DE202004005946U1 - Pipe network and distribution system and distribution nodes therefor - Google Patents

Abstract

Pipe network and distribution system with a plurality of, for example, network or grid-shaped air distribution pipes (1) and with a pipe arrangement (2, 8a, 8b, 9a, 9b), in particular for supplying heating and / or cooling devices in buildings which are in the air distribution pipes (1), the air distribution pipes (1) and the piping arrangement (2, 8a, 8b, 9a, 9b) each having a plurality of supply connections (4), a plurality of distribution nodes (3) and in each case at least one feed-in node (5), characterized in that that the pipeline arrangement (2, 8a, 8b, 9a, 9b) in the air distribution pipes (1) and the distributor node (3) are freely movable in at least one direction and in the supply connections (4) and the at least one feeder node (5) are fixed.

Description

The invention relates to a pipe network and distribution system with several, for example network or lattice arranged Air distribution pipes and with a piping arrangement, in particular to supply heating and / or cooling devices in buildings that guided in the air distribution pipes is, the air distribution pipes and the piping arrangement each several supply connections, several distribution nodes and at least one feed-in node each exhibit. The invention further relates to a distribution node for such a System.

For indoor air and air conditioning systems for buildings it is particularly from installation technology and thermodynamic Reasons as proved to be advantageous, pipe networks for heating and / or air conditioning technology to run within an air distribution duct network. Such indoor air and Climate systems are becoming common as well as the primary pipeline network running in it, network or lattice-shaped, so that these together form a multifunctional supply network form. The room air supply and air conditioning devices to be supplied. Via feed nodes the multifunctional is supplied with indoor air and air conditioning Supply network, the feed nodes to a supply shaft of the building can be connected. The individual elements of the multifunctional supply network doing about Distribution nodes interconnected. The individual pipe sections of the system are at the fixed supply connections and in the buildings Infeed node firmly fixed. Most are the pipe sections also attached to the distribution node so that movements within of the pipe network and distribution system are largely prevented.

Especially in the area of heating and air conditioning technology become such pipe network and supply systems for temperature ranges the carrier medium, for example water or a water-glycol mixture, from 5 ° C to about 90 ° C or above. Due to the temperature fluctuations of the carrier medium, it can therefore be dependent the coefficient of thermal expansion of the pipe material used and the length of the Pipe network strand come to fluctuations in length, those with a rigid connection of the pipe network on or with a Support structure, such as parts of buildings, appropriate compensation measures make necessary.

To compensate for such fluctuations in length of the pipe network, compensator elements are known which are in the area of the pipe network usually arranged in this way in each distribution node that the occurring length fluctuations can be balanced or absorbed. As compensator elements for example, hoses Stainless steel corrugated pipe with axial and possibly also lateral flexibility. However, the use of such corrugated tube compensators brings about huge Number of screw or press connections required for connection to the pipe network a lot of material and assembly with it potential sources for the occurrence of leaks or connection errors, which causes direct or consequential damage can be caused.

Alternatively, it is known the changes in length due to temperature fluctuations the pipe network through compensation arches, i.e. U-shaped trained pipe runs, which are formed in the course of the pipe network. Such compensation sheets have to however carefully be calculated and placed, reducing the effort for planning and assembly of the pipe network increased becomes. Especially in the case of smaller pipe networks, this is partly the case Provision of compensation measures dispenses when the pipe network passes through different geometric levels that already represent a compensation sheet in itself. However, this leads frequently to an undesirable noise or the like. with a change in temperature of the carrier medium.

Object of the present invention is opposite to provide a pipe network and distribution system and a distribution node therefor in which largely on the integration of compensation elements can be dispensed with and also the assembly of the entire pipe network and distribution system is made considerably easier.

This object is achieved according to the invention with a pipe network and distribution system of the type mentioned at the outset in that the pipe arrangement in the air distribution pipes and the distributor node is freely movable in at least one direction and is fixed in the supply connections and the at least one feeder node. The pipeline arrangement is thus movably connected to the air supply network, ie the air distribution pipes, so that expansions of the pipeline arrangement as a result of temperature fluctuations enable the pipeline arrangement to move within the distribution nodes. Due to the system-typical design criteria of the air distribution pipes, which are mainly based on the air volume flows, the air distribution pipes are dimensioned in such a way that the maximum required freedom of movement can be absorbed in the air distribution pipes when the temperature of the pipes expands. The length of a copper pipe is about 34 mm with a temperature fluctuation of 85 ° C and with a length of 25 m. A typical diameter of the air distribution pipes is approximately at least 100 mm, so that the temperature expansions can be easily absorbed in the air distribution pipes NEN.

The pipeline arrangement is preferably in the air distribution pipes and the distribution node in one plane movably supported while them in the supply connections and the at least one feed node is fixed in place. In addition or alternatively, you can the pipes in the air distribution pipes and the distribution nodes be freely rotatable about at least one axis and in the supply connections and be fixed to the at least one feed node in a rotationally fixed manner. at this embodiment of the pipe network and distribution system according to the invention can due to different elongations movements occurring in the pipeline arrangement take place without Compensation elements must be provided in the distribution node.

To facilitate the assembly of the Pipe network and distribution system is proposed that the piping arrangement in at least one air distribution pipe and / or in at least one distribution node with at least one elastic element in an assembly position is held from the pipelines against the restoring force the at least one elastic element is displaceable and / or rotatable are. In order to position the pipes in a suspension or Hold construction and then with temperature fluctuations within the expected range Operating conditions the greatest possible on all sides To ensure freedom of movement the pipes are fixed, for example by springs, in a selected mounting position. The positioning is carried out in such a way that the length fluctuations that occur can be absorbed against the force of the spring or the like.

Alternatively, positioning is done in such a way that the distributor block has limited mobility for the assembly process is attached in the pipe network and distribution system. There is the restriction in that the range of motion for the assembly process compared to the Total freedom of movement is so small that the Remaining even when the assembly scope is fully utilized Freedom of movement in any case is sufficient to accommodate the changes in length due to temperature fluctuations.

An inventive distribution node, for example for the Suitable for use in the pipe network and distribution system described above has a housing on that with multiple openings for Connection of air distribution pipes is provided. One is on a manifold block attached piping arrangement consisting of at least a first supply pipe and at least one branching from it second supply pipe and at least one of the first or second supply pipe branching connecting pipe exists a stationary mounting plate or the like stored. In this way, the distribution block within the Distribution node perform displacement movements caused by changes in length the piping arrangement caused by temperature fluctuations become.

The distributor block can be used after a preferred embodiment of the invention be designed so that the pipeline arrangement penetrates it at least partially. In other words, the Distribution block have several through holes in which the Pipe arrangement runs or the through holes themselves can be part of the pipeline arrangement his.

If the holding plate has a recess has, through which a displaceable in the recess Fastener that extends the manifold block with a on the opposite one Connects locking plate provided side of the holding plate, the distribution block within the distribution node in one defined area.

The fastener is there preferably a guide pin, whose dimensions in the plane of the holding plate are smaller than that of the recess. The displacement of the distribution block within the distribution node is thus limited by the fact that the guide pin abuts the edge of the recess. To one even shift The recess is to allow the holding block in all directions preferably a round recess in the holding plate.

An uncontrolled movement of the Distribution blocks within the distribution node can thereby be avoided that the dimensions of the locking washer in one plane are larger parallel to the holding plate than the dimensions of the recess. The locking disc covers consequently, the recess in the holding plate in the manner of a plate and can be shared with the guide pin and the distributor block can be moved relative to the holding plate.

In order to facilitate the assembly of the distributor block within the distributor node, an elastic element, for example a positioning spring, and / or a severable fixing element, such as a positioning pin, can be provided between the holding plate and the distributor block. If the positioning pin is also guided in a recess of the holding plate that is larger than the dimension of the positioning pin, but smaller than the recess for the displaceable fastening element, there is limited freedom of movement for the assembly process due to the dimension of this recess. The limitation of the range of motion is eliminated in that the positioning spring or the positioning pin are designed in such a way that in the event of a change in length within the pipeline arrangement, for example as a result of temperature fluctuations in the Ver divider block can be moved within the distribution node against the force of the elastic element or after cutting the positioning pin. When using one or more positioning pins, particular care should be taken when choosing the material and dimensioning that the resulting shear forces are sufficient in the event of fluctuations in the length of the pipes to safely break off the positioning pin or pins and thus eliminate their fixing function.

The ratio of the dimensions of the recesses for the sliding fastener and the positioning pin set so that the dimension of the recess for the positioning pin the all-round freedom of movement of the distributor block in one plane for the Assembly process determined in an optimal manner, for example 2 to 3 cm. At the same time, the dimension of the recess for the slidable Fastener chosen so that at full Exploitation of the freedom of movement for the assembly process in one Additional direction sufficient room for maneuver in the same direction remains to the changes in length due to temperature fluctuations.

Because the pipes of the piping arrangement Slidable in the distribution node as well as in the air distribution pipes are stored and at feed-in nodes or on end devices Fixed connection of these pipes is required, the due to temperature fluctuations in the length of the pipes between the distribution node and the supply connections for end devices or the feed-in node are balanced or excluded. For this is provided according to the invention that the housing of the distribution node openings or about Openable breaking points Areas for implementation e.g. has at least one flexible stainless steel corrugated hose.

The length fluctuations of the pipes are therefore not in every distribution node in which the pipes over the Distribution block are movable, but on the way between the Distribution nodes and the supply connections or the feed-in node via flexible Compensation elements, especially a stainless steel corrugated hose, added. The number of compensation elements required is thus reduced to a minimum, whereby the assembly of a Pipe network and distribution system is considerably simplified.

So the number of flexible executions Connections within a pipe network and distribution system according to the invention compared to a conventional one System can be reduced by at least 30% to over 70%. As an alternative to the provision of, for example, flexible stainless steel corrugated hoses between the distribution nodes and supply connections or feeder nodes can also the intermediate pipe area as a longitudinal expansion absorbing compensation sheet can be designed.

For connecting an end device for Tempering rooms is usually a flow and a return line for the heated or chilled transfer medium intended. It is therefore preferred if the piping arrangement a pair of first supply pipes and a pair of the distribution node of which branching second supply pipes and at least one Has pair of connection pipes from the first or second pair of supply pipes branch.

Further goals, advantages and possible applications of the present invention result from the following description of embodiments and the drawing. All of them are described and / or illustrated features shown for itself or in any combination the subject of the invention, also independently from their combination in individual claims or their relationship.

They show schematically:

1 the construction of a pipe network and distribution system according to the invention,

2 in an enlarged view after a distribution node of the pipe network and distribution system 1 .

3a in an enlarged view according to the distribution node 2 .

3b the distribution node 3a at changed temperature

4 in an enlarged view a plan view of a distribution node,

5 a sectional view through the distribution node 4 seen in the direction of arrow V in 4 .

6 a sectional view through the distribution node 4 seen in the direction of arrow VI in 4 and

7 a sectional view according to the distribution node 6 according to a further embodiment of the invention.

In 1 a pipe network and distribution system is shown, which consists of several grid-shaped air distribution pipes 1 and a piping arrangement included therein 2 is formed. The piping arrangement 2 is in 1 only shown in the middle of the air pipes running from top to bottom in the figure. The air distribution pipes 1 as well as the piping arrangement 2 are among themselves via distribution nodes 3 connected.

The pipe network and distribution system has several supply connections 4 with which terminal devices of the heating and / or air conditioning technology, not shown, are supplied with a carrier medium. The supply connections 4 are fixed to the end devices, which are usually fixed in rooms of a building. The introduction of the carrier medium into the pipe network and distribution system can be done via an infeed node 5 take place, in the embodiment shown a distributor node 3 assigned.

The supply can be done in the same way by directly connecting the pipe network and distribution system to a supply shaft 6 done like this in 1 exemplary for the air distribution pipes 1 is shown. The supply accounts 5 and the supply shaft 6 are also fixed in a building or the like.

The in 2 Distribution node shown enlarged 3 has a housing 7 in which three air distribution pipes 1 lead. In the air distribution pipe running from top to bottom in the figure 1 is a pair of first supply pipes 8a and 8b arranged, while in the air distribution pipes running from right to left in the figure 1 a pair of second supply pipes 9a and 9b are provided. The supply pipe 8a and 9a can use the supply pipes for with the supply connection 4 connectable end devices, for example radiators, form while the supply pipes 8b and 9b form the return pipes. From the case 7 of the distribution node 3 branches two flexible stainless steel corrugated hoses 10 from which the supply pipes 8a . 8b . 9a and 9b with the supply connection 4 be connected via lines.

For connecting the corrugated hoses 10 with the supply pipes branch off from these connecting pipes. As especially from the 4 to 6 can be seen shows the supply pipe 8a which with the supply pipe 9a is connected, two connecting pipes 11a and 12a on, the ends for connection with a corrugated hose 10 or a plug or the like. Are formed. The supply pipe is in the same way 8b which with the supply pipe 9b is connected with two connecting pipes 11b and 12b fitted. The supply pipes and the connecting pipes form the in 1 only schematically indicated pipe arrangement 2 ,

This piping arrangement 2 is in a distribution block 13 added, the supply pipes and the connecting pipes the distribution block 13 partially penetrate. The distributor block lies on a holding plate 14 on that by means of a screw connection 15 with the housing 7 is connectable. In the distribution block 13 is a guide pin 16 screwed in through a circular opening 17 in the holding plate 14 protrudes and on the distribution block 13 opposite side of the holding plate 14 with a circular locking disc 18 connected is. The distribution block 13 can be used together with the piping arrangement 2 relative to the housing 7 and the holding plate 14 move, the guide pin 16 in the recess 17 the holding plate 14 can slide. Lifting off the distribution block 13 with the piping arrangement 2 from the holding plate 14 is avoided by the locking disc 18 whose diameter is larger than that of the recess 17 is lying on the holding plate with the guide pin 16 connected is.

This slidable mounting of the distributor block 13 on the holding plate 14 changes in length of the supply pipes within the pipe network and distribution system can be compensated. So is in 3a a position of the manifold block 13 within the distribution node 3 shown in which the supply pipes 8a and 8b have expanded due to an increase in temperature. Opposes 3b the position of the manifold 13 within the distribution node 3 if a cooled medium flows in the supply pipes. The supply pipes 8a and 8b have therefore in 3b compared to the representation 3a shortened so that the entire distribution block 13 with the supply pipes connected to it 9a and 9b has been moved down in the figure. This shifting movement can be caused by the corrugated hoses 10 with the connection pipes 12a respectively. 12b are connected. The pipe arrangement 2 can thus be relative to a stationary supply connection 4 move that with the flexible corrugated hoses 10 connected is.

Around the distribution block 13 Being able to fix it in a predetermined position during assembly is a must 4 illustrated spring 19 provided the distribution block 13 on the holding plate 14 holds. A shift in the distribution block 13 but is against the force of the spring 19 possible with a temperature expansion of the supply pipes.

In 7 Another embodiment of the invention is shown, in which to facilitate assembly the manifold block 13 in addition to the feather 19 through a positioning pin 20 slidable with the holding plate 14 connected is. The positioning pin 20 is fixed to the distributor block 13 connected and protrudes at one end through another recess 21 in the holding plate 14 , This further recess 21 in the holding plate 14 has a larger diameter than the positioning pin 20 so that the distribution block 13 limited by the positioning pin 20 relative to the holding plate 14 can move. Even with the full use of the positioning pin 20 and the further recess 21 of the defined installation margin, the remaining range of motion is sufficiently large to compensate for changes in length of the pipes due to temperature fluctuations. Through a suitable choice of material and / or dimensioning of the positioning pin 20 can be achieved that this sheared with large length fluctuations of the pipes to the mobility of the distributor block 13 relative to the holding plate 14 sure.

1

Luftverteilrohr

2

Piping arrangement

3

distribution node

4

supply terminal

5

feed-in

6

accommodation shaft

7

casing

8a, 8b

supply pipes

9a 9b

supply pipes

10

corrugated hose

11a, 11b

connecting pipes

12a, 12b

connecting pipes

13

distribution block

14

Retaining plate

15

screw

16

guide pins

17

recess

18

locking disk

19

positioning spring

20

positioning

21

recess

Claims (12)

Pipe network and distribution system with several, for example, network or grid-shaped air distribution pipes ( 1 ) and with a pipe arrangement ( 2 . 8a . 8b . 9a . 9b ), in particular for the supply of heating and / or cooling devices in buildings that are in the air distribution pipes ( 1 ) is guided, whereby the air distribution pipes ( 1 ) and the piping arrangement ( 2 . 8a . 8b . 9a . 9b ) several supply connections each ( 4 ), multiple distribution nodes ( 3 ) and at least one feed-in node ( 5 ), characterized in that the piping arrangement ( 2 . 8a . 8b . 9a . 9b ) in the air distribution pipes ( 1 ) and the distribution node ( 3 ) are freely movable in at least one direction and in the supply connections ( 4 ) and the at least one feed-in node ( 5 ) are fixed. Pipe network and distribution system according to claim 1, characterized in that the pipeline arrangement ( 2 . 8a . 8b . 9a . 9b ) in the air distribution pipes ( 1 ) and the distribution node ( 3 ) are freely movable on one level and in the supply connections ( 4 ) and the at least one feed-in node ( 5 ) are fixed in place. Pipe network and distribution system according to claim 1 or 2, characterized in that the pipe arrangement ( 2 . 8a . 8b . 9a . 9b ) in the air distribution pipes ( 1 ) and the distribution node ( 3 ) are freely rotatable about at least one axis and in the supply connections ( 4 ) and the at least one feed-in node ( 5 ) are fixed in a rotationally fixed manner. Pipe network and distribution system according to one of claims 1 to 3, characterized in that the pipeline arrangement ( 2 . 8a . 8b . 9a . 9b ) in at least one air distribution pipe ( 1 ) and / or in at least one distribution node ( 3 ) with at least one elastic element ( 19 ) are held in an assembly position from which the pipe arrangement ( 2 . 8a . 8b . 9a . 9b ) against the restoring force of the at least one elastic element ( 19 ) are displaceable and / or rotatable. Distribution node, in particular for a pipe network and distribution system according to one of the preceding claims, with a housing ( 7 ), which has several openings for connecting air distribution pipes ( 1 ), characterized by a on a distributor block ( 13 ) attached piping arrangement ( 2 ) from at least one first supply pipe ( 8a . 8b ) and at least one second supply pipe branching off from it ( 9a . 9b ) and at least one of the first or second supply pipe ( 8a . 8b . 9a . 9b ) branching connecting pipe ( 11a . 11b . 12a . 12b ), the distributor block ( 13 ) on a fixed mounting plate ( 14 ) or the like. of the housing ( 7 ) is slidably mounted. Distribution node according to claim 5, characterized in that the pipeline arrangement ( 2 ) the distributor block ( 13 ) at least partially penetrates. Distribution node according to one of claims 5 or 6, characterized in that the holding plate ( 14 ) a recess ( 17 ) through which a in the recess ( 17 ) sliding fastener ( 16 ) which extends the distributor block ( 13 ) with one on the distributor block ( 13 ) opposite side of the holding plate ( 14 ) provided locking washer ( 18 ) connects. Distribution node according to claim 7, characterized in that the fastening element is a guide pin ( 16 ) whose dimensions are in the plane of the holding plate ( 14 ) smaller than that of the recess ( 17 ) are. Distribution node according to one of claims 7 or 8, characterized in that the dimensions of the locking disc ( 18 ) in a plane parallel to the holding plate ( 14 ) are larger than the dimensions of the recess ( 17 ). Distribution node according to one of claims 5 to 9, characterized in that between the holding plate ( 14 ) and the distributor block ( 13 ) an elastic element, in particular a positioning spring (), and / or a severable fixing element is provided. Distribution node according to one of claims 5 to 10, characterized in that the housing ( 7 ) Openings () or areas that can be opened via predetermined breaking points for the passage of at least one flexible stainless steel corrugated hose ( 10 ) having. Distribution node according to one of claims 5 to 11, characterized in that the pipeline arrangement ( 2 ) a pair of first supply pipes ( 8a . 8b ) and a pair of branching second supply pipes ( 9a . 9b ) and at least one pair of connecting pipes ( 11a . 11b . 12a . 12b ) from the first or second pair of supply pipes ( 8a . 8b . 9a . 9b ) branch off.