NL194209C - Water heating device. - Google Patents

Description

1 194209

Water heating device

The invention relates to a water heating device for heating consumption water, which is provided with a mixing valve controlled by the outside temperature and connected to a consumption water and a cold water connection and a buffer storage vessel for receiving heated heating or consumption water, as well as an insulation , within which the buffer storage vessel is arranged.

In such water heaters, which are usually combined heaters, which heat both consumption and heating water, to avoid delays in the flow of hot consumption water at the start of the draw-off, a buffer storage vessel is arranged, which absorbs either 10 heating water heats consumption water via a heat exchanger, or that absorbs consumption water directly. In the latter case, the insulation maintains a correspondingly high temperature, even at longer intervals between drains.

In the known water heating devices of this type, the mixing valve is arranged in the vicinity of the tap point.

However, the disadvantage arises here that during long pauses between draining the control piston of the mixing valve assumes a position corresponding to the room temperature, so that at the start of draining the flow of consumption water, which is at the level of the temperature in the storage vessel, opened wide, and the cold water inlet is almost closed. As a result, a very high outlet temperature is obtained shortly after the start of the tapping, which on the one hand can lead to burns, and on the other hand is accompanied by an unnecessary energy loss, which leads to a subsequent temperature reduction due to the small volume of stock. The course of such a draw-off curve is shown in figure 6. Only after a while does the outlet temperature set with the mixing valve set.

The object of the invention is to avoid these drawbacks and to provide a water heating device of the type mentioned in the introduction, wherein the temperature peaks and temperature dips occurring in the known devices are avoided at the start of the tapping.

This is achieved according to the invention in that the mixing valve is arranged within the space enclosed by the insulation.

In this way it is ensured that the mixing valve is also exposed to the high temperature of the consumable water during the intervals between draining. As a result, at the beginning of the draw-off, the supply water for consumption water is largely closed and that of the cold water is largely open.

As a result, the consumable water flows out at a relatively low temperature at the start of draining, but the temperature quickly rises due to the rapid activation of the control device of the mixing valve. This avoids burns with certainty on the one hand and avoids energy loss through the outflow of hot water on the other. Moreover, this measure provides the advantage that excessive control, such as occurs with the known devices, is avoided.

According to a further inventive feature, the mixing valve can be arranged in the immediate vicinity of the buffer storage vessel.

In this way, the advantage is obtained that the mixing valve is kept at a temperature substantially corresponding to the temperature of the drinking water.

40

The invention will now be explained in more detail with reference to the drawing.

Thereby: figure 1 schematically shows a water heating installation, figure 2 shows a section through a storage vessel, figure 3 shows another section through a storage vessel, figures 4 and 5 schematically show a mixing valve in various operating modes, and figures 6 and 7 diagrams.

In all seven figures, the same reference symbols always mean the same details.

Figure 1 schematically shows a combined water heating device. Here, a buffer storage vessel 1 is arranged, the interior of which is connected via a supply line 2 and a return line 3 to a heating device for heating heating water for a space heating device 11. The heating device for heating heating water is formed by a burner 9 and a heating heat exchanger 10, wherein a circulation pump 13 is arranged in order to maintain a flow through the space heating device 11 and the heat exchanger 10, as well as the buffer storage vessel 1.

The heating water at circulation pump 13 becomes dependent on the position of changeover valve 20

Claims (2)

194209 2 is controlled by an electric motor 21 via a line 22 from the control unit 23, either supplied from the heating circuit 11 via the return line 24 or via the return line 3 from the buffer storage tank 1. The heating water circuit is closed via the supply line to the space heating device 11 or via the supply line 2 to the buffer storage tank. The burner 9 is controlled via a fuel valve 12, which is actuated by a magnetic drive 25, which is connected to the control unit 23 via a control line 26. The ignition of the fuel-air mixture takes place via an ignition device 27, which is connected via the ignition line 28 to control unit 23. Burner 9 becomes dependent on the information from the sensors for the supply temperature of the heating water, the temperature of the storage vessel. 30 and the cold water flow 31, which are connected to the control 23 via the pipes 32, 33 and 34, are activated as required. In the interior of buffer storage vessel 1, which contains heating water as a buffer medium, a tube coil 4 which can flow through through consumption water is further arranged, which is connected at one end to a cold water connection 5 and at the other end to a mixing valve 6. Instead of the consumption water the heating water can also be fed into the tube spiral and the consumption water serve as a buffer medium. This mixing valve 6 is connected with its one connection 16 to the cold water connection 5 and is connected to a mixing water connection 15 via a pipe running to a tap point (not shown). The hot water connection 14 is connected to the pipe coil 4. The mixing valve 6 is provided with a control device, which, depending on the mixing temperature, controls the flow of hot and cold water to the valve 20, in order to be able to maintain a preset temperature of the water flowing in line 7. Mixing valve 6 is arranged near buffer storage vessel 1 in a space enclosed by an insulation 8 and enclosing buffer storage vessel 1 (figure 2). When mixing valve 6 according to figure 3 is placed, it is immediately mounted on the outer wall 35 of buffer storage vessel 1 and is therefore kept substantially at the temperature of the water in buffer storage vessel 1. It can also be seen from Figure 3 that mixing valve 6 is provided with a pointer for the nominal value, with which the temperature of the mixing water can be set. This measure ensures that the cold water supply is largely open due to the circumstance that the outlet temperature set on mixing valve 6 is below the temperature of the water present in buffer storage vessel 1 and that of the consumption water flowing out of tube coil 4. is largely closed. Figure 4 schematically shows a mixing valve 6 for a drain start at an ambient temperature which is higher than the nominal temperature of the mixing water, as is the case in the arrangement of mixing valve 6 according to the invention. Slide 18 is in the position in which the hot water connection 14 is closed and the cold water connection 16 is opened. 35 At the start of the tap, a flow of cold water from connection 16 to connection 15 occurs, as a result of which the expandable body 19 connected to slide 18 shrinks and slide 18 moves from hot water connection 14 to cold water connection 15 and therefore the temperature of the water coming from connection 15 rises. However, this further limits or halts further shrinkage of expandable body 19. When the set temperature of the mixed water is reached, 40 slider 18 remains in a corresponding intermediate position. As a result, a flow of mixing valve 6 with mainly cold water occurs at the start of draining, so that the control device cuts off the cold water supply and further opens the consumption water supply until the desired outlet temperature has just been reached. This can be seen from Figure 5. This can also be seen from Figure 7, which shows the temperature trend of the water flowing from mixing valve 6 at 45 at the start of the draining, versus time. The room temperature is indicated by tr, the nominal temperature of the outgoing water with ζ and the temperature of the mixed water with tM. It can be seen from figure 7 that the outlet temperature quickly rises to the set nominal value and fluctuates by a small margin around it. In contrast, Figure 6 shows the temperature variation of conventional devices mentioned in the introduction. 50 1. Water heating device for heating consumption water, which is provided with a mixing valve controlled by the 55 outside temperature and connected to a consumption water and a cold water connection and a buffer storage vessel for receiving heated heating or consumption water, as well as an insulation, within which the buffer storage vessel is arranged, characterized in that the mixing valve (6) is arranged 3 194209 within the space enclosed by the insulation (8) or is thermally conductively connected to a part which is at the temperature of the storage vessel. Water heating appliance according to claim 1, characterized in that the mixing valve (6) is arranged in the immediate vicinity of the buffer storage vessel (1). Hereby 4 sheets drawing