The apparatuses and methods described herein generally relates to water recycling. More particularly, a drain for a water recycling device is presented.
In many parts of the world, clean water is becoming a scarce commodity. Consequently, systems for purification and recycling of water has found applications across many fields. Conventional water recycling devices can be effective, but is often costly, and requires frequent maintenance and major modifications to existing piping.
An important part of a water recycling device is the drain collecting the used water to be recycled. Such a drain must be capable of directing water to the water recycling device while conforming to a number of requirements set out for conventional drains used to collect water. The drain must also be able to reliably provide water to the water recycling device.
Examples of drain arrangements in a water recycling apparatuses are known from e.g. DE4124605 and U.S. patent application Ser. No. 12/996,385.
However, there is still a need for improved drains for water recycling devices in terms of reliability, cost, ease of installation, and maintenance.
It is an object of the present inventive concept to mitigate, alleviate or eliminate one or more of the above-identified deficiencies in the art and disadvantages singly or in combination.
According to a first aspect of the inventive concept, these and other objects are achieved in full, or at least in part, by a drain for a water recycling device, the drain comprising a drain inlet configured to receive used water from an outlet of the water recycling device; a water buffer configured to hold a volume of water, wherein the water buffer comprises an outer wall element and a bottom surface; a recycling pipe comprising an recycling pipe intake, the recycling pipe intake comprising an open end, wherein the recycling pipe and the recycling pipe intake is configured to receive used water to be recycled from the water buffer; and a buffer outlet configured to output water from the water buffer.
The drain may comprise a diverter configured to divert the used water to the water buffer, and to prevent the used water from entering the buffer outlet without passing the water buffer.
The diverter may comprise a surface arranged above the buffer outlet with respect to gravity when the drain is in use.
The surface may be arranged such that a projection of the surface along a direction of gravity when the drain is in use at least partially covers the buffer outlet.
The surface may be arranged to extend at least partially in a direction of gravity when the drain is in use such that water on the surface is directed towards the water buffer.
The open end of the recycling pipe intake may be directed towards the bottom surface of the water buffer.
An upper end of the open end of the recycling pipe intake may be arranged in line with or below an upper end of the outer wall element with respect to gravity when the drain is in use.
The outer wall element and/or the bottom surface may be arranged to form a barrier preventing the volume of water from entering the buffer outlet.
The water buffer further may comprise an inner wall element, wherein the outer wall element and/or the bottom surface and/or the inner wall element are arranged to form a barrier preventing the volume of water from entering the buffer outlet.
An upper end of the open end of the recycling pipe may be arranged in line with or below an upper end of the inner wall element with respect to gravity when the drain is in use.
The water buffer may have a circular cross section when viewed along the direction of gravity when the drain is in use.
The recycling pipe intake may at least partially enclose the buffer outlet.
The drain may comprise a number of angled flaps arranged in the water buffer such that water received by the water buffer via the drain inlet is set in a circular motion in the water buffer.
The water buffer may comprise a draining channel configured to allow a flow of water from the water buffer to the buffer outlet.
The recycling pipe intake may comprise a pre-filter.
The drain may comprise a sensor arrangement configured to measure a water quality parameter in water in the water buffer.
According to a second aspect of the inventive concept, these and other objects are achieved in full, or at least in part, by a water recycling device comprising an outlet configured to output treated water; a drain according to first aspect of the invention for collecting used water output from the outlet; a drain discard path arranged downstream of the drain; a recirculation loop in liquid communication with the drain and the outlet, the recirculation loop comprising a water treatment arrangement for treating the used water; and a circulation pump for providing a flow in the water recycling device.
The water recycling device may be a shower.
According to a third aspect of the inventive concept, these and other objects are achieved in full, or at least in part, by a method for collecting water to be recycled in a drain of a water recycling device, the drain comprising: a drain inlet configured to receive used water from an outlet of the water recycling device; a water buffer configured to hold a volume of water, wherein the water buffer comprises an outer wall element and a bottom surface; a recycling pipe comprising an recycling pipe intake, wherein the recycling pipe is configured to receive used water to be recycled from the water buffer; and a buffer outlet; wherein the method comprises the steps of: collecting the used water in the water buffer; determining a water quality measure of the collected water; if the water quality measure of the collected water is above a quality threshold, feeding the collected water via the recycling pipe to the water recycling device; if the water quality measure of the collected water is below a quality threshold, allowing the collected water to flow via the buffer outlet to a drain discard path of the water recycling device.
Other objectives, features and advantages of the present inventive concept will appear from the following detailed disclosure, from the attached claims as well as from the drawings.
Generally, all terms used in the claims are to be interpreted according to their ordinary meaning in the technical field, unless explicitly defined otherwise herein. All references to “a/an/the [element, device, component, means, step, etc]” are to be interpreted openly as referring to at least one instance of said element, device, component, means, step, etc., unless explicitly stated otherwise. The steps of any method disclosed herein do not have to be performed in the exact order disclosed, unless explicitly stated.
The above, as well as additional objects, features and advantages of the present inventive concept, will be better understood through the following illustrative and non-limiting detailed description of different embodiments of the present inventive concept, with reference to the appended drawings, wherein:
The present disclosure describes a drain for a water recycling device. Initially, some terminology may be defined to provide clarification for the following disclosure.
The term ‘drain’ referred to in the present disclosure is not to be given the conventional meaning of a drain; a conventional drain is a fixture for that provides an exit-point for waste water. In the present disclosure, the term ‘drain’ may be exchanged for a collecting arrangement, a sensor tank, a recirculation tank, or a floor unit. The term ‘drain’ implies a point leading to a e.g. a sewage, but wherein the drain does in fact not form part of the sewage itself. As will be understood from the following disclosure, the water buffer may act as an interface between the recycling pipe and a drain discard path arranged downstream of the drain.
Throughout the disclosure, reference is made to used water. It is to be understood that a water recycling device may receive used water to be treated and recycled. Used water may thus pass a water treatment arrangement of the water recycling device, after which the used water may be referred to as treated water. Treated water leaving an output of the water recycling device may be referred to as used water. In other words, the moment treated water is emitted from the output of the water recycling device, it may be referred to as used water.
In general, it has been realized by the inventors that the reliability of a water recycling device in terms of water flow, hygienic conditions, and maintenance can be improved by a drain according to the present disclosure. More particularly, a drain wherein used water is held in a water buffer may allow for the used water to be analyzed with respect to water quality parameters before used water is drawn into a recirculation loop of the water recycling device. In addition, it may be advantageous if the water buffer holds a volume of water such that a recycling pump of the water recycling device can reliably draw water into the water recycling device.
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The recycling pipe 224 and recycling pipe intake 226 may also be configured to output water into the water buffer 216. Consequently, the water buffer 216 may be configured to hold a volume of water, wherein the water may be for example treated water and/or external water from an external water path connected to the recirculation loop of the water recycling device. An advantage with this arrangement is that the pre-filter of the recycling pipe intake 226 may be flushed. This may prevent particles from clogging the pre-filter. In particular, the pre-filter of the recycling pipe intake 226 may be back-flushed. Thus, e.g. dirt, hair and the like which is flushed away from the pre-filter may be directed via the buffer outlet 229 and a drain discard path 218 to be removed from the water recycling device. Therefore, it may be advantageous to arrange the pre-filter in proximity of the drain discard path 218. Further, a volume of water in the water buffer 216 may be replaced with external water. Yet another advantage with this arrangement is that particles on the bottom surface 222 of the water buffer 216 may be removed from the water buffer 216 as a result of a flow of water entering the water buffer 216 from the recycling pipe 224.
The drain 200 may further comprise a buffer outlet 229. The buffer outlet 229 may be configured to allow a flow of water from the water buffer 216 to a drain discard path 218. A water trap 232 may be arranged between the buffer outlet 229 and the drain discard path 218. Water entering the drain discard path 218 may be removed from the water recycling device. The buffer outlet 229 may be arranged substantially in a center of the water buffer 216.
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The drain 200 may comprise a sensor arrangement configured to measure a water quality parameter in water in the water buffer 216. The sensor arrangement may be configured to determine a water quality measure of water. The sensor arrangement may be placed in the water buffer 216. The sensor arrangement may comprise an electrical conductivity sensor. The sensor arrangement may be configured to determine a temperature of water in the water buffer 216.
The drain 200 may comprise a water level sensor arrangement configured to determine a level of water in the water buffer 216.
The outer wall element 220 and/or the bottom surface 222 may be arranged to form a barrier preventing the volume of water held by the water buffer 216 from entering the buffer outlet 229. Consequently, a buffer of used water may be created in the water buffer 216. If the buffer of used water is to be recycled in the water recycling device, a recirculation pump may draw the used water in the water buffer 216 into the water recycling device via the recycling pipe intake 226 and recycling pipe 224. On the other hand, if the buffer of used water is not to be recycled, used water received via the drain inlet 214 may be allowed to fill the water buffer 216 until a water level overcomes the barrier, such that used water is directed via the buffer outlet 229 to the drain discard path 218.
The recycling pipe intake 226 may be arranged below the buffer outlet 229 with respect to gravity when the drain is in use. Hereby, the buffer outlet does not necessarily need to be equipped with a valve in order restrict a flow of water from the water buffer 216 to the drain discard path 218, and to allow water to fill the water buffer 216 such that water can be drawn into the recycling pipe 224.
The recycling pipe 224 may form part of the barrier preventing the volume of water held by the water buffer 216 from entering the buffer outlet 229. In particular, the recycling pipe intake 226 may form part of the barrier preventing the volume of water held by the water buffer 216 from entering the buffer outlet 229. Hereby, used water may be prevented from being recycled into the water recycling device when the recycling pipe 224 is not installed in the drain 200. This arrangement may also be advantageous in a scenario where the recycling pipe intake 226 comprises a pre-filter as described above, since the barrier preventing the volume of water held by the water buffer 216 from entering the buffer outlet 229 is formed only when the recycling pipe intake 226, and thus the pre-filter, is installed correctly.
Surfaces of the drain 200 intended to be in direct contact with water may comprise mechanical and/or chemical properties such that dirt and/or microorganisms are less likely to attach to the surfaces.
The recycling pipe 224 may be connected to the water recycling device via a detachable connection. The detachable connection may be sealed with an o-ring.
The water buffer 216 may comprise a draining channel (not shown). The draining channel may be arranged on the bottom surface 222, and/or on the outer wall element 220, and/or on an inner wall element as described below. The draining channel may be arranged near a bottom of the water buffer 216, such that water in the water buffer 216 can be drained from the water buffer 216 via the buffer outlet 229. The draining channel may be in liquid communication with the buffer outlet 219. The draining channel may have a draining channel area providing for a flow of water out from the water buffer 216. The draining channel area may be adjusted to allow a flow rate similar to or lower than a flow rate of water flowing into the water buffer 216 via the drain inlet 214. The draining channel may provide for that the water buffer 216 can be completely emptied. By emptying the water buffer 216, a risk of microbiological growth may be decreased. More specifically, a risk of microbiological growth in the water buffer 216 may be decreased.
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The water buffer may comprise a number of angled flaps such that water entering the water buffer via the drain inlet is set in a circular motion in the water buffer. In other words, water entering the water buffer via the drain inlet may be diverted by the number of angled flaps in a direction such that a circular flow is created in the water buffer. As a result of the circular flow, water in the water buffer may be directed towards an outer edge of the water buffer and/or towards the outer wall element of the water buffer. Such a circular flow of water may be referred to as a vortex. Hereby, water in the water buffer may be prevented from entering the buffer outlet arranged in a center of the water buffer. This effect may be facilitated by drawing water from the water buffer into the water recycling device via the recycling pipe intake. An advantage of this arrangement is that a water quality measure of water in the water buffer may be detected by the sensor arrangement before water is allowed to enter the buffer outlet. The number of angled flaps may be arranged on the diverter, and/or on the recycling pipe intake, and/or in the water buffer.
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The inventive concept has mainly been described above with reference to a few embodiments. However, as is readily appreciated by a person skilled in the art, other embodiments than the ones disclosed above are equally possible within the scope of the inventive concept, as defined by the appended patent claims.
Number | Date | Country | Kind |
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1651547-0 | Nov 2016 | SE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/SE2017/051157 | 11/22/2017 | WO | 00 |