DE29813784U1 - Hot water tank - Google Patents

Description

B.uss.e & Busse .ß-ajte'ntanwälte

'Eurdßean Patent and Trademark Attorneys

Dipl.-Ing. Johannes Kowert _.. . . _. . .. _n

—"* ⁵ ^ —— Dipl.-Ing. Dr. iur. V. Busse

Im Esch 10 Dipl.-Ing. Dietrich Busse

49090 Osnabrück Dipl.-Ing. Egon Bünemann

Dipl.-Ing. Ulrich Pott

Wholesale Ring 6

D-49084 Osnabruck

PO Box 1226

D-49002 Osnabruck

Telephone: 0541-586081 Fax: 0541-588164

31.07.1998 IdS/St-698040

Hot water tank

The invention relates to a hot water storage tank according to the preamble of claim 1.

Such hot water storage tanks (DE 44 11 352 Cl) are designed as hot water stratified storage tanks in which a heating medium heated in a known heating system, e.g. a boiler heated with fossil fuels, a solar heating system or a heat pump system, is effective via a heat exchanger. An increased flow velocity is generated via a central pipe with outlet openings and check valves at different heights and the heat transfer from the heat exchanger to the storage medium is accelerated. This is used to heat the domestic or heating water flowing in discharge pipe coils in the hot water storage tank and can be used by consumers. Such hot water storage tanks have disadvantageously limited storage capacity.

The invention is based on the object of creating a hot water storage tank whose heat storage capacity can be adapted to different installation and usage conditions with little technical effort and at the same time enables rapid adaptation.

adaptation to different heat supply and extraction conditions.

The invention solves this problem by a hot water tank with the features of claim 1. With regard to essential further embodiments, reference is made to claims 2 to 10.

The advantage of the inventive hot water storage tank is that, on the one hand, at least one additional storage tank is connected directly to the central storage tank with a stratified charging device and one or more discharge pipe coils. On the other hand, the additional storage tank is connected to the central storage tank with a stratified charging device. In the central storage tank in the area of the stratified charging device, the additional storage tank keeps the storage medium (water) at a much higher temperature than in the connected additional storage tank. This is used to heat up domestic water. In this way, a heat storage tank can be used in the heating system, the storage volume of which can be increased considerably and variably compared to comparable conventional systems, without the use of expensive and complicated control technology. This means that, for example, in times of moderate to medium water demand, the burner remains switched on for a relatively long time despite its high heating output, which is usually designed to meet the heat demand on the coldest day, and can therefore work optimally until the heat storage is fully charged again, or a burner with a lower heating output is selected, or when using solar energy, more heat is stored on sunny days and released accordingly on cold days through warm water and heating.

Further details and advantages of the invention emerge from the following description and the drawings, which illustrate an embodiment of the heat storage device according to the invention. In the drawing:

Fig. 1 is a sectional view of a hot water tank in the form of a multi-chamber unit according to a line I-I in Fig. 2,

Fig. 2 is a plan view of the hot water tank according to Fig. 1 in a sectional plane II-II in Fig. 1,

Fig. 3 is a plan view similar to Fig. 2 with a section plane III-III in Fig. 1,

Fig. 4 an enlarged detail of the

Center tube of the heat exchanger according to Fig. 1,

Fig. 5 is a plan view of the central tube according to Fig. 4,

Fig. 6 is an enlarged view of a layered loading device connecting the multi-chamber unit, and

Fig. 7 is a sectional view of the layer charging device according to a line V-V in Fig. 6.

The multi-chamber unit shown in Fig. 1 and designated as M is constructed by coupling one or more additional heat storage units 2, 3 to the central storage unit 1 by means of a connection that acts as an exchange pipe.

-A-

connecting pipe 4 and a device 6 with a passage opening 5. The flow openings 4' and 5 of these pipe parts have a cross section of at least 1 to 10% of the nominal area of the central storage tank 1. The upper connecting pipes 5 are mounted together with the stratified charging devices 6, which are designed with outlet openings 8 and check valves 9 arranged at different heights. These stratified charging devices 6 have a length L of 0.25 to 0.5 of the height H of the central storage tank.

During charging, the storage medium (water) in the lower area of the central storage tank 1 is heated in the charging heat exchanger 10 and flows at a higher temperature through the central pipe (layered charging device) 11 into the upper part of the central storage tank 1. This central pipe (layered charging device) 11 also has outflow openings 8' and check valves 9' arranged at different heights. The heated water flows out essentially at the height at which the water outside the central pipe 11 has the same temperature as the rising water, pushes the check valves 9 downwards, opens the outflow openings 8 and forms several layers of hot water, each layer having its own temperature. In the event of a strong upward flow in the central pipe (stratified charging device) 11, the check valves 9 will close the outflow openings 8 due to a suction that is created, and no cold water will enter the central pipe (stratified charging device) 11 and cool down the heated storage medium (water).

If the water temperature in the level of the lower inlet opening 7 of the stratified charging device 6 of the central storage tank 1 becomes higher than in the upper part of the additional heat storage tank 2, 3, then charging of the additional heat storage tank 2, 3 begins. The storage medium (water) with the higher temperature flows through the stratified charging device 6 into the upper part of the additional heat storage tank 2, 3 and pushes the cold water through the connecting pipe 4 into the lower area of the central storage tank 1. There, the cold water is heated up in the charging heat exchanger 10 and pumped upwards via the central pipe 11 (stratified charging device). This continues until the additional heat storage tanks 2, 3 in the level of the lower inlet opening 7 of the stratified charging device 6 have the same temperature as the central storage tank 1 on the same level.

Thereafter, the storage medium (water) in the central storage tank below the lower inlet opening 7 of the stratified charging device 6 and the additional heat storage tanks 2, 3 are heated simultaneously until the water temperature in the level of the charging heat exchangers 10 reaches the maximum temperature that the heat exchanger 10 delivers.

When hot domestic water is used, cold water is pumped through the discharge pipe coil 12, which runs through the entire height of the central storage tank 1. A second discharge pipe coil 13 is used for heating support. It is arranged from the lower (cold) area to the level of the lower inlet opening 7 of the stratified charging device 6 in the central storage tank 1. When domestic water and heating support are used, the water cools down

in the central storage tank 1, flows downwards and pushes warm water upwards in the additional storage tanks 2 and 3. In this process, warm storage medium (water) comes from the additional heat storage tanks 2 and 3 into the central storage tank 1 through the stratified charging device 6.

If the temperature of the storage medium in the upper part of the central storage tank 1 is lower than in the additional heat storage tanks 2 and 3, then hot water pushes the non-return valves 9 at the outlet openings 8 of the stratified charging device 6 downwards and hot water flows back into the central storage tank 1.

If the temperature of the storage medium in the upper part of the central storage tank 1 is higher than in the additional heat storage tanks 2 and 3, the hot water in the central storage tank 1 pushes the non-return valves 9 at the outlet openings 8 of the stratified charging device 6 closed and the storage medium (water) flows from the additional heat storage tank 2, 3 into the central storage tank 1 through the next lower outlet openings 8 or finally through the inlet openings 7 of the stratified charging device 6. The storage medium remains in the upper part of the central storage tank 1 with a higher temperature and gives its heat to the domestic water. If the temperature in the central storage tank 1 falls lower than in the additional storage tank 2, the storage medium (water) with a higher temperature is automatically replenished from the additional storage tanks 2 and 3 through the stratified charging device 6.

Further structural details of the multi-chamber unit M are shown in principle in the drawings, wherein the layer charging device 6, 6' consists in particular of a heat-

insulating material, the containers 1, 2 can have a hexagonal cross-sectional contour and in the additional storage 2, 3 a container B is provided which holds a latent heat storage substance.

Claims (10)

1. Hot water storage tank, with a thermally insulated, closed container part, in which a central pipe ( 11) extends on the bottom side, which cooperates with a charging pipe coil (10 ) containing a heating medium and which has outflow openings ( 8 ') arranged at different heights for heated, rising storage water, by means of which discharge pipe coils ( 12 , 13 ) running in the container and leading out of it to a consumer can be heated, characterized in that the hot water storage tank is designed as a multi-chamber unit (M) with the container part as a central storage tank ( 1 ), which is connected to at least one additional storage tank ( 2 , 3 ) via a stratified charging device ( 6 ; 6 ') arranged near the upper end region of the central pipe ( 11 ) and a bottom-side exchange pipe ( 4 ). 2. Hot water storage tank according to claim 1, characterized in that the central storage tank ( 1 ) is connected to a plurality of additional storage tanks ( 2 , 3 ) via a respective stratified charging device ( 6 , 6 ') and a respective bottom-side exchange pipe ( 4 ). 3. Hot water storage tank according to claim 1 or 2, characterized in that the central storage tank ( 1 ) has a polygonal peripheral contour in cross-section and is connected to an additional storage tank ( 2 , 3 ) on each of its side surfaces. 4. Hot water storage tank according to one of claims 1 to 3, characterized in that the stratified charging device ( 6 ; 6 ') is designed as an angled tubular body, the long tubular part of which runs upwards along the wall of the central storage tank ( 1 ) and opens into the additional storage tank ( 2 , 3 ) at the top in the region of the short tubular part. 5. Hot water storage tank according to claim 4, characterized in that the tubular body is provided in its wall region directed towards the interior of the central storage tank ( 1 ) with a plurality of flow openings ( 8 ) arranged one above the other and directed obliquely downwards, which can be closed by check valves ( 9 ). 6. Hot water tank according to claim 5, characterized in that the check valves ( 9 ) each have a floating plate or ring part as a closure. 7. Hot water storage tank according to one of claims 4 to 6, characterized in that the stratified charging device ( 6 ; 6 ') is formed in the region of the long pipe part with a length (L) of 0.2 to 0.6 of the height (H) of the central storage tank ( 1 ). 8. Hot water tank according to one of claims 1 to 7, characterized in that the bottom-side exchange pipe ( 4 ) or the stratified charging device ( 6 ; 6 ') each have a passage opening ( 4 '; 5 ) provided with a cross section of 1 to 10% of the cross section of the central tank ( 1 ). 9. Hot water storage tank according to one of claims 1 to 8, characterized in that the stratified charging device ( 6 ; 6 ') consists of a heat-insulating material. 10. Hot water storage tank according to one of claims 1 to 9, characterized in that one or more containers (B) with a heat storage substance at least partially filling their respective interior is/are provided in the additional storage tank ( 2 , 3 ).