Multiple glazing having variable diffusion by liquid crystals, and method for manufacturing same

The invention claimed is: 1. A multiple glazing with variable liquid-crystal-induced scattering, with an edge face, the multiple glazing comprising: a first glass sheet including a first inner face, a first outer face and a first edge, a second glass sheet including a second inner face, a second outer face and a second edge, first and second electrodes respectively on the first and second inner faces, in the form of transparent electrically conductive layers, which first and second electrodes are provided respectively with first and second electricity supply zones, on the first and second electrodes, a layer of liquid crystals adapted to alternate reversibly between a transparent state and a translucent state by application of an alternating electric field, a sealing gasket sealing the layer of liquid crystals about its perimeter and also joining the first and second glass sheets together, the first glass sheet protruding from one side of the second edge by a first protruding side of the first inner face, and comprising the first electricity supply zone, an electrical cabling including a first cabling input in the first electricity supply zone and a second cabling input in the second electricity supply zone, a first electrically insulating polymer material configured to electrically insulate the first cabling input, and optionally a second electrically insulating polymer material configured to electrically insulate the second cabling input, a third glass sheet laminated by the second outer face with the second glass sheet by a first lamination interlayer made of a first transparent polymer interlayer material, the third glass sheet protruding from the second glass sheet via a first covering side of its inner face, covering the first electrically insulating material, and a water-impermeable seal extending about an entire perimeter of the multiple glazing and forming at least the first electrically insulating material. 2. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , further comprising a fourth glass sheet laminated by the first outer face with the first glass sheet by a second lamination interlayer made of a transparent interlayer polymer material. 3. The multiple glazing with liquid-crystal-induced variable scattering as claimed in claim 1 , wherein the electrical cabling comprises a first electrical cable with the first cabling input and which, over at least one portion of its length located beyond the first cabling input, is housed in a groove formed: between the first and third glass sheets, in particular between the first protruding side and the first covering side, and/or between another protruding zone of the third glass sheet of the first sheet, and a zone of a fourth glass sheet laminated by the first outer face with the first glass sheet by a second lamination interlayer made of a transparent interlayer polymer material. 4. The multiple glazing with liquid-crystal-induced variable scattering as claimed in claim 1 , wherein the electrical cabling comprises a first electrical cable with the first cabling input and which, over at least one portion of its length located beyond the first cabling input, comprises a sheath, covered with a supporting polymer material, which material is in particular impermeable to water and is electrically insulating. 5. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the electrical cabling comprises a first electrical cable with the first cabling input, the electrical cabling being fixed in a given unidirectional position leaving the glazing. 6. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the electrical cabling leaves the glazing in a single zone. 7. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the first electricity supply zone comprises a first current feed to which the first cabling input is attached and which is covered with the first covering side and optionally protected by the first electrically insulating material. 8. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the water-impermeable seal is a cross-linked material. 9. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the first electrically insulating material and/or the water-impermeable material and/or a support material for the electrical cabling is made of silicone or based on ethylene/vinyl acetate, in particular which is crosslinked. 10. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the first lamination interlayer is based on ethylene/vinyl acetate, polyvinyl butyral or polyurethane. 11. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the water-impermeable seal forming the first electrically insulating material and/or a support material for the electrical cabling has an outer surface, oriented toward the outside of the glazing, which is molded. 12. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the first protruding side is obtained by offsetting the first and second edge faces or by partial cutting of the second edge face. 13. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the second glass sheet protrudes over an edge face side of the first glass sheet by a second protruding side of the second inner face, comprising the second electricity supply zone, and wherein the glazing comprises: the second electrically insulating polymer material configured to electrically insulate the second cabling input, and a fourth glass sheet laminated by the first outer face with the first glass sheet by a second lamination interlayer made of a transparent polymer material, the fourth glass sheet protruding over the first glass sheet, by a second covering side of its inner face, covering the second electrically insulating material. 14. The multiple glazing with variable liquid-crystal-induced scattering as claimed in claim 1 , wherein the first protruding side extends over a limited portion of the first side of the first inner face, the protrusion being obtained by partial cutting of the second edge face and wherein the second glass sheet protrudes over a side of the first edge face, by a second protruding side of the second inner face, comprising the second electricity supply zone, and extending over a limited portion of one side of the second inner face, the protrusion being obtained by partial cutting of the first edge face, and the first protruding side and the second protruding side are on one and the same side of the glazing. 15. A process for manufacturing a multiple glazing comprising: depositing a liquid of a liquid-crystal composition on a first glass sheet provided with a first electrode, before or after depositing the liquid of the liquid-crystal composition, forming a sealing gasket that seals the liquid-crystal composition and also joins the first glass sheet to a second glass sheet; assembling the first and second glass sheets so as to form a first protruding side, the first protruding side being formed where the first glass sheet protrudes from the second glass sheet; curing the liquid crystals in order to form the liquid-crystal layer, providing a link from the first electrode to a first cabling input, laminating a third glass sheet with the second glass sheet using a first lamination