Method for manufacturing optical device by varying rubbing strength

The invention claimed is: 1. A method for manufacturing an optical device, comprising: rubbing a first rubbing alignment film of a first substrate including a first base layer, a spacer, the first rubbing alignment film formed on the first base layer; rubbing a second rubbing alignment film of a second substrate including a second base layer, the second rubbing alignment film formed on the second base layer, wherein the first or the second alignment film is a vertical alignment film, wherein no spacer is present in the second substrate, wherein a first rubbing strength (RS1) determined by Equation 1 below when rubbing the first rubbing alignment film and a second rubbing strength (RS2) determined by Equation 1 below when rubbing the second rubbing alignment film satisfy Equation 2 below, and wherein the first rubbing strength (RS1) is in a range of 2.5 to 100 and an average of the first and the second rubbing strengths (RS1 and RS2) is in a range of 12 to 250: RS 1 or RS 2=2× N×M×n×n×r /( v− 1)  [Equation 1] RS 1< RS 2  [Equation 2] wherein, RS1 is the first rubbing strength when rubbing the first substrate alignment film, RS2 is the second rubbing strength when rubbing the second substrate alignment film, N is a number of rubbing times, M is a rubbing depth (unit: mm), r is a radius (unit: mm) of a rubbing drum, n is a rotation speed (unit: rpm) of the rubbing drum, and v is a relative moving speed (unit: mm/sec) of the substrate to the rubbing drum. 2. The manufacturing method according to claim 1 , wherein the base layers of the first and second substrates are plastic films. 3. The manufacturing method according to claim 1 , wherein an electrode layer is present on the first or the second base layer and the first or the second alignment film is formed on the electrode layer. 4. The manufacturing method according to claim 1 , wherein the first or second alignment film comprises one or more selected from the group consisting of a polyimide compound, a polyvinyl alcohol compound, a polyamic acid compound, a polystylene compound, a polyamide compound and a polyoxyethylene compound. 5. The manufacturing method according to claim 1 , further comprising: forming a light modulating layer between the first and second alignment films in a state where the first and second substrates are oppositely disposed so that the respective alignment films face each other. 6. The manufacturing method according to claim 1 , further comprising: dotting a light modulating material containing a liquid crystal compound on any one alignment film of the first and second substrates; and pressing the other substrate of the first and second substrates in a state of being disposed opposite to the alignment film on which the light modulating material is dotted so that the dotted light modulating material fills a gap between the alignment films. 7. The manufacturing method according to claim 5 , wherein the light modulating layer comprising a liquid crystal compound and a dichroic dye. 8. The manufacturing method according to claim 6 , wherein the gap between the first and second substrates disposed opposite to each other is 4 μm or more. 9. The manufacturing method according to claim 6 , wherein the light modulating material further comprises a dichroic dye. 10. The manufacturing method according to claim 6 , wherein the gap between the first and second substrates disposed opposite to each other is less than 20 μm. 11. A method for manufacturing an optical device, comprising: rubbing a first rubbing alignment film of a first substrate including a first base layer, a spacer, the first rubbing alignment film formed on the first base layer; rubbing a second rubbing alignment film of a second substrate including a second base layer, the second rubbing alignment film formed on the second base layer, wherein no spacer is present in the second substrate, dotting a light modulating material containing a liquid crystal compound on any one alignment film of the first and second substrates; and pressing the other substrate of the first and second substrates in a state of being disposed opposite to the alignment film on which the light modulating material is dotted so that the dotted light modulating material fills a gap between the alignment films; wherein a first rubbing strength (RS1) determined by Equation 1 below when rubbing the first rubbing alignment film and a second rubbing strength (RS2) determined by Equation 1 below when rubbing the second rubbing alignment film satisfy Equation 2 below, and wherein the first rubbing strength (RS1) is in a range of 2.5 to 100 and an average of the first and the second rubbing strengths (RS1 and RS2) is in a range of 12 to 250: RS 1 or RS 2=2× N×M×n×n×r /( v− 1)  [Equation 1] RS 1< RS 2  [Equation 2] wherein, RS1 is the first rubbing strength when rubbing the first substrate alignment film, RS2 is the second rubbing strength when rubbing the second substrate alignment film, N is a number of rubbing times, M is a rubbing depth (unit: mm), r is a radius (unit: mm) of a rubbing drum, n is a rotation speed (unit: rpm) of the rubbing drum, and v is a relative moving speed (unit: mm/sec) of the substrate to the rubbing drum.