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  • 专利说明
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    • 专利摘要:
    Thermostatic screaming. The present invention refers to a thermostatic bath/shower faucet, comprising three independent modules, intake module (5), mixing (6) and distribution module (7), communicated with each other through ductwork sectors, being housed, said thermostatic taps, in a container (8), which serves as a packaging, allowing flush mounting on the wall, in a horizontal or vertical position, thus the packaging being one more constructive element, so that once said container (8), the thermostatic taps, is easily flush and flush with the wall, making it possible for the modules to be tiled on the front of the container (8), with decorative covering between the modules, creating a very different possibility aesthetics and practice, the different intake (5), mixing (6) and distribution (7) modules being hidden, by inserting the corresponding covers and handles. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2769626A1
    申请号:ES201831280
    申请日:2018-12-26
    公开日:2020-06-26
    发明作者:Jimenez Roberto Ladron
    申请人:Griferias Grober SL;
    IPC主号:
    专利说明:

    [0001] Thermostatic taps
    [0002] Object of the invention
    [0003] The present invention refers to a thermostatic bathroom / shower faucet, comprising three independent modules, intake, mixing and distribution module, communicated with each other through pipes, to distribute the mixed water to at least two outlets , with the particularity that this thermostatic faucet is presented in a container, which serves as a packaging, to carry out flush mounting on the wall, in a horizontal or vertical position, with great ease, since the work hole is considerably reduced, being in this way the packaging is one more constructive element.
    [0004] Once the container is embedded, the thermostatic faucet is easily flush and flush with the wall, making it possible for the modules to be tiled on the front of the container, with decorative coating between the modules, setting up a very different possibility aesthetic and practical, a possibility that until now was not possible, having to use trim panels of considerable size to hide the work hole.
    [0005] The different modules are hidden by inserting the corresponding covers and handles, which are perfectly adjusted on the decorative or tiled surface.
    [0006] Background of the Invention
    [0007] Embedded thermostatic taps are known in the state of the art, configured by a housing in which all the elements of the faucet are integrated, constituting a central main block comprising the mixer together with the non-return valves and filters, generating a series of drawbacks such as, for example, a work hole that must necessarily be hidden by placing trim panels of considerable size to hide the work hole.
    [0008] Another drawback is the reduced accessibility for the maintenance or repair of check valves and filters.
    [0009] Looking for other solutions in patent ES2524022, an improved unit for the dispensing of mixed water is presented, in which said unit is partly embedded in a hole made in the wall, communicating with the outside through telescopic sections, constituting a two-handle unit, technically very far from a thermostatic mixer.
    [0010] Description of the Invention
    [0011] The built-in thermostatic bath / shower faucet is intended to eliminate the aforementioned problems, through a modular configuration that allows various embodiments, to distribute the mixed water to at least two outlets.
    [0012] In a preferred embodiment, the thermostatic faucet is configured to distribute the mixed water to a shower column / shower head or to a shower hose, comprising three independent modules, one for admission, one for mixing and one for distribution, communicating with each other through ductwork sectors, sectors that, in addition to maintaining communication between the modules, stiffen the structure of the thermostatic faucet, being inserted, said thermostatic faucet in a container, which in addition to being used as packaging, serves to facilitate recessed installation joint in a considerably reduced work hole. The inlet module comprises a housing with an inlet connection for cold water and another inlet connection for hot water, comprising inside the check valves with filter, an outlet chamber for cold water, an outlet chamber for hot water and an inlet chamber for mixed water, said chamber being communicated with a duct positioned on the front of said intake module.
    [0013] The inlet chamber for the mixed water is not used in this embodiment, therefore it remains sealed by means of a plug, making the duct positioned on the front of the intake module unusable, as it is not used in this embodiment.
    [0014] The intake module incorporates in its upper part an insert coupling, intended to anchor a cover cover that hides and protects said filter non-return valves.
    [0015] It is important to highlight the different possible options that the intake module configuration offers, since the mixed water inlet chamber can be enabled in any other alternative embodiment, allowing a different combination with the other modules, integrated in the thermostatic taps.
    [0016] It is characteristic of the invention, the separation of the non-return valves with filter, from the thermostatic mixing cartridge, thus configuring an independent module to contain the non-return valves and their corresponding filters, with the advantage of being able to access them in the case cleaning or replacement, simply by removing the cover cap, which is fixed and without actuation functions, although it is channeling in an alternative embodiment.
    [0017] The mixing module comprises a casing that incorporates inside it a thermostatic mixing cartridge and other functional elements, destined for the regulation of the water temperature, said casing comprising a cold water inlet chamber, a hot water inlet chamber, and a mixed water outlet chamber and in its lower part a through hole.
    [0018] The through hole is intended for holding a pipeline sector, useful in an alternative embodiment.
    [0019] The mixing module incorporates in its upper part an insert coupling for the anchoring of a control handle, intended to control the temperature of the water, incorporating said control handle, a supplement indicating temperature scale, or optimum temperature indicator of use, since it can be rotated to position itself in a point of comfort, to the user's liking.
    [0020] The mixing module is configured for a small size, similar to that of the adjacent modules, thanks to the separation of the non-return valves with filter, since it is characteristic of the invention that these elements are integrated into a separate module, in this case in the admission module.
    [0021] The distribution module comprises a casing configured, with at least two outlet connections, to divert the mixed water to the shower / shower column or to a bathtub or shower hose, said casing comprising an inlet chamber for the mixed water.
    [0022] The distribution module housing also comprises a chamber provided for the return of the mixed water and an evacuation duct, positioned on the front of said module, which in this preferred embodiment, are sealed by inserting a plug, arranged to be used in other alternative embodiments.
    [0023] The distribution module incorporates in its upper part an insert coupling to anchor an actuation handle intended to divert the mixed water to the shower column / sprayer or to a bathtub or shower hose, simultaneously controlling the flow of water, by gradual actuation of the actuation handle.
    [0024] Watertight communication, between the intake, mixing and distribution modules, in a preferred embodiment, is carried out through the following pipeline sectors:
    [0025] Cold water piping sector, which communicates the cold water outlet chamber of the intake module with the cold water inlet chamber of the mixing module.
    [0026] Hot water piping sector, which communicates the hot water outlet chamber of the intake module with the hot water inlet chamber of the mixing module.
    [0027] Mixed water channeling sector, which communicates the mixed water outlet chamber of the mixing module, with the mixed water inlet chamber of the distribution module.
    [0028] It is characteristic of the invention, the special configuration of the modules of the thermostatic taps, which comprise different chambers intended for the entry and exit of cold, hot and mixed water, in order that when they are combined different embodiments can be configured.
    [0029] The container, which serves as packaging, is made of lightweight, highly resistant material, and includes cavities, intended for the positioning of the three modules connected to each other, through their different channeling sectors and by a front finish coinciding with the lid. and handles of the aforementioned thermostatic taps, which allow tiling on it.
    [0030] In this way, the container is a building block that considerably facilitates the flush mounting of said thermostatic taps, which, thanks to the reduction of the work hole, eliminates the use of soffits. large trims, since only the cover and handles of the different modules are necessary.
    [0031] Once the container is embedded, the thermostatic faucet is easily flush and flush with the wall, making it possible for the modules to be tiled on the front of the container, with decorative coating between the modules, setting up a very different possibility aesthetic and practical, a possibility that until now was not possible, having to use trim panels of considerable size to hide the work hole.
    [0032] Once the covering or tiling has been carried out on the front of the container, the insertion couplings of the modules are left in sight, provided for the anchoring of the corresponding covers and handles, with the particularity that the insertion of an intermediate element has been foreseen. between them, which allows regulating or absorbing the possible construction gaps between the thermostatic faucet and the mortar plus the tile, thus adjusting both the covers and the handles on the surface of the tile or decorative coating.
    [0033] It is important to highlight the use of packaging as one more constructive element, avoiding the generation of waste, to favor the environment.
    [0034] In an alternative embodiment, the thermostatic taps are configured to distribute the mixed water to a shower column / shower head or to a shower hose, positioned in this case, in the cover of the intake module cover, comprising a similar modular structure to the preferred embodiment, but suitable for additional functionality.
    [0035] In this alternative embodiment, the inlet chamber for the mixed water of the intake module is enabled, removing the sealing plug, inserting in the conduit positioned in the front of said module, a connection cannula.
    [0036] The intake module incorporates a cover that, in addition to hiding and protecting the non-return valves with filter, includes a support for coupling the handle of a shower hose and the corresponding water connection socket, leaving said socket connection connected to the connecting cannula to divert the water to the shower hose, incorporated in said cover cover.
    [0037] Two outlets are used in the distribution module, one to divert the mixed water to a shower column / shower head, through its corresponding outlet connection, and another outlet to divert the mixed water to a shower hose, positioned in the cover of the intake module, in this case enabling the return chamber of the mixed water, removing the sealing plug
    [0038] In this alternative embodiment, the path corresponding to the outlet connection to divert the mixed water to the bathtub is sealed by a plug.
    [0039] The distribution module actuation handle directs the mixed water to the shower column / sprayer or to a shower hose positioned in the cover of the intake module, simultaneously controlling the water flow, by gradually actuating the handle .
    [0040] The watertight communication of the pipeline sectors, between the intake, mixing and distribution modules is the same as that described in the preferred embodiment, further incorporating a mixed water return pipeline sector, which communicates the water return chamber mixing of the distribution module, with the mixed water inlet chamber of the intake module, registering the sector of the mixed water return pipe in the through hole of the mixing module.
    [0041] Importantly, through the mixed water return pipeline, the mixed water is distributed for use in an additional shower hose.
    [0042] In another alternative embodiment, the thermostatic faucet is configured with three outlets, to distribute the mixed water to a shower column / shower head or to a bathtub or to a shower hose, positioned at a certain distance from the thermostatic faucet, comprising a modular structure, similar to the preferred embodiment, but suitable for additional functionality.
    [0043] In this alternative embodiment, the distribution module is configured with three outlet connections, one for each function, to distribute the mixed water, to the shower column / sprayer or to a bathtub, or to a shower hose, located at a certain distance from the thermostatic taps, depending on the constructive configuration of the bathroom.
    [0044] In this alternative embodiment, the chamber provided for the return of the mixed water and an evacuation duct, positioned on the front of said module, are presented sealed by inserting a plug, arranged to be used in other alternative embodiments.
    [0045] In the same way, the mixed water inlet chamber of the intake module is also presented sealed by a cap, as it is not used in this alternative embodiment.
    [0046] The tight communication of the pipeline sectors, between the intake, mixing and distribution modules is exactly the same as that described in the preferred embodiment.
    [0047] In another alternative embodiment, the thermostatic taps are configured to distribute the mixed water to a shower column / shower head or to a bathtub or to a shower hose, positioned in this case, in the cover of the intake module, comprising a Modular structure, similar to the previous alternative embodiment, but suitable for additional functionality.
    [0048] In this alternative embodiment, the inlet chamber for the mixed water of the intake module is enabled, removing the sealing plug, inserting in the conduit positioned in the front of said module, a connection cannula.
    [0049] The intake module incorporates a cover that, in addition to hiding and protecting the non-return valves with filter, includes a support for coupling the handle of a shower hose and the corresponding water connection socket, leaving said socket connection communicated with the connecting cannula to divert the water to the flexible shower incorporated in said cover.
    [0050] The distribution module is configured with three outlet connections, one to divert the mixed water to a shower / shower column, another to divert the water to a bathtub, the outlet connection being sealed to divert the mixed water to a flexible hose. shower or bath, using a stopper.
    [0051] In this alternative embodiment, the mixed water return chamber is enabled, removing the sealing plug to divert the mixed water to a shower hose, positioned in the cover of the intake module cover.
    [0052] The distribution module's actuation handle directs the mixed water to the shower / shower column or to a bathtub or to a shower hose positioned in the cover of the intake module, simultaneously controlling the water flow, by means of the actuation gradual of the handle. The watertight communication of the pipeline sectors, between the intake, mixing and distribution modules is the same as that described in the preferred embodiment, further incorporating a mixed water return pipeline sector, which communicates the water return chamber mixing of the distribution module, with the mixed water inlet chamber of the intake module, registering the sector of the mixed water return pipe in the through hole of the mixing module.
    [0053] Importantly, through the mixed water return pipeline, the mixed water is distributed for use in an additional shower hose.
    [0054] In another alternative embodiment, a emptying device is incorporated, which comprises a discharge line, further incorporating a link cannula, said device being positioned, between the distribution module, in any of the described embodiments and the actuation handle.
    [0055] The evacuation duct of the distribution module is enabled in this embodiment, eliminating the sealing plug, for the insertion of the supplied connection cannula in the emptying device, the evacuation duct of the distribution module being communicated with the Pouring the drainage device to the outside, allowing the water retained in the shower / shower column to drain to the outside by closing the position of the distribution module drive handle.
    [0056] Although in the state of the art orifices or conduits especially intended for emptying the water retained in the water pipes are already known, the invention recommends a novel independent drain supplement, which is optionally incorporated in a thermostatic fitting of a natural nature. recessed.
    [0057] In another alternative embodiment, the structure of the thermostatic taps is reinforced by longitudinal fixing braces that, passing through the intake, mixing and distribution modules, stiffen the assembly, the ends of said braces being fixed by means of locking means.
    [0058] It is important to highlight the function of these braces, which together with the pipeline sectors strengthen the structure of the thermostatic taps, in any of the described embodiments.
    [0059] Advantages of the invention
    [0060] This thermostatic taps for embedding that is presented, provides multiple advantages over those currently available; The main one is to be configured with three independent modules, intake module, mixing module and distribution module, communicated with each other through pipeline sectors, inserted in a container that, in addition to being used as packaging, facilitates the execution of recessed the thermostatic taps.
    [0061] As an important advantage, add that once the thermostatic faucet is embedded in the work hole, it is easily flush and level with the wall, making it possible for the modules to be tiled on the front of the container, with decorative coating between the modules, configuring a very different aesthetic and practical possibility, a possibility that until now was not possible, having to use trim panels of considerable size.
    [0062] An important advantage, as a consequence of the previous one, is that once the coating or tiling has been carried out on the front of the container, the couplings of the modules, provided for the insertion of the corresponding covers and handles, are visible. that the insertion of an intermediate element between them has been foreseen, which allows to regulate the possible constructive gaps between the thermostatic taps and the mortar plus the tile.
    [0063] Another important advantage is that the non-return valves with filter are separated from the thermostatic mixing cartridge, being integrated into an intake module, managing to reduce the dimensions of the different modules to facilitate their embedded installation, thus reducing the orifice of work.
    [0064] Another advantage originates as a consequence of the reduction of the work hole, which allows the removal of the trim panels, commonly used in this type of assembly, being replaced by the cover and handles of the different modules.
    [0065] Add as an advantage that in an alternative embodiment the thermostatic faucet incorporates an additional socket for a shower hose positioned on the faucet itself or separate from it.
    [0066] Add as an advantage the possibility of incorporating a drain supplement in the thermostatic taps.
    [0067] And finally add as an advantage that in addition to the pipeline sectors that maintain the structural rigidity of the thermostatic taps, said structure is reinforced by incorporating longitudinal braces.
    [0068] Description of the figures
    [0069] To better understand the object of the present addition, a preferred practical embodiment of the same has been represented in the attached drawing.
    [0070] Figure -1- shows a perspective view of the thermostatic bathroom / shower taps housed in a container, to be flush mounted, in a preferred embodiment.
    [0071] Figures -2 and 3- show a perspective view of the different modules integrated in the thermostatic taps, communicating with each other, in a preferred embodiment.
    [0072] Figure -4- shows a perspective view of the container.
    [0073] Figure -5- shows an installation diagram, in a horizontal position, of the thermostatic faucet in a preferred embodiment.
    [0074] Figure -6- shows an installation diagram, in vertical position, of the thermostatic faucet in a preferred embodiment
    [0075] Figure -7- shows a perspective view of the thermostatic bathroom / shower faucet housed in a container, to be embedded, in an alternative embodiment.
    [0076] Figure -8- shows a perspective view of the different modules integrated in the thermostatic taps, communicating with each other, in an alternative embodiment,
    [0077] Figure -9- shows an installation diagram, in a horizontal position, of the thermostatic faucet in an alternative embodiment.
    [0078] Figure -10- shows a perspective view of the thermostatic bathroom / shower taps housed in a container, to be embedded, in an alternative embodiment.
    [0079] Figure -11- shows a perspective view of the different modules integrated in the thermostatic taps, communicating with each other, in an alternative embodiment,
    [0080] Figure -12- shows an installation diagram, in a horizontal position, of the thermostatic faucet in an alternative embodiment.
    [0081] Figure -13- shows a perspective view of the thermostatic bathroom / shower taps housed in a container, to be embedded, in an alternative embodiment.
    [0082] Figure -14- shows a perspective view of the different modules integrated in the thermostatic taps, communicating with each other, in an alternative embodiment,
    [0083] Figure -15- shows an installation diagram, in a horizontal position, of the thermostatic faucet in an alternative embodiment.
    [0084] Figures -16 and 17- show a perspective view of the coupling of a emptying device in any of the realized embodiments.
    [0085] PREFERRED EMBODIMENT OF THE INVENTION
    [0086] The constitution and characteristics of the invention will be better understood with the following description made with reference to the attached figures.
    [0087] Figure 1 illustrates the thermostatic faucet (1) in a preferred embodiment, configured with two outlets to distribute the mixed water to a shower column / sprayer (2) or to a shower hose (4).
    [0088] The thermostatic faucet (1) housed in a container (8) is shown, which in turn serves as packaging and as a constructive element, since the recessed installation of the thermostatic faucet (1) is carried out jointly with said container (8).
    [0089] The coupling cover cap (14) on the intake module (5), the control handle (16) are indicated with the supplement (17) for the temperature indicator scale, or optimum temperature indicator for use, of coupling in the mixing module (6) and the coupling drive handle (21) in the distribution module (7) controlling the water flow gradually, said handles and cover being anchored in said controls through an insert coupling ( 13) integrated in said modules.
    [0090] The container (8) being flush with the wall, makes it possible that, since the modules are separated, the intake module (5), the mixing module (6) and the distribution module (7), as illustrated in Figure 1, it can be tiled on the front of the container (8), with a decorative coating between the modules, configuring a very different aesthetic and practical possibility, a possibility that until now was not possible, having used up to now, trim panels of considerable size. .
    [0091] Figure 2 shows the modular structure of the thermostatic taps (1), indicating the intake module (5), the mixing module (6) and the distribution module (7) independent, communicated with each other through sectors For channeling, in addition, longitudinal fixing braces (32) are shown which, crossing the input (5), mixing (6) and distribution (7) modules, stiffen the assembly, the ends of said braces being fixed through locking means (33).
    [0092] The intake module (5) is indicated, comprising a casing with two inlets, one for cold water (9) and the other for hot water (10), incorporating the non-return valves (11) with filter inside, incorporating In its upper part, two outlet pipes sectors, one for cold water (22), and very close and positioned in parallel, another for hot water (23), being communicated with the mixing module (6) through means watertight connection.
    [0093] The intake module comprises a housing with an inlet connection for cold water (9) and another inlet connection for hot water (10), comprising inside the non-return valves (11) with filter, an outlet chamber for cold water, an outlet chamber for hot water and an inlet chamber for mixed water (not shown), said chamber being communicated with a duct (12) positioned on the front of said intake module (5) .
    [0094] The intake module (5) contains the non-return valves (11) and their corresponding filters, with the advantage of being able to access them in the case of cleaning or replacement, simply by removing the cover cap (14), which is fixed and without drive functions.
    [0095] The mixing module (6) comprises a casing that incorporates within it a thermostatic mixing cartridge and other functional elements (not shown), intended for regulating the water temperature, said casing comprising a cold water inlet chamber, a hot water inlet chamber, and a mixed water outlet chamber (not shown) and in its lower part a through hole (15). The mixing module (6) is configured for a small size, similar to that of the adjacent modules, thanks to the separation of the non-return valves (11) with filter, since it is characteristic of the invention that said elements are integrated into a module independent, in this case in the admission module (5).
    [0096] The distribution module (7) is illustrated showing a configured casing, with at least two outlet connections (18), to divert the mixed water to the shower column / sprayer (2) or to a bathtub (3) or flexible shower (4) said casing comprising an inlet chamber for mixed water (not shown) The casing of the distribution module (7) also comprises a chamber provided for the return of the mixed water and an evacuation duct (19), positioned in the front of said module, which in this preferred embodiment are presented sealed by inserting a plug (20), arranged to be used in other alternative embodiments.
    [0097] Watertight communication between the intake (5), mix (6) and distribution (7) modules, shown in Figures 1, 2 and 3, is carried out through the following pipeline sectors:
    [0098] Cold water piping sector (22), which communicates the cold water outlet chamber of the intake module (5) with the cold water inlet chamber of the mixing module (6).
    [0099] Hot water channeling sector (23), which communicates the hot water outlet chamber of the intake module (5) with the hot water inlet chamber of the mixing module (6).
    [0100] Mixed water channeling sector (24), which communicates the mixed water outlet chamber of the mixing module (6), with the mixed water inlet chamber of the distribution module (7).
    [0101] In figure 3 the communication between the different modules is shown, seen from the back, indicating the sealing of the chamber for the return of the mixed water, distribution module (7), and the inlet chamber for the water is also sealed. mixed, of the intake module (5), by means of plugs (20), the duct (12) positioned on the front of the intake module (5) being rendered useless as it is not used in this preferred embodiment.
    [0102] Figure 4 illustrates the container (4) that acts as a packaging, made of lightweight material of great resistance, indicating the cavities (25), intended for the positioning of the thermostatic faucet, in any of its embodiments. In this way, the container (4) is a building block that considerably facilitates the flush mounting of said thermostatic faucet which, thanks to the reduction of its dimensions, adjusted to the size of the faucet, considerably reduces the orifice of the work, eliminating the use of the trim panels, since only the cover cover (14 or 14.1) and handles (16 and 21) of the different modules are necessary.
    [0103] Figure 5 schematically illustrates the installation of the thermostatic faucet (1) in a horizontal position, in a preferred embodiment, in which the mixed water is directed to a shower column / sprayer (2) or to a shower hose ( 4), indicating the entrance of cold and hot water through the intake module (5), the entrance of hot and cold water in the mixing module, through the sector of cold water channeling (22), and the sector of hot water pipeline (23), passing the mixed water towards the distribution module (7) through the mixed water pipeline sector (24), for its distribution depending on the position of the actuation handle (21).
    [0104] Figure 6 schematically illustrates the installation of the thermostatic faucet (1) in a vertical position, in a preferred embodiment, in which the mixed water is diverted to a shower column / sprayer (2) or to a shower hose (4 ) indicating the cold and hot water inlet through the intake module (5), the hot and cold water inlet in the mixing module, through the cold water piping sector (22), and the hot water (23), passing the mixed water towards the distribution module (7) through the mixed water piping sector (24), for its distribution depending on the position of the actuation handle (21).
    [0105] Figures 7 and 8 illustrate the thermostatic taps (1.1) in an alternative embodiment, configured, to distribute the mixed water to a shower column / sprayer (2) or to a shower hose (4), positioned in this case , in the cover lid (14.1) of the intake module, comprising a modular structure, similar to the preferred embodiment, but suitable for additional functionality.
    [0106] In this alternative embodiment, the inlet chamber for the mixed water of the intake module (5) is enabled, eliminating the sealing plug (20), inserting in the duct (12) positioned on the front of said module, a connection cannula (26).
    [0107] The intake module (5) is indicated, which incorporates a cover cover (14.1) which, in addition to hiding and protecting the non-return valves (11) with filter, includes a clamping support (30) for coupling the handle of a shower hose and the corresponding water connection connection (31), said connection connection (31) remaining connected to the connection cannula (26) to divert the water to the shower hose (4), incorporated in said coverage (14.1).
    [0108] In figure 8 the distribution module (7) is shown using two outlets, one to divert the mixed water to a shower / shower column (2), through its corresponding outlet connection (18), and another outlet to divert the mixed water to a shower hose (4), positioned on the cover (14.1) of the intake module (5), enabling in this case the return chamber of the mixed water (not shown), removing the cap (20) of sealing, showing the outlet connection (18) to divert the mixed water towards the bathtub (3) sealed by means of a stopper (20) as it is not used in this alternative embodiment.
    [0109] The actuation handle (21) of the distribution module (7) is pointed out, destined to divert the mixed water towards the shower hose (4) or towards the shower column / sprayer (2), simultaneously controlling the water flow , since by gradually actuating the actuation handle (11), it allows the control of said flow.
    [0110] In addition, common elements such as, the container (8), the mixing module (6), with its corresponding control handle (16) and supplement (17) of temperature scale, the pipeline sectors are indicated in Figures 7 and 8 outlet, one for cold water (22), and one for hot water (23), the mixed water inlet pipeline sector (24), also indicating the longitudinal fixing braces (32).
    [0111] In this alternative embodiment, the incorporation of a mixed water return pipeline sector (27) is shown, which communicates the mixed water return chamber of the distribution module (7), with the mixed water inlet chamber of the distribution module. inlet (5), the mixed water return pipeline sector (27) being registered in the through hole (15) of the mixing module (6).
    [0112] Figure 9 schematically illustrates the installation of the thermostatic faucet (1.1) in a horizontal position, in an alternative embodiment, in which the mixed water is diverted to a shower column / sprayer (2) or to a shower hose ( 4), positioned in the water intake module (5), indicating the entrance of cold and hot water through the intake module (5), the entrance of hot and cold water in the mixing module, through the sector cold water piping (22), and hot water piping sector (23), the mixed water passing to the distribution module (7) through the mixed water piping sector (24), using in this case the sector for channeling the return of mixed water (27) to the shower hose (4) for its distribution depending on the position of the actuation handle (21).
    [0113] In figures 10 and 11 the thermostatic taps (1.2) are illustrated in an alternative embodiment, configured with three outlets, to distribute the mixed water to a shower column / shower head (2) or to a bathtub (3) or to a hose shower (4), positioned at a certain distance from the thermostatic taps (1.2), comprising a modular structure, similar to the preferred embodiment, but suitable for additional functionality.
    [0114] Shown is the distribution module (7) configured with three outlet connections (18), one for each function, to distribute the mixed water, to the shower column / sprayer (2) or to a bathtub (3), or to a shower hose (4), located some distance from the thermostatic taps (1.2).
    [0115] In this alternative embodiment, the chamber provided for the return of the mixed water (not illustrated) and an evacuation duct (19), positioned on the front of said module, are presented sealed by inserting a plug (20), arranged to be used in other alternative embodiments, the mixed water inlet chamber (not shown) of the intake module (5) remaining sealed by means of a plug (20).
    [0116] The watertight communication of the pipeline sectors (22, 23 and 24), between the intake (5), mix (6) and distribution (7) modules is exactly the same as that described in the preferred embodiment, shown in the Figure 1.
    [0117] In addition, common elements such as, the container (8), the mixing module (6), with its corresponding control handle (16) and supplement (17) of temperature scale, the pipeline sectors are indicated in Figures 10 and 11 outlet, one for cold water (22), and one for hot water (23), the mixed water inlet pipeline sector (24), also indicating the longitudinal fixing braces (32). Figure 12 schematically illustrates the installation of the thermostatic faucet (1.2) in a horizontal position, in an alternative embodiment, in which the mixed water is diverted to a shower column / sprayer (2) or to a bathtub (3) or towards a shower hose (4), positioned at a certain distance from the thermostatic tap (1.2), signaling the entry of cold and hot water through the intake module (5), the entrance of hot and cold water in the module mixing, through the cold water pipeline sector (22), and the hot water pipeline sector (23), the mixed water passing to the distribution module (7) through the mixed water pipeline sector (24 ), for distribution depending on the position of the actuation handle (21).
    [0118] Figures 13 and 14 illustrate the thermostatic taps (1.3) in an alternative embodiment, configured to distribute the mixed water to a shower column / sprayer (2) or to a bathtub (3) or to a shower hose ( 4), positioned in this case, in the cover cap (14.1) of the intake module (5), comprising a modular structure, similar to the alternative embodiment shown in Figures 10 and 11, but suitable for additional functionality.
    [0119] In this alternative embodiment, the inlet chamber for the mixed water (not illustrated) of the intake module (5) is enabled, removing the sealing plug (20), inserting into the duct (12) positioned on the front of said module, a connecting cannula (26).
    [0120] The intake module (5) is shown, incorporating a cover cover (14.1) that, in addition to hiding and protecting the non-return valves (11) with filter, includes a clamping support (30) for coupling the handle of a flexible shower head and the corresponding water connection connection (31), said connection connection (31) remaining connected to the connection cannula (26) to divert the water to the flexible shower (4) incorporated in said cover cover (14.1 ).
    [0121] Shown is the distribution module (7) configured with three outlet connections (18), one to divert the mixed water to a shower / shower column (2), another to divert the water to a bathtub (3), being sealed the outlet connection to divert the mixed water to a shower hose (4), by means of a plug (20).
    [0122] In this alternative embodiment, the mixed water return chamber (not illustrated) of the distribution module (7) is enabled by removing the sealing plug (20), to divert the mixed water to a shower hose (4), positioned in the cover cap (14.1) of the intake module (5).
    [0123] In this alternative embodiment, the incorporation of a mixed water return pipeline sector (27) is shown, which communicates the mixed water return chamber of the distribution module (7), with the mixed water inlet chamber of the distribution module. intake (5), the sector of mixed water return pipeline (27) being registered in the through hole (15) of the mixing module (6).
    [0124] Furthermore, common elements such as, the container (8), the mixing module (6), with its corresponding control handle (16) and temperature scale supplement (17), the pipeline sectors are indicated in Figures 13 and 14 outlet, one for cold water (22), and one for hot water (23), the mixed water inlet pipeline sector (24), also indicating the longitudinal fixing braces (32). Figure 15 schematically illustrates the installation of the thermostatic faucet (1.3) in a horizontal position, in an alternative embodiment, in which the mixed water is diverted to a shower column / sprayer (2) or to a bathtub (3) or towards a shower hose (4), positioned in the water inlet module (5), signaling the entry of hot and cold water through the inlet module (5), the inlet of hot and cold water in the module mixing, through the cold water piping sector (22), and the hot water piping sector (23), the mixed water passing to the distribution module (7) through the mixed water piping sector (24 ), using in this case the sector for returning the mixed water (27) to the shower hose (4) for its distribution depending on the position of the actuation handle (21).
    [0125] Figures 16 and 17 show the incorporation of a drainage device (28), indicating a discharge line (29), also incorporating a connection cannula (26), said device being positioned between the distribution module (7) , in any of the described embodiments of the thermostatic taps (1 - 1.1 - 1.2 or 1.3) and the actuation handle (21).
    [0128] The evacuation duct (19) of the distribution module ( 7 ) is enabled , by removing the sealing plug (20), for the insertion of the connection cannula (26) supplied in the emptying device (28), the Connecting cannula (26) with the discharge line (29) to the outside of the drainage device (28), allowing the water retained in the shower column / sprayer (2) to drain to the outside by means of the closing position of the drive (21) of the distribution module (7).
    [0130] The longitudinal tie rods (32) shown in Figures 2,3, 8, 11 and 14 are optionally used as structural reinforcement in any of the described embodiments of the thermostatic faucet.
    [0132] The person skilled in the art will readily understand that he can combine features of different embodiments with features of other possible embodiments, provided that such a combination is technically possible.
    [0134] All the information referring to examples or embodiments forms part of the description of the invention.
    [0135] Numbered list of components
    [0137] 1 thermostatic taps
    [0138] 1.1 Thermostatic taps
    [0139] 1.2 Thermostatic taps
    [0140] 1.3 Thermostatic taps
    [0141] 2 Shower column sprayer
    [0142] 3 bathtub
    [0143] 4 Flexible shower
    [0144] 5 Admission module
    [0145] 6 Mix module
    [0146] 7 Distribution module
    [0147] 8 Container
    [0148] 9 Inlet connection for cold water
    [0149] 10 Inlet connection for hot water
    [0150] 11 Check valves
    [0151] 12 Duct
    [0152] 13 Insert coupling
    [0153] 13 Control handle
    [0154] 14 Cover cap
    [0155] 14.1 Cover cap
    [0156] 15 Through hole
    [0157] 16 Control handle
    [0158] 17 Supplement
    [0159] 18 Outlet connection
    [0160] 19 Evacuation duct
    [0161] 20 Cap
    [0162] 21 Actuation handle
    [0163] 22 Cold water pipeline sector
    [0164] 23 Hot water pipeline sector
    [0165] 24 Mixed water pipeline sector
    [0166] 25 cavities
    [0167] 26 Link cannula
    [0168] 27 Mixed water return pipeline sector
    [0169] 28 Emptying device
    [0170] 29 Pouring
    [0171] 30 Clamping support
    [0172] 31 Connection socket
    [0173] 32 longitudinal straps
    [0174] 33 Locking means
    权利要求:
    Claims (1)
    [0001]
    1 - Thermostatic taps, characterized by comprising three independent modules,
    • admission module (5)
    • mixing module (6) and
    • distribution module (7) with at least two outlet connections (18), to divert the mixed water to a shower column / shower head (2), or to a bathtub (3) or to a shower hose (4) , said modules being communicated with each other, through pipeline sectors (22-23-24 and / or 27),
    • said thermostatic taps (1 - 1.1 - 1.2 or 1.3) being inserted in a container (8) used as packaging, intended for a joint flush installation in horizontal or vertical position,
    • being hidden
    or the intake module (5) by means of the anchorage of a cover of cover (14, 14.1) or the mixing module (6) by means of the anchorage of a control handle (16) with supplement (17) of temperature indicator scale , or optimum temperature indicator for use, or the distribution module (7) by anchoring an actuation handle (21) to divert the mixed water to a shower column / sprayer (2) or to a bathtub (3) , or towards a shower hose (4).
    2 - Thermostatic taps, according to claim 1, characterized in that the thermostatic taps (1) distribute the mixed water to a shower column / sprayer (2) or to a shower hose (4), through the intake module (5 ), the mixing module (6) and the distribution module (7) configured with two outlet connections (18).
    3 - Thermostatic faucet, according to claim 1, characterized in that the thermostatic faucet (1.1) in an alternative embodiment, distributes the mixed water to a shower column / sprayer (2) or to a shower hose (4) positioned on the cover coverage (14.1) of the thermostatic taps (1.1) through the intake module (5), the mixing module (6) and the distribution module (7) configured with two outlet connections (18), said cover comprising cover (14.1) a clamping support (30) for a shower handle and a connection socket (31) for the shower hose (4).
    4 - Thermostatic faucet, according to claim 1, characterized in that the thermostatic faucet (1.2) in an alternative embodiment, distributes the mixed water to a shower column / sprayer (2) or to a bathtub (3), or to a flexible hose. shower (4) positioned remotely from the thermostatic tap (1.2), through the intake module (5), the mixing module (6) and the distribution module (7) configured with three outlet connections (18).
    5 - Thermostatic faucet, according to claim 1, characterized in that the thermostatic faucet (1.3) in an alternative embodiment, distributes the mixed water to a shower column / sprayer (2) or to a bathtub (3) or to a shower hose (4) positioned in the covering cover (14.1) of the thermostatic tap (1.3) through the intake module (5), the mixing module (6) and the distribution module (7) configured with two outlet connections (18), one of the outlet connections (18) being sealed by means of a sealing plug (20), said cover cover (14.1) comprising a holding support (30) for a shower handle and a connection socket ( 31) for the shower hose (4).
    6 - Thermostatic taps, according to claims 1 to 5, characterized in that the intake module (5), comprises a housing that incorporates an insert coupling (13) in its upper part, an inlet connection for cold water (9) and another inlet connection for hot water (10), comprising inside • the non-return valves (11) with filter
    • an outlet chamber for cold water
    • an outlet chamber for hot water, and
    • an inlet chamber for mixed water, sealed by means of a cap (20), when not in use, said chamber being communicated with a duct (12) positioned on the front of said intake module (5).
    7 - Thermostatic taps, according to claims 1, 3 and 5, characterized in that in the intake module (5), the inlet chamber for the mixed water is enabled, removing the sealing plug (20), to divert the mixed water towards a shower hose (4) positioned on the cover of the thermostatic fitting (14.1) (1.3), the duct (12) positioned on the front of said intake module being enabled (5), by inserting a connecting cannula (26) in communication with the water connection socket (31), included in the cover cap (14.1).
    8 - Thermostatic taps, according to claims 1 to 5, characterized in that the mixing module (6) comprises a casing incorporating an insert coupling (13) at its upper part and a through hole (15) at its lower part, comprising its interior
    • a mixing cartridge and other functional elements, intended for regulating water temperature,
    • a cold water inlet chamber,
    • a hot water inlet chamber, and
    • a mixed water outlet chamber.
    9 - Thermostatic taps, according to claims 1 to 5, characterized in that the distribution module (7) comprises a housing with at least two outlet connections (18) to bypass the mixed water through a • mixed water inlet chamber towards the shower column / shower head (2) or towards a bathtub (3) or towards a shower hose (4), and
    • a mixed water return chamber, sealed by a plug (20), when not in use.
    Incorporating in its upper part an insert coupling (13) and an evacuation duct (19) sealed by a plug (20), when not in use.
    10 - Thermostatic taps, according to claims 1, 3 and 5, characterized in that in the distribution module (7) the return chamber of the mixed water is enabled, removing the sealing plug (20), to divert the water to a hose shower head (4) positioned on the cover (14.1) of the thermostatic faucet (1.1 and 1.3).
    11 - Thermostatic taps, according to the previous claims, characterized in that the watertight communication between the intake (5), mixing (6) and distribution (7) modules is carried out through the following pipeline sectors:
    • Cold water piping sector (22), which communicates the cold water outlet chamber of the intake module (5) with the cold water inlet chamber of the mixing module (6).
    • Hot water piping sector (23), which communicates the hot water outlet chamber of the intake module (5) with the hot water inlet chamber of the mixing module (6).
    • Mixed water channeling sector (24), which communicates the mixed water outlet chamber of the mixing module (6), with the mixed water inlet chamber of the distribution module (7).
    • Mixed water return pipeline sector (27), which communicates the mixed water return chamber of the distribution module (7), with the mixed water inlet chamber of the intake module (5), the aforementioned being positioned mixed water return pipeline sector (27) in the through hole (15) of the mixing module (6).
    12 - Thermostatic faucet, according to the preceding claims, characterized in that the container (8) is made of lightweight, high-resistance material, comprising cavities (25), intended for positioning the modules of the thermostatic faucet (1 - 1.1 - 1.2 or 1.3) and for a frontal finish that allows tiling or decorative surface on it, inserting the cover (14 or 14.1) and handles (16 and 21) of the aforementioned thermostatic taps, in their corresponding modules, being positioned on said surface ..
    13 - Thermostatic taps, according to the preceding claims, characterized by incorporating between the distribution module (7), in any of the described embodiments and the actuation handle (21), a draining device (28) comprising a discharge line ( 29), in contact with the outside, also incorporating a connecting cannula (26).
    14 - Thermostatic taps, according to claim 13, characterized in that the evacuation duct (19) is enabled in the distribution module (7) for the insertion of the connection cannula (26) that communicates said evacuation duct (19) with the discharge line (29) of the emptying device (28)
    15 - Thermostatic taps, according to the previous claims, characterized by incorporating in any of the described embodiments of the thermostatic taps (1 - 1.1 - 1.2 or 1.3), longitudinal fixing straps (32) that, passing through the intake modules (5) , mixing (6) and distribution (7), reinforce the structure, the ends of said longitudinal ties (32) being fixed through locking means (33).
    one
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    同族专利:
    公开号 | 公开日
    ES2769626B2|2021-06-28|
    EP3674489A1|2020-07-01|
    引用文献:
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    法律状态:
    2020-06-26| BA2A| Patent application published|Ref document number: 2769626 Country of ref document: ES Kind code of ref document: A1 Effective date: 20200626 |
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201831280A|ES2769626B2|2018-12-26|2018-12-26|THERMOSTATIC TAP|ES201831280A| ES2769626B2|2018-12-26|2018-12-26|THERMOSTATIC TAP|
    EP19217178.3A| EP3674489A1|2018-12-26|2019-12-17|Thermostatic fitting|
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