CN109735163A - A kind of new infrared cut-off ink and preparation method thereof and its application method - Google Patents

Abstract

The present invention relates to the technical fields of ink, and in particular to a kind of new infrared cut-off ink and preparation method thereof and its application method.It includes the semi-transparent black ink successively coated and gloss oil that the new infrared, which ends ink, semi-transparent black ink is made of the following components: the first ink host agent 80%~90%, curing agent 7%~12% and diluent 3%~8%, gloss oil is made of the following components: the second ink host agent 80%~90%, curing agent 7%~12% and diluent 3%~8%, the new infrared ends ink in the case where 550nm light, transmitance < 1%, have the advantages that light transmittance is low, so that the functional experience of infrared cutoff is very good.In addition, gloss oil can make the hiding effect of new infrared cut-off ink more preferable, so that the appearance overall effect of smart phone is more preferable.The characteristics of new infrared ends the preparation method of ink, has simple process, and can be suitable for industrialization large-scale production.

Description

A kind of new infrared cut-off ink and preparation method thereof and its application method

Technical field

The present invention relates to the technical fields of ink, and in particular to a kind of new infrared cut-off ink and preparation method thereof and its Application method.

Background technique

Currently, one of function of smart phone be can automatic sensing close light source and display, this automatic sensing The function of closing light source and display depends on infrared cutoff ink.In the prior art, the infrared cutoff oil used on smart phone Ink is IR ink.It is this to use IR ink as infrared cutoff ink, in the case where 550nm light, transmitance be 5%~ 15%, i.e. its transmitance is relatively high, so that the functional experience of infrared cutoff is not good enough.Therefore, it needs to seek new infrared End the IR ink of the ink substitution prior art.

Summary of the invention

It is an object of the present invention in view of the deficiencies of the prior art, providing a kind of new infrared cut-off ink, this is new Type infrared cutoff ink has the advantages that light transmittance is low, so that the functional experience of infrared cutoff is very good.

The second object of the present invention is to provide a kind of preparation of new infrared cut-off ink in view of the deficiencies of the prior art Method.

The third object of the present invention is to provide a kind of application of new infrared cut-off ink in view of the deficiencies of the prior art Method.

One of to achieve the goals above, the present invention adopts the following technical scheme:

A kind of new infrared cut-off ink is provided, it includes the semi-transparent black ink successively coated and gloss oil, described semi-transparent black Ink consists of the following components in percentage by weight:

First ink host agent 80%~90%

Curing agent 7%~12%

Diluent 3%~8%；

The gloss oil consists of the following components in percentage by weight:

Second ink host agent 80%~90%

Curing agent 7%~12%

Diluent 3%~8%；

Wherein, the first ink host agent is that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is The first ink host agent of 1400N-1809-1063C；

Wherein, the second ink host agent is that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is The second ink host agent of 1400N-1807-3004C；

Wherein, it is CARE-73's that the curing agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, Curing agent；

Wherein, it is the dilute of T-980 that the diluent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, Release agent.

Preferably, a kind of new infrared ends ink, the semi-transparent black ink by following weight percent group Part composition:

First ink host agent 85%

Curing agent 10%

Diluent 5%.

Preferably, a kind of new infrared ends ink, and the gloss oil consists of the following components in percentage by weight:

Second ink host agent 85%

Curing agent 10%

Diluent 5%.

To achieve the goals above two, the present invention adopts the following technical scheme:

A kind of preparation method of new infrared cut-off ink is provided, it the following steps are included:

The first step prepares semi-transparent black ink:

Dilution: the diluent of formula ratio is added to the first ink host agent, stirs evenly, obtain the first dilution by step 1 Ink；

Step 2 prepares semi-transparent black ink: the curing agent of formula ratio is added to the first dilution ink that step 1 obtains, It stirs evenly, obtains the semi-transparent black ink；

Second step prepares gloss oil:

Dilution: the diluent of formula ratio is added to the second ink host agent, stirs evenly, obtain the second flux oil by step A Ink；

Step B, prepares gloss oil: the curing agent of formula ratio being added to the second dilution ink that step 1 obtains, stirring is equal It is even, obtain the gloss oil.

In above-mentioned technical proposal, in the step 1 and the step A, the mixing time is 1min~3min.

In above-mentioned technical proposal, in the step 2 and the step B, the mixing time is 3min~5min.

To achieve the goals above three, the present invention adopts the following technical scheme:

A kind of application method of new infrared cut-off ink is provided, it the following steps are included:

Step 1 prints semi-transparent black ink: printing one layer of semi-transparent black ink on glass cover-plate, is then dried, obtained To semi-transparent dirty oil layer of ink；

Printing varnish: step 2 is printed one layer of gloss oil in the semi-transparent dirty oil layer of ink that step 1 obtains, is then dried It is dry, obtain the new infrared cut-off ink.

In above-mentioned technical proposal, in the step 1, the drying temperature is 140 DEG C~160 DEG C, and the drying time is 10min~30min.

In above-mentioned technical proposal, in the step 2, the drying temperature is 150 DEG C~170 DEG C, and the drying time is 20min~40min.

In above-mentioned technical proposal, the semi-transparent dirty oil layer of ink with a thickness of 6 μm~8 μm, the light oil reservoir with a thickness of 3 μm ~5 μm.

Compared with prior art, beneficial effect is the present invention:

(1) a kind of new infrared provided by the invention ends ink, including the semi-transparent black ink successively coated and gloss oil, partly Saturating black ink is made of the following components: the first ink host agent 80%~90%, curing agent 7%~12% and diluent 3%~ 8%, gloss oil is made of the following components: the second ink host agent 80%~90%, curing agent 7%~12% and diluent 3%~ 8%, which ends ink in the case where 550nm light, and transmitance < 1% has the advantages that light transmittance is low, and then makes The functional experience for obtaining infrared cutoff is very good.In addition, gloss oil can make the hiding effect of new infrared cut-off ink more It is good, so that the appearance overall effect of smart phone is more preferable.

(2) preparation method of a kind of new infrared cut-off ink provided by the invention, has simple process, and can be applicable in In the industrialization large-scale production the characteristics of.

(3) application method of a kind of new infrared cut-off ink provided by the invention, by first being printed on glass cover-plate One layer of semi-transparent dirty oil layer of ink, republishes one layer of light oil reservoir, and then can substitute the IR ink of the prior art as infrared cutoff oil Ink has the advantages that light transmittance is low, so that the functional experience of infrared cutoff is very good.

Specific embodiment

In order to which the technical problems, technical solutions and beneficial effects solved by the present invention is more clearly understood, below in conjunction with Embodiment, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used to explain The present invention is not intended to limit the present invention.

Embodiment 1.

A kind of new infrared ends ink, it includes the semi-transparent black ink successively coated and gloss oil, semi-transparent black ink by with The component of lower weight percent forms:

First ink host agent 85%

Curing agent 10%

Diluent 5%；

Gloss oil consists of the following components in percentage by weight:

Second ink host agent 85%

Curing agent 10%

Diluent 5%；

Wherein, it is 1400N- that the first ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The first ink host agent of 1809-1063C；

Wherein, it is 1400N- that the second ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The second ink host agent of 1807-3004C；

Wherein, curing agent is the hardening that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is CARE-73 Agent；

Wherein, diluent is the diluent that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is T-980.

A kind of preparation method of above-mentioned new infrared cut-off ink, it the following steps are included:

The first step prepares semi-transparent black ink:

Dilution: the diluent of formula ratio is added to the first ink host agent, stirs evenly, obtain the first dilution by step 1 Ink；In the present embodiment, mixing time is 2min；

Step 2 prepares semi-transparent black ink: the curing agent of formula ratio is added to the first dilution ink that step 1 obtains, It stirs evenly, obtains the semi-transparent black ink；In the present embodiment, mixing time is 4min；

Second step prepares gloss oil:

Dilution: the diluent of formula ratio is added to the second ink host agent, stirs evenly, obtain the second flux oil by step A Ink；In the present embodiment, mixing time is 2min；

Step B, prepares gloss oil: the curing agent of formula ratio being added to the second dilution ink that step 1 obtains, stirring is equal It is even, obtain the gloss oil.In the present embodiment, mixing time is 4min.

A kind of application method of above-mentioned new infrared cut-off ink, it the following steps are included:

Step 1 prints semi-transparent black ink: printing one layer of semi-transparent black ink on glass cover-plate, is then dried, obtained To semi-transparent dirty oil layer of ink；In the present embodiment, drying temperature is 150 DEG C, drying time 20min；

Printing varnish: step 2 is printed one layer of gloss oil in the semi-transparent dirty oil layer of ink that step 1 obtains, is then dried It is dry, obtain the new infrared cut-off ink.In the present embodiment, drying temperature is 160 DEG C, drying time 30min.

Wherein, semi-transparent dirty oil layer of ink with a thickness of 7 μm, light oil reservoir with a thickness of 4 μm.

Embodiment 2.

A kind of new infrared ends ink, it includes the semi-transparent black ink successively coated and gloss oil, semi-transparent black ink by with The component of lower weight percent forms:

First ink host agent 80%

Curing agent 12%

Diluent 3%；

Gloss oil consists of the following components in percentage by weight:

Second ink host agent 80%

Curing agent 12%

Diluent 8%；

Wherein, it is 1400N- that the first ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The first ink host agent of 1809-1063C；

Wherein, it is 1400N- that the second ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The second ink host agent of 1807-3004C；

Wherein, curing agent is the hardening that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is CARE-73 Agent；

Wherein, diluent is the diluent that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is T-980.

A kind of preparation method of above-mentioned new infrared cut-off ink, it the following steps are included:

The first step prepares semi-transparent black ink:

Dilution: the diluent of formula ratio is added to the first ink host agent, stirs evenly, obtain the first dilution by step 1 Ink；In the present embodiment, mixing time is 1min；

Step 2 prepares semi-transparent black ink: the curing agent of formula ratio is added to the first dilution ink that step 1 obtains, It stirs evenly, obtains the semi-transparent black ink；In the present embodiment, mixing time is 3min；

Second step prepares gloss oil:

Dilution: the diluent of formula ratio is added to the second ink host agent, stirs evenly, obtain the second flux oil by step A Ink；In the present embodiment, mixing time is 1min；

Step B, prepares gloss oil: the curing agent of formula ratio being added to the second dilution ink that step 1 obtains, stirring is equal It is even, obtain the gloss oil.In the present embodiment, mixing time is 3min.

A kind of application method of above-mentioned new infrared cut-off ink, it the following steps are included:

Step 1 prints semi-transparent black ink: printing one layer of semi-transparent black ink on glass cover-plate, is then dried, obtained To semi-transparent dirty oil layer of ink；In the present embodiment, drying temperature is 140 DEG C, drying time 30min；

Printing varnish: step 2 is printed one layer of gloss oil in the semi-transparent dirty oil layer of ink that step 1 obtains, is then dried It is dry, obtain the new infrared cut-off ink.In the present embodiment, drying temperature is 150 DEG C, drying time 40min.

Wherein, semi-transparent dirty oil layer of ink with a thickness of 6 μm, light oil reservoir with a thickness of 3 μm.

Embodiment 3.

A kind of new infrared ends ink, it includes the semi-transparent black ink successively coated and gloss oil, semi-transparent black ink by with The component of lower weight percent forms:

First ink host agent 90%

Curing agent 7%

Diluent 3%；

Gloss oil consists of the following components in percentage by weight:

Second ink host agent 90%

Curing agent 7%

Diluent 3%；

Wherein, it is 1400N- that the first ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The first ink host agent of 1809-1063C；

Wherein, it is 1400N- that the second ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The second ink host agent of 1807-3004C；

Wherein, curing agent is the hardening that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is CARE-73 Agent；

Wherein, diluent is the diluent that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is T-980.

A kind of preparation method of above-mentioned new infrared cut-off ink, it the following steps are included:

The first step prepares semi-transparent black ink:

Dilution: the diluent of formula ratio is added to the first ink host agent, stirs evenly, obtain the first dilution by step 1 Ink；In the present embodiment, mixing time is 3min；

Step 2 prepares semi-transparent black ink: the curing agent of formula ratio is added to the first dilution ink that step 1 obtains, It stirs evenly, obtains the semi-transparent black ink；In the present embodiment, mixing time is 5min；

Second step prepares gloss oil:

Dilution: the diluent of formula ratio is added to the second ink host agent, stirs evenly, obtain the second flux oil by step A Ink；In the present embodiment, mixing time is 3min；

Step B, prepares gloss oil: the curing agent of formula ratio being added to the second dilution ink that step 1 obtains, stirring is equal It is even, obtain the gloss oil.In the present embodiment, mixing time is 5min.

A kind of application method of above-mentioned new infrared cut-off ink, it the following steps are included:

Step 1 prints semi-transparent black ink: printing one layer of semi-transparent black ink on glass cover-plate, is then dried, obtained To semi-transparent dirty oil layer of ink；In the present embodiment, drying temperature is 160 DEG C, drying time 10min；

Printing varnish: step 2 is printed one layer of gloss oil in the semi-transparent dirty oil layer of ink that step 1 obtains, is then dried It is dry, obtain the new infrared cut-off ink.In the present embodiment, drying temperature is 170 DEG C, drying time 20min.

Wherein, semi-transparent dirty oil layer of ink with a thickness of 8 μm, light oil reservoir with a thickness of 5 μm.

Embodiment 4.

A kind of new infrared ends ink, it includes the semi-transparent black ink successively coated and gloss oil, semi-transparent black ink by with The component of lower weight percent forms:

First ink host agent 82%

Curing agent 11%

Diluent 7%；

Gloss oil consists of the following components in percentage by weight:

Second ink host agent 82%

Curing agent 11%

Diluent 7%；

Wherein, it is 1400N- that the first ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The first ink host agent of 1809-1063C；

Wherein, it is 1400N- that the second ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The second ink host agent of 1807-3004C；

Wherein, curing agent is the hardening that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is CARE-73 Agent；

Wherein, diluent is the diluent that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is T-980.

A kind of preparation method of above-mentioned new infrared cut-off ink, it the following steps are included:

The first step prepares semi-transparent black ink:

Dilution: the diluent of formula ratio is added to the first ink host agent, stirs evenly, obtain the first dilution by step 1 Ink；In the present embodiment, mixing time is 1.5min；

Step 2 prepares semi-transparent black ink: the curing agent of formula ratio is added to the first dilution ink that step 1 obtains, It stirs evenly, obtains the semi-transparent black ink；In the present embodiment, mixing time is 3.5min；

Second step prepares gloss oil:

Dilution: the diluent of formula ratio is added to the second ink host agent, stirs evenly, obtain the second flux oil by step A Ink；In the present embodiment, mixing time is 1.5min；

Step B, prepares gloss oil: the curing agent of formula ratio being added to the second dilution ink that step 1 obtains, stirring is equal It is even, obtain the gloss oil.In the present embodiment, mixing time is 3.5min.

A kind of application method of above-mentioned new infrared cut-off ink, it the following steps are included:

Step 1 prints semi-transparent black ink: printing one layer of semi-transparent black ink on glass cover-plate, is then dried, obtained To semi-transparent dirty oil layer of ink；In the present embodiment, drying temperature is 145 DEG C, drying time 25min；

Printing varnish: step 2 is printed one layer of gloss oil in the semi-transparent dirty oil layer of ink that step 1 obtains, is then dried It is dry, obtain the new infrared cut-off ink.In the present embodiment, drying temperature is 155 DEG C, drying time 35min.

Wherein, semi-transparent dirty oil layer of ink with a thickness of 6.5 μm, light oil reservoir with a thickness of 3.5 μm.

Embodiment 5.

A kind of new infrared ends ink, it includes the semi-transparent black ink successively coated and gloss oil, semi-transparent black ink by with The component of lower weight percent forms:

First ink host agent 87%

Curing agent 9%

Diluent 4%；

Gloss oil consists of the following components in percentage by weight:

Second ink host agent 87%

Curing agent 9%

Diluent 4%；

Wherein, it is 1400N- that the first ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The first ink host agent of 1809-1063C；

Wherein, it is 1400N- that the second ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The second ink host agent of 1807-3004C；

Wherein, curing agent is the hardening that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is CARE-73 Agent；

Wherein, diluent is the diluent that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is T-980.

A kind of preparation method of above-mentioned new infrared cut-off ink, it the following steps are included:

The first step prepares semi-transparent black ink:

Dilution: the diluent of formula ratio is added to the first ink host agent, stirs evenly, obtain the first dilution by step 1 Ink；In the present embodiment, mixing time is 2.5min；

Step 2 prepares semi-transparent black ink: the curing agent of formula ratio is added to the first dilution ink that step 1 obtains, It stirs evenly, obtains the semi-transparent black ink；In the present embodiment, mixing time is 4.5min；

Second step prepares gloss oil:

Dilution: the diluent of formula ratio is added to the second ink host agent, stirs evenly, obtain the second flux oil by step A Ink；In the present embodiment, mixing time is 2.5min；

Step B, prepares gloss oil: the curing agent of formula ratio being added to the second dilution ink that step 1 obtains, stirring is equal It is even, obtain the gloss oil.In the present embodiment, mixing time is 4.5min.

A kind of application method of above-mentioned new infrared cut-off ink, it the following steps are included:

Step 1 prints semi-transparent black ink: printing one layer of semi-transparent black ink on glass cover-plate, is then dried, obtained To semi-transparent dirty oil layer of ink；In the present embodiment, drying temperature is 155 DEG C, drying time 15min；

Printing varnish: step 2 is printed one layer of gloss oil in the semi-transparent dirty oil layer of ink that step 1 obtains, is then dried It is dry, obtain the new infrared cut-off ink.In the present embodiment, drying temperature is 165 DEG C, drying time 25min.

Wherein, semi-transparent dirty oil layer of ink with a thickness of 7.5 μm, light oil reservoir with a thickness of 4.5 μm.

Finally it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than the present invention is protected The limitation of range is protected, although explaining in detail referring to preferred embodiment to the present invention, those skilled in the art are answered Work as understanding, it can be with modification or equivalent replacement of the technical solution of the present invention are made, without departing from the reality of technical solution of the present invention Matter and range.

Claims (10)

1. a kind of new infrared ends ink, it is characterised in that: it includes the semi-transparent black ink successively coated and gloss oil, and described half Saturating black ink consists of the following components in percentage by weight:

First ink host agent 80%~90%

Curing agent 7%~12%

Diluent 3%~8%；

The gloss oil consists of the following components in percentage by weight:

Second ink host agent 80%~90%

Curing agent 7%~12%

Diluent 3%~8%；

Wherein, it is 1400N- that the first ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The first ink host agent of 1809-1063C；

Wherein, it is 1400N- that the second ink host agent, which is the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production, The second ink host agent of 1807-3004C；

Wherein, the curing agent is the hardening that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is CARE-73 Agent；

Wherein, the diluent is the diluent that the marque of Shenzhen Jiaxing printing apparatus Co., Ltd production is T-980.

2. a kind of new infrared according to claim 1 ends ink, it is characterised in that: the semi-transparent black ink is by following The component of weight percent forms:

First ink host agent 85%

Curing agent 10%

Diluent 5%.

3. a kind of new infrared according to claim 1 ends ink, it is characterised in that: the gloss oil is by following weight hundred Divide the component composition of ratio:

Second ink host agent 85%

Curing agent 10%

Diluent 5%.

4. a kind of preparation method of new infrared cut-off ink described in claims 1 to 3 any one, it is characterised in that: it The following steps are included:

The first step prepares semi-transparent black ink:

Dilution: the diluent of formula ratio is added to the first ink host agent, stirred evenly, obtain the first dilution ink by step 1；

Step 2 prepares semi-transparent black ink: the curing agent of formula ratio is added to the first dilution ink that step 1 obtains, stirring Uniformly, the semi-transparent black ink is obtained；

Second step prepares gloss oil:

Dilution: the diluent of formula ratio is added to the second ink host agent, stirred evenly, obtain the second dilution ink by step A；

Step B, prepares gloss oil: the curing agent of formula ratio being added to the second dilution ink that step 1 obtains, is stirred evenly, i.e., The gloss oil is made.

5. a kind of preparation method of new infrared cut-off ink according to claim 4, it is characterised in that: the step 1 In the step A, the mixing time is 1min~3min.

6. a kind of preparation method of new infrared cut-off ink according to claim 4, it is characterised in that: the step 2 In the step B, the mixing time is 3min~5min.

7. a kind of application method of new infrared cut-off ink described in claims 1 to 3 any one, it is characterised in that: it The following steps are included:

Step 1 prints semi-transparent black ink: printing one layer of semi-transparent black ink on glass cover-plate, is then dried, obtains half Saturating dirty oil layer of ink；

Printing varnish: step 2 prints one layer of gloss oil in the semi-transparent dirty oil layer of ink that step 1 obtains, is then dried, obtained End ink to the new infrared.

8. a kind of preparation method of new infrared cut-off ink according to claim 7, it is characterised in that: the step 1 In, the drying temperature is 140 DEG C~160 DEG C, and the drying time is 10min~30min.

9. a kind of preparation method of new infrared cut-off ink according to claim 7, it is characterised in that: the step 2 In, the drying temperature is 150 DEG C~170 DEG C, and the drying time is 20min~40min.

10. a kind of preparation method of new infrared cut-off ink according to claim 9, it is characterised in that: described semi-transparent Dirty oil layer of ink with a thickness of 6 μm~8 μm, the light oil reservoir with a thickness of 3 μm~5 μm.