Thin weighing scale using ultrasonic waves and method using same

The invention claimed is: 1. A weighing device, configured to measure at least the weight of a person or an object, comprising: a control unit, a sensory plate, a top plate, arranged parallel and at distance from the sensory plate, with no direct contact with sensory plate, a plurality of spacer pads, interposed between the sensory plate and the top plate, isolator feet under the sensory plate, wherein the sensory plate is fitted with at least an emission transducer configured to generate, on a periodic basis, a burst of Lamb waves at the surface of the sensory plate, and wherein the sensory plate is fitted with at least a reception transducer, configured to receive echoed Lamb waves propagated through the sensory plate, the temporal profile of the echoed Lamb waves being dependent on the weight applied to the top plate and passed by the spacer pads to the sensory plate, wherein the control unit determines the weight applied to the top plate by analysis of the temporal profile of the echoed Lamb waves. 2. The weighing scale of claim 1 , wherein the number of spacer pads is chosen between either 4 spacer pads, 9 spacer pads, or 16 spacer pads. 3. The weighing scale of claim 2 , wherein each spacer exhibits a thickness of less than 2 mm. 4. The weighing scale of claim 1 , wherein the thickness of the weighing scale is less than 18 mm. 5. The weighing scale of claim 1 , wherein the top plate is rigid and is made of glass. 6. The weighing scale of claim 1 , wherein the sensory plate is rigid and is made of glass. 7. The weighing scale of claim 1 , wherein there is only one reception transducer. 8. The weighing scale of claim 1 , wherein there are two or more emission transducers. 9. The weighing scale of claim 1 , wherein there are two or more reception transducers. 10. The weighing scale of claim 9 , further comprising a display and wherein the reception transducers are distributed on left side and right side, and an off-center condition is detected and indicated on the display. 11. The weighing scale of claim 1 , wherein weight measures are performed repeatedly to output a successive series of weight values and a ballistography analysis is performed on the successive series of weight values. 12. The weighing scale of claim 1 , wherein the generated burst of ultrasonic Lamb waves is comprised within the ultrasonic frequency range of [400 kHz-550 kHz]. 13. The weighing scale of claim 1 , wherein there is only one emission transducer and one reception transducer, the two latter formed by a single transducer used sequentially in emission mode and then in reception mode. 14. Method carried out in a weighing device comprising a control unit, a sensory plate fitted with at least a emission transducer and at least a reception transducer, a top plate, a plurality of spacer pads interposed between the sensory plate and the top plate, the method comprising the steps: c1—cause a person or objet to bear on the top plate, c2—generate emission of a Lamb waves burst at the emission transducer which causes Lamb waves to propagate through the sensory plate, c3—receive echoed Lamb waves at the reception transducer, and determine a first echoed Lamb waves profile, c4—compare the temporal profile of the first echoed Lamb waves, with regard to a base reference echoed Lamb waves profile, by difference calculation to obtain a differentiated wave profile, c5—determine therefrom the weight of the person or objet bearing on the top plate, display and/or send a resulting weight value. 15. The method of claim 14 , further comprising the steps: a1—provide a tare configuration with no load on the scale, a2—generate emission of a Lamb waves burst at the emission transducer which causes Lamb waves to propagate through the sensory plate, a3—receive echoed Lamb waves at the reception transducer, and determine a reference tare echoed Lamb waves profile, the base reference echoed Lamb waves profile is determined according to the reference tare echoed Lamb waves profile. 16. The method of claim 14 , further comprising the steps: b1—cause a calibrated weight to lie on the top plate, b2—generate emission of a Lamb waves burst at the emission transducer which causes Lamb waves to propagate through the sensory plate, b3—receive echoed Lamb waves at the reception transducer, and determine a reference echoed Lamb waves profile, b4—compare the temporal profile of the echoed Lamb waves, with reference tare echoed Lamb waves profile, b5—determine a weight correction and/or allocate a set of parameters to be applied to subsequent weight measurement. 17. The method of claim 16 , wherein a set of calibration weights is used to perform steps b1 to b5 several times in order to adjust individual calibration parameters. 18. The method of claim 14 , wherein there are provided two or more reception transducers distributed on left side and right side, the method comprising the steps: detecting an off-center condition indicating an off-center condition on the display.