Glass article manufacturing method

The invention claimed is: 1. A manufacturing method for a glass article, the manufacturing method comprising: a supply step of supplying glass raw materials onto molten glass accommodated in a melting chamber of a glass melting furnace from a plurality of supply units mounted to a front wall of the melting chamber in parallel; a melting step of melting the supplied glass raw materials through heating; and an outflow step of causing the molten glass to flow outside the melting chamber from an outflow port provided at a rear wall of the melting chamber, wherein the glass raw materials supplied from one supply unit and another supply unit, which are adjacent to each other out of the plurality of supply units, extend in parallel along a flowing direction of the glass raw materials from a front wall side to a rear wall side through intermediation of a gap on the molten glass, wherein the glass raw materials are melted through heating only with electrodes each immersed in the molten glass in the melting chamber, and wherein when a distance from the front wall to the glass raw material located on a most downstream side along the flowing direction is L 1 and a length of a surface of the molten glass along the flowing direction is L 2 , L 1 and L 2 satisfy a relationship expressed by 0.65L 2 ≤L 1 ≤0.95 L 2 . 2. The manufacturing method for a glass article according to claim 1 , wherein the electrodes comprise a plurality of pairs of rod-shaped electrodes, and wherein the plurality of pairs of rod-shaped electrodes are arranged so that an expected flow passage through which the glass raw material supplied from one of the supply units flows in the melting chamber passes between one rod-shaped electrode and another rod-shaped electrode forming each pair of the plurality of pairs of rod-shaped electrodes. 3. The manufacturing method for a glass article according to claim 2 , wherein a distance from the front wall to one of the rod-shaped electrodes closest to the front wall is set to be shorter than an inter-electrode distance between adjacent pairs of the rod-shaped electrodes in the flowing direction of the glass raw material.