AT399001B - Apparatus for collecting and storing rainwater or surface water - Google Patents

Abstract

A description is given of an apparatus which is intended for collecting and storing rainwater or surface water and has a first clarification chamber 6, which is supplied from above from an inlet connection 2 of the apparatus, via an inclined feed channel 3 and at least one first filter 4, 5, and a second clarification chamber 14, which is supplied from above from an overflow connection 8 of the first clarification chamber, via at least one further feed channel 10, 13 and at least one further filter 9, 11, 12, it being the case that the first clarification chamber 6 has an inclined base 15, which leads to an outflow 7 of small cross section, and the second clarification chamber 14 has the main outflow 16 of the apparatus, for the removal of the cleaned water stored in the second clarification chamber 14. <IMAGE>

Description

AT 399 001 B

The present invention relates to a coverable device for collecting and storing rain or surface water, which also enables the same to be cleaned.

At present, pure drinking water, which is laboriously cleaned and sterilized, is used as washing and toilet water. However, since the water reserves prove to be limited and the treatment costs a great 5 costs, water takes on a new role and it will be necessary to rethink in the next few years.

The aim of the present invention is therefore a device which collects, secures and cleans accumulated rain and surface water in order to deliver this water to the end user at the given time, e.g. may be a washing machine or toilet facility. A further object of the present invention is a device which functions completely automatically, with the exception of occasional simple maintenance measures, which can be replaced anywhere and which ensures, via certain devices, that a low water supply can be bridged, for example due to weak rainy periods, and excessive rainfall does not Overload the capacity of the device and damage it. Particular attention should also be paid to maintaining the simplicity of the structure in order to keep the manufacturing costs low.

Devices, such as water flowing into solids are also known in the art. For example, GB-PS 111 953 describes a device which receives petrol station wastewater or similar wastewater. This device consists of two rows of collecting tanks arranged one above the other, the tanks arranged in the upper row being perforated. The water collected initially flows into the first tank of the upper row, with entrained solids to remain in the tank. When the water level of the container reaches its upper edge, the water flows into the subsequent container, in which solids can again be separated. At the same time, the water can also seep through the containers over the retained solids and thus get into the lower interconnected containers. In this way, a predominant separation of solids takes place in the upper row and a separation of oil and water in the lower row. Securing the purified water until it can be used as process water does not take place in this device, which would not be suitable for this due to its structure.

The device according to the invention is now characterized in that it has a first clarification chamber, which is fed from above from an inlet connection of the device via an inclined feed channel and at least a first 30 filter, and a second clarification chamber, which flows from an overflow connection of the first clarification chamber at least one further feed trough and at least one further filter are fed from above, the first clarification chamber having an inclined bottom which leads to a drain of small cross-section, and the second clarification chamber the main drain of the device for removing the cleaned stored in the second clarification chamber Has water. 35 The device according to the invention and its special mode of operation are explained in more detail below with reference to the special embodiment shown in the drawings. 1 is a plan view with the cover removed and FIG. 2 shows a cross section along the line AA.

The embodiment shown in FIGS. 1 and 2 is in the form of a parallelepiped-shaped container 1. The roof and terrace water which accumulates during precipitation passes from a downpipe 2 '40 through an inlet connection 2 into one on the cover (which can be opened by means of hinges 23). Fixed and inclined feed channel 3. Since the channel 3 extends just above the first filters 4 and 5 made of metal mesh or coarse fiber fleece, the water seeps through them, whereby coarse impurities (leaves, branches, shells) are retained and then enters a first clarification chamber 6, which has an inclined bottom 15. The bottom 15 of this first clarification chamber 6 has a steep gradient, so that 45 heavy sediments sink down to a constantly effective drain 7 and are then separated out, so that the clarification chamber 6 collects the dirty water completely, separates it and cleans itself. (The first part of the roof or terrace water is mostly very dirty, especially after long dry periods, and this heavily soiled part must therefore be excreted.)

However, since the diameter of the outlet 7 is too small, the water level rises to such an overflow connection 8. Subsequently, the water flows through the overflow connection 8, first seeps through a filter 9, flows through a feed trough 10 and through further filters 11 and 12 , after it has passed the end of a further feed channel 13, into a second clarifying chamber 14, which forms the main chamber. The incline of the feed troughs 10 and 13 is only slight, so that little is lost in height as a result of the water being directed back and forth, and thus a large storage capacity is made possible. The filters 9, 55 11 and 12 are arranged horizontally around the actually effective filter area to keep as large as possible. A spillage of the water is prevented by a side wall in the area of both feed channels 10 and 13 and the filters 9, 11 and 12. 2 ΑΤ 399 001 Β

The second clarification chamber 14 has an inclined bottom 15 '. It also has a main outlet 16 for the removal of the purified water stored in this clarification chamber, an overflow 17 and an inlet connection 19 'arranged at a medium height, provided for the auxiliary supply with tap water and provided with a float-controlled shut-off valve 18. Water can thus be fed in from a line network 19 via an inlet pipe 20. The second clarification chamber 14 also has an additional outlet 24.

The end of the feed channel 13 is located above the highest point of the inclined floor 15 ', which has a slope to the outlet 24. As a result, fresh water mixes with the water already in the container, and a kind of circuit is created that directs any remaining, lowered dirt to the outlet 24.

Since the feed channel 13 is only slightly sloping, the water flows quietly and noise disturbances are avoided. The drain 24 also allows the water to be completely drained for maintenance and cleaning purposes. The main drain 16 is raised so that deposited dirt does not get into it. In order not to overfill the second clarification chamber 14, water can again be introduced into the downpipe 2 'of the gutter through the overflow 17, optionally together with water from the outlet 7 and the outlet 24.

If the container is above the level of the washing machine or the toilets provided with a cistern, the drain 16 can simply be connected to the water connection. Gravity pushes the water to the consumer. However, if the washing machine is at a higher level than the container, it is necessary to additionally exclude a small pump 21. This is connected to the solenoid valve of the washing machine by means of a control cable 22 via a relay. If water is now required during the washing process, the valve (usually 220 V) is opened electrically and the pump is also activated until no more water is needed. The water in the pipe cannot flow in (which would overfill the washing chamber), since the valve closes immediately if the power supply is interrupted. If there is too little precipitation and the water level drops below a certain level due to the consumption of the water, the float-controlled valve 18 opens and water is fed from the normal pipe network 19 through the inlet pipe 20 (cistern system). This guarantees a constant water supply.

So that the amount of water supplied does not overwhelm the capacities of the clearing chambers 6 and 14, the downpipe 2 'of the water inlet can be divided in order to use only part of the roof or terrace water; conversely, two or more downpipes can be brought together to increase the amount of water supplied.

Sterilization of the water with chlorine or the like can be dispensed with, since the water is only used as washing and rinsing water, and any bacteria are killed by the detergent.

The use of collected rainwater, which in the present case means rainwater of any kind, i.e. melt water, for example, has the following advantages: Water is used which has a very low degree of hardness, that is to say is very soft. This can drastically reduce the detergent dosage. This saves detergent costs and protects the environment. (Detergent develops its cleaning effect earlier and stronger in soft water, which is why large amounts of plasticizers and therefore a lot of detergent must be used in hard water) - The heating element of the washing machine does not become cold anymore or much more slowly. It is therefore not necessary to add water softening agents, e.g. Calgon (R), or just adding a small amount is required. In addition, energy is saved when heating water. - By using collected rainwater, the consumption of normal tap water is significantly reduced and less &quot; expensive surface water &quot; needed. - Since rainwater is free, its increased use while reducing the consumption of tap water saves costs. The following example of a consumption calculation serves to clarify: 3

Claims (10)

AT 399 001 B Consumption washing machine, pre-wash and main wash at 95 1101 three times a week 3301 - 80I (since not always full wash at 95) 2501 four times a month 10001 12 times a year 120001 This gives an approximate annual total consumption of 12,0001. - The water does not have to be pumped to the waterworks, cleaned by it and &quot; durable &quot; made to households or companies, in order to then be discharged again as service water through the toilets or washing machines. When using surface water, due to the possibly higher degree of hardness of the water, some of the advantages mentioned above may not be as great as with rainwater occur. However, by collecting surface water and using it further, a reduction in drinking water consumption is achieved. The device according to the invention can be operated without complex maintenance. Only the filters have to be cleaned temporarily depending on the flow rate and the degree of contamination. For this purpose, they can be provided with hooks on which they are pulled out of the slots in the container wall and pushed back in after cleaning. The filters are cleaned by squeezing and rinsing with fresh water. In order to clean the bottom 15 'of the second clarification chamber 14, the outlet 24 can be opened and the water flows off with the washed-up and sedimented dirt. The collected rain and surface water can be used as washing and rinsing water everywhere (in the household, in public facilities, companies, etc.). To manufacture the device, all commercially available, sufficiently stable plastic tanks can be assumed, which can be protected, for example, by a metal cage and mounted on a wooden pallet. By attaching the container to a wooden pallet, it is possible to easily attach all drain pipes on the bottom of the container and to protect them against pressure and impact. Metal tanks can also be used in the same way. 1. Coverable device for collecting and storing rain or surface water, characterized by a first clarifying chamber (6), which consists of an inlet connection (2) of the device via an inclined feed channel (3) and at least a first filter (4, 5) is fed from above, and a second clarifying chamber (14) which is fed from above by an overflow connection (8) of the first clarifying chamber via at least one additional feed channel (10, 13) and at least one further filter (9, 11, 12) , wherein the first clarifying chamber (6) has an inclined bottom (15) which leads to a drain (7) of small cross-section, and the second clarifying chamber (14) the main drain (16) of the device for removing the cleaned, in the second Clarification chamber (14) has stored water. 2. Device according to one of the preceding claims, characterized in that the main drain (16) is arranged above the floor level. 3. Device according to one of the preceding claims, characterized in that the second clarifying chamber (14) has an inclined bottom (15 ') and an additional outlet (24). 4. Device according to one of the preceding claims, characterized in that the second clarifying chamber (14) has an overflow (17), preferably directly under the feed channel (10, 13). 5. Device according to one of the preceding claims, characterized in that the second clarification chamber (14) has further feed channels (10, 13) and filters (11, 12). 6. Device according to one of the preceding claims, characterized in that the end of the feed channel (10, 13) above the highest point of the inclined bottom (15 ') of the second clarifying chamber (14) 4 AT 399 001 B is arranged. 7. Device according to one of the preceding claims, characterized in that the inserts of the filters (4, 5, 9, 11, 12) are designed as pull-out drawers. 8. Device according to one of the preceding claims, characterized in that metal mesh or coarse fiber fleece are used as filters (4, 5, 9, 11, 12). 9. Device according to one of the preceding claims, characterized in that the second clarifying chamber (14) at medium height has an inlet connection (19 ') for the auxiliary supply with tap water, which is provided with a float-controlled shut-off valve (18). 10. Device according to one of the preceding claims, characterized in that it has the shape of a parallelepiped container (1) which has an intermediate wall (1 &quot;) which divides the container into two unequal sized chambers (6, 14), one of which the smaller chamber represents the first clarification chamber (6) and the larger chamber is the second clarification chamber (14). Including 2 sheets of drawings 5