DE2027546B2 - ARRANGEMENT FOR WATER SUPPLY OF A HIGH-RISE - Google Patents

Description

The heat exchangers cause a slight temperature drop between the individual circulation loops, but this temperature drop per heat exchanger is only a few degrees Celsius. In any case, enough warm water is available everywhere, and when water is withdrawn, the water at its original temperature is fed to the tap after some time. To ensure circulation within the individual loops, circulation pumps 148 and 153 are provided.

F i g. 3 shows a view of a pressure reducing station which is approximately the same size as the inspection stations in the known water supply arrangements. This is made possible by the fact that in the arrangement according to the invention there are only two compensators 224 and 225 , so that there is sufficient space for the remaining parts.

In Fig. 3, a shut-off valve 217 is inserted into the cold water line 201, which shut-off valve 217 can be opened if the provided pressure reducing valve 219 should fail. Shut-off valves 216 and 221 can be shut off in the event of a failure of the pressure reducing valve 219.

A shut-off valve is also inserted 218 into the hot water pipe 202 which has the same object has as the check valve 217 in the cold water line 201. From the pressure reducing valve 213 in the Waimwasserleitung from, the hot water via the line part 214 of the hot water heating ^r trol cable

supplied again below the shut-off valve 218. Shut-off valves 212 and 223 can be shut off if the pressure reducing valve 213 fails.

Hot water from the hot water line 202 is supplied via a valve 204 and a line 205

ίο Primary part of a heat exchanger 206 is supplied. This hot water passes via a valve 209 into a circulation line 203, which in turn is connected to the tub water line 202 . The heat exchanger 206 is provided with a safety valve 208 and a pipe ventilator and ventilator 207 .

The heat exchange t 206 is in its secondary part via a line 210, a valve 211 and a line 215 with the line part 214 of FIG

Hot water line, that is, with the low-pressure part of the pressure reducing valve 213, in connection. On the other hand, the heat exchanger 206 is connected to a circulation line 229 , which in turn opens into the circulation line 203 Li. Through a circulating

pump 227 , hot water circulation through the heat exchanger 206 is ensured.

For this purpose, 1 sheet of drawings

Claims (2)

to achieve water circulation in each pressure zone without the need for special water heaters for each pressure zone. 1. Arrangement for the water supply of a The invention is explained in more detail with reference to the drawing of a high-rise building with at least one elevated 5 an exemplary embodiment. It shows
Storage container and F i g subdivided into pressure zones. 1 an arrangement for the water supply,
and supply with throttling points; Fig. 2 schematically a line harness with introductions, characterized in that, set throttling points and heat exchangers for at least one high-altitude hot water circulation, preparer (88, 89) is provided, which with the io Fig. 3 a pressure reducing station with heat throttling points (96, 97, 98, 142, 144) through an exchanger in a side view.
Circulation line (95, 141 a) is in connection, In the embodiment according to FIG. 1 is connected to a heat exchanger (146, 147) connected to the water bond that runs beneath the road surface. Line 80 a branch line 81 is connected. the 2. Arrangement according to claim 1, characterized GE 15 branch line 81 leads into the basement of the indicates that each throttle point (142, 144) high-rise building and to a pressure vessel 82, which has a Wzί neaustauscher (146, 147) , the booster pumps 83 and 84 feeds the water in two selstelle (142, 144) on the input side with the high pressure side of the Dros- a line 85 in the attic and on the output side with the pressure vessel 86 and 87 as well as in two hot water pipe (150) and the circulation pipe 20 water heater 88 and press 89. The pressure (149) of the low pressure side of the throttle point boiler 86 and 87 are connected to a line 90 in supply (142, 144) . bond, while the water heaters 88 and 89 are connected to lines 91 and 92. Besides the actual hot water pipe 91 is 25 a circulation line 92 is provided through which the is provided that at the individual tapping points always hot water is available. With I to IV the individual water pipes are referred to, which here from the top floor The invention relates to an arrangement for supplying the water downwards, and consisting of the cold supply of a high-rise building with at least water line 93, the hot water line 94 and a storage tank located at a high level as well as in the circulation line 94. In the throttling points, pressure zones are subdivided and provided with throttling points 96, 97, 98 for the water lines. Pressure reducing stations, the pressure is reduced. It is an arrangement for the water supply of 35. The stations are arranged in such a way that the pressure in high-rise buildings is known, at which no tap in the upper part rises above 3.5 atmospheres.
of the high-rise a water tank is arranged, the inlet from the water line 80 via the branch A pressure vessel 99 fed by a device 81 located in the lower part of the house is fed by a pump via a riser pipe with water-fed pressure booster pump 100, which in turn becomes one. From the water tank, the water flows under 40 pressure vessels 101 supplied with water. The fire-extinguishing lines 103 are connected downwards into the various floor and 104 lines to this action of gravity in the supply line pressure vessel 101 . In addition, a drying plant is provided, the supply lines being provided in Druckzo- fire extinguishing line 102,
nen divided and for pressure reduction with throttle In Fig. 7 is a part of the water supply points are provided. Such an arrangement is shown in 45 order. In particular, the pressures for the supply of a high-rise building with cold water reduction stations are shown. Suitable in the cold water line but not are for the supply of hot 140 pressure reducing valves 143 and 145 is water, because it requires a special line switches required, by ensuring that the Waslich is a water circulation serdruck effected with the aid of the respective The lowest tapping point is not in order to keep the water at every point of the hot water above 3.5 atmospheres, whereby it is also ensured that the server supply line is kept at a predetermined minimum water pressure at the uppermost tapping point. A water circulation over the least 0.5 atü is. Throttling points is away but practically not possible I, the water coming from above line 141 _n, Throttle points 142 and 144 are used. To one The invention is based on the object of enabling hot water to circulate, the central hot water supply for high-rise buildings is to 141 in front of the throttle point 142 with a circulating meat that leads over several pressure zones. This device 141a connected, which is achieved by a heat source according to the invention, in that at least one exchanger 146 leads. Below the throttle point 142 at least one high-lying water heater protrudes, the hot water line 150 also with the one that is connected to the throttle parts through a heat exchanger 146 that is connected to the other line that is connected to a bypass the circulation line 149 is connected. The meaustauscher is connected. Hot water pipe 150 and circulation pipe 149 Suitably, one each orifice are in front of the throttle point 144 to a further heat exchanger, which input is connected to the heat exchanger 147, which in turn is connected with high-pressure side of the throttle point and on the output side £ further lines 151 and 152nd On with the tub water line and the circulation line in this way a water circulation is connected within each of the low pressure side of the throttle point. Pressure zone reached, with the individual circuits. In this way, it is possible to be connected in a simple manner only via heat exchangers.