US20260160051A1
SHOWER VALVE SYSTEM
Publication
Application
Classifications
IPC Classifications
CPC Classifications
Applicants
KOHLER CO.
Inventors
Douglas J. BROUWER, Chad J. COCHART
Abstract
A valve assembly includes a first assembly, a second assembly, and a third assembly. The first assembly includes a first valve configured to control a temperature of a flow of water and a first user interface configured to be operated by a user of the washing system to operate the first valve. The second assembly includes a second valve configured to control the flow of the water through the valve assembly and a second user interface configured to be operated by the user of the washing system to operate the second valve. The third assembly includes a third valve configured to control an outlet of the flow of the water from the valve assembly and a third user interface configured to be operated by the user of the washing system to operate the third valve.
Figures
Description
CROSS-REFERENCE TO RELATED PATENT APPLICATIONS
[0001]This application claims the benefit of and priority to U.S. Provisional Ser. No. 63/728,382 , filed Dec. 5, 2024, which is incorporated herein by reference in its entireties.
BACKGROUND
[0002]The present disclosure relates generally to showerhead valve assemblies. More specifically, the present disclosure relates to showerhead valve assemblies that are configured to be operated by a user of a shower to adjust an output of water provided by the shower.
[0003]Many residential spaces (e.g., homes, condos, apartments, hotels, motels, etc.) and recreational spaces (e.g., gyms, spas, health clubs, etc.) have showers. Often times, the showers may be manually operated by a user to control a temperature of the water provided by the shower, an outlet of the water provided by the shower, or other output conditions of the showers. However, the showers may not be configured to retain a temperature level of the water outputted by the shower between uses. For example, if a user sets the shower to output water at a certain temperature during a first shower, the shower may not automatically provide the water to the user at the certain temperature during a second shower.
[0004]It would be advantageous to provide a showerhead that addresses one or more of the aforementioned issues.
SUMMARY
[0005]One embodiment relates to a valve assembly for a shower system. The valve assembly is configured to provide a flow of water. The valve assembly includes a first assembly, a second assembly, and a third assembly. The first assembly includes a first valve configured to control a temperature of the flow of the water and a first user interface configured to be operated by a user of the shower system to operate the first valve. The second assembly includes a second valve configured to control the flow of the water through the valve assembly and a second user interface configured to be operated by the user of the shower system to operate the second valve. The second valve is fluidly coupled with the first valve and is configured to receive the flow of the water from the first valve. The third assembly includes a third valve configured to control an outlet of the flow of the water from the valve assembly and a third user interface configured to be operated by the user of the shower system to operate the third valve. The third valve is fluidly coupled with the second valve and is configured to receive the flow of the water from the second valve.
[0006]Another embodiment relates to a valve assembly for a washing system. The valve assembly is configured to provide a flow of water. The valve assembly includes a valve housing defining an interface aperture, a first assembly coupled to the valve housing, and a second assembly coupled to the valve housing. The first assembly includes a first valve configured to control the flow of the water through the valve assembly and a first user interface configured to be operated by a user of the washing system to operate the first valve. The first user interface extends through the interface aperture. The second assembly includes a second valve configured to control (i) a temperature of the flow of the water or (ii) an outlet of the flow of the water from the valve assembly and a second user interface configured to be operated by the user of the washing system to operate the second valve. The second user interface extends through the interface aperture. The second user interface is configured to be operated separately from the first user interface.
[0007]Yet another embodiment relates to a valve assembly for a washing system. The valve assembly is configured to provide a flow of water. The valve assembly includes a first assembly and a second assembly. The first assembly includes a first valve configured to control (i) a temperature of the flow of the water or (ii) an outlet of the flow of the water from the valve assembly and a first user interface configured to be operated by a user of the washing system to operate the first valve. The first user interface defines an opening extending through the first user interface. The second assembly includes a second valve configured to control the flow of the water through the valve assembly and a second user interface configured to be operated by the user of the washing system to operate the second valve, The second user interface is positioned at least partially within the opening of the first user interface. The second user interface is configured to be operated separately from the first user interface.
BRIEF DESCRIPTION OF THE DRAWINGS
[0008]
[0009]
[0010]
[0011]
[0012]
DETAILED DESCRIPTION
[0013]Following below are more detailed descriptions of various concepts related to showerhead assemblies that allow for a person to change a configuration of the showerhead. The various concepts introduced above and discussed in greater detail below may be implemented in any of a number of ways, as the described concepts are not limited to any particular manner of implementation. Examples of specific implementation and applications are provided primarily for illustrative purposes.
I. Overview
[0014]A washing valve assembly (e.g., shower valve, bathing valve, etc.) may be installed in a washing system (e.g., a bathing system, etc.) in a bathroom configuration (e.g., bathrooms, rest rooms, etc.) to provide water (e.g., a bathing fluid, etc.) to a user during a washing, for example while the user is showering in the bathroom configuration. In some embodiments, the washing system may include a multiple outlets configured to provide water to the user during the washing. For example, a first showerhead (e.g., a first water outlet, a first outlet, etc.) may be installed on a ceiling of the bathroom configuration (e.g., in a showering area, above a bathtub, etc.) and a second showerhead (e.g., a second water outlet, a second outlet, etc.) may be installed on a side wall of the bathroom configuration (e.g., a sidewall making up a showering area, a sidewall proximate a bathtub, etc.).
[0015]The washing valve assembly is configured to be operated by the user of the washing system to adjust water flowing through the washing system. For example, the user of the washing system may operate the washing valve assembly to adjust a flow rate of the water flowing through the washing system and provided to the user during the washing, to adjust a temperature of the water flowing through the washing system and provided to the user during the washing, and/or to adjust an outlet of the water flowing through the washing system and provided to the user during the washing. The washing valve assembly includes a mixing assembly, a flow assembly, and a diverter assembly.
[0016]The mixing assembly is configured to be operated by the user of the washing system to mix a first flow of hot water and a second flow of cool water to form a third flow of combined water. For example, the mixing assembly may include a mixing valve that is configured to receive the first flow of the hot water from a hot water source and the second flow of the cool water from a cool water source. The user may operate the mixing assembly to control the mixing valve to change a proportion of the cool water relative to the hot water in the third flow of the combined water to change a temperature of the third flow of the combined water that will be provided to the user of the washing system. In some embodiments, the mixing assembly includes a first user interface configured to be operated by the user to control the mixing valve.
[0017]The flow assembly receives the third flow of the combined water from the mixing assembly and is configured to be operated by the user of the washing system to control the third flow of the combined water through the washing valve assembly. For example, the flow assembly may include a flow valve that is configured to receive the third flow of the combined water from the mixing valve. The user may operate the flow assembly to control the flow valve to selectively allow the third flow from flowing through the flow valve or prevent the third flow from flowing through the flow valve. In some embodiments, the flow assembly includes a second user interface configured to be operated by the user to control the flow valve. The second user interface may be operated independently from the first user interface of the mixing assembly.
[0018]The diverter assembly is configured to be operated by the user of the washing system to control where the third flow of the combined fluid is outputted from the washing system. For example, the diverter assembly may include a diverter valve that is configured to receive the third flow of the combined water from the flow valve (e.g., when the flow valve allows the third flow through the flow valve, etc.). The user may operate the diverter assembly to control the diverter valve to direct the third flow of the combined flow between a first outlet, a second outlet, and a third outlet of the washing system. In some embodiments, the diverter assembly includes a third user interface configured to be operated by the user to control the diverter valve. The third user interface may be operated independently from the first user interface of the mixing assembly and/or the second user interface of the flow assembly.
II. Example Shower System
[0019]Referring to
[0020]As shown in
[0021]As shown in
[0022]As shown in
[0023]As shown in
[0024]As shown in
[0025]As shown in
[0026]As shown in
[0027]According to the embodiment shown in
[0028]As shown in
[0029]As shown in
[0030]As shown in
[0031]In some embodiments, the flow valve 132 is configured to control a flow rate of the flow of the water through the flow valve 132. For example, the flow valve 132 may have an intermediate configuration between the first configuration and the second configuration that partially restricts the flow of water through the flow valve 132 such that a first flow rate of the flow of water through the flow valve 132 in the first configuration is greater than a second flow rate of the flow of water through the flow valve 132 in the intermediate configuration. In some embodiments, the flow valve 132 is configured to control a pressure of the water outputted by the shower system 10. For example, in the intermediate configuration the flow valve 132 may partially restrict the flow of water through the flow valve 132 such that a first pressure of the flow of water when the flow valve 132 is in the first configuration is less than a second pressure of the flow of water when the flow valve 132 is in the intermediate configuration.
[0032]As shown in
[0033]Advantageously, the second user interface 140 may allow for the user of the shower system 10 to control the flow of the water outputted by the valve assembly 100 separately from controlling the temperature of the water outputted by the valve assembly 100. For example, the user of the shower system 10 may operate the first user interface 120 to adjust the mixer valve 112 to control the temperature of the water outputted by the shower system 10 separately from operating the second user interface 140 to adjust the flow valve 132 to control the flow of the water through the valve assembly 100. In some embodiments, the valve assembly 100 “remembers” the temperature of the water provided to the user during a first shower and may provide the water with the same temperature during a second shower. For example, the user may operate the first user interface 120 to place the mixer valve 112 in a configuration during a first shower that results in the water outputted by the shower system 10 having a temperature. At the completion of the first shower, the user may operate the second user interface 140 to prevent the flow of the water through the flow valve 132 to stop the flow of water out of the shower system 10 without the user operating the first user interface 120. When the user returns to the shower system 10 for a second shower, the user may operate the second user interface 140 to allow the flow of water through the flow valve 132 such that the flow of water is provided to the user by the shower system 10 without the user operating the first user interface 120. As a result, the mixer valve 112 may remain in the same configuration during the second shower as the first shower which results in the water outputted by the shower system 10 having the same temperature as the water outputted by the shower system 10 during the first shower.
[0034]According to the embodiment shown in
[0035]As shown in
[0036]As shown in
[0037]In some embodiments, the diverter valve 152 is configured to direct the flow of the mixed water through the diverter valve 152 to more than one of the first diverter outlet 156, the second diverter outlet 158, and/or the third diverter outlet 160. For example, the diverter valve 152 may include a first intermediate configuration that directs the flow of water through the diverter valve 152 to the first diverter outlet 156 and the second diverter outlet 158, a second intermediate configuration that directs the flow of water through the diverter valve 152 to the second diverter outlet 158 and the third diverter outlet 160, a third intermediate configuration that directs the flow of water through the diverter valve 152 to the first diverter outlet 156 and the third diverter outlet 160, and/or a universal configuration that directs the flow of water through the diverter valve 152 to the first diverter outlet 156, the second diverter outlet 158, and the third diverter outlet 160.
[0038]As shown in
[0039]Advantageously, the third user interface 170 may allow for the user of the shower system 10 to control the outlet of the water outputted by the valve assembly 100 (e.g., between the first diverter outlet 156, the second diverter outlet 158, and the third diverter outlet 160, etc.) separately from controlling the temperature of the water outputted by the valve assembly 100 and/or the flow of the water through the valve assembly 100. For example, the user of the shower system 10 may operate the third user interface 170 to adjust the diverter valve 152 to control the outlet of the water outputted by the valve assembly 100 separately from operating the second user interface 140 to adjust the flow valve 132 to control the flow of water through the valve assembly 100 and/or separately from operating the first user interface 120 to adjust the mixer valve 112 to control the temperature of the water outputted by the valve assembly 100. In some embodiments, the valve assembly 100 “remembers” the outlet of the water outputted by the valve assembly 100 during a first shower and may provide the water through the same outlet during a second shower. For example, the user may operate the third user interface 170 to place the diverter valve 152 in a configuration during a first shower that results in the water being outputted from the second diverter outlet 158 of the diverter valve 152. At the completion of the first shower, the user may operate the second user interface 140 to prevent the flow of the water through the flow valve 132 to stop the flow of water out of the shower system 10 without the user operating the third user interface 170. When the user returns to the shower system 10 for a second shower, the user may operate the second user interface 140 to allow the flow of water through the flow valve 132 such that the flow of water is provided to the user by the shower system 10 without the user operating the third user interface 170. As a result, the diverter valve 152 may remain in the same configuration during the second shower as the first shower which results in the water being outputted from the second diverter outlet 158 of the diverter valve 152 (e.g., the same outlet as during the first shower, etc.).
[0040]According to the exemplary embodiment shown in
[0041]As shown in
[0042]According to the embodiment shown in
[0043]As shown in
[0044]In some embodiments, the flow assembly 130 is at least partially received by the mixer assembly 110. For example, the flow valve 132 may be coupled to and received by a portion (e.g., a transfer frame, a torque transfer frame, etc.) of the mixer assembly 110 that transfers rotation between the first user interface 120 and the mixer valve 112 such that the first user interface 120 may operate the mixer valve 112. As a result, when the first user interface 120 is rotated by the user, the transfer frame rotates the flow valve 132 while transferring the rotation between the first user interface 120 and the mixer valve 112. As another example, the first user interface 120 may define an opening extending through the first user interface 120 and the second user interface 140 may be positioned at least partially within the opening of the first user interface 120. As a result, the user of the shower system 10 may press the second user interface 140 to move the second user interface 140 axially relative to the first user interface 120 to operate the flow valve 132. Additionally, the user of the shower system 10 may rotate the first user interface 120 with or around the second user interface 140 to operate the mixer valve 112. In other embodiments, the mixer assembly 110 is at least partially received by the flow assembly 130.
[0045]As shown in
[0046]In some embodiments, the mixer valve 112 and the flow valve 132 are positioned in line with each other. For example, when the flow of the water is provided from the mixer valve 112 to the flow valve 132, the water may flow forward or rearward from the mixer valve 112 to the flow valve 132. In some embodiments, the flow valve 132 is positioned forward of the mixer valve 112. In other embodiments, the flow valve 132 is positioned rearward of the mixer valve 112.
[0047]As utilized herein, the terms “approximately,” “about,” “substantially,” and similar terms are intended to have a broad meaning in harmony with the common and accepted usage by those of ordinary skill in the art to which the subject matter of this disclosure pertains. It should be understood by those of skill in the art who review this disclosure that these terms are intended to allow a description of certain features described and claimed without restricting the scope of these features to the precise numerical ranges provided. Accordingly, these terms should be interpreted as indicating that insubstantial or inconsequential modifications or alterations of the subject matter described and claimed are considered to be within the scope of the disclosure as recited in the appended claims.
[0048]It should be noted that the term “exemplary” and variations thereof, as used herein to describe various embodiments, are intended to indicate that such embodiments are possible examples, representations, or illustrations of possible embodiments (and such terms are not intended to connote that such embodiments are necessarily extraordinary or superlative examples).
[0049]The term “coupled” and variations thereof, as used herein, means the joining of two members directly or indirectly to one another. Such joining may be stationary (e.g., permanent or fixed) or moveable (e.g., removable or releasable). Such joining may be achieved with the two members coupled directly to each other, with the two members coupled to each other using a separate intervening member and any additional intermediate members coupled with one another, or with the two members coupled to each other using an intervening member that is integrally formed as a single unitary body with one of the two members. If “coupled” or variations thereof are modified by an additional term (e.g., directly coupled), the generic definition of “coupled” provided above is modified by the plain language meaning of the additional term (e.g., “directly coupled” means the joining of two members without any separate intervening member), resulting in a narrower definition than the generic definition of “coupled” provided above. Such coupling may be mechanical, electrical, or fluidic.
[0050]The term “or,” as used herein, is used in its inclusive sense (and not in its exclusive sense) so that when used to connect a list of elements, the term “or” means one, some, or all of the elements in the list. Conjunctive language such as the phrase “at least one of X, Y, and Z,” unless specifically stated otherwise, is understood to convey that an element may be either X, Y, Z; X and Y; X and Z; Y and Z; or X, Y, and Z (i.e., any combination of X, Y, and Z). Thus, such conjunctive language is not generally intended to imply that certain embodiments require at least one of X, at least one of Y, and at least one of Z to each be present, unless otherwise indicated.
[0051]References herein to the positions of elements (e.g., “top,” “bottom,” “above,” “below”) are merely used to describe the orientation of various elements in the FIGURES. It should be noted that the orientation of various elements may differ according to other exemplary embodiments, and that such variations are intended to be encompassed by the present disclosure.
[0052]Additionally, any element disclosed in one embodiment may be incorporated or utilized with any other embodiment disclosed herein. Although only one example of an element from one embodiment that can be incorporated or utilized in another embodiment has been described above, it should be appreciated that other elements of the various embodiments may be incorporated or utilized with any of the other embodiments disclosed herein.
Claims
What is claimed is:
1. A valve assembly for a washing system, the valve assembly configured to provide a flow of water, the valve assembly comprising:
a first assembly comprising:
a first valve configured to control a temperature of the flow of the water; and
a first user interface configured to be operated by a user of the washing system to operate the first valve;
a second assembly comprising:
a second valve fluidly coupled with the first valve and configured to receive the flow of the water from the first valve, the second valve configured to control the flow of the water through the valve assembly; and
a second user interface configured to be operated by the user of the washing system to operate the second valve; and
a third assembly comprising:
a third valve fluidly coupled with the second valve and configured to receive the flow of the water from the second valve, the third valve configured to control an outlet of the flow of the water from the valve assembly; and
a third user interface configured to be operated by the user of the washing system to operate the third valve.
2. The valve assembly of
3. The valve assembly of
the second user interface is a button configured to be pressed by the user to operate the second valve; and
the third user interface is a knob configured to be rotated by the user to operate the third valve.
4. The valve assembly of
5. The valve assembly of
the third user interface defines an opening extending through the third user interface; and
the second user interface is positioned at least partially within the opening of the third user interface.
6. The valve assembly of
7. The valve assembly of
8. The valve assembly of
9. The valve assembly of
10. The valve assembly of
the second valve is positioned downstream of the first valve in a direction of the flow of the water through the valve assembly; and
the third valve is positioned downstream of the second valve in the direction of the flow of the water through the valve assembly.
11. A valve assembly for a washing system, the valve assembly configured to provide a flow of water, the valve assembly comprising:
a valve housing defining an interface aperture;
a first assembly coupled to the valve housing, the first assembly comprising:
a first valve configured to control the flow of the water through the valve assembly; and
a first user interface configured to be operated by a user of the washing system to operate the first valve, the first user interface extending through the interface aperture; and
a second assembly coupled to the valve housing, the second assembly comprising:
a second valve configured to control (i) a temperature of the flow of the water or (ii) an outlet of the flow of the water from the valve assembly; and
a second user interface configured to be operated by the user of the washing system to operate the second valve, the second user interface extending through the interface aperture, the second user interface configured to be operated separately from the first user interface.
12. The valve assembly of
the first user interface is a button configured to be pressed by the user to operate the first valve; and
the second user interface is a knob configured to be rotated by the user to operate the second valve.
13. The valve assembly of
14. The valve assembly of
the second user interface defines an opening extending through the second user interface; and
the first user interface is positioned at least partially within the opening of the second user interface.
15. The valve assembly of
the second assembly further comprises a transfer frame coupled between the second valve and the second user interface, the transfer frame configured to transfer rotation between the second user interface and the second valve; and
the first valve is received within the transfer frame.
16. A valve assembly for a washing system, the valve assembly configured to provide a flow of water, the valve assembly comprising:
a first assembly comprising:
a first valve configured to control (i) a temperature of the flow of the water or (ii) an outlet of the flow of the water from the valve assembly; and
a first user interface configured to be operated by a user of the washing system to operate the first valve, the first user interface defining an opening extending through the first user interface; and
a second assembly comprising:
a second valve configured to control the flow of the water through the valve assembly; and
a second user interface configured to be operated by the user of the washing system to operate the second valve, the second user interface positioned at least partially within the opening of the first user interface, the second user interface configured to be operated separately from the first user interface.
17. The valve assembly of
the first user interface is a knob configured to be rotated by the user to operate the first valve;
the second user interface is a button configured to be pressed by the user to operate the second valve; and
the second user interface is coupled to the first user interface such that the second user interface is rotated with the first user interface.
18. The valve assembly of
the first assembly further comprises a transfer frame coupled between the first valve and the first user interface, the transfer frame configured to transfer rotation between the first user interface and the first valve; and
the second valve is received within the transfer frame.
19. The valve assembly of
20. The valve assembly of