1. Field of the Invention
The present invention relates to a showerhead or hand shower.
2. Description of the Background Art
Most showerheads or hand showers have showerhead plates or spray face plates with multiple spray types. To this end, two or more groups of different spray outlet openings that are supplied with water separately or together are customarily arranged in the spray face plates. Inflow to the spray outlet openings is regulated by means of valve devices.
An extremely wide variety of solutions for switching the water inflow from one spray type to another are known from the prior art.
From US 2010/0237160 A1 is known a hand shower with multiple groups of spray outlet openings and multiple valves, wherein each valve is associated with a group of spray outlet openings. Each valve comprises an axially movable valve closing body that can be moved from a closed position to an open position by an actuation of a push-button, and back into the closed position by another actuation of the push-button. In this design, each individual valve can be controlled independently of the others.
It is therefore an object of the present invention to provide a showerhead or hand shower with multiple spray outlet openings and/or multiple spray types whose inflow can be controlled via valves.
In an embodiment, the invention provides a showerhead or hand shower that has multiple spray outlet openings and at least one valve that regulates the inflow of a fluid to the spray outlet openings. The valve has a movable valve body by means of which at least two defined valve positions can be realized. Examples of defined valve positions are the flow position and closed position of a valve. A pushbutton is provided for the purpose of controlling the valve, wherein this control is accomplished by actuating the pushbutton and thus actuating the associated valve body. When the pushbutton is actuated, the valve body is moved from the first valve position to the second valve position. In addition to the directly controllable valve, at least one additional valve is provided in the showerhead for controlling the inflow of a second fluid, which valve is coupled to the directly controllable valve and is actuated substantially simultaneously with it through its associated pushbutton. This additional valve does not have a separate pushbutton, and thus cannot be activated directly. Consequently, actuation of this additional valve takes place strictly through the directly controllable valve coupled to it.
While the first fluid is normally understood to be the shower water that travels from a fitting through a hose to arrive at the shower head, possibilities for the second fluid include air, a mixture of water and air, or even an emulsion intended to be mixed with the shower water.
According to the invention “x” (x≧1) directly controllable valves with “x” pushbuttons can also be arranged on or in the showerhead or hand shower. By means of each of the “x” valves, a spray type is then activated that is defined by the type and size of the spray outlet openings or the type of fluid that emerges from the spray outlet openings. In addition, one or more additional valves can be coupled to each of the “x” directly controllable valves.
Customarily, the water inflow to certain spray outlet openings is enabled by means of a directly controllable valve, by which means a first spray type is defined. By means of a valve coupled thereto, air can additionally be drawn in from an air intake passage. Because the spray has a different appearance and a different effect on account of the mixing of the two fluids, a different spray type is produced even if the water emerges from the same spray outlet openings as the first spray type.
In all cases, each of the valves comprises a valve seat and a movable valve body. The valve body can be one-piece or multi-piece. It has a first region that is provided for a sealing function, the so-called seal body, and a second region, the so-called tappet, which is provided for guiding the valve body. The tappet is mounted in a radially fixed and axially movable manner so that the valve body can be moved in the direction of its longitudinal axis. In addition, the valve body is spring mounted. The mounting can be implemented by means of a separate travel limiting spring or by means of a spring element that is part of the valve body. If the valve body is multi-piece in design, the tappet and seal body can be positioned axially relative to one another by means of pegs. In addition, the valves have a seal element in the form of a sealing ring that is provided on the valve body or on the valve seat.
The pushbuttons of the directly controllable valves are connected to the valve body in such a manner that the latter completes a certain motion when the pushbutton is actuated. The direction of motion of the pushbutton and valve body correspond here. When the pushbutton is actuated, the travel limiting spring or the spring element is compressed by means of the valve body. The resetting of the valve body out of the second valve position takes place because of the spring force of the return spring. The resetting can be accomplished automatically through a control element provided in the showerhead when another valve is activated or when another pushbutton is actuated. This is accomplished in that the valve body is released from a lock position. The lock position and/or release position is defined here by the control element or the position of the control element.
In an embodiment, multiple different fluid distribution chambers can be provided in the showerhead. The fluid distribution chambers can have at least one inlet opening and one outlet opening. Regardless of the shape and number of the inlet and outlet openings, fluid distribution chambers can be provided which just one fluid flows into and out of. In addition, fluid distribution chambers are provided that serve to mix at least two fluids. For example, air and water can be mixed in a fluid distribution chamber to produce an aerated spray. In addition, water can be mixed with other liquid or gaseous additives.
Multiple fluid distribution chambers can be provided in the showerhead that stand in connection with the spray outlet openings. Oftentimes the spray outlet openings of the individual fluid distribution chambers have different sizes and/or shapes. At least one valve can be arranged for each fluid distribution chamber that controls the inflow of a fluid into the fluid distribution chamber. In this context, this can be a valve that is directly controllable through a pushbutton or a valve that is coupled to a directly controllable valve. Depending on the desired application, the valves can be provided for controlling the inflow of water, air, water with dissolved additives, and/or emulsions.
An embodiment of the invention provides that each valve can be in a closed position in the first valve position and is in a flow position in the second valve position. When the valve body is moved out of the first valve position into the second, this movement takes place in opposition to the force of the return spring.
An embodiment of the invention provides a control element that is suitable for guiding all “x” directly controllable valve bodies and/or for automatically resetting these valve bodies from the second valve position to the first one. To this end, the directly controllable valve bodies have a guide element that can be provided in the form of a peg or cone. The control element can be provided as a rotatable gate disc or a translationally movable gate slide, for example. At least one gate for guiding at least one valve body can be provided on the control element. When actuation of a valve and the associated movement of a valve body take place, a movement of the control element in opposition to the force of a return spring takes place at the same time. In addition, the control element serves as a locking element for the directly controllable valve bodies in the applicable valve positions. To this end, one or more receptacles for each valve body are provided on the control element, which receptacles define the first or second valve position.
Because of the individual arrangement of the valves and the associated optional actuation, for showerheads with “x” valves that are directly controllable through pushbuttons and with the associated “x” individual spray types, there are “2x−1” possibilities for different spray types or combinations of spray types.
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:
a illustrates the detail “X” from
b illustrates the detail “X” from
c illustrates the detail “X” from
d illustrates the detail “X” from
a is a perspective view of an alternative embodiment for a control element and associated valves;
b is a perspective view from
c is a perspective view from
d is a perspective view from
In the present example embodiment, four individual spray types are provided. In addition, three different types of spray outlet openings 50 are provided. An individual spray type can be selected by actuating a single pushbutton 401, 411, 421, 431. In this design, it is possible to choose between a normal spray with a plurality of individual sprays, an aerated spray, a hard spray with a large spray diameter, and a massage spray with a movable spray pattern. Since it is also possible to actuate all pushbuttons 401, 411, 421, 431 simultaneously, a plurality of combinations of the different individual spray types is possible.
The structure of the hand shower is evident from
The arrangement of the fluid distribution chambers 301, 302, 303, 304 and their associated valves 40, 41, 42, 43 is clear from
The inflow to the fluid distribution chamber 302 is controlled through the pushbutton 411 and the associated valve 41 or the associated valve body 412. The fluid distribution chamber 302 stands in connection with spray outlet openings 50 that produce a spray with fairly large spray diameter, a so-called “jet” spray. Inflow to the fluid distribution chamber 301 is controlled through the valves 40, 43 and the associated pushbuttons 401, 431. When the pushbutton 431 is actuated, only the valve body 432 is moved to a flow position. When this occurs, the inflow of water to the fluid distribution chamber 301 is enabled. In this valve position, a normal spray with a plurality of individual sprays is produced by the spray outlet openings 50.
It is evident from
The showerhead according to the invention makes it possible to select the spray types specifically and directly by actuating the relevant pushbuttons 401, 411, 421, 431. It is possible here to press the pushbuttons 401, 411, 421, 431 individually or in combination with one another. It is also possible to actuate all pushbuttons 401, 411, 421, 431 at once. The advantage of the invention is that an existing spray type or combination need not be deselected before it is possible to select a new spray type. Instead, the existing selection is automatically deselected when a new spray type is selected by actuating a pushbutton. This is accomplished by means of a control element 60 that serves to guide the valve bodies 402, 412, 422, 432. To this end, the valves 40, 41, 42, 43 have a guide element 405, 415, 425, 435.
The mode of operation is explained in detail using
In
In contrast thereto, in
In
The pushbutton 411 is pressed down to its stop position. When this occurs, the guide element 415 is also slid along the second gate 604 to a stop position. In this position, the control element 60 is also located in a stop position. Further displacement of the pushbutton 411, valve body 412, guide element 415, and control element 60 is no longer possible. However, the control element is now displaced far enough that the other guide element 405 or the guide elements 405, 425, 435 of all other non-actuated pushbuttons 401, 421, 431 are no longer in engagement with the control element 60 and are automatically moved upward. The resetting of the valve bodies 402, 422, 432 is in turn limited by an upper stop that is defined by the first receptacle 601 of the control element 60.
Another example embodiment that shows an alternative control element 60 is depicted in
In
In this embodiment, too, each valve 40, 41, 42, 43 can be activated directly and independently of the valve position of the remaining valves 41, 42, 43, 40. In this way, the spray types and combinations of spray types can be selected without prior deselection of the previously chosen spray type.
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are to be included within the scope of the following claims.
Number | Date | Country | Kind |
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DE102011017434.6 | Apr 2011 | DE | national |
This nonprovisional application is a continuation of International Application No. PCT/EP2012/001561, which was filed on Apr. 11, 2012, and which claims priority to German Patent Application No. DE 10 2011 017 434.6, which was filed in Germany on Apr. 18, 2011, and which are both herein incorporated by reference.
Number | Date | Country | |
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Parent | PCT/EP2012/001561 | Apr 2012 | US |
Child | 14056333 | US |