FR2993444A1 - Device for preventing fogging on surface of e.g. mirror in toilet while using hot water, has valve fixed in closed position during summer season to direct warm water directly toward sanitary appliance without passing through exchangers - Google Patents

Abstract

The device has a frame (1) fixed at a wall and provided with a layer made of an insulating material (13). Heat exchangers (7, 14) are equipped with fixings studs. Two supports (21, 22) are fixed on the wall. A by-pass valve (16) is fixed in opened position to ensure total flow of warm water through the exchangers during winter or mid-season to raise temperature of a surface of a mirror (12). The valve is fixed in closed position during summer season to direct the warm water directly toward a sanitary appliance without passing through the exchangers.

Description

The present invention relates to an automatic anti-fogging and heating device, for a mirror installed in a bathroom equipped with one or more sanitary appliances operating with hot or mixed water. This invention makes it possible to avoid, on the surface of the mirror, condensation or fogging problems due to the differences in temperatures between the atmosphere and the latter. This invention also allows to automatically provide a portion of the heating needs of the premises, during its use. EP0871051 discloses a device for preventing condensation on a shower mirror. This device comprises, a heat exchanger consisting of a tube embedded in a filling material, a connection device to the hot water piping of the shower, a mirror, a frame closed on all sides allowing to fix the mirror to the exchanger and secondly, the entire mirror and exchanger to the wall of the shower. The operation of the assembly is realized from the moment when the shower head is used in hot water. The hot water inlet of the exchanger located behind the mirror is connected upstream of the hot water piping of the shower, and the outlet of the exchanger downstream of the same piping. Between the two connections of the exchanger on this pipe, is disposed a pierced element with a small hole, forcing a part of the flow of this pipe to the exchanger located behind the mirror. The whole of the invention being located in the shower. The main drawbacks of this device are a considerable inertia due to the fact that before the mirror can be heated, the water will firstly have to heat the tube, then finally the filling assembly which according to the sketches of the art Fig. 1.3 and 5B is of a minimum thickness greater than that of the tube, because the exchanger is coated with the filling material. As a result, the condensation will take place before the temperature rise of the mirror and will then be eliminated, when finally the mirror will be at the proper temperature. The fact of being permanently connected, winter or summer to the sanitary equipment, in summer period or when no need for operation (if there is no condensation) generates a significant consumption not necessary, due to the passage hot water in the exchanger located behind the mirror. The element pierced with a small hole and located between the two connections of the exchanger creates a very significant loss of pressure, which induces despite the drift made by the coil a loss of flow at the shower head. 2.993444 2 This element must be pierced with a very small hole to create the necessary bypass to the exchanger. Now this device by the significant narrowing of the section of the pipe in which it is positioned, will be subject to deposits of limestone and the like, plugging its orifice and thereby making it malfunctioning.

The prior art requires a mirror of dimensions adapted to that of the exchanger and does not allow the use of a previously existing mirror in the bathroom of larger dimensions. The closed frame allows, after the temperature rise of the material making up the heat exchanger, to finally heat up the mirror, but contributes little or no to the heating of the room during its use. The present invention relates to a device for preventing condensation or fogging problems due to temperature differences between the ambient and the surface temperature of the mirror in place, as well as a part of the heating requirements of the local during its use and without the disadvantages of the prior art. The system for heating and anti-fogging mirror system consists of a specific bypass tap system, a reversibly positioned heat exchanger, a layer of insulating material, a support to the load-bearing wall. a quick and simplified installation, of a cache connections and a system allowing the installation of existing mirror or dimensions chosen by the user. The invention is not located as in the prior art in the shower, but in the volume of the bathroom. It is characterized in that the specific by-pass valve in the open position ensures in winter or half-season a total flow of hot or mixed water through the exchanger, in order to raise the temperature of the surface of the water. mirror before being automatically reoriented to the sanitary appliance or appliances in applications. In summer, the season does not require demisting, the by-pass valve in the closed position directs the hot or mixed water directly to the sanitary appliances in 30 requests, without passing through the exchanger. The reversible heat exchanger is composed of a tube or pipe inserted in a ribbed plate, the assembly being of high thermal conduction. A layer of insulating material is placed between the heat exchanger and the wall, to limit heat loss to the support wall, and to enhance the exchange of heat to the mirror. A frame, receiving the exchanger and the insulator, easily fixable to the supporting wall or wall, which by its fixing studs, creates a spacing of the assembly to the carrier wall and allows to recover by convection air ambient, a portion of the calories passed through the insulating material. A mirror installation system allowing the installation of existing mirrors or dimensions chosen by the user and a convective heat input into the bathroom, 5 providing a significant complement to the existing heating system. A connection cover fixed by simply clipping and cutting to desired length, allows to hide and provide protection to the connection pipes. This invention operates automatically and instantly, when one or more of the bathroom fixtures, equipped with hot or mixed water piping are solicited. Depending on its positioning and its reversibility, the exchanger allows either a higher reactivity than the prior art and a significant supply of heat to the room during use, or an almost instantaneous effect of temperature rise of the mirror. Whatever the season, the total flow to the sanitary appliances concerned is still achieved and without significant losses and without the inconvenience of blockage of the pipe by limescale deposits or other due to shrinkage important of this in the prior art. The present invention will be better understood from the study of a particular embodiment taken by way of nonlimiting example and illustrated by the accompanying drawings, in which: FIG. 1 is a perspective front view of the invention; . FIG. 2 is a detailed view of the bypass valve (16) and its connections (17), (18), (19) and (20). FIG. 3 is an exploded perspective view of the assembly. of the invention. Figure 4 is a front view of the wall support plate (1). Figure 5 is a sectional view of the wall support plate (1). Figure 6 is a front view of the exchanger plate (7). Figures 7 and 8 are sectional views of the mirror (12), the exchanger plate (7) and the insulator (13). Figure 9 is a detailed plan view of connections to the plumbing and sanitary network before the implementation of the invention. Figure 10 is a plan view details of connections (29) upstream and (30) downstream of the invention to the plumbing and sanitary network after implementation of the invention. Fig. 11 is a schematic view of the operation of the by-pass taps in winter and off-season, in the open position and the heat exchanger. 2993'444 4 Figure 12 is a schematic view of the operation of the by-pass valve in summer, in the closed position and the exchanger. Figure 13 is a perspective view of the details of the connections (29) upstream and downstream of the invention to the plumbing and sanitary network after the implementation of the invention. Figure 14 is a set of views of various possibilities not limited installation of the tube or pipe of the exchanger. FIG. 15 is a view of the connection cover to the bypass valve. With reference to these drawings, the device according to the invention comprises a heat exchanger composed of a plate (7), ribs (8) intended to receive the tube or pipe (14). An insulating plate (13) A wall mounting frame (1) A specific by-pass diverter valve (16) A connection cover (28) A mirror support assembly (21), (22) and (23) The invention relates to an automatic device for preventing or eliminating mist on a mirror, located in a bathroom equipped with sanitary appliances and having a bypass tap 20 connected to a piping hot or mixed water. This invention also aims to serve as additional heating of the room used, and at the appropriate time. This automatic device will work when independently or simultaneously using one or more bathroom fixtures equipped with a hot or cold water connection. Demisting and supplementing the heating will therefore be performed during operation, independently or simultaneously of the shower, the bath, the sink, or another device located in the bathroom and equipped with a hot or mixed water connection . This device allows the installation of a mirror (12) of different dimensions, allowing in the case of installation in an old building, recovery and installation of the existing mirror. This device comprises a heat exchanger made by a tube or pipe (14), inserted into gutters or ribs (8), made in a plate (7), the set of 35 very low inertia and high conductivity is placed behind the mirror. The section of the tube of the coil is made according to the total need of the sanitary appliances concerned, so as not to create losses of flow. .2993'444 5 This section will therefore be variable at manufacturing according to the estimate of needs. As shown in Figure 14. The coil (14) may be placed on the ribbed plate (7), in optimum manner, depending on the layout of the room and these cold walls. 5 The set of sketches in Figure (14) are not limited in shapes and numbers. According to its positioning, the exchanger plate (7) and the tube (14) are situated as close as possible to the mirror (12) so as to create an almost instantaneous effect of the temperature rise of the mirror (12) and a moderate intake of local heat during use.fig.7, or a second solution is to locate the tube of the exchanger (14) as close as possible to the mirror (12) and the plate (7) recessed, allowing a greater heat transfer to the room when it is used fig.8. To ensure maximum heat transfer to the mirror (12) and the room, this exchanger (7), (8) and (14) is completed in its portion facing the support wall by an insulator (13). The mounting frame 1, by its shape allows easy and quick installation of the exchanger assembly (7), (8) and (14) and insulation (13), it is made with a flange (6) to the stiffened. It is provided with several holes (5) through which, the insulating assembly (13) and exchanger (7), (8) and (14) is fixed to the frame (1) by means of screws (24). The insulator (13) is in direct contact with the frame (1), which requires a ring (25) 20 of the thickness of the insulation (13) in each of the screws (24) so as not to compress the one -this. The frame (1) is provided with a central hole (4) for positioning the frame assembly (1), insulator (13) and exchanger (7), (8) and (14), on the carrier wall by for this purpose, in the plate 25 of the exchanger (7) and in the insulator, a central hole (10) of suitable shape and cross-section is provided by means of screws with spacer ring (15). the passage of a tool necessary for the installation of the screws with spacer ring (15). The frame (1) is provided with a plurality of studs (2), in which apertures (3) of suitable shape are provided, allowing attachment to the carrier wall with easy leveling adjustment. For this purpose, in the plate of the exchanger (7) and in the insulator, apertures (9) of appropriate shape and cross-section allow the passage of a tool necessary for setting up the screws (26) for fixations and leveling adjustment. The spacer ring (15) and the pads (2) made by stamping, allow a fixation of the invention on a more or less regular carrier wall, and recover in the room, a part of the heat dissipated through insulation (13) and frame (1). '2993444 6 The positioning and the fastenings of the chassis (1), insulator (13) and exchanger (7), (8) and (14) will be predefined on the load-bearing wall by means of a laying jig . The frame assembly (1), insulator (13) and exchanger (7), (8) and (14) require about 5 minutes to fix it on a wall type plasterboard. The piping located in the description of the prior art between the two connections of the exchanger (29) and (30) no longer exists, it can therefore no longer be blocked by deposits of limestone or other. As shown more specifically in FIGS. 11 and 12, a specific bypass valve 10 with a bypass (16) will make it possible to stop this device during the summer period or when there is no need for operation if there is no condensation, in order to save energy by avoiding unnecessary operation. This tap (16) will allow the choice to achieve the total flow of hot or mixed water directly through the exchanger in winter, or to the relevant sanitary fixtures 15 without going through the exchanger in summer. This tap with bypass (16) comprises a hot or mixed water inlet (17) from the general network existing upstream of the sanitary appliances (29) A hot or mixed water outlet (18) to the exchanger located behind the mirror.

A return hot or mixed water (19) from the exchanger located behind the mirror. A hot or mixed water outlet (20) to the existing general network (30) near and downstream of the connection to the hot or mixed water inlet (29) previously produced. Its essential function being in open position Fig.11, to make possible in winter the passage of the entire hot or mixed water flow to the exchanger (7), (8) and (14), in order to increase the temperature of the mirror and avoid any condensation or fogging. Its second function in closed position Fig.12, is to prohibit in summer the passage of hot or mixed water to the exchanger (7), (8) and (14), directly directing the entire flow of hot or mixed water to the affected sanitary appliances. As shown more specifically in Figures 2, 10 and 13, the connections (17) and (20) of the bypass valve (16) of the invention will be upstream of the collector or the general supply pipe hot or mixed water (29) and (30) from the water room concerned. As shown more precisely in FIG. 15, a cover clipped directly on the connection pipes to the bypass valve (16), in addition to its aesthetic function, ensures the protection of this fitting (16) and its connections (17). ), (18), (19) and (20).

As shown more precisely in Figures 1 and 3, the mirror support assembly (21), (22) and (23) allows the installation of an existing mirror or dimensions selected by the user. Indeed, its design made from two independent horizontal supports (21) and (22) placed in the lower and upper part of the mirror, allows the installation of a mirror higher and wider than the exchanger (7), ( 8) and (14). The support (21) is pierced over its entire height by two holes (27) of appropriate section and center distances, allowing the choice and according to availability on site, its positioning in the upper or lower part of the invention, with the passages (27) optionally, left or right depending on the different possibilities of installing the tube or pipe of the exchanger fig.14. It is also possible to make the pipe passages of the exchanger (7), (8) and (14) to the specific tap bypass (16), by the sides without the need to pass through them. a support (21).

On each support (21) and (22), are fixed two fasteners (23), which allow the establishment of the mirror (12). At the beginning of the season, requiring the start of the invention, the user, after operating the bypass valve (16) in the open position fig.11, has no further manipulation to be performed throughout the season. Indeed the anti-fog operation and additional heating of the bathroom will be done automatically and at the appropriate time without any intervention of the user. In winter or mid-season, in the bathroom, by ambient temperature likely to cause fog on the reflecting surface of the mirror (12), when the user draws hot or mixed water from a or several sanitary appliances located in the bathroom, the hot or mixed water of the general supply piping, located upstream of all the sanitary appliances of the washroom fig.10 (29), by the intermediate of the bypass valve (16) in the open position automatically passes through the heat exchanger (7), (8) and (14), gives up part of its heat to this exchanger (7), (8) and (14), which raises the temperature of the mirror (12), and prevents the formation of fogging on the surface thereof. The hot or mixed water is then automatically reoriented to the general supply (30) of the sanitary appliances concerned. In addition, the design of the frame assembly (1) and the mirror supports (21), (22) and 35 (23), make the heat exchanger (7), (8) and (14) open. on the water room over its entire height, these two vertical sides and in direct contact with the ambient air to create a large convection, and can contribute to the heating of the room automatically and only at the appropriate time. In order to increase the efficiency of the exchanger (7), (8) and (14), towards the mirror (12), an insulating plate (13) is located between the latter and the wall, to limit the losses towards the support wall and reinforce the heat emission towards the mirror (12). In order to increase the efficiency of the exchanger (7), (8) and (14) towards the body of water, the fixing of the frame (1) to the wall is done by means of studs (2), which create a space between the frame (1) and the wall, allowing an additional passage of the ambient air by convection to recover some of the calories passed through the insulating plate (13). Its design made from two identical horizontal supports (21) and (22), placed in the lower and upper part of the mirror (12), allows the installation of a mirror of length and height greater than that of the heat exchanger (7). ), (8) and (14) while ensuring by the effect of convection produced, the rise in temperature of the upper part of the mirror which is above the exchanger (7), (8) and ( 14). The total heat input produced by the heating mirror is evaluated at a minimum of 200 watts, which corresponds to approximately 40% of the heating requirements of the bathroom during the hot water tapping period and a temperature of negative outside. In half-season the present invention by its calorific intake, avoids the unexpected start of heating. In the summer period, which does not require demisting, the user operates the by-pass valve (16) to put it in the closed position fig.12, the general hot or mixed water inlet fig 10 and 13 (29) upstream of all the sanitary appliances is diverted towards the device described above, but the bypass bypass valve (16) in the closed position does not permit its passage through the exchanger (7), (8) and (14) and will reorient hot or mixed water to the piping placed downstream of the diversion fig.10 and 13 (30), and upstream of all the sanitary appliances concerned, and those, so as not to raise the temperature of the mirror and spend unnecessarily a a significant amount of energy. The easy and easy attachment of the frame (1) allows a quick and easy positioning mode for its leveling. The device according to the invention is intended to avoid any form of condensation or condensation on the surface of a mirror. It can be placed in all places (bathroom, kitchen, swimming pool, gym, mobile home, camper, common sanitary, etc ...) The present invention is not limited to the embodiments described and represented but the person skilled in the art will be able to make any variant that fits his mind.

Claims (3)

REVENDICATIONS1. Device for a bathroom to avoid by convection heating condensation or fogging problems due to temperature differences between the atmosphere and the surface temperature of the mirror (12) in place. Including: a specific bypass faucet system (16). A reversibly positioned heat exchanger (7,8,14) consisting of a tube (14) inserted into a ribbed plate (7,8) located near the mirror (12). A frame (1) fixed to the wall, receiving a layer of insulating material (13) and the heat exchanger (7,8,14), equipped with fixing studs (2) to create a spacing of the assembly to the wall carrier. Two supports (21, 22) fixed on the carrier wall for quick and easy installation of the mirror (12) of dimensions chosen by the user. Characterized in that the specific by-pass valve (16) in the open position, ensures in winter or half-season a total flow of hot or mixed water through the exchanger, in order to raise the temperature of the surface of the mirror (12) before being automatically reoriented to the sanitary appliance (s) in demand. And in summer, season does not require demisting, the by-pass valve (16) in the closed position direct hot or mixed water directly to the sanitary appliances or applications in demand, without passing through the exchanger. 2. Device according to claim 1, characterized in that it comprises a connection cover (28) fixed by simply clipping and cutable to hide and provide protection to the connection pipes (17, 18, 19, 20) . 3. Device according to claim 2, characterized in that it can be used as a complement to an existing heating system.