Laminated glass and method of manufacturing the same

The invention claimed is: 1. Laminated glass comprising: an outer glass sheet having an upper edge and a lower edge opposing the upper edge, an inner glass sheet arranged opposite the outer glass sheet and having substantially the same shape as the outer glass sheet, and an intermediate layer arranged between the outer glass sheet and the inner glass sheet the intermediate layer having a heat-generating layer comprising: a first bus bar extending along an end portion on the upper edge side, a second bus bar extending along an end portion on the lower edge side, and a plurality of heating wires arranged so as to connect the first bus bar and the second bus bar, a sheet-like substrate for supporting at least the plurality of heating wires among both busbars, wherein the plurality of heating wires is arranged on the sheet-like substrate wherein the intermediate layer further comprises an adhesive layer adjoining the heat-generating layer such that the plurality of heating wires is disposed between the sheet-like substrate and the adhesive layer or the sheet-like substrate is disposed between the plurality of heating wires and the adhesive layer a distance from the centre of the heating wires in a thickness direction to a surface of the outer glass sheet and a distance from the centre of the heating wires in a thickness direction to a surface of the inner glass sheet being different, characterised by: a distance from the centre of the heating wires in a thickness direction to an inside surface of the outer glass sheet and a distance from the centre of the heating wires in a thickness direction to the outside surface of the inner glass sheet being different wherein a thickness of the adhesive layer or thickness of the substrate whichever having smaller thickness is not more than 400 micrometres. 2. Laminated glass according to claim 1 , wherein the thickness of the outer glass sheet and the thickness of the inner glass sheet are different. 3. Laminated glass according to claim 1 , wherein the heat-generating layer comes into contact with the inner glass sheet. 4. Laminated glass according to claim 1 , wherein the intermediate layer further comprises a pair of adhesive layers sandwiching the heat-generating layer, the thickness of each of the pair of adhesive layers being different. 5. Laminated glass according to claim 1 , wherein the surface of the plurality of heating wires is subjected to blackening treatment the plurality of heating wires is arranged on the outer glass sheet side, and the substrate is arranged on the inner glass sheet side. 6. Laminated glass according to claim 1 , wherein a distance from the centre of the heating wires in the thickness direction to the inside surface of the outer glass sheet or a distance from the centre of the heating wires in the thickness direction to the outside surface of the inner glass sheet is not more than 400 micrometres. 7. Laminated glass according to claim 1 , wherein the distance from the centre of the heating wires in the thickness direction to the inside surface of the outer glass sheet or the distance from the centre of the heating wires in the thickness direction to the outside surface of the inner glass sheet is not less than 5 micrometres. 8. Laminated glass according to claim 1 , wherein the heating wires comprise copper, tungsten, silver or molybdenum or alloys thereof. 9. Laminated glass according to claim 1 , wherein each heating wire in cross-section has a shape of a circle, an oval, a triangle, a square, a rectangle or a trapezoid. 10. Laminated glass according to claim 1 , wherein the busbars and the plurality of heating wires can be formed integrally. 11. Laminated glass according to claim 1 , wherein the plurality of heating wires is printed, etched, transferred or preformed. 12. Laminated glass according to claim 1 , wherein the adhesive layer or the pair of adhesive layers comprises PVB or PVB having an adhesion control additive. 13. Laminated glass according to claim 1 , wherein the substrate, the adhesive layer or the pair of adhesive layers can be provided with an infrared absorbing layer. 14. Laminated glass according to claim 1 , wherein the plurality of heating wires comprises preformed wires on the sheet-like substrate. 15. Laminated glass according to claim 1 , wherein both busbars and the plurality of heating wires are formed integrally on the sheet-like substrate as etched metal foil. 16. Use of a laminated glass according to claim 1 in a vehicle for transport on land, water or in the air, or in a building, in digital signage or in a refrigerator door. 17. Method of manufacturing a laminated glass comprising: providing an outer glass sheet having an upper edge and a lower edge opposing the upper edge arranging an inner glass sheet opposite the outer glass sheet, wherein said inner glass sheet has substantially the same shape as the outer glass sheet arranging an intermediate layer between the outer glass sheet and the inner glass sheet, the intermediate layer having a heat-generating layer comprising a first busbar extending along an end portion on the upper edge side, a second busbar extending along an end portion on the lower edge side arranging a plurality of heating wires so as to connect the first busbar and the second busbar, arranging a sheet-like substrate for supporting at least the plurality of heating wires among both busbars, wherein the plurality of heating wires is arranged on the sheet-like substrate wherein the intermediate layer further comprises an adhesive layer adjoining the heat-generating layer such that the plurality of heating wires is disposed between the sheet-like substrate and the adhesive layer or the sheet-like substrate is disposed between the plurality of heating wires and the adhesive layer a distance from the centre of the heating wires in a thickness direction to a surface of the outer glass sheet and a distance from the centre of the heating wires in a thickness direction to a surface of the inner glass sheet being different, a distance from the centre of the heating wires in a thickness direction to an inside surface of the outer glass sheet and a distance from the centre of the heating wires in a thickness direction to the outside surface of the inner glass sheet being different wherein a thickness of the adhesive layer or the thickness of the substrate whichever having smaller thickness is not more than 400 micrometres. 18. Method according to claim 17 , wherein the plurality of heating wires comprises preformed wires on the sheet-like substrate. 19. Method according to claim 17 , wherein both busbars and the plurality of heating wires are formed integrally on the sheet-like substrate as etched metal foil.