DE2355906C3 - Device on distribution lines for hot service water - Google Patents

Description

40

The invention relates to a device on distribution lines for warm service water, with one to Feed line leading to one or more branch or tap points with the outlet side of a hot water heater Od. The like. Is connected and wherein a circulation line between the outer part of the feed line and the inlet cord of the water heater is connected to the water in said feed line during periods when no spigot is occurring. so

In the case of distribution lines for hot water, in particular if the water is to be conducted over longer distances, such as. B. where a boiler house has both water for heating purposes as well as hot water for domestic use after several buildings that are very extensive and can also be at a distance from each other, one is forced to ensure that that Domestic hot water uncut for periods of time Pin is kept in circulation so that it is not cooled. It is known for this purpose. to provide so-called bypass lines, d. H. Special lines, which are the outermost ones in the pipe system Connect the ends of the used water pipes to the central heat exchanger or water heater, and safe / ustel- <by arranging a centrifugal pump > s lon. that the water is kept circulating. Bypass lines of the type mentioned mean, however, a considerable increase in the investment costs and have also a lower degree of utilization. you are yes only useful during periods of low tapping intensity, because with high tapping intensity! Warm water without circulation pipe. When planning a system for distributing service water must the lines are dimensioned in such a way that all draw-off points, even under unfavorable conditions, are sufficient get plenty of water. The amount of water to be drawn off is determined by state building standards As a result, the pipe diameters must be relatively large, whereby the costs incurred for the pipe network are higher.

The object of the invention is. to create a device that makes it possible to use the special circulation lines as To take advantage of feed lines and therefore to reduce the area of the usual feed line, whereby the Investment costs become lower.

This problem has now been found according to the invention as by their solution that the feed line over a check valve with the circulation line at a point between the water heater and the first Tap is connected.

Further features of the device emerge from the subclaims.

The device according to the invention provides several significant advantages.

The cost-reducing effect of the device is great and lies primarily in the lower material rislaüfwap.d, but also at reduced costs. such as B. for insulation, wages, etc.

The device is also of great value from a maintenance point of view.

As a result of the construction with double parallel connections Pipes, a pipe system is automatically on standby, so that repairs can be made to the one pipe system does not need to shut off the other. This is of great advantage both from an administrative point of view as well as for consumers.

The most essential advantage, however, is to be seen in the function of the device.

Because the circulation line is sized for tap water, it will have a larger dimension as if it were designed for circulating water. If there is no spigot, just circulation in the pipe occurs, the water velocity in the two pipes is very low, which is of great importance. to prevent erosion and corrosion on the pipe network.

Because the taps are fed in parallel from two sides, the mixers receive a more uniform water supply from the point of view of pressure drop, thereby increasing the mixing temperatures become more stable. The mixers work better.

The invention is described in more detail below with reference to the drawing, which shows an inventive Schematic representation of the plant.

In the drawing, I denotes a water heater, which is intended for two buildings 1 and II, not shown, which each have three stairwells A to Chaben. Building I has three floors and Building II has six floors. A main feed line 3 extends from the heater I, which is connected to the water supply network via the cold water line 2. Two branch lines 4, one for each building, are connected to the feed line and with the branch lines are feed lines 5. or connecting pieces 6 for flow lines 5 'connected.

Are for d in a conventional manner Verier 7 to the Vorlaufe ^| f ^e taps in different WoIv! »Genes or apartment groups. The system shown in the drawing is set up in such a way that hot water can circulate if there is no tap or if there is only a small amount of a stove! omini and the hot water is in danger of being cooled. In building I, however, there should be no circulation in the forerunners 5, as these are of relatively short length, while in building U a circulation can take place up to the distributors for the various apartments or apartment groups.

In building II, lines 8 are parallel to the leads 5 provided. If there is no pin, these lines serve as circulation lines. The lines 8 are expediently connected to the uppermost manifolds 7 with the upstreams 5 '. The lines 8 are connected to circulation lines 9, which in turn are connected to a line parallel to the main feed line 3 Main circulation line 10 are connected.

In building I, only the circulation loop 9 is provided, which is connected to the main circulation line 10. A centrifugal pump 11 is arranged in line 10, and the line is connected to the cold water inlet 2 of the water heater via a check valve 12 As far as the described system corresponds to a conventional system.

Between the pipes that take the water from the water heater 1 lead in the direction of the distributor 7 at the taps, and the related circulation lines check valves or similar throttle devices 13, 14 and 15 are switched on.

The check valves are arranged in such a way that, at a certain pressure, they move in the direction of the main feeder line 3, the branch line 4 and the flow 6 open, but under pressure in the opposite direction set direction and / or if the pressure is too low from the feed line.

Because there are 11 non-return valves in the building the supply lines 3, 4 and 5 'and the circulation lines 8, 9 and 10 are provided, the latter lines, if a pin, are of such great effect occurs that the check valve opens, act as further supply lines. When the system is ineffective is d. i.e. when there is mainly no spigot, the check valves 13, 14 and 15 are closed, the circulation, as indicated by open arrows, continues with the aid of the pump 11.

Conversely, when a peg is made (illustrated by filled arrows), the pressure is on the supply side of the check valves exceed the pressure on the circulation line side, the check valves open and, as indicated by the filled arrows, the water can also be reached through the circumferences to the one in question Let the tap flow.

So that the main parts of the Umiauflcitungcn can serve as additional feed lines, these parts have essentially received the same cross-sectional area as the main feed line 3, the branch lines 4 and the feed lines 5 '. As a result, you can, as indicated in stairwell A in building II. Provide distributor T also on line 8.

The line parts 16, 17 and possibly 18 can however, as used in umlauric & 5 is borrowed, in a smaller dimension than the rest Lines are executed.

If there is no tap in the system, the water runs through line 3, lines 4 and 9 in the building 1 through the line part 17 'to the main circulation line 10 and to the pump and the water heater 1 around. In building II, the water coming from the main feed line 3 runs through line 4, the connection gap 6, the flow lines 5 ', the lines 8, the line parts 16, the line 9, the line part 17 to the main circulation line 10. So that a short circuit of the Circulation system is prevented, adjustable resistance elements are arranged on the line parts 16 and 17 so that that all buildings or stairwells receive the required amount of circulating water. This Resistors also prevent a faulty one to a certain extent Flow in the case of a spigot in the system.

If, for example, tapping takes place in stairwell B of building I, water can partly flow through the main feed line 3 and the branch line 4 to the relevant flow line 5, but at the same time a certain amount of water can also pass the check valve 13 through the line 10 and the check valve 19 at the distant linden tree of the line flow over into the line 3, whereby a meal can take place from two sides. In the building 1, water can flow partly as mentioned through the line 4, but at the same time through the check valve 14 into the circulation line 9, so that it can, so to speak, feed the flow 5 at Ii from behind. If at the same time a tap also takes place from the line 5 at C , the greater part of the water required for this will be taken through the check valve 14 and the line 9, while the smaller part comes directly through the line 4.

If a tenon takes place in building I and II at the same time, building I can mainly be through the Line 3 are fed, while the building II water from both line 3 and the line 10 via the check valve 13 and 19 receives.

The distribution of the water between the runs 5 'in building 11 essentially corresponds to the distribution in building I. In the same building, however, double charging can also take place in each stairwell. With simultaneous tapping. /. B. on the top and bottom floor in stairwell A of building II, the water flows partly through line 5 'and partly through check valve 15 and line 8 to the relevant distributors 7. the lower distributor mostly directly via line 5' is fed, while the upper distributor is mostly fed via the check valve 15 and the line 8

will.

If a tap is made to such an extent that the pressure loss in the main feed line is greater is used as the opening resistance of the check valve 13th so the water flows partly through the main feed line 3, the branch line 4 and the flow line 6, but also through the Umiauflcitungcn 10. 9 and 8, so to speak from the rear to the distributor or distributors through which the pin takes place.

One can say that the circulation during the Zapli_, is is short-circuited, but in that check valves 15 are already arranged in the flow 5, a Pin only in a single or a few places not short-circuit the entire circulation system. In practice, only the circle in question, which of the line 8 running parallel to the flow line 5 'is short-circuited. At low loads

The check valve does not open because the main line is sufficient for the relevant amount of water.

In order to avoid a disturbance of the circulation in the system / u and the interruption of the circulation or the short circuit on the or the forward or branch line- <; In order to limit the tapping system where a spigot takes place, the non-return valves can be set for different opening pressures. One sets the check valves 15 for a relatively low opening _{pressure, the check valves 14 for an et-, 0} which is higher pressure and the check valve 1.3 for a high pressure. The consequence of this is that only the circulation in this line and the associated circulation line 8 is interrupted when tapping over a certain flow, since feeding can take place both through line 5 and through line 8 via check valve 15. When tapping via several feed lines which are coupled to a branch line 4, the circulation is interrupted by the relevant feed lines and the branch line 5 as well as the circulation line 9, which serves as a feed line via the check valve 14. Only when a pin / .. B. takes place in several houses and / or of a large extent, the pressure drop is so great that the circulation in the entire system is disturbed, ie the check valve 13 opens.

It is recommended under certain conditions. Overflow lines 20 and 21 as indicated by dashed lines Lines indicated in the drawing to be provided. About the check valves 22 and 23 of these lines can Water flow over from line 10 into branch lines 4 and 9 without going through the check valve 19 need to take. By means of the lines 20 and / or 21 can be advantages with respect to achieve the pipe dimensions, and you can, for example, the pipe dimension of the line 3 and can also remove the line 10 in the direction of the water heater.

To ensure circulation, the building is in building I. Maintain circulation line 17. This line has such a small dimension or is so throttled that it is unable to significantly influence the feed. The line 20 per se cannot be used for circulation be used, since it opens on the opposite side of the check valve 14.

In building II the line 21 is in a similar way turned on at check valve 14. Instead of the line 17, however, as shown, in the building Il a bypass line 24 from the line 9 to the Provide check valve 14 over and connect it to line 21.

According to a further alternative, the check valves can have a built-in channel of lesser size Cross section, for example a channel through the sealing member. show through which the Umlaufwas scr can happen if there is no spigot.

Ls makes sense. that lines are similar to lines 20 and 21 with valves and bypasses can also be arranged at other points in the system. Ls however, it is believed to be most expedient if the aforesaid conduits are arranged in the manner illustrated graze.

If there is a large amount of water being drawn during the day and therefore no bypass line from any user almost all circulation lines serve as feed lines to the manifolds.

Apart from the fact that one cycle in the system at periods of low tapping frequency as in the past obtained, one gains with the device according to the invention thus the advantage that without an over-leg solution or doubling of the supply lines a perfect water supply to all taps, wc they are also in the system. It shines one. that the check valves at least in certain cases by other types of Rcgclvcntilen. throttle organs or the like can be replaced, normally however, check valves are preferable because they have a few more precise regulation than, for example, Drossclorgani result.

1 sheet of drawings

Claims (3)

Patent claims: 1. Device on distribution lines for hot service water, one to one or more Feed line leading to branch or tap points with the outlet side of a hot water heater Od. The like. Is connected and wherein a circulation line between the outer part of the feed line and the inlet side of the water heater is switched on to the water in said Keep feed line in circulation during periods of time when there is no tapping, thereby ge indicates that the feed line (3) over a check valve (13) with the circulation line (10) at a point between the water heater (1) and the first tap is connected. 2. Apparatus according to claim 1, characterized in that in a system which has a main feed line (3), from this branch lines (4, 5) for the water supply and at the outer ends of the branch lines connected to a main circulation line provided along the main feed line (10) connected circulation branch lines (8, 9) includes check valves (14. 15) / wisehen the branch lines (4, 5) and the circulation branch lines (8, 9) switched on at those points are where they branch off from the main feed line. 3. Device according to claim 2, characterized in that that the check valves (13, 14, 15) are responsive to different pressures, the Open the check valves (13) located outermost in the system at a lower pressure than the Check valves (14 b / w. 15) located closer to the main feed line (3).