pipe section connected therewith are guided and can not easily tilt. This leads to a particularly simple assembly and disassembly and also ensures optimum sealing effect in the assembled state. At the same time, a thread also has the advantage that the flow forces acting in the axial direction are absorbed and the connection piece and the pipe section are fixed in the axial direction. In addition, as already mentioned above, a safeguard against unintentional unscrewing of the connecting piece relative to the housing can be provided. Such a rotation can be accomplished, for example, by using an adhesive. It is also conceivable as anti-rotation, the components by soldering, welding, caulking, flanging or the like to connect with each other.

As mentioned, it can be provided that in the crossing region, the second line, in particular the preferably tubular tube section, is flowed around by the medium flowing in the first line. In order to achieve an optimal flow around and thus a minimum of flow losses, it is provided according to a further embodiment, that in the crossing region, the distance between the outside of the pipe section and the inside of the pipe section crossing line is the same on opposite sides of the pipe section. By the same distance it is achieved that the flow located in the first conduit divides into two equal partial flows before the crossing region, wherein a partial flow is guided on one side around the pipe section and the other partial flow on the other side around the pipe section. After passing through the pipe section, the two partial flows connect again to a single stream.

According to yet another embodiment, it is provided that the partition wall, in particular the pipe section, is at least partially provided with an insulation. In particular, in the event that one of the lines is part of the flow of a pipeline system and the crossing line is part of the return, such isolation, in particular in the crossing area to avoid heat loss is advantageous.

According to yet another embodiment, the component according to the invention can be embodied such that the housing has at least one connecting piece for connecting the component to at least one second pipeline of the pipeline system, wherein the at least one connecting piece is embodied integrally with the housing and is preferably part of the second line , It may further be provided that the housing has at least two connecting pieces for connecting the component to at least one third and one fourth pipeline of the pipeline system, wherein the at least two connecting pieces are designed in one piece with the housing and are preferably part of the first line. In this way, an intersection component with at least four connecting pieces can be created, which can be installed in a simple manner in a pipeline system.

There are now a variety of ways to design and further develop the component according to the invention. For this purpose, for example, referenced on the one hand to the claims subordinate to claim 1, on the other hand to the description of an embodiment in conjunction with the drawing. In the drawing shows:

1 a detail of an embodiment of the component according to the invention in section,

2a u. b) a schematic representation of the flows in the component 1 , and

3 a complete view of the component 1 on average.

This in 1 in a detail view illustrated component for crossing of a medium through-flow pipes in a heating system has a housing 1 on, in which a first line 2 and a second line 3 are arranged. The first line 2 and the second line 3 cross in a crossing area 4 ,

A partition 5 in the form of a tubular tube section 6 prevents that in the first wire 2 flowing medium with the in the second line 3 flowing medium comes into contact.

The pipe section 6 is integral with the fitting 7 connected and threaded 8th in the case 1 introduced. In this case, the connection piece 7 an external thread 8a and the case 1 a corresponding internal thread 8b on. As anti-rotation device against unintentional unscrewing of the connection piece 7 out of the case 1 Furthermore, an adhesive (not shown) is provided, which is a subsequent rotation of the connector 7 relative to the housing 1 prevented. Alternatively, an anti-rotation can also be done by soldering or welding of the components after installation. Other securing means, such as the use of a splint, are also conceivable.

To seal the first line 2 towards the environment or the second line 3 are also two O-rings 9a . 9b provided that even at high pressure and at relatively high temperatures still ensure sufficient tightness. It seals the O-ring 9a the first line 2 from the environment, with the second O-ring 9b the two lines 2 and 3 seals against each other.

At the in 1 illustrated embodiment extends the longitudinal axis L _{1 of} the pipe section 6 coaxial with the longitudinal axis L _{3 of} the second conduit 3 , At the same time, the longitudinal axis L _{1 of} the pipe section runs 6 angular, namely at an angle α of 90 °, to the longitudinal axis L _{2 of} the first line 2 and cuts them in the crossing area 4 ,

It is further provided that the entire connecting piece 7 has an inner diameter, that of the second conduit 3 equivalent.

In the crossing area 4 is also the outer circumference of the pipe section 6 smaller than the inner circumference of the pipe section 6 cruising line 2 so that's the lead 2 flowing medium unhindered on the pipe section 6 can flow past.

In 2 is shown schematically as the two individual streams in the separate lines 2 and 3 be passed independently through the component according to the present invention. In the case shown, it is the first line 2 around the return of a heating system and the second line 3 to the flow of the same heating system.

As in 2 B ) is divided in the crossing area 4 the guided from top to bottom return flow and flows around in two partial streams the pipe section 6 , At the same time flows, as in 2a ) with a right-pointing arrow, regardless of the return flow, the flow in the interior of the pipe section 6 the second line 3 ,

In 2 B ) is also clearly seen that both lines 2 and 3 Although they intersect, are arranged in one and the same plane and thus lead to a relatively low height of the component according to the invention. In this way, the component according to the invention can be readily embedded in the footfall sound insulation of a floor with a low construction height.

Finally, in 2 B ) shown schematically that in the crossing area 4 the outer circumference of the pipe section 6 smaller than the inner circumference of the pipe section 6 cruising line 2 is. This widens the inner circumference of the pipe section 6 cruising line 2 temporarily in the crossing area 4 in such a way that in the crossing area 4 the distance between the outside of the pipe section 6 and the inside of the pipe 2 is the same on opposite sides. This ensures that the return flow can divide into two equal partial flows and the pipe section 6 is flowed around evenly.

3 Finally, shows a complete view of the component 1 ,

In this case, the housing has 1 of the component according to the invention according to the illustrated embodiment, two connecting pieces 10a and 10b for connecting the component with other pipes belonging to the flow, wherein the connecting pieces 10a and 10b integral with the housing 1 are executed.

Furthermore, the housing has 1 on one side a connector 11 and on the other side two fittings 12a and 12b on, which can be connected to other pipes of the return of the heating system. These fittings are integral with the housing 1 executed.

At the in 3 illustrated embodiment, the connector is used 10a For connection to the flow of a heat exchanger, here a radiator, and the fitting 11 to the return of this radiator. The fittings 7 and 10b serve for connection to the main supply line and the connecting pieces 12a and 12b for connection to the main return line.

Claims (18)

Component for crossing pipes which can be flowed through with a medium, - with a housing ( 1 ), - with a first line ( 2 ) in the housing ( 1 ), - with a second line ( 3 ) in the housing ( 1 ), the second line ( 3 ) the first line ( 2 ) in a crossing area ( 4 ), with a partition wall ( 5 ) in the crossing area ( 4 ) the first line ( 2 ) from the second line ( 3 ) and with the housing ( 1 ), wherein the partition ( 5 ) with a connection piece ( 7 ) is connected to connect the component to a first pipeline of a pipeline system, wherein the partition ( 5 ) integral with the fitting ( 7 ) and wherein the partition wall ( 5 ) through a pipe section ( 6 ) is formed, characterized in that the pipe section ( 6 ) has an inner diameter that of the second line ( 3 ) corresponds. Component according to claim 1, characterized in that the partition wall ( 5 ) through a sleeve-shaped pipe section ( 6 ) is formed. Component according to claim 1 or 2, characterized in that the longitudinal axis (L ₁ ) of the pipe section ( 6 ) coaxial with the longitudinal axis (L ₃ ) of the second line ( 3 ) runs. Component according to one of claims 1 to 3, characterized in that the longitudinal axis (L ₁ ) of the pipe section ( 6 ) at an angle to the longitudinal axis (L ₂ ) of the first line ( 2 ) runs. Component according to one of claims 1 to 4, characterized in that the longitudinal axis (L ₁ ) of the pipe section ( 6 ) the longitudinal axis (L ₂ ) of the first line ( 2 ) in the crossing area ( 4 ) cuts. Component according to claim 4 or 5, characterized in that the angle (α) between the longitudinal axis (L ₁ ) of the pipe section ( 6 ) and the longitudinal axis (L ₂ ) of the first line ( 2 ) 45 ° to 135 °, preferably 90 °. Component according to one of claims 1 to 6, characterized in that the connecting piece ( 7 ) has an inner diameter that of the second line ( 3 ) corresponds. Component according to one of claims 1 to 7, characterized in that in the crossing area ( 4 ) the outer circumference of the pipe section ( 6 ) smaller than the inner circumference of the pipe section ( 6 ) crossing line ( 2 ). Component according to claim 8, characterized in that the outer circumference of the pipe section ( 6 ) and / or the connecting piece ( 7 ) in the crossing area ( 4 ) rejuvenated. Component according to claim 8 or 9, characterized in that the inner circumference of the pipe section ( 6 ) crossing line ( 2 ) in the crossing area ( 4 ) expanded. Component according to one of claims 1 to 10, characterized in that the pipe section ( 6 ) and / or the fitting ( 7 ) by means of a thread ( 8th ) with the housing ( 1 ) connected is. Component according to claim 11, characterized in that the pipe section ( 6 ) and / or the fitting ( 7 ) an external thread ( 8a ) and the housing ( 1 ) a corresponding internal thread ( 8b ) having. Component according to one of claims 1 to 12, characterized in that in the crossing area ( 4 ) the distance between the outside of the pipe section ( 6 ) and the inside of the pipe section ( 6 ) crossing line ( 2 ) on opposite sides of the pipe section ( 6 ) is equal to. Component according to one of claims 1 to 13, characterized in that the partition wall ( 5 ), in particular the pipe section ( 6 ), opposite the crossing line ( 2 ) is sealed. Component according to claim 14, characterized in that the seal by means of a sealing compound, preferably an adhesive, by means of at least one sealing insert, preferably an O-ring ( 9a . 9b ), and / or by means of metallic sealing, preferably by welding or soldering done. Component according to one of claims 1 to 15, characterized in that the partition wall ( 5 ), in particular the pipe section ( 6 ), at least partially provided with an insulation. Component according to one of claims 1 to 16, characterized in that the housing ( 1 ) at least one connecting piece ( 10a . 10b ) for connecting the component to at least one second pipeline of the pipeline system, wherein the at least one connecting piece ( 10a . 10b ) integral with the housing ( 1 ) is executed and preferably part of the second line ( 3 ). Component according to one of claims 1 to 17, characterized in that the housing ( 1 ) at least two fittings ( 11 . 12a . 12b ) for connecting the component to at least a third and a fourth pipeline of the pipeline system, wherein the at least two connecting pieces ( 11 . 12a . 12b ) integral with the housing ( 1 ) are executed and preferably part of the first line ( 2 ) are.

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