Ink, ink set and printer

The invention claimed is: 1 . A printing apparatus comprising: an ink ejector configured to eject an ink to an object on which a printed record is to be produced; a dryer; and a melting device, wherein the ink comprises: a medium; a coloring agent dissolved or dispersed in the medium; a fixing polymer having a glass-transition temperature higher than room temperature and being dispersed in the medium; and one or more kinds of polymers other than the fixing polymer, the one or more kinds of polymers each having a glass-transition temperature higher than the room temperature and being dissolved or dispersed in the medium, a glass-transition temperature of the fixing polymer is higher than the glass-transition temperature of 80 mass % or more of the one or more kinds of polymers contained in the ink, the dryer is configured to heat the object to expedite evaporation of the medium, the melting device is configured to subject the ink on the object to heat that causes the fixing polymer to melt and to fix the ink to the object accordingly, and the melting device irradiates the ink on the object with ultraviolet rays to heat the ink and melt the fixing polymer while the ink is exposed to a surrounding atmosphere. 2 . The printing apparatus according to claim 1 , wherein the a glass-transition temperature of fixing polymer is higher than the glass-transition temperature of the entirety of the one or more polymers contained in the ink. 3 . The printing apparatus according to claim 1 , wherein the medium comprises water and an organic solvent. 4 . The printing apparatus according to claim 1 , a difference between the glass-transition temperature of the fixing polymer and the glass-transition temperature of the 80 mass % or more of the one or more kinds of polymers is equal to or more than 40° C. and equal to or less than 60° C. 5 . The printing apparatus according to claim 1 , wherein the 80 mass % or more of the one or more kinds of polymers comprises a dispersant polymer. 6 . The printing apparatus according to claim 1 , further comprising an ink set comprising two kinds of inks comprising different coloring agents, wherein at least one of the inks comprises an ultraviolet-absorbing agent different from the coloring agents, and a percentage content of the ultraviolet-absorbing agent in one of the inks is not equal to a percentage content of the ultraviolet-absorbing agent in the other ink. 7 . The ink-set printing apparatus according to claim 6 , wherein when the inks are irradiated with ultraviolet rays at a specific wavelength, the coloring agent contained in one of the inks has a lower ultraviolet absorptance than the coloring agent contained in the other ink, and the percentage content of the ultraviolet-absorbing agent in the one of the inks is higher than the percentage content of the ultraviolet-absorbing agent in the other ink. 8 . The printing apparatus according to claim 6 , wherein when the inks are irradiated with ultraviolet rays at a specific wavelength, one of the inks has a lower ultraviolet absorptance of the coloring agent than the other ink, and the percentage content of the ultraviolet-absorbing agent in the one of the inks is higher than the percentage content of the ultraviolet-absorbing agent in the other ink. 9 . The printing apparatus according to claim 6 , wherein the one of the inks and an ink with same constituents in same relative proportions except for the ultraviolet-absorbing agent have a color difference of not more than 10 after being ejected to an object subjected to printing. 10 . The printing apparatus according to claim 1 , wherein the melting device is disposed downstream of the dryer in a direction of conveyance of the object. 11 . The printing apparatus according to claim 1 , wherein the melting device causes the fixing polymer to melt after the dryer causes the medium to evaporate. 12 . The printing apparatus according to claim 1 , wherein an amount of heat to be applied to the object by the dryer, relative positions of the dryer and the melting device, and a speed of conveyance of the object are set to values at which the medium fully evaporates through application of heat by the dryer before the melting device causes the fixing polymer to melt. 13 . The printing apparatus according to claim 1 , wherein the dryer heats the object to a temperature below a glass-transition temperature of the fixing polymer, and the melting device heats the ink on the object to a temperature equal to or higher than the glass-transition temperature of the fixing polymer. 14 . The printing apparatus according to claim 13 , wherein the dryer heats the object to a temperature equal to or higher than the glass-transition temperature of the 80 mass % or more of the one or more kinds of polymers and lower than the glass-transition temperature of the fixing polymer. 15 . The printing apparatus according to claim 14 , wherein the dryer comprises a first dryer disposed upstream of the ink ejector in a direction of conveyance of the object, and an amount of heat to be applied by the first dryer, relative positions of the first dryer and the ink ejector, and a speed of conveyance of the object are set to values at which a temperature in a region being part of the object and being immediately anterior to a region facing the ink ejector is equal to or higher than the glass-transition temperature of the 80 mass % or more of the one or more kinds of polymers and lower than the glass-transition temperature of the fixing polymer. 16 . The printing apparatus according to claim 14 , wherein the dryer is disposed upstream of the melting device in a direction of conveyance of the object, and an amount of heat to be applied by the dryer, relative positions of the dryer and the melting device, and a speed of conveyance of the object are set to values at which a temperature in a region being part of the object and extending from immediately posterior to the dryer to immediately anterior to a region facing the melting device is equal to or higher than the glass-transition temperature of the 80 mass % or more of the one or more kinds of polymers and lower than the glass-transition temperature of the fixing polymer. 17 . The printing apparatus according to claim 1 , wherein the dryer heats the ink to a temperature equal to or higher than 50° C. and lower than 120° C., the temperature being lower than the glass-transition temperature of the fixing polymer. 18 . The printing apparatus according to claim 1 , wherein the ink comprises an UV-absorbing agent different from the coloring agent, a wavelength of the ultraviolet rays are not less than 10 nm and not more than 400 nm, and an intensity of the ultraviolet rays are not less than 10 W/cm2. 19 . A printing method comprising: ejecting an ink to an object on which a printed record is to be produced; drying; and melting, wherein the ink comprises: a medium; a coloring agent dissolved or dispersed in the medium; a fixing polymer having a glass-transition temperature higher than room temperature and being dispersed in the medium; and one or more kinds of polymers other than the fixing polymer, the one or more kinds of polymers each having a glass-transition temperature higher than the room temperature and being dissolved or dispersed in the medium, a glass-transition temperature of the fixing polymer is higher than the glass-transition temperature of 80 mass % or more of the one or more kinds of polymers contained in