DE3730220C1 - Process for the treatment of water in a swimming pool - Google Patents

Description

The invention relates to a method for processing the water of a swimming pool according to the preamble of Claim 1 (DE-OS 26 45 183).

With such a procedure, all public today and also operated private swimming pools. The revolution of the Water with simultaneous guidance over the filter device serves disinfection, hygiene, safety and Aesthetics. The water of a swimming pool is used by bathers and especially in the case of outdoor pools from the surrounding area dirty. The degree of pollution of the water thus depends significantly from the number of bathers and the Environmental influences. Contamination of the water may a. by microorganisms or coloidally dissolved substances caused. Dirt and other contaminants, in particular contaminants that are hazardous to health must be removed from the water be removed. The filter device are used during the Operation with suitable metering devices known per se Materials such as flocculants are supplied. To Purification of the water is also known to be chlorine and / or ozone used.

According to DIN 19 643, it is sufficient to maintain a specified degree of purity of the water in swimming pools if 2 m ³ / hour are circulated per bathing guest. Since the number of bathers, particularly in public baths, cannot be predicted and because it can only be determined with considerable effort how many bathers are present in the water, an average value is calculated on which the performance of the pump circulating the water is designed. During the season, the pump works continuously at full capacity, even if there are fewer or even fewer bathers in the water than expected. The energy consumption is usually higher than necessary. The cost of operating the swimming pool is correspondingly high.

DE-AS 14 34 837 is a bathing facility with permanent Circulation of the bathing water is known. That from the basin of Bath water overflowing is by means of a circulation pump circulated through a filter system. To one different loading of the filter system during the To avoid operation of the bathing facility, the water is above a discharge chamber belonging to a storage container is directed, whose water level is kept constant. The pressure of the Circulating pump of flowing water always stays the same and the filter system is constantly charged. Different demands on the bathing facility will not considered.

In the known method according to the aforementioned DE-OS 26 45 183 an electric motor is used to drive the pump used two stator windings, so that it with two Speeds can be operated. That corresponds to two different performance of the pump. The switchover can besides other possibilities also by the degree of turbidity of the Water measuring device can be effected. The measuring device can be arranged in the filter pipe system or in the basin itself. With this procedure, there is no continuous adjustment of the Pump capacity to the actual conditions possible, it can only do two different pump outputs can be set. The lower pump output is said to be one lead to reduced noise. Switching too the pump output in accordance with the degree of turbidity of the water does not lead to a usable result, since this affects the degree of turbidity measuring device also detects coarse soiling, if it is located in the filter pipe system. The consequence is one unwanted overdose of chemicals. By arrangement of the measuring device in the pool is a risk of damage to the  Measuring device not excluded, if it is not, for example, in a niche is attached. An indication of the location of his Attachment is not to be found in the document. In addition, there is also the risk of an overdose or an underdosing cannot be excluded.

The invention has for its object a method specify the performance of the pump of a swimming pool while maintaining a specified degree of purity of the water in a simple manner the respective conditions continuously can be adjusted without the risk of overdosing or underdosing of chemicals.

This task is done according to the characteristic features of claim 1 solved.

With this procedure the degree of contamination of the Water recorded directly during bathing. This will be Water at a predetermined location below the Water level taken from the pool where the turbidity of water without the influence of coarser soiling experience has shown that it is the largest. The corresponding turbidity of the Water is measured directly into a proportional by the meter Output variable implemented, according to which the performance of the Pump regulated, d. H. continuously adapted to the circumstances becomes. The performance of the pump is thus automatically based on the turbidity of the water caused by impurities set that the amount of water circulated, for example at Greater turbidity is increased, making the water faster is cleaned. So the process works with fully automatic control of the pump output without the Number of bathers in the water must be known. Since the pump capacity is taken into account during the Bathing operation necessary minimum performance with low turbidity of the water (few bathers) can be kept small this process of energy consumption for the preparation of the Water can be significantly reduced overall. The price for The operation of a swimming pool can be done with this procedure be significantly reduced.  

Advantageous embodiments of the invention are shown in the Sub-claims emerge.

The method according to the invention is illustrated in the drawings explained in exemplary embodiments. It shows

Fig. 1 shows schematically an arrangement for performing the method according to the invention,

Fig. 2 shows an enlarged arrangement compared to Fig. 1 in a reduced representation.

A pool 1 of a swimming pool is so far filled with water that there is a constant overflow on the side edges. The overflowing water passes through appropriate piping into a splash pool 2 . From there it is pumped back into the basin 1 by means of a pump 3 via a Filtervor device 4 . The pump 3 is driven in known technology by an electric motor that is adjustable in speed. A measuring device is also connected to the tank 1 5, 6 the water is supplied from the tank 1 via a pipe which is led from the measuring device 5 from the surge water tank. 2 The measuring device 5 measures the turbidity of the water supplied to it in TE / F (turbidity units according to Formazin) and delivers at its output A as an output size an electrical current which is proportional to the measured turbidity level of the water. For example, the degree of turbidity must not exceed 0.5 TE / F. A current of 0 to 20 mA is available, for example, at the output A of the measuring device 5 , the 20 mA being able to correspond to the 0.5 TE / F. Such measuring devices are available on the market. For example, they work with light using the backscatter method. The water can be fed to the measuring device 5 discontinuously or, in a preferred embodiment, continuously.

The output variable of the measuring device 5 is fed to a controller 7 , which can be, for example, a frequency converter. The pump 3 or its electric motor is connected to the controller 7 , the speed of which is regulated depending on the degree of turbidity of the water or the output size of the measuring device 5 . The performance of the pump 3 is thus automatically adjusted to the degree of turbidity or the contamination of the water contained in the pool 1 .

Coarse contamination of the water in the basin 1 on its surface can be disregarded. They disappear over the overflow of the pool 1 anyway after a while, since the pump output during bathing is set to a minimum output of, for example, 30 m ³ / hour, which ensures a constant overflow. The water for the measuring device 4 is therefore removed from the basin 1 at a certain water depth, in which experience has shown that the turbidity is greatest due to the movements of the water and the bathers. This is the case, for example, at a distance of 0.75 m from the water surface.

A pump 8 can also be controlled by the controller 7 , with which chemicals or filter materials are metered into the filter device 4 . The dosing then also takes place as a function of the degree of turbidity of the water in the basin 1 and of the current delivery capacity of the pump 3 . A device for the filtration of liquids with the addition of filter aids, which are metered in accordance with opacimeters, is known in principle from DE-PS 9 74 446.

For the circulation process, the water can in principle also be pumped out of the basin 1 with a pump 9 , as can be seen from FIG. 2. This is particularly the case with older systems that do not have an overflow at the edges. The pump 9 conveys the water back into the basin 1 after passing through the filter device 4 .

In principle, the water can also be circulated both by overflow at the edges of the basin 1 with splash water basin 2 and by the pump 9 . A total of more than one of the pumps 3 and 9 can also be used. The number of filter devices is also arbitrary. In Fig. 2, a second filter device 10 is provided. All pumps 3 and 9 used are controlled by the controller 7 so that their performance is adapted to the respective requirements in accordance with the degree of turbidity of the water. The filter devices 4 and 10 or all filter devices can be equipped with pumps 8 , through which the chemicals are metered in depending on the degree of turbidity of the water.

In practice, filter substances are added to the filter devices 4 and 10 via the pipelines. For the sake of simplicity, a direct addition is shown in the drawings.

With a larger number of bathers and correspondingly higher water displacement, more water gets into the gush water basin 2 . So that the splash water pool 2 cannot run over, a level monitor must be present on the same, by which the output of the pump 3 may be briefly increased independently of the measuring device 5 .

Claims (4)

1. A method for treating the water of a swimming pool, with which water emerging from the pool is pumped back into the pool by means of at least one pump driven by a variable-speed electric motor via at least one filter device, and with which the speed of the pump driving the pump Electric motor is adjusted by a measuring device which detects the degree of turbidity of the water, characterized in that

• - that at least one, a predetermined distance below the water level of the basin ( 1 ) additional water is taken from the same and is fed to the measuring device for measuring the degree of turbidity of the water ( 5 ), which as an output variable supplies an electrical current proportional to the degree of turbidity,
• - That a speed adjustable electric motor is used for driving the pump ( 3, 9 ) and
• - That the respective output variable of the measuring device ( 5 ) is fed to a controller ( 7 ) through which the speed of the electric motor and thus the output of the pump ( 3, 9 ) is regulated.

2. The method according to claim 1, characterized in that the output variable of the controller ( 7 ) is additionally used to regulate the amount of filter materials to be supplied to the filter device ( 4 ). 3. The method according to claim 1 or 2, characterized in that a frequency converter is used as a controller ( 7 ). 4. The method according to any one of claims 1 to 3, characterized in that when using a splash water basin ( 2 ) between the basin ( 1 ) and pump ( 3 ), the level of the water in the splash water basin ( 2 ) is monitored and for additionally influencing the performance of the Pump ( 3 ) is used.