초록 ▼

A remote shower actuator and temperature sensing unit installs in a shower having a shower head in a water line that is downstream of hot and cold water mixing for the shower. The shower actuator includes a battery powered wireless actuated blocking valve, a digital temperature sensor mechanism, a t

A remote shower actuator and temperature sensing unit installs in a shower having a shower head in a water line that is downstream of hot and cold water mixing for the shower. The shower actuator includes a battery powered wireless actuated blocking valve, a digital temperature sensor mechanism, a temperature indicating mechanism and generally two independent one wireless controllers. The valve may move between a closed position, an open position and a trickle flow position. The trickle flow position is a significantly reduced flow in response to a potentially hazardous temperature reading. The temperature indicating mechanism may be a visible display on the controllers that constantly displays the measured temperatures, or may be a visible or audible indicator on the controllers that identifies that the flowing water temperature has reached an acceptable steady state temperature, or a combination of the two.

대표청구항 ▼

What is claimed is: 1. A shower actuator for a shower having a shower head in a water line that is downstream of hot and cold water mixing for the shower, the shower actuator comprising: A) a battery powered wireless actuated blocking valve configured to be placed in the water line down stream of t

What is claimed is: 1. A shower actuator for a shower having a shower head in a water line that is downstream of hot and cold water mixing for the shower, the shower actuator comprising: A) a battery powered wireless actuated blocking valve configured to be placed in the water line down stream of the mixing of hot and cold water for the shower, the blocking valve moveable between at least i) a closed position in which the mixed hot and cold water stream is prevented from exiting the shower head, and ii) an open position in which the mixed hot and cold water stream is substantially unimpeded by the blocking valve from flowing to the shower head; B) a digital temperature sensor mechanism positioned within the water line down stream of the mixing of hot and cold water for the shower and configured to measure the temperature of water flowing in the water line; C) a temperature indicating mechanism communicating with the digital temperature sensor mechanism and indicating to the user at least one measured temperature of the water when the blocking valve is not in the closed position, the temperature indicating mechanism comprising an audible indicator on at least one wireless controller that are adapted to convey when the measured temperature of the water reaches an acceptable steady state temperature at least when the valve is in the open position; and D) at least one wireless controller communicating with the blocking valve and configured to send signals to the blocking valve to move the valve at least between the open and the closed positions, wherein the valve is further moveable to a trickle flow position in which the mixed hot and cold water stream is substantially, but not completely, impeded by the blocking valve from flowing to the shower head wherein water continues to flow in an amount sufficient for the digital temperature sensor mechanism to obtain an accurate temperature reading of the flowing water, and the digital temperature sensor mechanism will send a signal to the blocking valve to move the valve to the trickle flow position in response to a measured temperature of the water above a preset maximum temperature value at least when the valve is in the open position. 2. The shower actuator according to claim 1 wherein the temperature indicating mechanism includes a visible display on at least one wireless controller adapted to continuously display the measured temperature of the water at least when the valve is in the open position. 3. The shower actuator according to claim 1 wherein the acceptable steady state temperature is between preset minimums and maximum temperatures. 4. The shower actuator according to claim 1 further including at least one controller which is independent of the at least one wireless controller for moving the blocking valve at least between the open and the closed positions. 5. A shower actuator for a shower having a shower head in a water line that is downstream of hot and cold water mixing for the shower, the shower actuator comprising: A) a battery powered wireless actuated blocking valve configured to be placed in the water line down stream of the mixing of hot and cold water for the shower, the blocking valve moveable between at least i) a closed position in which the mixed hot and cold water stream is prevented from exiting the shower head, and ii) an open position in which the mixed hot and cold water stream is substantially unimpeded by the blocking valve from flowing to the shower head; B) a wireless controller communicating with the blocking valve and configured to send signals to the blocking valve to move the valve at least between the open and the closed positions; C) at least one other independent controller for moving the blocking valve at least between the open and the closed positions; D) a digital temperature sensor mechanism positioned within the water line down stream of the mixing of hot and cold water for the shower and configured to measure the temperature of water flowing in the water line; and E) a temperature indicating mechanism communicating with the digital temperature sensor mechanism and indicating to the user at least one measured temperature of the water when the blocking valve is not in the closed position, the temperature indicating mechanism comprising: i) a visible display on at least one wireless controller; and ii) an audible indicator on at least one wireless controller that are adapted to convey when the measured temperature of the water reaches an acceptable steady state temperature at least when the valve is in the open position, wherein said at least one other controller for moving the blocking valve at least between the open and the closed positions is a second, independent wireless controller, and wherein the valve is further moveable to a trickle flow position in which the mixed hot and cold water stream is substantially, but not completely, impeded by the blocking valve from flowing to the shower head wherein water continues to flow in an amount sufficient for the digital temperature sensor mechanism to obtain an accurate temperature reading of the flowing water, and wherein the digital temperature sensor mechanism will send a signal to the blocking valve to move the valve to the trickle flow position in response to a measured temperature of the water above a preset maximum temperature value at least when the valve is in the open position. 6. The shower actuator according to claim 5 wherein said at least one other controller for moving the blocking valve at least between the open and the closed positions is a second, independent wireless controller. 7. The shower actuator according to claim 5 further including a digital temperature sensor mechanism positioned within the water line down stream of the mixing of hot and cold water for the shower and configured to measure the temperature of water flowing in the water line, and wherein at least one controller includes a visible display in communication with the digital temperature sensor mechanism adapted to continuously display the measured temperature of the water at least when the valve is in the open position. 8. The shower actuator according to claim 5 further including a digital temperature sensor mechanism positioned within the water line down stream of the mixing of hot and cold water for the shower and configured to measure the temperature of water flowing in the water line, wherein the valve is further moveable to a trickle flow position in which the mixed hot and cold water stream is substantially but not completely impeded by the blocking valve from flowing to the shower head wherein water continues to flow in an amount sufficient for the digital temperature sensor mechanism to obtain an accurate temperature reading of the flowing water, and wherein the digital temperature sensor mechanism will send a signal to the blocking valve to move the valve to the trickle flow position in response to a measured temperature of the water above a preset maximum temperature value at least when the valve is in the open position. 9. A shower actuator for a shower having a shower head in a water line that is downstream of hot and cold water mixing for the shower, the shower actuator comprising: A) a digital temperature sensor mechanism positioned within the water line down stream of the mixing of hot and cold water for the shower and configured to measure the temperature of water flowing in the water line; B) a battery powered blocking valve configured to be placed in a shower down stream of the mixing of hot and cold water for the shower, the blocking valve moveable between at least i) a closed position in which the mixed hot and cold water stream is prevented from exiting the shower head, ii) an open position in which the mixed hot and cold water stream is substantially unimpeded by the blocking valve from flowing to the shower head, and iii) a trickle flow position in which the mixed hot and cold water stream is substantially but not completely impeded by the blocking valve from flowing to the shower head wherein water continues to flow in an amount sufficient for the digital temperature sensor mechanism to obtain an accurate temperature reading of the flowing water, and wherein the digital temperature sensor mechanism will send a signal to the blocking valve to move the valve to the trickle flow position in response to a measured temperature of the water above a preset maximum temperature value; and C) at least one controller for moving the blocking valve at least between the open and the closed positions. 10. The shower actuator according to claim 9 further including a temperature indicating mechanism communicating with the digital temperature sensor mechanism and indicating to the user at least one measured temperature of the water when the blocking valve is not in the closed position. 11. The shower actuator according to claim 10 wherein at least one controller is a wireless controller, and the temperature indicating mechanism includes at least one of i) a visible display on at least one wireless controller and ii) an audible indicator on at least one wireless controller that are adapted to convey when the measured temperature of the water reaches an acceptable steady state temperature at least when the valve is in the open position. 12. The shower actuator according to claim 9 where said at least one controller includes at least one wireless controller communicating with the blocking valve and configured to send signals to the blocking valve to move the valve at least between the open and the closed positions. 13. The shower actuator according to claim 9 wherein said at least one controller includes a pair of independent wireless controllers, each independent wireless controller communicating with the blocking valve and configured to send signals to the blocking valve to move the valve at least between the open and the closed positions. 14. The shower actuator according to claim 13 further including a temperature indicating mechanism communicating with the digital temperature sensor mechanism and wherein the temperature indicating mechanism includes a visible display on at least one wireless controller adapted to continuously display the measured temperature of the water at least when the valve is in the open position. 15. The shower actuator according to claim 9 further including a temperature indicating mechanism communicating with the digital temperature sensor mechanism and wherein the temperature indicating mechanism includes a visible display on at least one controller adapted to continuously display the measured temperature of the water at least when the valve is in the open position.