WO2020014758A1 - Fixing body for a duct component for a water diverter cock and for tap components - Google Patents

Abstract

The present application relates to an improvement affording better operation of not only the hot and cold water mixer tap but also the water diverter cock of the inventions pertaining to patent no. BR 10 2014 008516-5 and application BR 10 2018 008452 6. This solution reduces the number of components and facilitates installation, maintenance and cleaning. The present application pertains to the technical field of building engineering. It envisages a device that combines a water diverter cock (45) of "CONTROLLED FLOW DIVERTER DUCTS" with a tap component (4, 42, 43, 44 and 51) having a tubular segment (46) of "CONTROLLED FLOW DIVERTER DUCTS" which passes upwards through horizontal surfaces, such as sinks, lavatories, toilet seat lids or countertops (29), and returns downwards, having a cock (45) which is located on the upper side of the horizontal surface (29) and which regulates the passage of diverted water. Mono-control and monobloc variants are envisaged.

Description

 DESCRIPTIVE REPORT

 "FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS".

 [1] This order refers to an improvement with improved function of both cold and hot water mixer components and the water diversion key of the invention referring to patent number BR 10 2014 008516-5, entitled “ INTEGRATED SYSTEM OF RECOVERY OF CLEAN WATER AND THERMAL ENERGY FROM HEATED WATER PIPELINES ”deposited on 04/09/2014, the patent letter and this current application being filed by the same depositor and inventor. This is the current request to structurally and functionally unify the faucet and water flow diversion key letter number BR 10 2014 008516-5. In the same proposal, it proposes to make the solution proposed by patent filing BR 10 2018 008452 6 better known as the “ALTERNATOR CIRCUIT OF HOT AND COLD WATER IN A SINGLE PIPING SYSTEM” deposited on 04/26/2018, also filed by the same depositor and inventor. For the sake of clarity of wording, we opted first to describe and correlate this current proposal with the patent letter BR 10 2014 008516-5 and then correlate it with the deposit BR 10 2018 008452 6 at the end of this report as both have operating mode analogous to the flow switch. It belongs to the field of building construction engineering.

[2] The BR 10 2014 008516-5 patent letter describes an integrated set of pipelines, reservoirs and flow switches that recover water and thermal energy through the proper conduction of water through pre-established plumbing circuits. It is applicable in buildings with central heating system, in which two plumbing systems normally coexist, one that conducts unheated water and the other that conducts heated water. These plumbing flows into outlets such as taps and showers where water is mixed between the two systems to achieve the ideal temperature. The aforementioned charter solves two waste problems (loss of water and loss of thermal energy): in the resting phase, when the heated water is not requested, there is no water flow, and the water that remains in the pipeline cools down. When heated water is needed, the chilled water that remains in the pipelines has to be thrown away by taps or showers so that the heated water can reach them, wasting water. The other problem occurs after the use of heated water, and it is stopped in the pipes, which ends up cooling, causing loss of thermal energy.

[3] The patent letter BR 10 2014 008516-5 proposed the following devices: “COOLED WATER REINTRODUCTION RESERVOIR”, “THERMAL ENERGY RECOVERY RESERVOIR”, “CONTROLLED FLOW DEVIATOR DUCTS”, and “MINIMIZED PASSAGE FLUID RESERVOIR” HOT WATER AND LOSS OF THERMAL ENERGY ”. The fundamental device is the “COOLED WATER REINTRODUCTION RESERVOIR” which receives water that has cooled in heated water pipes and automatically reintroduces it in unheated water pipes. It has the function of recovering water. “THE RECOVERY RESERVOIR OF THERMAL ENERGY ”uses a similar mechanism as will be better described in the drawings and has the function of recovering thermal energy through the storage and reconditioning of the water that would be cooled in the heated water pipes. For the sake of descriptive sufficiency, figure 1 and figure 2 were reserved to remember the operation of these reservoirs (“COOLED WATER REINTRODUCTION RESERVOIR” and “THERMAL ENERGY RECOVERY RESERVOIR”) and other devices as proposed by the said charter.

[4] The problem presented is the difficulty of installing a flow switch for the “CONTROLLED FLOW DEVIATOR DUCTS”, which are components of patent number BR 10 2014 008516-5, in the same space as cold water mixer components. and hot that are normally installed on horizontal surfaces such as sinks, cabinets, countertops and counters. In general, on horizontal surfaces, the hot and cold water mixer tap is composed of a tap spout that fits into a hole in this horizontal surface with the cold water switches installed in another hole in the surface and the hot water switch installed. in another hole. In order to install one or more water diversion flow switches from patent number BR 10 2014 008516-5 it would have to produce one more hole in the horizontalized surface, which is inconvenient for the user. In addition, an additional hole in the horizontalized surface also results in the addition of another flow switch that would occupy more space than the traditional three holes in a sink, cabinet, table top or counter. In addition, this addition of another hole, flow switch and accessories makes it difficult to clean the devices by increasing components. Even in “single-lever” or “monoblock” type keys, it would be necessary to add more holes to receive new water diversion. The invention proposed by this application presents the improved function of saving space, facilitating cleaning and installation of the water diversion flow switch of patent number BR 10 2014 008516-5e of patent application BR 10 2018 008452 6.

 [5] The solution proposed by this current order, will be better explained with the help of the figures, but in principle part of the fact that the direct water connections in pipelines both for the components of the hot and cold water tap and for the connections of the water flow diversion ducts are located below the horizontal surface, such as sinks, tops, cabinets or counters. In order to solve the problems presented, an arrangement of the deviation ducts was conceived in this current order so that they cross the horizontal surface from the bottom up and return below the horizontal surface, having a key located on the top of the horizontal surface and which it regulates the passage of bypassed water having a connection with faucet components. The solution presented for passing through these holes is the use of “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” which is a wrapping body that holds these components and attaches to the edges of the holes in the horizontal surface.

[6] In the utility model deposit “DISPLAY IN WALL OR OTHER SURFACE TAP” deposited on June 21, 2018 under number BR 20 2018 012746 8 is tap for flat surface with unified tube with tubular extension upstream of the hot or cold water flow switches containing hydrostatic communications with “CONTROLLED FLOW DUCT DUCTS” through fittings on a flat surface. This current patent application is different. In the BR 20 2018 012746 8 tank, the water flow bypass switch connects hydraulically to a continuous rigid tubular tap body downstream of one of the hot or cold water flow switches, while in this current order “FIXING BODY FOR COMPONENT DUCTAL SWITCH FOR WATER DEVIATION AND FOR TAP COMPONENTS ”there is no such tubular continuity in the tap body itself. This current order “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” has the advantage of being more suitable and easier to install on horizontal surfaces, especially in bathrooms where the disposition on a horizontal surface (sink , cabinet, top or counter) is more common, in addition to adapting more easily to the traditional holes of horizontal surfaces.

[7] In the utility model deposit “FIXING BODY FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” deposited on 1 July 2018 under number BR 20 2018 014138 0 association of faucet components with keys is defended water flow diverters with rods that cross horizontal surfaces (sink, cabinet, top or counter) with the property of transmitting rotation or sliding of that rod for flow controls below the horizontal surface. However, this mechanical stem presupposes a rigidity that makes it difficult to accommodate its structure with the faucet components. The solution proposed by this current order consists of tubular communications that allow high flexibility of your path, which allows for much better accommodation with the faucet components, in addition to the already mentioned function improvement, which is to save space, facilitate cleaning and installation of the spanner. water diversion flow from patent number BR 10 2014 008516-5e of patent application BR 10 2018 008452 6. In addition, the flow switching being above the horizontal surface (sink, cabinet, top or counter) facilitates maintenance due to the ease exchange or replacement of components such as cartridges or sealing rubbers.

 [8] It is argued that the current order is not a mere combination of faucet components with controlled flow diverter pipe components as it promotes the aforementioned functional improvements. In addition, the BR 20 2018 012746 8 eBR 20 deposits 2018 014138 0 show that, depending on the layout there are new effects with different improvements to be considered.

[9] The attached drawings show, schematically, a revision of the “INTEGRATED SYSTEM FOR RECOVERY OF CLEAN WATER AND HEATING ENERGY FROM HEATED WATER PIPES” of the charter BR 10 2014 008516-5 (figures 1 and 2) and then , in the other figures, it presents the real object of this patent application which is the “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” (fig. 3 to 12). The terms “Single-lever” and “monoblock”, for the sake of clarity, will be used in this specification and in the claims in the following forms. The key term “single lever” refers to the flow switch that brings together in the same switch the control of different water flows that would be controlled by more than one water flow switch. The term “monoblock” refers to the arrangement in which all the structures (or a subset of these structures) are gathered in the same support base, such as water ducts, flow switches (cold, hot and bypass), tap nozzle duct or other additional ducts or structures.

 [10] Figures 1 and 2 show a general review of patent number BR 10 2014 008516-5, entitled “INTEGRATED SYSTEM FOR RECOVERING CLEAN WATER AND HEATING ENERGY FROM HEATED WATER PIPES”.

 [11] Figure 3 shows the object of this invention with the couplings between the ductal component of the flow switch and the tap spout.

 [12] Figure 4 shows an object of this invention with a cross section of the fixing body for the ductal component of the diverter switch and the tap spout duct.

 [13] Figure 5 shows the object of this invention with the couplings between the ductal component of the bypass switch and the tap switch.

 [14] Figure 6 shows the object of this invention with the couplings between the flow switch and the temperature sensor.

[15] Figure 7 shows the object of this invention with a water mixer above the horizontal surface with the coupling between flow switch and tap spout with hot and cold water flow switches (58 and 59).

 [16] Figure 8 shows the object of this invention with a water mixer above the horizontal surface showing coupling of the invention with cold water pipes (62) and hot water pipes (63).

 [17] Figure 9 shows the object of this invention with “single lever” key arrangements (61).

 [18] Figure 10 shows the object of this invention with provisions in another “single lever” key arrangement (66).

 [19] Figure 11 shows an object of this invention in the form of a cross-section of a “monoblock” structure.

 [20] Figure 12 shows an object of this invention that consists of a ductal component fixing body of a flow diversion key capable of receiving spare parts from the tap or hot or cold water keys, or single-lever or monobloc structures.

 [21] Figure 13 shows a review of the deposit “ALTERNATOR HOT AND COLD WATER CIRCUIT IN A UNIQUE PIPELINE SYSTEM” number BR 10 2018 008452 6 deposited on 04/26/2018, presented in this document for a better description of the relationship between the content of this application with that deposit.

 [22] In accordance with what is shown in Figures 1 and 2, it is essential to point out the horizontal surface (29) which is a sink, cabinet, countertop or other surface on which objects of this order will be installed.

[23] In accordance with what figures 1 and 2 illustrate, some traditional structures are shown schematically, such as a traditional water tank (1) called in this text as an unheated water tank (1), a heated water tank (2) with its respective heater (3), unheated water pipes (7) and heated water pipes (9), in addition to the traditional tap spout (4) with its tap keys (5) of unheated water and tap keys (6) of heated water and water mixer duct (30). This is a schematic representation of a water use point serving as a reference for other points of use such as showers.

 [24] In figures 1 and 2, the main components of the “INTEGRATED CLEAN WATER RECOVERY AND HEATING ENERGY SYSTEM FOR HEATED WATER PIPES” can be identified, with the representation of “CHILLED WATER REINTRODUCTION RESERVOIR” (11), “DUCTS CONTROLLED FLOW DEVIATORS ”(14, 15, 20, 21, 36 and 41),“ THERMAL ENERGY RECOVERY RESERVOIR ”(24) and“ HOT WATER PASSAGE AND THERMAL ENERGY LOSS RESERVOIR ”(28).

[25] In accordance with what is shown in figures 1 and 2, the “COOLED WATER REINTRODUCTION RESERVOIR” (11) has an internal space that is inserted in the normal path of unheated water through the inlet (27) of water coming from the normal unheated water path (7), inlet with regulating mechanism (12) that prevents water from entering when the water level inside the reservoir is above the programmed level and this programmed level is purposely placed below the total capacity of the reservoir (11) so that it allows to reserve remaining space to receive additional water collected from points close (19) to the site of heated water use (6), capturing flow this released by key (26 or 37) that opens the chilled water circuit that will be channeled by arrangement in “CONTROLLED FLOW DIVER DUCTS” (20, 21 and 36), ducts designed to receive the water flow from heated water pipes (9 and 10), conducted water that will compose together with the water already stored coming from the pipelines (7) of unheated water inside the “COLD WATER REINTRODUCTION RESERVOIR” (11), a collection of water that will be available for provision in “CONTROLLED FLOW DEVIATOR DUCTS” (14 and 36) which are interconnected to receivers in places where unheated water is used (5).

[26] In accordance with figures 1 and 2 illustrating, the “HEATING WATER PIPELINES THERMAL ENERGY RECOVERY” circuit begins by closing the chilled water switch (26 and 37) and opening the water switch (17 and 38) of thermal energy recovery by making the heated water rise through the hot water pipeline (9) to the “THERMAL ENERGY RECOVERY RESERVOIR” (24) which is inserted below and downstream of the main reservoir 1 or other source, reservoir (24) that has a water inlet (32) with a regulating mechanism (25) that prevents water from entering the main reservoir (1) or another source when the water level inside the reservoir (24) is above the programmed level, this programmed level being placed below the total capacity of the reservoir (24) allows to reserve remaining space to receive additional water coming from the reflux of the heated water pipes (9) to be reprocessed used in the normal flow of heated water in the water heating reservoir (2) below and downstream of the “THERMAL ENERGY RECOVERY RESERVOIR” (24), having flow programmers (33) that direct water to the “THERMAL ENERGY RECOVERY RESERVOIR” (24) by specific route (23) or passing directly through the reservoir of heated water (2), having “CONTROLLED FLOW DEVIATOR DUCTS” (15, 20 and 41) that communicate with higher pressure ducts (7 and 39). Also illustrated is a duct (22) that conducts water from the “THERMAL ENERGY RECOVERY RESERVOIR” (24) to the heater reservoir (2).

 [27] In accordance with the figures shown in Figures 1 and 2, the “COOLED WATER REINTRODUCTION RESERVOIR” (1 1) and “THERMAL ENERGY RECOVERY RESERVOIR” (24) use float taps ( 12 and 25) to limit the height for entering water. In order to avoid overflowing in these reservoirs (11 and 24) it was also thought of float taps (13 or 34) or vents that rise above the overflow height.

[28] In accordance with what is shown in Figures 1 and 2, the “MINIMIZING RESERVOIR OF HOT WATER PASSAGE AND LOSS OF THERMAL ENERGY” (28) is a reservoir that is inserted in the passage of the “CONTROLLED FLOW DUCT DUCTS” (15, 20, 21, 36 and 41) made to reduce the passage of heated water to the unheated water pathways (7) when the flow of chilled water occurs to the “COOLED WATER REINTRODUCTION RESERVOIR” (11), provisional storage of water in this passage reservoir (28) is used as a method, at the same time that it stores water heated immediately after the diversion (19) of chilled water so that it is available for the return phase of hot water to the “THERMAL ENERGY RECOVERY RESERVOIR” (24).

[29] Figure 1 illustrates a way in which the “COOLED WATER REINTRODUCTION RESERVOIR” (11) is located downstream of the wall water outlets (8 and 10) and has a water inlet in the “WATER REINTRODUCTION RESERVOIR COOLED ”(11) by a different path (21) from the exit path of that same reservoir (11). The “COOLED WATER REINTRODUCTION RESERVOIR” (11) and the “HOT WATER PASSAGE AND THERMAL ENERGY LOSS RESERVOIR” (28) are inside the house or building environment, the first one, as shown in figure, it can be installed above the sink and the second below the sink using special fittings. Starting from an initial state in which all switches (5, 6, 17 and 26) are closed, with the water in the water ducts heated (9) at a lower temperature by the natural cooling process, these waters are unsuitable for use by hot water inlet part of the tap (6). So, in order not to waste this cooled water, the circuit starts by opening the key (26) of the “CONTROLLED FLOW DIVER DUCT” (21) that opens a circuit in which the “CONTROLLED FLOW DIVER DUCT” (20) captures water from the wall water connector (10) through a specific connection (18), diverts the water by diversion (19) close to the water use device (6), to the “MINIMIZER RESERVOIR FOR HOT WATER PASSAGE AND ENERGY LOSS THERMAL ”(28) that will carry the water to the“ RESERVOIR OF REINTRODUCTION OF COOLED WATER ”(11) by the distinct duct (21) having a float tap system (13) that prevents the overflow of water. Once hot water arrives at the diversion point (19), the flow can be stopped by the key (26) and the heated water use point (6) is ready for use, at the same time as the water use point does not. heated (5) has reused water available from the duct (14) and, when this water runs out, there is still water that automatically inserts into the reservoir (1 1) through the inlet (27) which is a normal way of using unheated water , the water being continuously available for use at point (5) being supplied by the duct (14), including for other water use devices (31). In the other cycle, the thermal energy recovery cycle, when the use of hot water ends, hot water stagnates in the heated water pipes (9) which will cool if they are not used soon. At that moment, with the other keys closed, the key (17) that will have connection (16) can be opened through the “CONTROLLED FLOW DIVER DUCT” (15) with the wall water outlet (8) from water pipes that have greater pressure pushing the water back to the “MINIMIZER RESERVOIR OF HOT WATER PASSAGE AND LOSS OF THERMAL ENERGY” (28) and then to the “CONTROLLED FLOW DIVER DUCT” (20) to promote hot water return through via (9) to the “THERMAL ENERGY RECOVERY RESERVOIR” (24) passing through a flow regulator that are illustrated as valves (33) that will lead the water still heated, by specific route 23, to the “ENERGY RECOVERY RESERVOIR THERMAL ”(24) that will preserve the temperature of this water then reintroducing it into the heated water tank (2).

 [30] Figure 2 illustrates another alternative of the “INTEGRATED SYSTEM OF RECOVERY OF CLEAN WATER AND HEATING ENERGY FROM HEATED WATER PIPES” which has the differential of installing the “COOLED WATER REINTRODUCTION RESERVOIR” (11) in a more central and upstream of the water outlets of the walls. In addition, the transport of chilled water is promoted by the return of water directly through the pipes (35) that supply the unheated water outlets (40) on the wall. In this way, this reservoir (11) starts to supply several points of water use by means of ducts (35) that traditionally feed the water use points of the house, also saving plumbing material and optimizing the possibility of making the diverted water available.

 [31] In figure 2, in contrast to figure 1, the “COOLED WATER REINTRODUCTION RESERVOIR” (11) does not produce enough pressure at the outlet (40) to bring the still heated water to the “ENERGY RECOVERY RESERVOIR THERMAL ”(24). To solve this, it was envisaged to use another water source with higher pressure, such as street water illustrated as plumbing (39).

[32] Still in figure 2, the heated water recovery cycle begins with the opening of the key (37) that promotes the passage of the cooled water from the heated water pipeline (9) to the duct (20) passing through the bypass ( 19), going to the “MINIMIZER RESERVOIR OF HOT WATER PASSAGE AND LOSS OF THERMAL ENERGY” (28), proceeding to the duct (36) and to the “RESERVOIR OF REINTRODUCTION OF COOLED WATER ”(11) passing through the same outlet ducts (35) of this reservoir (11). The other cycle, the thermal recovery cycle starts, with the switch (37) closed, opening the switch (38), with the higher water pressure of the duct (39) pushing the water through the duct (41), passing through the “MINIMIZER RESERVOIR HOT WATER PASSAGE AND THERMAL ENERGY LOSS ”(28), duct (20) and duct (9) going to the“ THERMAL ENERGY RECOVERY RESERVOIR ”(24).

 [33] The patent letter BR 10 2014 008516-5 describes a circuit that recovers water (using “COOLED WATER REINTRODUCTION RESERVOIR”) and another circuit that recovers thermal energy (“THERMAL ENERGY RECOVERY RESERVOIR”). The arrangements for taps, diversion switches and accessories described below, in figures 3 to 12, can be used separately for buildings that have only one circuit or used for systems that have both circuits (water recovery and thermal energy recovery) ) working together.

 [34] In accordance with what is shown in figures 3 to 12, a flow switch (45) of “CONTROLLED FLOW DEVIATOR DUCTS” is referred to, corresponding to the diversion switches (17, 26, 37 or 38) of figures 1 and 2 .

 [35] In accordance with what is shown in figure 3, it is illustrated “FIXING BODY FOR DUCTAL COMPONENT FOR WATER BYLIFT KEY AND FOR COMPONENTS OF

TAP "consisting of a fixing body (52) that includes a tubular segment (46) of" CONTROLLED FLOW DIVER DUCTS "that crosses a horizontal surface (29) of downwards and downwards, having a key (45) that is located at the top of the horizontal surface (29) and which regulates the passage of diverted water having a connection with a tap spout (4 and 51). Also illustrated is an annular structure (49) that installs above a horizontal surface (29) and an annular structure (50) that installs below a horizontal surface (29) with a screw, pressure, fitting, glue or locking mechanism for fixing the “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” in the horizontal surface holes. The flow switch (45) of “CONTROLLED FLOW DEVIATOR DUCTS” corresponds to the diversion keys (17, 26, 37 or 38) of figures 1 and 2. The position of the key (45) above the horizontal surface (29) allows easy access to the control and easy maintenance, in addition to the facility to adjust to the shape of the tap spout (51) (4). This arrangement allows the assembly to pass through a hole in the horizontal surface (29). A temperature sensor (47) is illustrated in a strategic position, along the upper part of the ductal component (46) of the diversion switch (45) to identify and show the result of the incoming water temperature.

 [36] In accordance with what is shown in Figure 4, it shows the object of this invention with a cross section of the fixing body (52) for the ductal component (46) of the diverter switch and the spout (51) of the tap.

[37] In accordance with what is shown in figure 5, it is illustrated “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR COMPONENTS OF TAP "consisting of a fixing body (48) that houses a cold or hot water flow switch (42, 43 and 44) corresponding to the keys (5 or 6) of the water mixer in figure 1 or figure 2, associated with a component ductal (46) of the bypass key (45) described in previous figures.

 [38] In accordance with what is shown in figure 6, the fixing body (56) is illustrated, which crosses the horizontal surface (29) which fixes the ductal component (46) of the diverter switch (45) with a temperature monitor with temperature sensors (55 ) on the bottom of a horizontal surface (29) having communication (54) with flags (53), displays (53) or interfaces (53) on the top of a horizontal surface (29). These interfaces can be electrical, electronic, with electrical communications by metallic materials or by remote means such as wifi or bluetooth. They share space with the water diversion components and components (keys or nozzles) of hot or cold water taps. In general, electrical, electronic or electromechanical systems such as alarms, displays, interfaces for local or remote electronic signals, proximity sensors or electromechanical systems for controlling the opening and closing of keys can be incorporated into the fixing body (56). flow.

[39] In accordance with what is shown in figure 7 and 8, it is illustrated a fixing body (57) that crosses a horizontal surface (29) and joins a ductal component (46) of the diversion key (45) with column (60) with different keys water mixers (58 and 59) for water flow control, with the water mixture leaving a tap spout (4), illustrated in figure 8, the different controlled hot and cold water ducts (62 and 63) by the keys (58 and 59).

 [40] In accordance with what is shown in figure 9, the fixing body (64) which crosses a horizontal surface (29) and a ductal component (46) of the diverter key (45) is illustrated with a “single lever” key (61) that joins the key cold water hot water key (58 and 59) of figures 7 and 8, and the water mixture flows through a tap spout (4), with a “single lever” key (61) located above a horizontal surface (29) . It has a separate cold water duct (not shown) and a different hot water duct (not shown) joined in a column (60).

 [41] In accordance with what is shown in figure 10, the fixing body (65) which crosses a horizontal surface (29) with a “single-lever” key (66) that shows the unification of the key (61) of figure 9 with the diverter key is illustrated flow

(45) becoming a new “single lever” switch (66) further reducing the number of flow switches.

 [42] In accordance with what is shown in Figure 1 1, a section of a monoblock fixing body (68) is presented which joins a set or subset of structures of this structure in a support base and passes through a single hole (29) invention (43, 46, 51 and 54). It may also have a passage for single-lever structure (62 and 63). It is possible to observe more than one pair of water passages (46), rising and falling in relation to the horizontal surface, for tubular segments (46) of “CONTROLLED FLOW DUCTS”. A water passage pair (46) serves to make the circuit that recovers chilled water and another pair of water passage

(46) to make the circuit that recovers thermal energy described in charter BR 10 2014 008516-5. This configuration, with more than one water pass (46) can be used in any of the models presented in the other figures of this application.

 [43] In accordance with what is shown in figure 12, a fixing body (81) is shown, which crosses a horizontal surface (29), has a passage for the ductal component (46) of the diverter switch (45) and contains an internal hole (82) to attach a normal faucet component such as a spout body or a cold (5) or hot (6) water flow switch. This central hole (82) acts as a horizontal surface hole (sink, top, cabinet or counter) and normal faucet components can be installed. This allows the user to maintain their traditional faucet components, having options to choose models of their preference. The passages for ductal component (46) of the bypass key (45) can be installed anywhere on the fixing body (81) and have different shapes showing the flexibility of the solution proposed by this order which increases the adaptability of the letter object patent number BR 10 2014 008516-5, entitled “INTEGRATED SYSTEM FOR RECOVERING CLEAN WATER AND HEATING ENERGY FROM HEATED WATER PIPES”. The fixing body (81) unifies in a single structure components of traditional tap and componenteductal (46) of water diversion key (45).

[44] In accordance with what is shown in figure 13, the patent filing BR 10 2018 008452 6 is illustrated, called “ALTERNATOR CIRCUIT OF HOT AND COLD WATER IN A SINGLE PIPING SYSTEM” deposited on 04/26/2018. It is made up of “ALTERNATOR RESERVOIR OF HOT AND COLD WATER ”(70) and“ WATER REINTRODUCTION RESERVOIR ”(69). For the sake of descriptive sufficiency of this current deposit, it is understood that the most important thing is to describe in more depth the “WATER REINTRODUCTION RESERVOIR” (69).

 [45] Still in accordance with what is shown in figure 13, the “HOT AND COLD WATER ALTERNATOR CIRCUIT IN A SINGLE PIPING SYSTEM” alternates hot and cold water at the source of the single pipeline (71) which provides water for use by connection hydraulic (75) which supplies one of the tips (79) of the water mixer (4, 30 and 77). When the water temperature in the pipeline (71) changes, so that stagnant water in the pipeline (71) at an unsuitable temperature is not thrown away, it is sent through ducts (74) to the “WATER REINTRODUCTION RESERVOIR” (69), through the water inlet (78) and activated by a water diversion trigger key (76), reservoir (69) which stores and replaces the water collection at the other end (80) of the water mixer ( 4, 30 and 77). When the water level of the water reservoir (69) falls below that defined by the level valve (72) it allows water to enter through a duct (72) that receives water continuously from the water ducts (71 and 74). The end-use devices can be taps or showers. The “HOT AND COLD WATER ALTERNATOR RESERVOIR” (70) is a temperature diluting element to promote a temperature difference between the two opposite flow switches (77) of the mixer. Its operation is detailed in the text of the deposit BR 10 2018 008452 6.

[46] Still in line with what Figure 13 illustrates, important for this current order is that the “HOT AND COLD WATER ALTERNATOR CIRCUIT RESERVOIR” IN A SINGLE PIPING SYSTEM ”is analogous to the“ CHILLED WATER REINTRODUCTION RESERVOIR ”(11) of the“ SYSTEM INTEGRATED RECOVERY OF CLEAN WATER AND THERMAL ENERGY FROM HEATED WATER PIPELINES ”.

 [47] Still in accordance with what is shown in figure 13, for the purposes of this request, both for the description and for the claims, it is conceived that the key that triggers the deviation (76) can be used in the same provisions and with the same connections as the key (45) of the previous figures, including in the “single lever” and “monoblock” versions.

 [48] In general, for all drawings, faucet variations are designed like those with an extended and flexible spout like flexible showers.

Claims

 1. “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” comprising a fixing body (48 and 52) characterized by having a tubular segment (46) of “CONTROLLED FLOW DUCT DUCTS” that crosses the surface horizontally (29) from bottom to top and back down with a key (45) located at the top of the horizontal surface (29) and which regulates bypass water having a unified structure (48 and 52) with faucet components ( 4, 42, 43, 44 and 51).

 2. “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” comprising a fixing body (52) according to claim number 1 characterized by having a unified structure (52) with a spout body (4 and 51).

 3. “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” comprising a fixing body (48) according to claim number 1 characterized by having a unified structure (48) with a tap key (42 , 43 and 44).

4. "FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS" comprised of a fixing body (57) according to claim number 1, characterized in that the faucet component has a distinct cold water duct (62) and separate hot water duct (63) with separate water mixing keys (58 and 59) with water mixture outlet for tap spout (4).

5. "FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS" comprised of a fixing body (64) according to claim number 1, characterized in that the faucet component has a distinct cold water duct (62) and separate hot water duct (63) in a tap spout body (60) with a “single lever switch” (61) for simultaneous control of the flow of hot and cold water with the water mixture leaving the tap spout (4).

 6. “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” comprising a fixing body (65) according to any of the preceding claims characterized by a fixing body (65) which has a “single lever” key ”(66) that controls bypass switch (45) of“ CONTROLLED FLOW DIVER DUCTS ”and water flow switch (58 and 59) in a single mechanism (66).

 7. "FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS" comprising a fixing body according to any of the preceding claims characterized by having a fixing body (48, 52, 57, 64, 65 , 68 or 81) with more than one pair of water passages (46), up and down in relation to the horizontal surface, for tubular segments (46) of “CONTROLLED FLOW DUCT DUCTS”.

8. "FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS" comprising a fixing body (56) with temperature monitor according to any of the claims previous characterized by body (56) that crosses horizontal surface (29) having temperature sensors (55) on the bottom of horizontal surface (29) having communication (54) with flags or displays (53) on top of horizontal surface (29).

 9. “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” comprised of a control mechanism according to any one of the previous claims, characterized by having electrical systems incorporated in the fixing body (56). electronic or electromechanical.

 10. “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” comprising a “monoblock” (68) clamping body according to any one of the preceding claims, characterized in that it is a monoblock clamping body that joins in a support base with passage through a single hole with a horizontal surface (29) tubular duct segments (46) of “CONTROLLED FLOW DUCT DUCTS”, tap nozzle ducts (51), mechanical rod (43) with key (42, 43 and 44) for tap control or specific pipes (62 or 63) for the passage of hot or cold water.

11. "FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS" comprising a fixing body (81) according to any of the preceding claims characterized by a fixing body (81) with passages (46) ductal component (46) of the diverter switch (45) having a central hole (82) for fixing and coupling traditional faucet components.

 12. “FIXING BODY FOR DUCTAL COMPONENT FOR WATER DEVIATION KEY AND FOR TAP COMPONENTS” comprised of a water diversion key according to any of the previous claims characterized by replacing a water diversion key (45) with a spanner water diversion (76) that connects hydrostatically with “WATER REINTRODUCTION RESERVOIR” (69) of patent deposit BR 10 2018 008452 6 called “HOT AND COLD WATER ALTERNATOR CIRCUIT IN A SINGLE PIPING SYSTEM”.