DE202009007493U1 - Transfer station for the joint connection of solar systems and service water systems to storage - Google Patents

Abstract

Transfer station (1) for the joint connection of solar systems and service water systems, which serves both to control the fluid flow of a first storage circuit (2) for the transfer of stored heat in storage using a first heat exchanger (11) to a service water system (5), as is also provided for controlling the fluid flow of a solar circuit for direct or when using a second heat exchanger and storage circuit for the indirect transfer of solar heat from solar panels in the memory or, which consists of a controller (7) and assemblies B1, B2, B3, consisting of fittings, pumps, pipes, heat exchangers, sensors, connecting pieces for connecting the transfer station to the pipes of the solar and service water system and / or similar flow-leading components, as well as a holding device (8) and a one- or multi-part heat-insulating Housing (23), characterized in that these assemblies or parts thereof for both the first storage circuit and for the solar circuit and possibly for the second storage cycle - at ...

Description

The The invention relates to a transfer station for the joint connection of solar and service water systems, both for regulating the fluid flow of a first storage circuit for the transmission of heat stored in memories using a first heat exchanger to a service water system, as well as to control the fluid flow a solar cycle for direct or use a second heat exchanger and storage circuit for the indirect transfer of solar heat is provided in memory, wherein the transfer station from a Regulators and assemblies assembled to fittings, pumps, Pipes, heat exchangers, sensors, connecting pieces and / or similar flow-leading Components consists, as well as with holding devices for receiving the Assemblies and with a one or more parts of heat-insulating Material existing housing is equipped.

By the increased use of alternative energies for the heat generation in buildings such. The solar energy, Heat production by log, pellet or by the use of heat pump technology gains the storage of heat in storage is important. For this purpose fittings are and regulators used in fluid circuits, wherein the fluid the heat energy of heat generators (eg solar collectors) on the one hand and receives the fluid in the buffer memory on the other gives up again. In other fluid circuits, this heat energy again deprived of memory and z. B. for the daily Domestic hot water is transferred to a cold water inlet.

The used fluids themselves, here are different requirements exposed. So they must also be at extreme minus temperatures after maintain their liquid state, what they do with antifreeze are provided. In contrast, fluids used in memories require these antifreeze not. The process water as another fluid may in contrast for the hygienically perfect Use in the sanitary area will not be affected.

In the prior art, although in numerous property rights, such. B. the EP 1577729 . EP 1450109 . DE 10132483 and WO 2006/136163 , Procedures described concerning the control of solar and / or domestic water circuits. About the structure of the components in the transfer stations with valves and regulators for driving and controlling the various fluid circuits, which are combined into modules and installed as a prefabricated mounting unit in a heat-insulated housing in the fluid circuits, information on the prior art only from the market refer to.

So are transfer stations for solar circuits known in which the solar generated heat via heat exchangers is transferred to storage, wherein the heat exchanger Part of the memory can be, or in the transfer stations are integrated.

By other transfer stations will be the heat energy from the storage also via heat exchangers taken. Again, the heat exchanger Be part of the memory or the transfer station. Such transfer stations are for the respective Fluid circuit individually to the wall or outside to the memory assembled.

adversely Here is that the individual transfer stations separately must be mounted. As each with a own thermally insulated housing is, these transfer stations also have a large Space requirements. Although regulators have been known in the market recently, which both a solar system and a domestic water heating at the same time, the associated transfer stations become mounted separately in separate units.

Around To overcome these disadvantages, proposes the present invention a transfer station for the connection of solar systems and service water systems before, by the mentioned features of the main claim is characterized, and thereby significantly less installation costs requires and manages with much less installation space. The assemblies the transfer station or parts thereof, both for a first storage circuit as well as a solar circuit and possibly for a second storage cycle - at indirect transfer of solar heat - form together with only one regulator, with only one heat-insulating Housing and only one Besfestigungseinrichtung a ready to install Unit for direct installation to the tubes of the solar and service water system.

A continuing education of such a transfer station Foresees that the ready to install unit will provide connections for at least one supply and return of the solar circuit, for at least one supply and return of the first Storage circuit, for the inflow with cold hot water and for the drain with heated service water having.

at Domestic hot water systems, which additionally provide a drinking water circulation have, is at the ready to install re gelstation accordingly a connection for the return line of the circulation system intended.

A preferred development of the transfer station is through Integration of another heat exchanger for given the indirect supply of heat to the store, being next to the connections of the supply and return of the solar circuit another supply and return connection exists for a second storage circuit. The to Use coming memory in these cases have no own heat exchanger on.

A advantageous design of the transfer station is through the Use only a regulator given, both the solar cycle as well as the need for warm service water regulates.

The Holding device of the ready to install transfer station is advantageously designed so that they both to the Wall as well as memory can be installed.

Based of the drawings, an embodiment is shown and described in more detail below.

1 : Transfer station, integrated into a solar, storage cycle and service water system

2 : complete transfer station without heat-insulating housing

3 : Transfer station only shown with assembly for the solar cycle

4 : Transfer station only shown with module for the storage circuit

5 : Transfer station only with the module for supplying the service water system with warm water

In the 1 is a transfer station ( 1 ) with connected solar circuit ( 2 ), with connected storage circuit ( 3 ) for the transfer of heat from the storage ( 4 ) to the service water and with a connected service water system ( 5 ). In the connected solar circuit, the heat is transferred from the solar collector directly to the memory, for which this usually has an internal heat exchanger.

In order to be able to utilize also heat with a lower temperature level, the returning strand ( 22 ) of the solar cycle ( 2 ) between transfer station ( 1 ) and memory ( 4 ) divided in two, wherein by a switching valve ( 6 ), which in the complete transfer station of the 2 it can be seen that the fluid is fed into the middle or upper area of the store, depending on its temperature. In the 2 According to the invention, the regulator ( 7 ), the assemblies for the connection of the solar circuit, the storage circuit for the DHW heating and the service water system on a holding device ( 8th ), so that only one transfer station for the two circuits and the domestic water heating must be installed and only put into operation with one controller.

The individual modules are for a better overview in the 3 to 5 individually with their fittings ( 9 ), Pump ( 10 ), the heat exchanger ( 11 ), a balancing valve ( 24 ) and volume flow sensor ( 12 ), curved pipe sections ( 13 ) and the connecting piece for connecting the modules to the pipes of the solar and service water system shown.

After that shows 3 the assembly B1 for connection to the solar circuit with supply and return connections ( 15 ) 15a ) 15b ) 16 ) 16a ). The heat transported from this module B1 into the memory is from the module B2, see 4 , taken again from the store where to the pump of this assembly B2, the heated fluid of the memory ( 4 ) via the connecting pieces ( 17 ) 18 ) in the heat exchanger ( 11 ) and back there again, the heat through the assembly B3, whose pipe pieces ( 13 ) are also connected to the heat exchanger, is transferred to the service water system. For this purpose, the cold water pipe via the connection ( 19 ) and the hot water pipe via the connection ( 20 ) connected to the heat exchanger. In service water systems, which additionally have a drinking water circulation system, a further connecting piece ( 21 ) available.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• EP 1577729 [0004]
• EP 1450109 [0004]
• - DE 10132483 [0004]
• WO 2006/136163 [0004]

Claims (7)

Transfer station ( 1 ) for the joint connection of solar systems and service water systems, both for controlling the fluid flow of a first storage circuit ( 2 ) for the transfer of heat stored in storage using a first heat exchanger ( 11 ) to a service water system ( 5 ), as well as for controlling the fluid flow of a solar circuit for the direct or when using a second heat exchanger and storage circuit for the indirect transfer of solar heat from solar panels in the or the memory is provided, consisting of a controller ( 7 ) and assemblies B1, B2, B3, consisting of fittings, pumps, pipes, heat exchangers, sensors, connecting pieces for connecting the transfer station to the pipes of the solar and service water system and / or similar flow-leading components, and from a holding device ( 8th ) and a one- or multi-part heat-insulating housing ( 23 ), Characterized in that these modules or parts thereof, for both the first storage circuit as well as for the solar circuit and, if necessary, for the second memory circuit - with indirect transfer of solar energy - to together with the regulator and the heat insulating housing has an assembly-ready unit for the direct installation to the pipes of the solar and service water system. Transfer station for the joint connection of solar systems and service water systems according to claim 1, characterized in that the assembly-ready unit, the connections for at least one flow and return ( 15 ) 16 ) of the solar circuit, for at least one supply and return ( 17 ) 18 ) of the first storage circuit, for the feed ( 19 ) with cold service water and for the process with heated service water ( 20 ) having. Transfer station for the joint connection of solar systems and service water systems according to claim 2, characterized in that in addition a connection ( 21 ) is provided for the return of a drinking water circulation system. Transfer station for the common Connection of solar systems and service water systems according to claim 2 or 3, characterized in that in the indirect transmission the solar heat in storage when using the second Heat exchanger in addition to the connections for the solar circuit the supply and return connection are provided for the second storage circuit, and that the second heat exchanger also part is the ready to install unit. Transfer station for the joint connection of solar systems and service water systems according to claim 4, characterized in that the flow line of the solar circuit or the second storage circuit between the heat exchanger and storage for the supply of fluid flow using a switching valve ( 6 ) is split into different levels of the memory and for this purpose a second flow connection is provided. Transfer station for the common Connection of solar systems and service water systems according to claim 1 to 5, characterized in that the regulation of the fluid flow the first storage circuit and the control of the fluid flow of Solar circuit and possibly the second storage circuit only done by a regulator. Transfer station for the common Connection of solar systems and service water systems according to claim 1 to 6, characterized in that the assembly-ready unit for installation on the wall or directly to a storage is provided.