DE1679674A1 - Heat exchanger for preparing hot service water - Google Patents

Description

Heat exchanger for preparing hot domestic water. The invention relates to a heat exchanger for preparing warm service water, which is passed through a helically wound pipe coil which is inserted in a heat exchanger container through which the circulating water of a gas-heated circulating water heater flows, in known heat exchangers for preparing warm domestic water, which are arranged in shunt to the radiators of a central heating system, it has been found that in such systems the training of the @ Iärmetauschers is of particular importance. This applies not only to the generally applicable problem of achieving a particularly favorable heat transfer in 'this heat exchanger, but also to the fact that the heat exchanger is a source of pressure loss in the. Forms circulation water system and this system with regard to the gas-heated circulation water heater certain limits are set with regard to the size of these pressure losses. A heat exchanger for circulating gas water heaters has already become known * (DBGM 1 920 166), in which the domestic water to be heated is passed in a straight line in the longitudinal direction through two cylindrical containers, which are connected in series and in counterflow from part of the circulation - Heated water flows through the water heater, while the remaining part of this water continues to flow through the radiators of a central heating system. This heat exchanger has the disadvantage that its heat transfer surface is relatively small, so that its performance does not meet the requirements placed on such heat exchangers today. This is also evident from the fact that only part of the circulating water is passed through these heat exchangers.

Heat exchangers for other types of systems have also become known in which the medium to be heated is guided in a helically wound pipe coil = (DBGM 1 827 570, USA patent 2 324 707). These systems have the disadvantage that in one case the heat-emitting medium is exposed to a great flow resistance as it passes through the heat exchanger and thus suffers a pressure drop which makes it impossible to use it in heat exchangers of the present type. The same disadvantage also applies to another system, in which the heat-emitting medium is passed through Birte's first coiled tubing, the heat being transferred using the countercurrent principle to a liquid, which is passed through a second coil arranged concentrically to the first coil. In addition to the high pressure losses that occur, these systems can also have the disadvantage that the fluid connections are attached to two opposite ends of the heat exchanger, which can lead to installation difficulties. Also another known continuous water heater in gravity heating systems with a helically wound 2 pipe coil through which the domestic water to be heated is passed cannot meet the requirements made in a central heating system with a circulation water heater serving as a heat source, since in such a case the heat transfer between the heat-emitting circulating water and the service water would be insufficient because the flow velocity is too low.

The invention has for its object to provide a heat exchanger for Prepare hot domestic water to create whichever is special. Requirements an initially mentioned gas-heated circulation = water heater is fair and the Avoids disadvantages of the known heat exchanger mentioned above.

According to the invention, this task is performed on a heat exchanger for preparation of warm service water of the type mentioned at the beginning by combining the characteristics achieves that a) the elongated, vertically arranged heat exchanger container is provided with a central, vertical jacket tube, which is at a distance from Container lid has a freid inlet opening and on the container bottom via a The connection opening is connected to the return line of the circulation water heater, b) a further connection opening is provided on the container bottom to which the The flow line of the circulation water heater is connected, e) concentric and at a distance from the jacket pipe, the pipe coil in the form of two spaced apart and arranged with the opposite direction of winding cylindrically wound tubing coils whose inner ends are connected to one another and whose other ends are connected to the bottom of the container are led out and finally d) both coils over the entire length of the jacket pipe extend. Through the management of the domestic water several helically wound tubing coils take up a relatively small space a large heat transfer surface is achieved in the heat exchanger. Due to the alignment of the helical coils with their longitudinal axis in the direction of flow of the Circulating water and by the distance between the individual coiled tubing and the central one Casing pipes become a relatively large passage cross-section and for the heat transfer reached favorable flow conditions for the circulating water, so that the circulating water traverse at a sufficiently high speed with relatively little pressure loss what can do for the operational safety of the gas-fired circulation water heater Investment is important. In addition, with this arrangement, the production of the heat exchanger, the concentric coils of which are easily pushed into one another and at .den desired ends for the purpose of series connection by short sleeves can be connected to each other.

In a preferred embodiment it is provided that the distance of the coils from each other, against the central jacket, pipe and the outer Container wall is secured by wires running parallel between these parts to the longitudinal axis of the central. Jacket pipe run. There is also training so-taken that the wires as closed, each over the first and letute_ Winding of a coiled tubing guided, in the longitudinal direction of the coils extending endless Loops are arranged.

The subject matter of the invention is based on an exemplary embodiment the drawing explained.

In detail: FIG. 1 shows a schematic representation of circulating water heating for a central heating system with domestic water heat exchanger ;, Fig. 2 shows a vertical longitudinal section through a domestic water heat exchanger for one Plant according to Figure 1; Fig. 3 is a section along the line III-III in Fig. 2 ..

The schematic representation in Figure 1 shows a circulation water heater with a heat exchanger serving to heat the circulating water, which acts as a lamellar block 10 is formed with a pipe coil penetrating this, and a gas burner 11, to which the gas is fed through a gas supply line 12, a gas shut-off valve 13 Gas safety valve 14 and a gas flow regulator 15 with a float element 16 and a first secondary channel 17 and a second secondary channel 18 is fed. That Gas safety valve 14 is dependent on a low water protection device 19 one between a high pressure chamber 20 and a low pressure chamber 21 occurring pressure difference controlled. The construction of such a gas-heated circulation Water heater is known and therefore does not need to be described in more detail in this context to be discribed.

The water heated in the lamellar block 10 reaches a branch point 23 via a flow line 22, at which a three-way valve 24 operated by an electric motor, for example, is arranged, and - depending on its position - either via a flow branch line 23 to schematically indicated radiators 26 of the central heating system or via a flow branch line 27 into a heat exchanger 28 for the preparation of warm service water which, according to the exemplary embodiment, is designed as a heat exchanger with a heat supply. A return branch line 29 leads from the radiators 26 of the central heating system to a junction 30 with the return branch line 31 coming from the domestic water heat exchanger 28. to which an expansion vessel 34 is connected, and via a circulating pump 35 back into the hamellenblock 'f0 of the gas-heated water heater. leads. The three-way valve 24 could also be arranged at the junction 30 of the two return branch lines 29 and 31 without changing the function of this three-way valve. Between the flow and the return of the water heater, a connection line 36 is provided for supplying warm flow water into the return line, which is controlled by a thermostatically operated reversing valve 37 which is arranged at the junction of the connection line 36 from the flow branch line 25. With the aid of the flow water conducted into the return via the connecting line 36, when the gas-heated circulating water heater is started up, cooling of the lamellar block 10 causing condensation is prevented during the start-up period of the circulating water heater. The domestic water flows from a cold water supply pipe 3 £ i Via a hydraulic switch 39 and a line 40 through a pipe coil inserted in the heat exchanger 28 to a nozzle 41. The hydraulic switch 39 can be used to switch a solenoid valve on and off on the gas flow regulator 15 to control the second secondary channel 18 and to switch the three-way valve 24 or used to switch another control or regulating element of the system -. Earth '. On the hydraulic switch 39 can be used as a temperature selector for. the domestic water serving valve 42 can be provided.

The domestic water heat exchanger 28 is in the embodiment shown preferred. Embodiment as a heat exchanger with heat supply; educated and therefore, according to FIGS. 2 and 3, provided with an outer thermal insulation layer 43. According to the known type of boiler, the tank consists of a cylindrical outer jacket 44, which has caps welded to the outer casing edges at both ends' 45 and 46 is closed. .That in the gas-heated circulation water heater heated circulating water arrives at a corresponding flow position of the three-way valve 24 via the flow branch line 27 through a connection opening 47 in the container cap 46 into the interior of the container: In this a central jacket tube 48 is attached, which according to the embodiment at a distance from the cap 45 of the container a has free passage opening 49 through which the circulating water into the interior of the jacket tube 48 occurs. From there it is passed through the cap 46 and connected power 50 connected to the jacket pipe 48 in the return branch line 31. The circulating water contained in the container is constantly at a certain temperature held, which is measured by means of a temperature sensor, not shown, which is introduced into the cap 45 of the container via a central connection piece 51 will. The cap 45 also has a pipe connection stub 52 for a vent line on.

The domestic water to be heated is passed through two helical, zrlindristhe pipe coils 53 and 54, which are arranged concentrically one inside the other. The outer coiled tubing 53 is designed to be common, while the inner coiled tubing 54 is designed to be right-handed. Both coils 53 and 54 are rearwardly connected in that their upper ends 531 and 541 in the drawing are connected to one another by means of a short sleeve 55. In the drawing, the lower ends 532 and 542 of the two pipe coils 53 and 54 are routed to the outside in addition to the jacket pipe connection line 50 ir 7:. # Through the d-.t, cap 46 of the container. The coiled tubing lying in a similar disturbance of the circulating water is secured by wires 56, one of which is shown in FIG. These wires also keep a distance between the individual coiled tubing. The warm flow water arriving via the flow branch line 27 passes through the connection opening 47 in the lower cap 46 of the heat exchanger 28 shown in FIG. 2 into the water tank of this heat exchanger and flows between it. the two coils. 53 and 54, the outer jacket 44 and. the central. Jacket tube 48 upwards, is deflected in the area of the upper cap 45 of the container and passes in the opposite direction through the passage opening 49 into the central jacket tube 48, and through this via the connection line 50 again through the lower container cap 46 to the outside, where it flows into the return branch line 31.

The domestic water to be heated flows after the nozzle has been opened 41 reaches the outer end 542 of the inner coiled tubing 54 via the newspaper 40 through this coiled tubing to its inner end 541, further over the sleeve 55 in the inner end 531 of the outer coiled tubing 53 and back again in this coiled tubing bid to its outer end 532, which through the lower container cap 46 to the outside and is connected to a newspaper leading to the nozzle _41. On his .Weg through the two coiled tubing 53 and 54, the domestic water is dependent heated by the temperature of the circulating water flowing through the tank. Of the With this structure, the heat exchanger works according to the cross-flow principle.

The heat exchanger shown in Figures 2 and 3 can be different Way to be modified. So can more than two concentric to each other Coiled tubing are provided. All coils could also be wound in the same direction be, so either all right or all left ''. If the pressure loss should be reduced, the coils could also be connected in parallel to one another Be formed pipe sections. The. Connection openings for the circulating water and f or the domestic water do not need in a cap of the container to be arranged, but could be z-. B. also through the outer jacket 44 to the outside be directed. The flow conditions for the circulating water in accordance with the invention trained heat exchangers are so cheap that several heat exchangers in a row could be peeled. The central jacket tube 48 could only be used as Serve flow guide for the circulating water if a connection opening for the circulating water is provided at a different point in the tank.

Claims (3)

P a t e n t a n s p r ü c h e `1. Heat exchanger for preparing warm service water, which is passed through a helically wound pipe coil throw which into one of the circulating water of a gas-heated circulating water heater Heat flowing through the pipes at right angles to the pipe coil = exchanger & container used is, g e k e n n n z e i c h n e t by the union of the features that a) the elongated, vertically .. arranged heat exchanger container (44, 45, 46) with a central, vertical jacket tube (48) is provided, soft at a distance from the container lid (45) has a free inlet opening (49) and on the container bottom (46) via a Connection opening (50) connected to the return line (31) of the circulation water heater is, b) a further connection opening (47) is provided on the container bottom (46), to which the flow line (27) of the circulation water heater is connected, c) concentrically and at a distance from the jacket pipe (4ß) the pipe coil in the form of two at a distance from each other and with opposite winding directions cylindrical wound tube coils (53, 54) is arranged, the inner ends (531, 541) with each other connected and the other ends (532, 542) on the container bottom (Q.6,). led out are and finally d) both coils (53,54) over the entire length of the Cover pipe (48) extend. 2. Heat exchanger according to claim 1, d a d u r c h g e k e n n n z e i c h -n e t that the distance between the pipe coils (53, 54) from one another, opposite the central jacket tube (48) and the outer container wall (44) Wires (56) is secured, which file between these parallel "i.to the longitudinal axis of the central jacket tube (48). 3. Heat exchanger according to claim 2, characterized in that the wires (56 ) as closed, each over the first and last turn of a coiled tubing (53, 5 ¢) guided, in the longitudinal direction of the Jendeln (53, 5 ¢) extending endless Loops are arranged: