DE19633236B4 - Hot water storage tank and expansion tank for a heating system - Google Patents

Abstract

Hot water storage tank, in particular for domestic water heating of a central heating system, with a heat exchanger designed as a pipe coil (26) and connectable to a pipe network and with a supply and return connection for a heating medium, one end (36) of a pipe running coaxially with the pipe coil (26) (32) is connected to the return connection (14a) of the heating system and the other end (34) of the coaxial line (32) is open for the entry of the heating medium located in the store (10), characterized in that the return connection (14a) is a sleeve (40), which is connected to the connection-side end (36) of the coaxial line (32).

Description

The invention is based on one Hot water storage according to the preamble of claim 1.

Out FR 21 48 923 A a hot water tank according to the features of the preamble of claim 1 is known. The supply line for the heating medium is connected to a heat exchanger arranged within the storage container via a connection which is passed through the housing of the storage container. The heat exchanger is designed as a coaxial line system and arranged within the storage container. The coaxial line system has a pipe coil for the domestic water with a coaxial line for the heating medium, the coaxial line inside the storage tank being open at the outlet.

Another hot water tank is out DE 24 39 310 A1 is known, in which the heat exchanger is also formed as a one-sided open coaxial line system within the storage container.

Out EP 385 700 A1 a hot water tank with a coaxial line system arranged inside the tank is known as a heat exchanger, the coaxial line system inside the tank being open at the entry of the heating medium.

If memories are still known ( DE 37 14 596 A1 ) a heat exchanger designed as a coil is provided with connections for a pipe network in the storage tank for domestic hot water preparation. In addition, the storage can be connected to a heating network via appropriate connections, via which the thermal energy is transferred to the coil arranged in the storage. The domestic water is withdrawn via the connections on the heat exchanger. In order to be able to draw off sufficient quantities of the desired temperature in the storage of the type of service water mentioned without any significant delay, the storage or the heat exchanger must be dimensioned accordingly.

Furthermore, heating systems with hot water preparation are known, in which an expansion vessel for the heating system is located within the primary circuit of a secondary heat exchanger. At the out AT 398 831 B Known heating system, the heat exchanger intended for the preparation of domestic hot water and the expansion vessel are arranged spatially separated from one another.

Out DE 85 29 850 U1 an expansion vessel is also known in which a flow-through heat exchanger is installed in the water-carrying vessel space.

The arrangement according to the invention has the advantage that the effectiveness and speed of heat exchange between the heating medium and the hot water is what positive on the performance / volume ratio of the storage, respectively of the entire heater effect. This will improve the convenience of hot water without any significant increase in volume heater reached. about a cuff becomes the same with the Return connection connected End of the coaxial line branched from the coil.

If the coaxial to the coil extending line is circular in cross section and itself essentially about the entire length of the Extending coil is an effective heat transfer from within the coaxial tube flowing Heating water possible on the process water flowing in the coil.

The heat exchanger works with a coaxial line advantageously according to the countercurrent principle, since this principle the most thermally advantageous Variant is. Since the coaxial line only serves as a flow guide and between the inside and outside of the coaxial line flowing Heating water there are only slight pressure differences, it is advantageous the coaxial line and the sleeve from inexpensive To manufacture plastic.

The pipe coil is by ripping spaced from the coaxial line. Ribs and coil are can be produced in one piece in an advantageous manner and both exist made of a material with a high coefficient of thermal conductivity. This will heat transfer from the heating to the hot water in an advantageous manner further increased.

It is also advantageous that Expansion tank for a heating system as a heat exchanger to train for the preparation of domestic water. This arrangement has the Advantage that by the functional integration of the expansion vessel - heat exchanger for domestic hot water preparation considerable cost savings can be achieved. It will be for both Functions only a pressure-resistant, the heating water absorbing casing needed. At the same time this integration significantly to a compact design of a heater for space heating and hot water heating at.

An embodiment is shown in the drawing and explained in more detail in the following description with further advantages. Show it 1 a store arranged in a heating circuit in a simplified form, 2 an enlarged partial view of the memory in section, 3 a side view of the store and 4 . 5 . 6 . 7 and 8th Sectional views of coaxial lines.

description of the embodiment

1 shows a memory 10 for domestic water heating in a piping system carrying heating water 12 . 14 a heater. One in the pipe system 12 . 14 arranged and by a burner 15 primary heat exchanger charged with combustion gases 16 supplies the memory 10 over the lead section 12 this line system and via a flow connection 12a of memory 10 with heating water for domestic water heating. The return section 14 of the pipe system leads from a return connection 14a of memory 10 via a three-way valve 18 and a heating water pump 20 to the primary heat exchanger 16 back. The arrows shown in solid lines indicate the flow direction of the heating water. The three-way valve 18 enables the supply of one with flow and return connections 22 . 24 indicated heating system with heating water from the same heat source.

Inside the store 10 are the transfer surfaces of a heat exchanger designed as a coil 26 arranged by a connector 28 is connected to a cold water inlet. Through a hot water connection 30 at the other end of the coil 26 hot domestic water can be removed. The arrows shown in broken lines indicate the direction of flow of the process water.

The memory 10 is loaded with heating water by a method known per se. One in the store 10 Arranged, not shown temperature sensor measures the temperature of the heating water in the memory, which is then with heating water through the primary heat exchanger 16 and through the hot water piping system 12 . 14 is recharged when the temperature of the heating water drops below a certain value.

To the efficiency of the heat transfer from the heating water to that in the pipe coil 26 A pipe runs to increase the flow of hot water 32 coaxial to that in memory 10 lying pipe coil 26 , This is one end of the coaxial line 32 than in memory 10 lying open end 34 trained while the other end 36 with the return section 14 of the piping system carrying the heating water 12 . 14 connected is. The coaxial line 32 is just like the pipe coil 26 circular in cross-section and extends essentially over the entire length of the coil 26 , The pipe coil 26 and the coaxial line 32 are in accordance with the embodiment 1 formed as a simple turn, which is essentially along an inner wall 38 of memory 10 extends.

Like in the 2 shown more clearly, the one with the end 36 the coaxial line 32 connected return connection 14a a cuff 40 with connecting piece 42 . 44 on. The connecting piece 42 engages with an inner wall 46 over an outer wall 48 the coaxial line 32 , while going out through an opening 50 In the storage room 10 guided connecting piece 44 with an outer wall 52 against an inner wall 54 one for the return connection 14a belonging sleeve 56 is completed. Over the sleeve 56 becomes the connection with the return section 14 of the pipe system 12 . 14 manufactured. The cuff 40 also has an opening 51 through which the pipe coil 26 for cold water connection 28 is led.

In the embodiment according to 3 is the one in memory 10 arranged coil 26 and the coaxial line 32 formed as a double helix with two turns, whereby the heat transfer area is increased compared to the first embodiment.

The memory 10 is still with an elastic membrane 60 trained partition wall, the one housing the heating water leading half 62 of a housing half holding a gas volume 64 separates. Both halves of the housing 62 . 64 all-round collars at their ends 66 . 68 on between which the membrane 60 with the help of a ring bead 70 is clamped. The one between the membrane 60 and the housing half 64 training room is filled with nitrogen, which builds up a pressure cushion. The housing half 62 is still with a connector 72 for a quick breather through which oxygen in the heating water can be excreted.

Through these features it is possible to use the in memory 10 , or if the memory 10 is integrated in a heating network to compensate for the volume changes occurring in the heating network due to temperature fluctuations. The storage tank then simultaneously designed as an expansion vessel 10 contributes to a particularly compact design of a heater.

The memory 10 works in the following way: With hot water withdrawal via the pipe coil 26 is simultaneously by the in the rewind section 14 arranged heating water pump 20 In the storage room 10 located heating water through the open end 34 the coaxial line 32 promoted, with increased heat exchange between that in the coaxial line 32 pumped heating water and that in the pipe coil 26 flowing domestic water takes place.

The heat exchange takes place in the counterflow principle, ie the cold water connection 28 and the hot water connection 30 the pipe coil 26 are chosen so that in the coil 26 flowing service water opposite to that in the coaxial line 32 pumped heating water flows, which further improves the heat transfer factor. In contrast to the direct current principle can be the final temperature of the in the coil 26 flowing hot water above the final temperature of the in the coaxial line 32 flowing and cooling heating water can be increased.

Because the pipe coil 26 is connected to a pressurized line network and acts as a heat exchanger, it must be pressure-resistant on the one hand and on the other hand consist of a material that has good thermal conductivity; therefore it is used as a material for the pipe coil 26 preferably copper is used. Because the coaxial line 32 and the cuff 40 serve only as a flow guide for the heating water, both can be made of plastic.

About the coaxial line 32 from the pipe coil 26 to be spaced between the two longitudinal webs 58 arranged who, like that 4 - 8th show, can be trained differently. 4 shows a first embodiment of webs 58 by a single manufacturing process simultaneously with the manufacture of the coil 26 can be produced from the coil material. In 5 are the coaxial line 32 and the bridges 58 made in one piece, in 6 are both coaxial line 32 , Bridges 58 and pipe coil 26 formed in one piece. 7 and 8th show a fourth and fifth embodiment of webs 58 , which are modified in the arrangement, but can be manufactured from the manufacture like the first three embodiments.

Claims (13)

Hot water storage, in particular for heating domestic hot water in a central heating system, with a pipe coil ( 26 ) trained heat exchangers that can be connected to a pipe network and a flow and return connection for a heating medium, one end ( 36 ) one to the pipe coil ( 26 ) coaxial cable ( 32 ) with the return connection ( 14a ) the heating system is connected and the other end ( 34 ) of the coaxial line ( 32 ) to the entry of the in the memory ( 10 ) heating medium is open, characterized in that the return connection ( 14a ) a cuff ( 40 ) with the connection-side end ( 36 ) of the coaxial line ( 32 ) connected is. Memory according to claim 1, characterized in that the coil ( 26 ) consists of a pressure-resistant material with high thermal conductivity. Memory according to claim 1 or 2, characterized in that the coaxial line ( 32 ) consists of plastic. Memory according to claim 1, characterized in that the coaxial line ( 32 ) essentially over the entire length of the coil ( 26 ) extends. Memory according to one of the preceding claims, characterized in that in the coil ( 26 ) flowing service water opposite to that in the coaxial line ( 32 ) pumped heating water flows. Memory according to claim 6, characterized in that the sleeve ( 40 ) consists of plastic. Memory according to one of the preceding claims, characterized in that between the coil ( 26 ) and the coaxial line ( 32 ) Bridges ( 58 ) are provided, which the pipe coil ( 26 ) from the coaxial line ( 32 ) distance. Memory according to claim 7, characterized in that the webs ( 58 ) linear along the coil ( 26 ) run and consist of a material with high thermal conductivity. Memory according to claim 7 or 8, characterized in that the webs ( 58 ) in one piece with the pipe coil ( 26 ) are. Memory according to claim 1, characterized in that the hot water tank in an expansion tank for a heating system is integrated. Memory according to claim 10, characterized in that the expansion vessel has a housing and a wall dividing the housing, that the space of one housing part receives the heating medium and the space of the other housing part receives a gas volume, and that the heat exchanger connectable to the water supply network ( 26 ) for domestic hot water preparation in the housing part holding the heating medium ( 62 ) of the expansion vessel is arranged. Memory according to claim 11, characterized in that the heat exchanger designed as a pipe coil ( 26 ) from a line ( 32 ) is surrounded, one end of which ( 36 ) with the return connection ( 14a ) is connected to the heating system, while the other end ( 34 ) the management ( 32 ) for the entry of the in the housing part ( 62 ) heating medium is open. Memory according to claims 11 or 12, characterized in that the housing part receiving the heating medium ( 62 ) of the expansion tank with connections ( 28 . 30 ) for the water supply network and with connections ( 12a . 14a ) is provided for the heating system.