NL1015561C2 - Heat exchanger fitted to floor of shower cubicle, extracts heat from waste water before it drains away - Google Patents

Abstract

The medium, e.g. water which extracts the waste heat from the shower water flows through a heat exchanger which is set in the tray at the bottom of the shower cubicle. The exchanger has a network of small diameter tubes between inlet and outlet connections (2). After passing between the heat exchanger tubes, the water leaves the tray via a row of drain holes (1) along one side.

Description

TITLE: A heat exchanger placed separately in the shower base and / or shower base; removable, removable, tightly fitting and fitting to the shape of the shower base and / or shower base *

The invention relates to placing a heat exchanger in a shower tray, characterized in that the heat exchanger is enclosed between two plastic trays that are placed therein, as a whole, loosely and closingly on the bottom and sides of a shower tray, whereby the heat energy as is present in the waste water running away from the shower, it is extracted from it and used to heat the cold water from the shower facility.

The object of the invention is to achieve a reduction in energy consumption.

10. The construction of such a heat exchanger for obtaining an optimum heat exchange is known.

The actual dimensions of the heat exchanger to be used and the parts contained therein are adapted to the dimensions of the shower tray in which it is installed. A heat exchanger and its use in connection with reduction of energy consumption is already known from Danish Patent Specification 19608404. This discloses a double bottom in the shower tray and is described as such. U.S. Pat. No. 4,398,308 describes the use of a heat exchanger in a shower tray in combination with a boiler or other heating device. Furthermore, the following patents are known: US 4821793, US 4372372, US 4150787, DE 3717720, DE 3919543, DE 3202910, DE 3319638, DE 3633321, DE 3717720, DE 3919543, 20. DE 3923511, DE 4402269, DE 4406971, DE 19608404 DE 19723148. All of the aforementioned patent specifications have the consequence, as a common factor, that structural interventions are necessary to arrive at the application of the aforementioned inventions.

Further description of the invention: it consists of two plastic trays within which there is a copper, at least heat-conducting, tube formed in accordance with Fig. 1 or Fig. 2.

25. Between the parallel tubes according to fig. 1 and fig. 2 there are edges, forming part of the lower or upper shell part such that the upper shell part is supported by the lower shell part. The shapes of the shell parts are chosen such that the intermediate heat exchanger according to fig. 1 and fig. 2 can be rotated 180 degrees in the horizontal plane so that the shortest distance between the connection point of the flexible connecting hose and the cold water pipe of the shower installation is always 30 degrees. can be obtained.

• (in the text, shower tray is used if the shower cabin floor is also meant) 1 O 1 a 1 2 2

The heat exchanger can also be constructed according to the so-called "flat" radiators such as those used in central heating installations. These are two iron plates pressed into profile which are watertight to each other with two water connection points.

The two plastic trays together form a whole that is of such a shape that it is flush with the bottom and sides of the shower tray. The bottom and the sides of the shower base thus form the context of the plastic housing within which the heat exchanger is located, it being noted that the shower base bottom set from the horizontal plane has an effective function within the invention. The top of the upper plastic tray is in a horizontal plane (Fig. 3). Therein are a number of slots running in parallel which have a slight inclination angle 40 with respect to the horizontal plane. The waste shower water flows through these slots to the lowest part of the slots, where there is a hole in the slot. The waste shower water falls through this hole into the space between the upper and lower shell part in which the heat exchanger is also located (fig. 3 and 4).

The plane which forms the bottom on which the exchanger rests is also slightly inclined with respect to the horizontal plane. Because of this angle of inclination and the shape given to the aforementioned surface, the shower of waste water flows past the heat exchanger, which absorbs the heat thereof because through the inside of the heat exchanger the colder water flows to the shower mixer tap. Subsequently holes were also made on the lowest side of this surface through which the by now heat-drained shower of waste water falls on the shower base bottom 50 below and can then continue its way to the sewer.

In the underside of the lower tray, which rests on the bottom of the shower tray, slots are provided which run from the point that the waste shower water falls on the bottom of the shower tray to and above the drain hole that is located in the shower tray bottom. This creates channels through which the shower of waste water can flow to the drain hole of the shower tray.

55. It should be noted that a vent channel runs between the shower tray wall and the plastic housing, in which the heat exchanger is located, from the surface of the plastic housing to above the drain hole in the bottom of the shower tray. For the holes, which are located in the lower shell part and through which the shower can drain waste water, a ridge is provided whose height is approximately three-quarters of the height of the heat exchanger. This ledge ensures that the shower heat exchanger is sufficiently covered by the shower waste water during the shower, so that heat exchange can take place. Due to a number of very narrow vertical slits which are located at some mutual distance in the aforementioned ledge, the platform or surface which forms the bearing surface on which the heat exchanger rests will be able to slowly deflate after showering. The heat exchanger itself consists of a number of parallel running copper tubes, or tubes made of conductive material made of other heat, connected on both sides by a number of semicircular tubes or on either side by means of a straight line. tube are connected to each other. It is also possible to opt for a heat exchanger consisting of two thin iron plates pressed into profile, which are watertightly connected to each other and provided with two water connection points, all this, according to the concept of the so-called flat radiators as are known from the central heating systems. The connection points for the flexible connecting hoses are positioned close together in all the aforementioned heat exchangers. These flexible hoses connect the heat exchanger with the cold water pipe of the shower device. The cold water pipe is equipped with a stopcock (a tap without tap) with a quick coupling on either side to which the flexible hoses can be connected. The quick couplings are of such a nature that, 75. if the flexible hoses are not connected, no passage of water can take place.

All this makes it possible to remove the heat exchanger as a whole from the shower tray for cleaning and, in the event of a defect in the heat exchanger, to still be able to shower without using the heat exchanger.

101 ER R 1

Claims (2)

5. Claim 2. Device as claimed in claim 1, characterized in that the heat exchanger is situated in a plastic housing which consists of a lower shell part and an upper shell part, which as a whole are loose and closing on the bottom and the sides of a shower tray and / or or shower stall bottom, and is connected to the cold water pipe of the shower device by means of two flexible hoses and quick couplings. There is a stopcock between the two quick couplings. The heat exchanger as a whole can be removed, dismantled and cleaned separately from the shower base bottom and / or shower cabin. Claim 3. Device as claimed in claims 1 and 2, characterized in that the lower and upper shell part are connected to each other by means of bolts and / or screws and / on clamps and / or clips. Claim 4. Device according to claims 1,2 and 3, characterized in that the housing in which the heat exchanger is located consists of material other than plastic. Conclusion 5. Device as claimed in claims 1,2, 3 and 4, characterized in that the whole of housing and heat exchanger only consists of an upper housing and a heat exchanger located below it. 101 55 6 1