DE10247736A1 - Heater has circulating circuit with hot water pipe, circulating pipe, pump, return valves, storage circuit, heat source and heat exchanger - Google Patents

Abstract

The circulation circuit (4) consists at least of a hot-water pipe (5) and a circulating-pipe (6), a pump (7) operating in both directions, and one or more return valves (18,28). A storage loading circuit (3) and the circulation circuit possess a shared pipe-section (9) containing the pump and are mutually shut off by the return valves. The heater has at least one heat source (1), and hot water accumulator. The circulation circuit and heat source are connected by a heat-exchanger (15).

Description

The invention relates to a heating system with a hot water tank and Circulation line according to the preamble of the independent claims.

In heating systems, hot water tanks are often integrated to a large amount to keep warm water. This makes it possible for relatively small ones Heat generator services can nevertheless temporarily remove large heat flows. On the other hand, short heat generator operating times are that of fossil heat generators are always associated with high pollutant emissions avoided. To do that in Heating water in the hot water tank is often done using a circulation pump relatively cold water from the lower area of the hot water tank through a Heat exchanger, which receives heat from a heat generator, promoted and then returned to the hot water tank. That in the hot water tank Any water present is heated up when there are appropriate amounts of cold water Water flows into the hot water tank, as well as when the hot water tank cools down due to loss of standstill.

Hot water is supplied to the hot water tank via a hot water pipe taken. The extraction line to the tap cools down after the tap, so that after For some time only cold water is available at the tap for another tap stands. The user then has to baptize large amounts of water unused through the tap leave if he wants to tap warm water. To avoid this, a Circulation line, i.e. another line that led up to shortly before the tapping point is used to keep warm water in the resulting circuit.

For heating systems with hot water storage and circulation pipe according to the status the technology for storage tank charging and hot water circulation Circulation pump needed, although it is usually not necessary for storage charging and hot water circulation take place simultaneously, especially for reasons of energy saving permanent operation of the circulation pump must be avoided. As a consequence, that at least one of the two pumps is always at a standstill, but still space and Costs claimed.

The aim of the invention is to avoid this disadvantage and a heating device to propose the type mentioned, which is only a circulation pump for the Storage charging and hot water circulation required.

According to the invention, in the case of a heating device according to independent claim 1 achieved that a pump for both the storage charge and the Hot water circulation can be used while these two processes continue before are clearly separated from each other.

This is achieved according to claim 1 in that the common pump in one common line section of the storage tank charging circuit and the circulation circuit and the two circuits through one-way flow check valves are separated from each other. The valves open or close depending on the direction of conveyance.

According to claim 2, there is the advantage that the pump deliver in both directions can, whereby on both sides of the pump - depending on the direction of delivery - a lower or Overpressure is created and the valves open or close.

What is achieved by the features of claims 3 and 4 is that each cycle does not can flow through, since one check valve closes while the other circuit is flowed through.

According to the features of claims 5 and 6, the possibilities for actuation of the check valves.

Due to the features of independent claim 7, another possibility of Achieving the same effect as described by claim 1. Accordingly the storage charging circuit and the circulation circuit also have one common pump in a common line, the two circuits can be flowed through alternately by a switching valve.

The features of claim 8 gives the advantage that in the hot water circulation heat from a heat source can be introduced into the system at the same time.

The invention will now be explained in more detail with reference to the drawings. It shows:

Fig. 1 and Fig. 2 an embodiment of a heating device according to the invention during the loading of the store Brauchwasserzirkualtion,

Fig. 3 and Fig. 4 shows a second embodiment,

Fig. 5 and Fig. 6 shows a third variant, and

Fig. 7 and Fig. 8 shows a fourth embodiment of a heating device according to the invention during storage charging and hot water circulation.

The same reference symbols in the individual drawings each have the same meaning.

Fig. 1 and 2 show a heating device with a heat source 1, which is a circulation circuit 3 is connected via a heat exchanger 15 and a hot water storage tank 2. The circulation circuit 3 has a line 11 , in which a check valve 8 is located, in the lower area of the hot water tank 2 , one side of the heat exchanger 15 , a reversible pump 7 and a line 9 , which projects into the upper area of the hot water tank 2 . A hot water discharge line 12 , in which a check valve 28 is located and which opens into the hot water line 5 , protrudes from the upper area of the hot water tank 2 . A circulation line 6 , which - not shown - is connected to the hot water line 5 in the vicinity of a consumer, opens into the upper area of the hot water tank 2 . A connecting line 13 , in which a check valve 18 is located, connects the circulation circuit 3 between the heat exchanger 15 and the pump 7 to the hot water line 5 . The line 9 , the pump 7 , the connecting line 13 , the hot water line 5 and the circulation line 6 form the circulation circuit 4 in connection with the hot water tank 2 . A cold water supply line 10 opens into the lower area of the hot water tank 2 .

When the stored charge on the storage charging circuit 3 of FIG. 1, the pump pumps water from the hot water tank via the line 11. The check valve 8 opens due to the negative pressure caused by the pump 7 . This negative pressure is also present at the check valve 18 , as a result of which it closes due to its installed position. As a result, the storage tank charging circuit 3 is flowed through and the water of the hot water storage tank is heated in the heat exchanger 15 while the heat source 1 is in operation. The circulation circuit 4 remains unaffected by the closure of the check valve 18 . In the hot water circulation according to Fig. 2, the conveying direction of the pump 7 is reversed. As a result, the check valve 8 is located on the pressure side of the pump and closes, as a result of which the storage charging circuit 3 can no longer be flowed through. At the same time, the check valve 18 opens and water is conveyed in the circulation circuit 4 . The closed check valve 28 prevents water from the line 9 via the connecting line 13 running straight back through the hot water discharge line 12 into the hot water tank 2 and thus the hot water line 5 would not flow through.

In the case of domestic water tapping, which is not explicitly shown, opening a consumption point brings about a pressure difference at the check valve 28 , which opens and enables water to be drawn off. The store charging circuit 3 , the connecting line 13 and the circulation line 6 are not flowed through due to the lack of a driving force.

The second variant according to FIGS. 3 and 4 also has a reversible pump 7 , which, however, is connected to the line 11 , which projects into the lower region of the hot water tank 2 . The storage tank charging circuit 3 has the line 11 , the pump 7 , the heat exchanger 15 and a line 16 which projects into the upper region of the hot water tank 2 and has a check valve 48 . The hot water line 5 is connected directly to the hot water tank 2 without a check valve. The circulation line 6 has a check valve 38 and is connected to the line 16 , the circulation line 6 and the hot water tank 2 being separated by the check valve 48 . The circulation circuit 4 thus comprises the circulation line 6 , the heat exchanger 15 , the pump 7 , the line 11 and the hot water tank 2 . In this case, the storage tank charging circuit 3 and circulation circuit 4 have the common path 17 , which runs from the confluence of the circulation line 6 into the line 16 via the heat exchanger 15 , the pump 7 and the line 11 .

In the storage charging mode, the pump 7 sucks the cold water via the line 11 from the lower area of the hot water tank 2 , pumps it via the heat exchanger 15 in which it is heated, and conducts it again via line 16 into the upper area of the hot water tank 2 . The check valve 48 opens and the check valve 38 closes the circulation line 6 .

By reversing the direction of the pump 7 , the water is drawn in from the hot water tank via the hot water line 5 , reaches the heat exchanger 15 via the circulation line 6 , is heated there and flows via the line 11 into the lower region of the hot water tank 2 . In this case, the check valve 38 opens and the check valve 48 closes the line 16 .

In the third variant according to FIGS. 5 and 6, the check valves are dispensed with and a changeover valve is used instead. The hot water pipe 5 is connected directly to the hot water tank 2 . A line 11 , which leads to a changeover valve 14 , projects from the lower region of the hot water tank 2 . The circulation line 6 goes from here on the one hand; on the other hand, a line leads via the pump 7 to the heat exchanger 15 and further via a line 19 into the upper region of the hot water tank 2 . In this case, storage tank charging circuit 3 and circulation circuit 4 have the common path 17 , which runs from the confluence of the circulation line 6 into line 11 via which the pump 7 , heat exchanger 15 and line 19 run.

During the store charging operation, the changeover valve 14 connects the line 11 to the pump 7 , as a result of which water is conducted and heated from the lower region of the hot water tank 2 via the heat exchanger 15 , and then returned to the hot water tank 2 via the line 19 .

In the circulation mode, the changeover valve 14 is switched, whereby the circulation line 6 is connected to the pump 7 . Warm water from the upper area of the hot water tank 2 flows into the hot water pipe 5 and displaces the cold water therein; this flows via the circulation line 6 and the pump 7 into the heat exchanger 15 , is optionally heated therein, and flows via the line 19 into the upper region of the hot water tank 2 .

In the fourth variant according to FIGS. 7 and 8, in contrast to the variant according to FIGS. 5 and 6, the pump 7 is installed downstream of the heat exchanger 15 and the circulation line 6 opens out between the heat exchanger 15 and the pump 7 .

In the storage charging mode, the switching valve 14 connects the heat exchanger 15 with the pump 7, is performed whereby water from the bottom of the hot water tank 2 via the heat exchanger 15 and heated, and then via the conduit 9 is heated to enter the hot water tank 2 again.

In the circulation mode, the changeover valve 14 is switched, whereby the circulation line 6 is connected to the pump 7 . Warm water from the upper area of the hot water tank 2 flows into the hot water pipe 5 and displaces the cold water therein; this flows via the circulation line 6 and the pump 7 into the upper region of the hot water tank 2 without - as shown in FIG. 6 - passing through the heat exchanger 15 . REFERENCE LIST 1 heat source
2 hot water tanks
3 storage charging circuit
4 circulation circuit
5 hot water pipe
6 circulation line
7 pump
8 check valve
9 pipe (in the upper area of the hot water tank)
10 cold water supply pipe
11 pipe (in the lower area of the hot water tank)
12 hot water discharge pipe
13 connecting line
14 changeover valve
15 heat exchangers
16 line
17 common line
18 check valve
28 check valve
38 check valve
48 check valve
19 management
23
24

Claims (8)

1.Heating device with at least one heat source ( 1 ), a hot water tank ( 2 ), a storage tank charging circuit ( 3 ), a circulation circuit ( 4 ) consisting of at least one hot water line ( 5 ) and a circulation line ( 6 ), a pump ( 7 ) and one or a plurality of one-way flow check valves ( 8 , 18 , 28 , 38 , 48 ), characterized in that the storage tank charging circuit ( 3 ) and the circulation circuit ( 4 ) via a common line section ( 9 , 17 ) in which the pump ( 7 ) located, and are separated from each other by the check valves ( 8 , 18 , 28 , 38 , 48 ). 2. Heating device according to claim 1, characterized in that the pump ( 7 ) can deliver in both directions. 3. Heating device according to one of the preceding claims, characterized in that at least one check valve ( 18 , 38 ) in the circulation circuit ( 4 ) prevents the flow through the circulation circuit ( 4 ) during storage charging. 4. heater according to one of the preceding claims, characterized in that at least one check valve (8, 48) prevents the flow through the accumulator charging circuit (3) during the circulation mode offers in the accumulator charging circuit (3). 5. Heating device according to one of claims 3 or 4, characterized in that the check valve ( 18 , 48 ) closes by negative pressure on the suction side of the pump ( 7 ). 6. Heating device according to one of claims 3 or 4, characterized in that the check valve ( 8 , 38 ) closes by overpressure on the delivery side of the pump ( 7 ). 7. Heating device with at least one heat source ( 1 ), a hot water tank ( 2 ), a storage tank charging circuit ( 3 ), a circulation circuit ( 4 ) consisting of at least one hot water line ( 5 ) and a circulation line ( 6 ), a pump ( 7 ) and one Switchover valve ( 14 ), characterized in that the storage tank charging circuit ( 3 ) and the circulation circuit ( 4 ) have a common line section ( 9 , 17 ) in which the pump ( 7 ) is located, and the switchover from the flow through the storage tank charging circuit ( 3 ) on the circulation circuit ( 4 ) or vice versa by means of the changeover valve ( 14 ), which is located at one end of the common line section ( 9 , 17 ). 8. Heating device according to one of the preceding claims, characterized in that the circulation circuit ( 4 ) via a heat exchanger ( 15 ) which is connected on the secondary side to the heat source ( 1 ) runs.