Transparent pane with an electrical heating layer and production method thereof

1 .- 18 . (canceled) 19 . A transparent pane comprising: an electrical heating layer extending at least over a part of a pane surface, and being divided into a main heating region and an additional heating region electrically insulated from the main heating region, a connection means, configured to be electrically connected to a voltage source, wherein the connection means comprises a first collecting conductor and a second collecting conductor, wherein the first and second collecting conductors are electrically connected to the electrical heating layer in direct contact with the main heating region such that, upon application of a supply voltage, a heating current flows across a heating field formed by the electrical heating layer, and at least one electrical line heating element, arranged, at least in sections, in the additional heating region of the electrical heating layer, wherein the line heating element is in direct contact with and electrically connected to the heating layer, the line heating element is configured to be electrically connected to the voltage source or to another voltage source, the line heating element has an ohmic resistance for heating the additional heating region upon application of the supply voltage, and the line heating element is configured such that, upon application of the supply voltage, a heating current can flow between sections of the line heating element through the heating layer in the additional heating region, the additional heating region being configured for being additionally heated. 20 . The pane according to claim 19 , wherein the line heating element is electrically connected to the connection means in a parallel electrical connection with the heating field. 21 . The pane according to claim 20 , wherein at least one connection conductor is electrically connected to the line heating element and at least one of the connection means. 22 . The pane according to claim 21 , wherein the connection conductors are arranged, at least in regions, in a heating-layer-free edge strip of the pane and/or at least in regions in a heating-layer-free separating region between the main heating region and the additional heating region. 23 . The pane according to claim 20 , wherein at least one connection of the line heating element is in direct electric contact with one of the collecting conductors. 24 . The pane according to claim 20 , wherein the connection means comprises one or more connecting conductors connected to the first and second collecting conductors and wherein at least one connection of the line heating element is in direct electrical contact with at least one of the connecting conductors. 25 . The pane according to claim 20 , wherein the line heating element and/or the connection conductor are a heating wire or a heating line made of a printed-on electrically conductive paste. 26 . The pane according to claim 25 , wherein the heating line has a thickness of 6 μm to 14 μm, a width of 0.2 mm to 8 mm, a length of 1000 mm to 10000 mm, and/or a specific resistance of 0.5*10 −8 ohm*m to 5*10 −8 ohm*m. 27 . The pane according to claim 25 , wherein the line heating element is configured such that when the supply voltage is in a range from 12 to 48 V, a deicing power in a range from 400 to 1000 W/m 2 of pane surface is available. 28 . The pane according to claim 25 , wherein the line heating element has an ohmic resistance of 0.5 ohm/m to 4 ohm/m. 29 . The pane according to claim 25 , wherein the line heating element is meander-shaped and not rectangular. 30 . The pane according to claim 25 , wherein the line heating element is trapezoidal. 31 . The pane according to claim 30 , wherein a sum of bases is less than or equal to the half of the periodic interval. 32 . The pane according to claim 25 , wherein the line heating element has a periodic course and within a period, sections of the line heating element are arranged nonparallel and non-antiparallel to one another. 33 . The pane according to claim 25 , wherein the line heating element has a periodic course and within a period, sections which are arranged nonparallel to the direction of the current flow through the heating layer are arranged nonparallel and non-antiparallel to one another. 34 . The pane according to claim 25 , wherein the line heating element has a periodic course and within a period, a distance between the section of the line heating element before a reversal point or before a reversal region and the section of the line heating element after the reversal point or after a reversal region decreases continuously. 35 . The pane according to claim 19 , wherein the pane is a composite pane comprising two individual panes bonded to one another by a thermoplastic adhesive layer, wherein the heating layer is situated on at least one surface of the two individual panes and/or on one surface of a carrier arranged between the two individual panes. 36 . A method for producing a transparent pane, comprising the steps of: a) depositing an electrical heating layer on at least one part of a pane surface, b) dividing the electrical heating layer into a main heating region and an additional heating region electrically insulated from the main heating region, c) applying at least one first collecting conductor and one second collecting conductor on the electrical heating layer in the main heating region, wherein the first and second collecting conductors are in direct contact with and electrically connected to the electrical heating layer, such that upon application of a supply voltage from a voltage source on connecting means connectable to the first and second collecting conductors, a heating current can flow across a heating field formed by the heating layer, d) applying at least one electrical line heating element, at least in sections, on the heating layer in the additional heating region, wherein the line heating element is in direct contact with and electrically connected to the heating layer, the line heating element is configured to be electrically connected to the connecting means in parallel electrical connection with the heating field or is configured to be electrically connected to the first and second collecting conductors of the heating layer in the main heating region, the line heating element has an ohmic resistance for heating the additional heating region, upon application of the supply voltage, and the line heating element is configured such that after application of the supply voltage between sections of the line heating element, a heating current can flow through the heating layer in the additional heating region, the additional heating region being configured for being additionally heated, e) applying at least one connection conductor on the pane surface, wherein the line heating element is connected to the first and second collecting conductors and/or connected to the connecting means, f) applying the connecting means on the pane surface wherein the connecting means is in direct contact with and electrically connected to the first and second collecting conductors, the line heating element, and/or the at least one connection conductor. 37 . The method for producing a transparent pane according to claim 36 , wherein the first and second collecting conductors, the line heating element, and the at least one connection conductor are applied by screen printing an electrically conductive paste onto the pane surface. 38 . A method comprising: using the tran