The present invention relates to plumbing valve systems, particularly to systems controlling water flow to tub-shower installations.
As known, tub-shower installations consume considerable amounts of cold and hot water, heat energy. It is therefore important for the society to wisely use those resources, which will improve the natural environment. On the other hand, the devices that allow to reasonably save the resources will also economically benefit the utilities suppliers and consumers. A number of technical solutions have been proposed to achieve the savings. In particular, U.S. Pat. Nos. 4,508,141 and 4,633,902 disclose valves for interruption the water flowing to a shower or a sink, wherein the valves are controlled by the position of a soap dish capable to close or open the valve through an intermediate mechanism. The closed position of the soap dish permits the water flow from the supply system to the shower device, the movement of the soap dish to the open (soap retrieving) position interrupts the water flow, since it's unnecessary during the lathering process. After the lathering, the person taking the shower (user) returns the soap to the soap dish and closes it, whereby actuating the intermediate mechanism resulting in the terminating of the interruption phase, and re-opening the water flow to the shower.
However, the design of the valve and intermediate mechanism have proven to be complicated and expensive to manufacture. Besides, one of the intentions of those inventions was to keep substantially the same temperature of water flowing through the shower after re-opening of the valve. Nevertheless, due to fluctuations of cold and hot water pressure this effect sometimes could not be achieved. It compelled the user to regulate the hot and cold water valves by hand all over that could substantially eliminate the water saving, make the process inconvenient, not to mention endanger him/her in the event of abrupt surges of hot water pressure or drops of cold water pressure.
There are also known devices to provide pressure balance in mixers of hot and cold water, e.g. disclosed in U.S. Pat. No. 6,257,134. This valve requires precession in design and manufacture, expensive, and complicated in performance. Also, the mineral substances always present in water, deposited on the valve's internals, may essentially affect its performance.
One of the aims of this invention is to provide a new, effective, and inexpensive system controlling the water flow through the shower device to allow for water and energy savings in tub-shower installations.
The other aim is to provide an effective means capable to continuously balance the pressure of the hot and cold water inlet from the water supply systems, resulting in the keeping of substantially constant temperature of the outlet water flow mixed from the inlet hot and cold water.
Other aims of the invention will become apparent from a consideration of the drawings, ensuing description, and claims as hereinafter related.
The description of the invention, discussed herein below, will show the following advantages of the invention:
Rational water management provided by the invented system allows saving up to 50% of water and heat energy;
Simple operation and creating a convenience of lathering without watering;
Maintaining of substantially constant temperature of the showering water;
The system mainly comprises a stationary soap dish with a rotatable cover. The soap dish is coupled with a fitting having a lower and upper chambers. The upper chamber is connected to a hot-cold water mixer, connected to the hot and cold water supply systems.
The mixer includes a housing, having a central portion, a left chamber (e.g. from the hot water side) and a right chamber (e.g. from the cold water side) respectively connected to the central portion. The other ends of the chambers are respectively connected to conventional hot and cold water valves through conical connectors gradually narrowing from the center of mixer.
The mixer includes a hot-cold water pressure balance valve. The water pressure balance valve comprises a frame, supporting a pendulum balancer and a divider, all installed in the central portion of the housing. The water pressure balance valve comprises two balls, wherein the first (left) ball is inserted in the left chamber and the second ball (right) is inserted in the right chamber. The balls are capable to freely roll from the central portion of mixer through the respective conical connectors, wherein at some point of the connector the ball may completely close the inner hole of the connector.
As it is shown below herein, the configurations and relative dispositions of the water balance valve's elements mentioned above are arranged in such a way that when there is a fluctuation of the hot or cold water pressure, the corresponding ball pushes the balancer changing its position relative to the divider. This will change the proportion of the hot and cold water flows outlet from the mixer. If, for instance, the hot water pressure surges, the pressure balance valve reduces the hot water flow, and the mixed water substantially maintains its previous temperature.
The fitting contains a cross-shaped valve containing a ball capable to open or close a connecting round hole between the upper and lower chambers regulates the water flow coming from the upper chamber to the lower chamber, and further to the shower device. The position of the ball is changed by a pusher fixed on a valve shaft connected to the rotatable cover. So, the position of the rotatable cover controls the water flowing to the shower device.
Typically, first the rotatable cover is opened and the soap is accessible. The water flow is not permitted into the lower chamber and to the shower. Then the user closes the cover, thereby opening the cross-shaped valve and permitting the water flow to the shower device. Then he opens the cover to get the soap, and starts the lathering process. After that he closes the cover to resume the water flow. Then he lifts the cover, finishes the showering process and leaves the bathroom.
While the invention may be susceptible to embodiment in different forms, there is shown in the drawings, and will be described in detail herein, a specific embodiment of the present invention, with the understanding that the present disclosure is to be considered an exemplification of the principles of the invention, and is not intended to limit the invention to that as illustrated and described herein.
A system controlling the shower water flow shown on
a) a stationary soap dish (1), which is positioned slightly leaned to the horizontal plane with a rear wall, and a flat bottom having a drain to let the accumulated water out. The rear wall has two ferromagnetic insertion (10) mounted as shown on
b) a fitting (3) depicted on
c) a seal type cross-shaped valve capable to open and close the water flow inlet into the tub-shower pipe. The cross-shaped valve is disposed in the lower chamber of fitting 3.
The cross-shaped valve comprises a rotatable elongated valve shaft (4) shown on
The cross-shaped valve comprises a pusher (5) shown on
The cross-shaped valve comprises a central ball (12), preferably made of suitable plastic material, and disposed in the upper chamber of fitting 3. If the leg of pusher 5 is positioned horizontally as shown on
d) a rotatable cover (2) of soap dish 1. Cover 2 is illustrated on
Cover 2 has two box-shaped levers with slots so configured, that the slots are contacted with the end protrusions of shaft 4, as shown on
Cover 2 has two permanent magnets (9) mounted as shown on
e) a hot-cold water horizontal tubular mixer (8) with a pressure balancer, shown on
The housing of mixer 8 comprises a left chamber and a right chamber. The left and right chambers are connected to the central part of the housing, and on the other ends each chamber has a conical connector with a cross-sectional diameters gradually reducing from the center of housing to the ends of the connectors. Each connector connects mixer 8 to either a hot or a cold water conventional hand-controlled valve (not shown herein).
Mixer 8 comprises a hot-cold water pressure balance valve shown separately on
The pressure balance valve includes a frame (13) depicted on
The pressure balance valve includes a pendulum balancer (14), preferably made of metal, shown on
The pressure balance valve includes a divider (15), preferably made of plastic, having two inclined sides and upper wings horizontally folded out. When assembled, the wings are supported by the top portions of the sidewalls of frame 13. Divider 15 actually divides the housing of mixer 8 into the left and the right chambers.
An increase of water pressure from the right side (e.g. cold water) causes the right ball 12 to push the balancer to the left, wherein the overlapping areas of the balancer's window and the frame's opening will change: the left area becomes greater and the right area becomes smaller. Therefore the fraction of right water flow (cold water with an increased pressure) will be reduced in the common mixed outlet water flow, thereby stabilizing its temperature.
The configurations and mutual dispositions between frame 13, balancer 14, and divider 15 are arranged in such a way that when the right (or the left) ball 12 is pushed by the cold (or hot) water maximally close to the center of divider 15, a minimal water flow must still exist over the ball through a minimal right (or left) window portion of balancer 14, as shown on
The system is connected to a conventional shower device, such as, for instance, shown on
For the user convenience, the shower head can be suspended under soap dish 1. For this purpose, two holders (22) are provided, depicted on
Pipe 17 connecting fitting 3, the hot and cold water valves are provided with conventional couplings (not shown herein), which connected to nipples (not shown) protruded from the wall, and further connected to the water supply systems. Various conventional flanges (25) reflected on
During normal operation of the system, hot and cold water flows enter mixer 8 from the hot and cold water conventional valves connected to the respective conventional hot and cold water supply pipes. Rotatable soap dish cover 2 is typically disposed in its open position. Pusher 5 is situated in its lower position, and the central ball 12 sits in the round hole of fitting 3, shutting the water flow from mixer 8 and the upper chamber to the lower chamber of fitting 3, and further to the shower and spout. In order to activate the shower, the user has to turn down cover 2, that is to close soap dish 1. It closes the soap from splashes of water and turns shaft 4, lifting pusher 5, which pushes the central ball 12 up and rolls it out from the round hole, opening the water flow, as reflected on
When in the showering process the user needs to use the soap, he/she lifts cover 2 into the open position, exposing the soap. This releases the central ball 12, which rolls back to the round hole and shuts the water flowing to the shower. Thus, the invented system allows for significant water saving by preventing the water from being wasted when the user is using the soap. At the same time, the hot and cold water valves remain in the positions where they were before cover 2 was lifted and the water flow was closed. The valves can be opened as long as needed without leakage.
It is also important to provide a stable temperature of the mixed water flow outlet from mixer 8. Sometimes an abrupt hot water fluctuation may injure the user of the shower. The special construction of the pressure balance valve allows to automatically adjust the water flows from the left and right chambers of mixer 8 during pressure fluctuations or abrupt changes. Let's suppose that the cold water pressure (e.g. in the right chamber) suddenly drops. It causes the left ball 12 move to the center of housing pushing balancer 14 to the right thereby increasing the right portion of the balancer's window (i.e. the area of window positioned to the right from the central lowest point of divider 15) and letting in a greater flow of the cold water. On the other hand, the left portion of the window will be reduced and the hot water flow will decrease. As a result, the mixed flow will remain substantially of the same temperature, and the user will not be hurt.
In the existing cold and hot water supply systems, there is a pressure difference between the water flows of the two systems. Besides, the opening and shutting the hot and cold valves in the neighboring installations may cause a destabilization of pressure and temperature of water in the invented system. Also, there are often spontaneous fluctuations of pressure. This creates a differential flow within the mixer from one supply system to the other that may cause substantial inconveniences for the users. The differential flow may be prevented by the regulating taps of the devices, or by the installing of special protection means.
The invented control system allows to keep the cold and hot valves constantly open. The function of protection here is carried out by balls 12. When the shower device is not used, the cold and hot water valves may optionally be open. The water from the supply system with the greater pressure (e.g. cold water) in the opened right chamber of mixer 8 pushes the right ball 12 to balancer 14. The cold water penetrates into the upper chamber of fitting 3 through the portion of the window of balancer 14. When the central ball 12 of the cross-shaped valve is depressed by the water flow and shuts the connecting round hole of fitting 3, the cold water will flow up into the left chamber of mixer 8. The water flow in the left chamber pushes the left ball 12 into the left conical connector of mixer 8, until the narrowing body of the connector will stop the ball. This will prevent the differential flow and fluctuation.
Thus, the user can by one simple action of opening or closing the rotatable cover to: