A swimming pool safety system, and method, uses a preservation mechanism that lifts a human-sized object from within a swimming pool to a top surface of the swimming pool. An underwater detection array detects the human-sized object within the swimming pool and generates a detection data. A preserva
A swimming pool safety system, and method, uses a preservation mechanism that lifts a human-sized object from within a swimming pool to a top surface of the swimming pool. An underwater detection array detects the human-sized object within the swimming pool and generates a detection data. A preservation controller actuates the preservation mechanism in response to an automatic actuation signal that was generated based on the detection data so as to actuate the preservation mechanism to lift the human-sized object above the top surface of the swimming pool.
대표청구항▼
1. A swimming pool safety system comprising: a preservation mechanism having a pool bottom platform having a shape that matches at least a part of a bottom of a swimming pool and lifts a human-sized object from within a designated area of the swimming pool to above a top surface of the swimming pool
1. A swimming pool safety system comprising: a preservation mechanism having a pool bottom platform having a shape that matches at least a part of a bottom of a swimming pool and lifts a human-sized object from within a designated area of the swimming pool to above a top surface of the swimming pool, the preservation mechanism includes a lifting mechanism connected to the pool bottom platform via a vertical structure;an underwater detection array having a plurality of sensors disposed under water and configured to detect the human-sized object within the swimming pool and generate detection data when the human-sized object is detected; anda preservation controller that includes a processing circuit configured to actuate the preservation mechanism in response to an actuation signal automatically generated based on the detection data so as to actuate the preservation mechanism and lift the human-sized object above the top surface of the swimming pool, a trigger time and ascension rate of the pool bottom platform corresponding to a detected size of the human-sized object. 2. The swimming pool safety system of claim 1, further comprising: a manual actuator that when actuated, generates a manual actuation signal that actuates the preservation mechanism to lift the human-sized object above the top surface of the swimming pool. 3. The swimming pool safety system of claim 1, wherein the preservation controller is configured to raise or lower the pool bottom platform attached to the lifting mechanism, in response to control signals, to artificially change the depth of the pool by changing a depth of which the pool bottom platform is deployed. 4. The swimming pool safety system of claim 1, wherein the lifting mechanism provides a motive force to the preservation mechanism through at least one of a mechanical, an electrical, a magnetic, a hydraulic, a pneumatic, a buoyant, and a restorative lifting device. 5. The swimming pool safety system of claim 4, wherein the lifting mechanism is coupled to the vertical structure via at least one of a rack and pinion, a pulley system, a belt drive, and an expansion cylinder coupling device. 6. The swimming pool safety system of claim 5, wherein the preservation mechanism includes another lifting mechanism coupled to another vertical structure so as to allow the preservation mechanism to be implemented in a plurality of pool configurations. 7. The swimming pool safety system of claim 6, wherein the vertical structure has a lower section connected to an upper section via a separable connector that facilitates removal of the lower end of the vertical structure from the upper end of the vertical structure. 8. The swimming pool safety system of claim 7, wherein when the lower section is separated from the upper section and rotated along with the pool bottom platform to an inverted position where the pool bottom platform is positioned above the top surface of the swimming pool so as to shade the swimming pool. 9. The swimming pool safety system of claim 1, wherein the processing circuit calculates, using the detection data, a depth of a deepest part of the human-sized object within the swimming pool using Depth=(Length)×sin(refθ1-latθ1)×sin(refθ2-latθ2)sin[(refθ1-latθ1)+(refθ2-latθ2)]+Height where Length is a distance between a first underwater detection sensor and a second underwater detection sensor, and Height is a distance of both the first underwater detection sensor and second underwater detection sensor above a floor of the swimming pool. 10. The swimming pool safety system of claim 1, further comprising: a plurality of electromagnetic devices disposed on a floor of the swimming pool which when activated, exhibit an attractive force on the pool bottom platform of the preservation mechanism and when deactivated, releases the pool bottom platform of the preservation mechanism, said pool bottom platform having a positive buoyancy. 11. The swimming pool safety system of claim 1, wherein the actuation signal is automatically generated within the preservation controller based on a comparison of the detection data with a set of user defined scenarios that have been stored in a user defined scenario memory. 12. The swimming pool safety system of claim 11, wherein the user defined scenarios include a plurality of categories of human-sized objects including an infant, a toddler, a child, a teenager, and an adult, each category having a plurality of user settable parameters to adjust when an actuation signal is generated and how the preservation mechanism will activate based on the category. 13. The swimming pool safety system of claim 11, wherein the set of user defined scenarios is input to the preservation controller by a touch panel interface. 14. A method of operating a pool safety system, comprising: generating a detection data with an underwater detector when a human-size object is detected as entering a swimming pool, the underwater detector including a plurality of sensors disposed under water;generating a scenario based on the detection data, the scenario including both a size and a calculated depth of the human-sized object within the swimming pool along with a total number of detected human-sized objects within the swimming pool;comparing the scenario to a set of user defined scenarios; andactuating a preservation mechanism and lifting a pool bottom platform above a top surface of the swimming pool if the scenario matches one of the set of user defined scenarios, said lifting being performed according to parameters defined in the one of the set of user defined scenarios, wherein the pool bottom platform having a shape that matches at least a portion of a bottom of the swimming pool, and a trigger time and rate of ascent of the pool bottom platform corresponding to the size of the human-sized object. 15. The method of claim 14, further comprising: receiving a manual actuation signal from a manual actuator; andactuating the preservation mechanism in response to the receiving so as to lift the pool bottom platform above the top surface of the swimming pool. 16. The method of claim 14, further comprising: actuating a plurality of lifting mechanisms to simultaneously lift the pool bottom platform above the top surface of the swimming pool based on a set of parameters within the one of the set of user defined scenarios. 17. The method of claim 16, wherein the set of user defined scenarios include a plurality of categories of human-sized objects including an infant, a toddler, a child, a teenager, and an adult, each category having a plurality of user settable parameters to adjust when an actuation signal is generated and how the preservation mechanism will activate based on the category. 18. The method of claim 14, wherein a calculated depth of the human-sized object within the swimming pool is determined using Depth=(Length)×sin(refθ1-latθ1)×sin(refθ2-latθ2)sin[(refθ1-latθ1)+(refθ2-latθ2)]+Height where Length is a distance between a first underwater detection sensor and a second underwater detection sensor, and Height is a distance of both the first underwater detection sensor and second underwater detection sensor above a floor of the swimming pool.
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Baker William H. (50 Fairway Ridge Lake Wylie SC 29710), Adjustable pool flooring structure.
Pietrogrande ; deceased Stefano (late of Rome ITX by Daniela Pietrogrande ne Formenti ; heir) Attanasio Marco (Bari ITX) Bisogni Paolo (Rome ITX) Lomoro Sandro (Rome ITX), Covering structure particularly for surfaces having a marked longitudinal extension.
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