JP6002351B2 - Ink composition for hydrous contact lenses - Google Patents

Description

  The present invention relates to an ink composition for a hydrous contact lens, and more particularly to an ink composition that can be suitably used for coloring a hydrous contact lens by ink jet printing.

  Conventionally, in various types of ophthalmic lenses including a hydrous contact lens, a desired character is written or a pattern is drawn by coloring a part thereof. Such coloring of the ophthalmic lens is often performed by ink jet printing, and various studies have been made on the coloring method of the ophthalmic lens by the ink jet printing and the manufacturing method of the ophthalmic lens. Yes.

  Here, as a method of coloring an ophthalmic lens by ink jet printing, 1) an ink composition containing a polymerizable component such as a polymerizable colorant (pigment) is used, and the ink composition is discharged onto the lens surface; Then, a method of fixing a colorant (pigment) on the lens surface by performing heat treatment or irradiating ultraviolet rays to polymerize the ink composition (see Patent Document 1 and Patent Document 2), 2) The ink composition is discharged onto the lens surface, and then heat-treated as necessary to infiltrate the ink composition containing the colorant (pigment) into the lens and fix the colorant (pigment) in the lens. Such a method (see Patent Document 3) is widely known.

Special table 2005-508432 gazette JP 2011-76105 A JP 2011-164431 A

  When coloring an ophthalmic lens by ink jet printing, if the ink composition used therein is easy to dry, the ink composition dries in the nozzle of the ink jet printing apparatus, resulting in nozzle clogging. The ink composition may not be effectively discharged from the nozzle.

  In the case where the object to be colored is a hydrous contact lens, and the ink composition is adhered to the surface of the hydrous contact lens by ink jet printing and colored by allowing the ink composition to penetrate into the lens, the hydrous contact lens The present inventors who have been engaged in technical development relating to coloring of various ophthalmic lenses such as the above recognize that the following matters should be noted regarding the ink composition. Specifically, in order to effectively infiltrate the ink composition discharged (attached) onto the surface of the water-containing contact lens into the lens, the water-containing contact lens to which the ink composition is attached is heated. Preferably, when the ink composition is easy to dry, the solvent component in the ink composition evaporates particularly during the heating described above, and the penetration of the ink composition into the lens effectively proceeds. There is a fear of not. In general, an auxiliary agent made of a polymer compound is often added to an ink composition to be used for inkjet printing so that it can be stably ejected from the head of an inkjet printing apparatus. Since the auxiliary agent is a polymer, the auxiliary agent is bulky, and the auxiliary agent inhibits the penetration of the ink composition into the lens, and as a result, the water-containing contact lens may not be effectively colored. Furthermore, when a water-containing contact lens with the ink composition remaining on the surface is attached to the eye, the ink composition may come into contact with the cornea, thereby causing eye damage.

  On the other hand, in an ink composition containing a polymerizable component or composed of a polymerizable component, its physical properties are likely to change due to a change with time or a change in the surrounding environment. For example, polymerization is performed in the head of an inkjet printing apparatus. As a result, the nozzle is clogged, and the ink composition may not be effectively discharged from the nozzle.

  Here, the present invention has been made in the background of such circumstances, and the problem to be solved is that the ink is stably discharged from the head of the ink jet printing apparatus when subjected to ink jet printing. In addition, the occurrence of clogging of the head due to drying of the ink composition is effectively suppressed, and the target portion of the lens can be effectively colored. It is an object of the present invention to provide an ink composition for a hydrous contact lens that can effectively penetrate into a conductive contact lens.

In order to solve this problem, the present invention provides: a) a water-soluble organic solvent having a viscosity at 25 ° C. of 10 cp or less and a boiling point of 100 ° C. or more; b) a molecular weight of 1000 or less; , and a water-soluble organic thickener is a boiling point of 100 ° C. or higher, 85 hours a weight loss rate when carrying out the heat treatment at 60 ° C.: LOD ink composition for containing an aqueous contact lens Ru der 30% I) the water-soluble organic solvent is N-methyl-2-pyrrolidone and the water-soluble organic thickener is 2-pyrrolidone, or ii) the water-soluble organic solvent is carbonic acid propylene, and a the water-soluble organic thickener diethylene or propylene glycol, a water-absorptive contact lenses ink composition characterized by, in which as its gist

  Here, in a preferable first embodiment of the ink composition for a hydrous contact lens according to the present invention, the water content is 0 to 10% by weight.

  Moreover, in the preferable 2nd aspect in the ink composition for water-containing contact lenses of this invention, it is comprised from the compound which does not have a radically polymerizable group which has a carbon-carbon double bond.

Moreover, definitive in water containing contact lenses for the ink composition of the present invention, in a third preferred embodiment, the contact angle to water-absorptive contact lens which is a colored target is 70 to 90 °.

  As described above, the ink composition for a hydrous contact lens according to the present invention includes a predetermined water-soluble organic solvent and a predetermined water-soluble organic thickener, and is further subjected to a heat treatment at 60 ° C. for 85 hours. Weight reduction ratio at the time: It is prepared so that LOD is 30% or less. By adopting such a configuration, in the water-containing contact lens ink composition of the present invention, when the water-containing contact lens is colored by ink jet printing, it is stably ejected from the head of the ink jet printing apparatus during printing. In addition, the occurrence of clogging of the head due to drying of the ink composition is effectively suppressed. In addition, since the ink composition of the present invention is capable of effectively penetrating into the water-containing contact lens to be colored, the target portion of the lens can be advantageously colored. There is also little risk of the ink composition remaining on the lens surface after processing. Therefore, in the hydrous contact lens colored using the ink composition of the present invention, the occurrence of eye damage caused by the ink composition can be effectively suppressed.

  By the way, the ink composition for a hydrous contact lens according to the present invention (hereinafter also simply referred to as an ink composition) is a) a water-soluble organic solvent having a viscosity at 25 ° C. of 10 cp or less and a boiling point of 100 ° C. or more. And b) a water-soluble organic thickener having a molecular weight of 1000 or less and a boiling point of 100 ° C. or more as an essential component.

  First, the solvent constituting the ink composition of the present invention is a water-soluble organic solvent having a viscosity at 25 ° C. of 10 cp or less and a boiling point of 100 ° C. or more, preferably 150 ° C. or more. Such a water-soluble organic solvent is used to dissolve or disperse the colorant in the same manner as various solvents used in conventional ink compositions.

  The coloring treatment for the water-containing contact lens is usually performed on the water-containing contact lens (hereinafter also referred to as a lens precursor) in a dry state (non-swelled state). An ink composition is attached to the surface of a hydrous contact lens (lens precursor) in a dry state (non-swelled state), the ink composition is allowed to penetrate into the lens precursor, and the colorant in the composition is used as the lens precursor. When coloring by encapsulating, the organic solvent also penetrates into the lens precursor together with the colorant. Due to the nature of contact lenses that are mounted on the cornea, if an organic solvent remains in the lens, it may cause various eye damages. It is necessary to remove the organic solvent remaining inside. On the other hand, the lens precursor that has been subjected to the coloring treatment is subjected to a hydration treatment and swollen to obtain the intended hydrous contact lens. Therefore, when a water-soluble organic solvent is used as a solvent constituting the ink composition, the organic solvent in the lens precursor is effectively eluted during the hydration treatment, and is effectively removed outside the lens. Thus, there is an advantage that a separate organic solvent removal process is not required.

  In addition, among water-soluble organic solvents, particularly those having a viscosity at 25 ° C. of 10 cp or less and a boiling point of 100 ° C. or more can be used for the head by drying the ink composition during ink jet printing. Occurrence of clogging is effectively suppressed, and furthermore, drying of the ink composition (evaporation of the solvent) is advantageously suppressed during heating in the coloring process described later, and the colorant contained in the ink composition is reduced. It is possible to stably penetrate the lens precursor. In addition, by using such a specific water-soluble organic solvent, the weight reduction rate (LOD: loss on drying) of the ink composition described later can be reduced to 30% or less.

  In the ink composition of the present invention, any water-soluble organic solvent may be used as long as it has a viscosity of 10 cp or less at 25 ° C. and a boiling point of 100 ° C. or more as described above. Is possible. In the present invention, as the water-soluble organic solvent, one or two or more kinds selected from N-methyl-2-pyrrolidone, propylene carbonate, dimethyl sulfoxide, 1,3-dimethyl-imidazolidinone, and triethyl phosphate are used. N-methyl-2-pyrrolidone and / or propylene carbonate are preferably used.

  On the other hand, the water-soluble organic thickener used in the ink composition of the present invention has a molecular weight of 1000 or less and a boiling point of 100 ° C. or more. More specifically, the molecular weight is 1000 or less, and the boiling point is 100 ° C. or higher. 1) The liquid at 25 ° C. has a viscosity of 10 to 1000 cp, or 2) The solid at 25 ° C. An organic thickener that is soluble in water and has a function of increasing the viscosity of the ink composition when mixed with the above-described water-soluble organic solvent.

  Conventionally, a thickener has been added to the ink composition used for inkjet printing so that the ink composition can be stably ejected from the inkjet head. High molecular weights such as (PEG), polyvinylpyrrolidone (PVP), and copolymers of acrylic monomers are common. However, such a high-molecular-weight thickener is blended in the ink composition, and the water-containing contact lens (lens precursor) in a dry state (non-swelled state) is colored using the ink composition. The high molecular weight thickener does not effectively penetrate into the lens precursor, and the ink composition remains on the surface of the lens precursor, and the desired portion of the lens precursor is not colored. As a result, there is a risk that characters or patterns obtained by coloring may be disturbed. In addition, the ink composition remaining on the surface of the lens precursor may come into contact with the cornea to cause eye damage. On the other hand, when the ink composition is adhered to the surface of a contact lens having a curvature by ink jet printing, the viscosity of the ink composition is required even after the ink composition droplets land on the lens surface. . That is, if the viscosity of the ink composition is too low, the droplet of the ink composition lands on the lens surface and then sags with time. As a result, the ink composition is formed at the target portion of the lens. In spite of the landing of the liquid droplets, there is a possibility that characters, patterns and the like obtained by coloring become undesired and disturbed. Furthermore, by using a water-soluble organic thickener, it can be effectively eluted from the lens precursor during the hydration treatment, and in particular, a water-soluble organic thickener having a boiling point of 100 ° C. or higher is used. By doing so, drying of the ink composition can be advantageously suppressed. Considering the above points comprehensively, in the present invention, a water-soluble organic thickener having a molecular weight of 1000 or less and a boiling point of 100 ° C. or more is used.

  In the ink composition of the present invention, any water-soluble organic thickener may be used as long as it has a molecular weight of 1000 or less and a boiling point of 100 ° C. or more as described above. It is possible. In the present invention, as the water-soluble organic thickener, 2-pyrrolidone, ε-caprolactam, propylene glycol, glycerol, ethylene glycol, diethylene glycol, triethylene glycol, tetraethylene glycol, 1,4-butanediol, 1,5- It is preferable to use one or more selected from pentanediol and 2-methyl-2,4-pentanediol, particularly preferably 2-pyrrolidone, ε-caprolactam, propylene glycol, glycerol, One or two or more selected from ethylene glycol and diethylene glycol are used.

  In the ink composition according to the present invention, the blending ratio (use ratio) of the water-soluble organic solvent and the water-soluble organic thickener described above depends on the type of the water-soluble organic solvent and the water-soluble organic thickener used. Usually, the water-soluble organic solvent: the water-soluble organic thickener = 1: 9 to 9: 1 (weight ratio) is usually used, respectively. As preferable ranges, the following combinations can be exemplified. When N-methyl-2-pyrrolidone is used as the water-soluble organic solvent and 2-pyrrolidone is used as the water-soluble organic thickener, the water-soluble organic solvent (N-methyl-2-pyrrolidone) and the water-soluble organic thickener are used. N-methyl-2-pyrrolidone in a proportion of 10 to 30 parts by weight and 2-pyrrolidone in a proportion of 70 to 90 parts by weight with respect to 100 parts by weight of the total amount of the agent (2-pyrrolidone) It is preferable to do. When propylene carbonate is used as the water-soluble organic solvent and diethylene glycol is used as the water-soluble organic thickener, 100 weight of the total amount of the water-soluble organic solvent (propylene carbonate) and the water-soluble organic thickener (diethylene glycol) It is preferable to use propylene carbonate in a proportion of 20 to 90 parts by weight and diethylene glycol in a proportion of 10 to 80 parts by weight, respectively. Further, when propylene carbonate is used as the water-soluble organic solvent and propylene glycol is used as the water-soluble organic thickener, the total amount of the water-soluble organic solvent (propylene carbonate) and the water-soluble organic thickener (propylene glycol) It is preferable to use propylene carbonate in a proportion of 60 to 90 parts by weight and propylene glycol in a proportion of 10 to 40 parts by weight with respect to 100 parts by weight, respectively.

  In the ink composition of the present invention, a colorant is used together with the above-described water-soluble organic solvent and water-soluble organic thickener as in the case of the conventional ink composition. In the present invention, various colorants conventionally used in ink compositions can be used as long as they do not impair the object of the present invention, but are not particularly pigments insoluble in organic solvents, What are referred to as dyes are advantageously used. Among the dyes, so-called non-polymerizable dyes (non-polymerizable dyes) that do not have a radical polymerizable group having a carbon-carbon double bond in the molecule are particularly preferably used. Non-polymerizable dyes include the following compounds represented by the color index (C.I.), specifically, C.I. I. 26100, C.I. I. 47005, C.I. I. 61520, C.I. I. 61565, C.I. I. 47020, C.I. I. 60505, C.I. I. 12740, C.I. I. 18950, C.I. I. 60725, C.I. I. 47000, C.I. I. 12770 etc. can be illustrated.

  The blending ratio of the above-described colorant in the ink composition of the present invention is appropriately determined according to the printing method, the type of the hydrous contact lens that is the printing object, etc. Total amount of the above-mentioned water-soluble organic solvent and water-soluble organic thickener: 0.02 to 10 parts by weight, preferably 0.02 to 5 parts by weight, more preferably 0.02 to 2 parts per 100 parts by weight It will mix | blend in the quantitative ratio of a weight part.

  In the water-containing contact lens ink composition according to the present invention, other components used in preparing the conventional contact lens ink composition are used as long as the effects of the present invention are not impaired. Although it is possible, such other component is preferably a compound having no radically polymerizable group having a carbon-carbon double bond. Moreover, it is preferable that the water-soluble organic solvent, the water-soluble organic thickener, and the colorant described above are compounds having no radically polymerizable group having a carbon-carbon double bond. However, an ink composition containing a compound having a radically polymerizable group having a carbon-carbon double bond is easily changed in physical properties due to a change with time or a change in the surrounding environment. For example, polymerization can be performed in the head of an inkjet printing apparatus. As a result, nozzle clogging occurs, and the ink composition may not be effectively discharged from the nozzle.

  The water-containing contact lens ink composition according to the present invention is prepared in the same manner as in the conventional contact lens ink composition. The water-soluble organic solvent, the water-soluble organic thickener and the colorant described above are used as necessary. The other components are mixed by a conventionally known method.

  And, in the ink composition of the present invention, the blending ratio of each component is determined so that the weight reduction ratio: LOD when the heat treatment is performed at 60 ° C. for 85 hours: LOD is 30% or less. There is a great technical feature. Since the aforementioned LOD is 30% or less, the ink composition of the present invention can effectively prevent clogging of the head due to drying of the ink composition when used in ink jet printing, and will be described later. During heating in the coloring process, drying of the ink composition (evaporation of the solvent) is advantageously suppressed, and the ink composition effectively penetrates into the lens precursor.

Here, the weight reduction rate of the ink composition: LOD (loss on drying) [%] is calculated by the following equation after heat treatment at 60 ° C. for 85 hours.

  The ink composition of the present invention is preferably prepared so that the water content is 0 to 10% by weight. However, if the water content exceeds 10% by weight, it is difficult to make the above-mentioned weight reduction rate: LOD (loss on drying) 30% or less, and an ink composition that has landed on the lens precursor in ink jet printing. This is because there is a risk that the liquid droplets formed from the liquid will sag with time, and as a result, the resulting colored portion (characters, patterns, etc.) may be blurred.

  Further, the ink composition of the present invention is preferably prepared so that the contact angle with respect to the coloring target water-containing contact lens (lens precursor) is 70 to 90 °. When a printing process (coloring process) is performed on a water-containing contact lens by ink jet printing, when an ink composition having a contact angle with respect to the water-containing contact lens that is a coloring target is less than 70 ° is used as a lens precursor. There is a possibility that the liquid droplets made of the landed ink composition cause liquid dripping, and as a result, a printed portion (colored portion) having high resolution cannot be obtained. On the other hand, when an ink composition having a contact angle of more than 90 ° with respect to the hydrous contact lens is used, the ink composition constituting the droplet is contained in the lens precursor due to the shape of the droplet landed on the lens precursor. Since the movement distance until complete penetration becomes longer, a longer heat treatment time and a higher heat treatment temperature are required to promote the penetration of the ink composition, and as a result, the lens may be deformed or deteriorated. . In the present specification and claims, the contact angle with respect to the water-containing contact lens means the ink composition at the apex of the lens surface of the dry (non-swelled) water-containing contact lens (lens precursor) to be colored. It means what forms a droplet of an object and is measured on such a droplet, i.e. measured according to the droplet method.

  Further, the water-containing contact lens ink composition of the present invention can be used for various conventionally known lenses as long as it is a water-containing contact lens, and particularly preferably used for silicone hydrogel lenses. Is possible.

  By the way, the printing process (coloring process) with respect to the water-containing contact lens using the ink composition for water-containing contact lenses according to the present invention is advantageously performed according to the following procedure.

  First, the ink composition for a hydrous contact lens according to the present invention is attached to the surface of a precursor (lens precursor) of a hydrous contact lens in a dry state (non-swelled state). As a method of attaching the ink composition to the surface of the lens precursor, a conventionally known method such as a method of applying a liquid ink composition to the surface of the lens precursor can be used. In particular, examples of the method for applying the ink composition to the surface of the lens precursor include a pad printing method, a screen printing method, and a method using an ink jet printing apparatus. Among these, it is particularly preferable to use an ink jet printing apparatus from the viewpoint of easily printing a desired pattern of characters, numbers, iris patterns and the like (hereinafter collectively referred to as characters in this paragraph). The ink jet printing apparatus sprays a liquid ink composition on the lens surface as very fine droplets, and the droplets that have landed on the surface form one dot, and a desired collection of dots is formed. Are formed. In general, characters or the like in which small dots are gathered at high density give a sharp contrast and exhibit excellent visibility. When printing and drawing with an ink jet printer, the size of droplets, the point where droplets land, etc. can be accurately controlled by a computer, etc., and characters can be changed by changing the computer program. It is possible to easily change the shape and size of the like. As described above, the coating method using the ink jet printing apparatus has an excellent advantage that the productivity is very high and a constant high quality printing can be performed. Furthermore, according to the ink jet printing apparatus, the applied droplets are fine, and the amount of droplets is small compared to the interface area when landed on the lens, so that it can easily penetrate into the lens precursor more quickly. Become. Therefore, in addition to the above-described advantages, the ink jet printing apparatus can further reduce the deposition of colorant on the lens surface and the generation of residues, and allow the colorant to penetrate into the lens. Is also a very advantageous method.

  In the present invention, any of various conventionally known ink jet printing apparatuses can be used. A typical ink jet printing apparatus is composed of an ink composition supply system and an ejection device composed of a nozzle equipped with a piezoelectric element such as a piezoelectric element. The ink composition is generated by vibration generated by applying a voltage to the piezoelectric element. It has a mechanism for discharging an object as fine droplets from a nozzle. Any ink jet printing apparatus can be suitably used as long as it can eject desired droplets. The nozzles may be single or plural.

  The time required for adhering the ink composition of the present invention to the surface of the lens precursor will vary depending on the method of contacting the ink composition, the printing area, its shape, etc., for example, an ink jet printing apparatus In general, it is about several seconds to 10 minutes.

  Next, the lens precursor to which the ink composition of the present invention is adhered is subjected to a heat treatment. By this heat treatment, the water-soluble organic solvent, the water-soluble organic thickener and the colorant constituting the ink composition effectively penetrate into the lens precursor.

  Here, the heat treatment is preferably performed at a heating temperature of 90 to 130 ° C., generally for a few seconds to 1 minute, and preferably for a heating time of about 5 to 30 seconds. If the heating temperature is too low or the heating time is too short, the effect of the heat treatment may not be enjoyed, while if the heating temperature is too high or the heating time is too long, the lens precursor will be deformed, This is because there is a risk of deterioration. Note that the heat treatment in the present invention can be performed according to any conventionally known method for heating a contact lens.

  Then, when the lens precursor subjected to the above treatment is subjected to a hydration treatment according to a conventional method, the lens precursor absorbs water (swells), while the water-soluble organic solvent in the lens precursor and The water-soluble organic thickener is effectively eluted to the outside of the lens precursor, so that a water-containing contact lens in which a desired portion is colored is obtained.

  Some examples of the present invention will be shown below to clarify the present invention more specifically. However, the present invention is not limited by the description of such examples. Needless to say. In addition to the following examples, the present invention includes various changes and modifications based on the knowledge of those skilled in the art without departing from the spirit of the present invention, in addition to the specific description described above. It should be understood that improvements and the like can be added.

  In the following Tables 1 to 3, the compounds to which “(*)” is attached are “water-soluble organic solvents having a viscosity at 25 ° C. of 10 cp or less and a boiling point of 100 ° C. or more in the present invention. The compound to which “(**)” is attached is a “water-soluble organic thickener having a molecular weight of 1000 or less and a boiling point of 100 ° C. or more” in the present invention.

-Example 1-Example 19-
According to the composition shown in Table 1 and Table 2 below, 19 types of ink compositions for hydrous contact lenses were prepared (Example 1 to Example 19). For each ink composition, the weight loss rate (LOD) and the contact angle were measured or calculated according to the following method. The obtained weight loss rate (LOD) and contact angle are shown in Table 1 and Table 2 below.

-Weight loss rate (LOD)-
0.5 g of the ink composition was put into a 5 mL vial (φ18 mm × 40 mm), and the weight of the whole vial was measured. The vial was then placed in a dryer maintained at 60 ° C. with its lid not closed (in an open state). After placing in the dryer for 85 hours, the weight of the vial was measured again, and the weight reduction rate (LOD) of the ink composition was calculated from the above formula.

−Contact angle−
A droplet made of about 2 μL of the ink composition was brought into contact with the apex of a silicone hydrogel lens (Asmofilcon A) in a dry state (non-swelled state), and the contact angle of the droplet was measured according to a liquid suitable method.

  Each ink composition according to Examples 1 to 19 was attached to a predetermined portion of the surface of a dry (non-swelled) silicone hydrogel lens (Asmofilcon A) using a piezo ink jet printing apparatus. Then, the far-infrared ray was irradiated to the lens for 20 seconds with a far-infrared heater (manufactured by Noritake Co., Ltd., trade name: SCH-110, input voltage: 100 V, power capacity: 400 W). It was about 100 degreeC when the temperature of the lens surface immediately after completion | finish of irradiation was measured with the non-contact-type thermometer (Anritsu Keiki Co., Ltd. make, brand name: Dual thermo AR-1500). When the lens temperature is allowed to reach room temperature and then the lens surface is visually observed, in all of the ink compositions according to Examples 1 to 19, the colorant penetrates into the lens and causes bleeding. It was confirmed that the lens was colored.

-Comparative Example 1-Comparative Example 7-
Seven types of ink compositions were prepared according to the composition shown in Table 3 below (Comparative Examples 1 to 7). In addition, the compounding composition shown in following Table 3 makes a unit a weight part. The “monomer mixture A” used for the preparation of the ink composition according to Comparative Example 3 is a mixture having the following composition.
-HEMA [hydroxyethyl methacrylate]: 55 parts by weight-2-MTA [2-methoxyethyl acrylate]: 0.5 parts by weight-2- (dimethylamino) ethyl methacrylate: 1.2 parts by weight-Methacrylic acid: 1.0 Part by weight ・ 2-propanol: 42 parts by weight ・ 2,2′-azobis- (2,4-dimethylvaleronitrile): 0.3 part by weight

  About each obtained ink composition, according to the method similar to Example 1- Example 19 mentioned above, the weight reduction rate (LOD) and the contact angle were measured thru | or calculated. However, in the ink composition according to Comparative Example 5, the weight loss rate (LOD) could not be calculated because the ink composition was cured during drying. The weight reduction rate (LOD) and contact angle of each ink composition according to Comparative Example 1, Comparative Example 2, and Comparative Examples 4 to 7 are shown in Table 3 below.

Silicone hydrogel lenses in a dry state (non-swelled state) using the ink compositions according to Comparative Example 1, Comparative Example 2, and Comparative Examples 4 to 7 according to the same method as in Examples 1 to 19 The coloring process was implemented with respect to (Asmofilcon A). When the surface of the lens after such treatment was visually observed, in all of the ink compositions according to Comparative Example 1, Comparative Example 2, and Comparative Examples 4 to 7, it was recognized that bleeding occurred in the colored portion. It was.

Claims (4)

a) a water-soluble organic solvent having a viscosity at 25 ° C. of 10 cp or less and a boiling point of 100 ° C. or more; b) a water-soluble organic thickening having a molecular weight of 1000 or less and a boiling point of 100 ° C. or more. and a material, 85 hours a weight loss rate when carrying out the heat treatment at 60 ° C.: a LOD ink composition for containing an aqueous contact lens Ru der than 30%,
i) the water-soluble organic solvent is N-methyl-2-pyrrolidone and the water-soluble organic thickener is 2-pyrrolidone, or ii) the water-soluble organic solvent is propylene carbonate, and A water-containing contact lens ink composition, wherein the water-soluble organic thickener is diethylene glycol or propylene glycol.   The water-containing contact lens ink composition according to claim 1, wherein the water content is 0 to 10% by weight.   The ink composition for a hydrous contact lens according to claim 1 or 2, comprising a compound having no radically polymerizable group having a carbon-carbon double bond. The ink composition for a hydrous contact lens according to any one of claims 1 to 3 , wherein a contact angle with respect to the hydrous contact lens to be colored is 70 to 90 °.