CN106010306A - Photovoltaic storage battery sealant based on tridecanyl and glyceride and manufacturing method thereof - Google Patents

Abstract

The invention discloses a photovoltaic storage battery sealant based on tridecanyl and glyceride. The sealant is manufactured from a component A and a component B, wherein the component A is prepared from methacrylic acid tridecyl ester, trichloromethane, dibutyl phthalate, fire retardant, titanium dioxide, antioxidant 1010 and a thermal conducting filler; the component B is prepared from glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine, a silane crosslinking, a platinum or platinum complex, a defoaming agent and a silane tackifier. The materials in the component A and the component B are subjected to processing production respectively, and the sealant is obtained through processing of a vacuum kneading machine and a reaction kettle. Due to the good fire retardant and the thermal conducting filler, by means of mixing of other substances, the content of bubbles inside the sealant is small, and the sealant has the advantages of being excellent in cohesiveness, excellent in high temperature resistance and high humidity resistance, good in flame retardant, heat conduction and electric insulation performance, high in curing speed, convenient to operate and the like.

Description

A kind of photovoltaic storage battery fluid sealant based on 13 esters and glyceride And manufacture method

Technical field

The present invention relates to chemical technology field, particularly to a kind of based on 13 esters and glyceride the photovoltaic storage battery fluid sealant that accumulator is played sealing function And manufacture method 。

Background technology

In recent years, country builds a conservation-minded society in promotion always, advocates energy-saving and emission-reduction, advocates low-carbon environment-friendly, under such overall situation, and occurring to the inexorable trend developed under a kind of policy of solar energy industry.Technology disconnected upgrading not also becomes the best support of solar energy industry.Solaode is a kind of new technique in solar energy industry, and it utilizes the quantum effect of the quasiconductors such as silicon, directly the visible ray of the sun is changed into electric energy.The core component of solaode is silicon wafer.For ensureing light electrical efficiency and the life-span of silicon wafer, industrial meeting is sealed against inside photovoltaic module, and aluminum frame, bus bar and the rosette etc. of assembly are accomplished by with being bonded and sealed that special sealing cement is carried out, it is to avoid in air, water and oxygen etc. enter.

Being currently used for the One component Sealant of photovoltaic module, curing rate is slow, and the curing time of assembly is long, affects efficiency.Photovoltaic Accumulator Require that fluid sealant should have good resistance to elevated temperatures and good flame-retarded heat-conducting performance, and keep good electrical insulation capability , and this type of fluid sealant is narrower in research range, it is impossible to meet the market demand 。

Summary of the invention

It is an object of the invention to provide One has Caking property excellence, high-temp resisting high-humidity resisting excellent performance and flame-retarded heat-conducting and electrical insulating property are good, and curing rate is fast, easy to operate Etc. advantage A kind of based on 13 esters and glyceride photovoltaic storage battery fluid sealant And manufacture method , solve the use needs of problems of accumulator sealant.

In order to achieve the above object, the present invention provides following technical scheme:

A kind of photovoltaic storage battery fluid sealant based on 13 esters and glyceride, it is characterised in that: include A Component and B Component；Described A Component is by methacrylic acid 13 ester, chloroform, dibutyl phthalate, fire retardant, titanium dioxide, antioxidant 1010 , heat filling forms； B Component is made up of glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine, silane crosslinker, platinum or platinum complex, defoamer, silane adhesion promoters；Wherein said A In component, including: 40-60 Methacrylic acid 13 ester of part, 25-40 The chloroform of part, 5-15 The dibutyl phthalate of part, 20-35 The fire retardant of part, 2-10 The titanium dioxide of part, 2-10 The antioxidant of part 1010 , 5-15 The heat filling composition of part；Described B In component, including: 60-80 The glycidyl methacrylate of part, 15-25 The chlorosulfonated polyethylene of part, 5-15 The triethylenediamine of part, 3-15 The silane crosslinker of part, 1-8 The platinum of part or platinum complex, 10-15 The defoamer of part, 0.1-6 The silane adhesion promoters of part.

Described fire retardant is at least one in basic zinc carbonate, Firebrake ZB, aluminium hydroxide, magnesium hydroxide, iron oxide red, decabromodiphenyl oxide, red phosphorus, chlorinated paraffin；Heat filling is nanometer silicon carbide, nano aluminum nitride, nm-class boron nitride, nano-silicon nitride, high heat conduction composite powder, at least one in nano silicon carbide aluminum；Described defoamer is silicone and polyacrylate apoplexy due to endogenous wind BYK-065 、 BYK-066N 、 BYK-354 、 DEUCHEM2700 In any one.

Described A In component, including: 50 Methacrylic acid 13 ester of part, 35 The chloroform of part, 10 The dibutyl phthalate of part, 25 The fire retardant of part, 5 The titanium dioxide of part, 6 The antioxidant of part 1010 , 10 The heat filling composition of part；Described B In component, including: 70 The glycidyl methacrylate of part, 20 The chlorosulfonated polyethylene of part, 10 The triethylenediamine of part, 8 The silane crosslinker of part, 4 The platinum of part or platinum complex, 12 The defoamer of part, 3 The silane adhesion promoters of part.

Concretely comprise the following steps:

A Component includes step: by above-mentioned weight, by methacrylic acid 13 ester, chloroform, dibutyl phthalate adds in vacuum kneader, and temperature controls 60 ~ 100 ℃ , vacuum is 0.08 ~ 0.12MPa , dehydration is blended 1 ~ 6 Hour, then move in reactor, start stirring, then put into fire retardant, and titanium dioxide, antioxidant 1010 , heat filling, mix homogeneously, to obtain final product A Component； B Component includes step: by above-mentioned weight, by glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine adds in vacuum kneader, and temperature controls 60 ~ 120 ℃ , vacuum is 0.08 ~ 0.12MPa , dehydration is blended 1 ~ 7 Hour, then move in reactor, start stirring, put into silane crosslinker, platinum or platinum complex, defoamer, silane adhesion promoters, after mix homogeneously, to obtain final product B Component.

The rotating speed of described reactor is 50 ~ 1000rpm , the mix and blend time is 15 ~ 120 Minute.

Beneficial effects of the present invention: the present invention By good fire retardant and heat filling, utilizing other materials to be mutually mixed, in making glue, air bubble content is little, and has Caking property excellence, high-temp resisting high-humidity resisting excellent performance and flame-retarded heat-conducting and electrical insulating property are good, and curing rate is fast, easy to operate Etc. advantage 。

Detailed description of the invention

Below in conjunction with embodiment, technical scheme is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

Embodiment 1 :

A kind of photovoltaic storage battery fluid sealant based on 13 esters and glyceride, it is characterised in that: include A Component and B Component；Described A Component is by methacrylic acid 13 ester, chloroform, dibutyl phthalate, fire retardant, titanium dioxide, antioxidant 1010 , heat filling forms； B Component is made up of glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine, silane crosslinker, platinum or platinum complex, defoamer, silane adhesion promoters；Wherein said A In component, including: 40-60 Methacrylic acid 13 ester of part, 25-40 The chloroform of part, 5-15 The dibutyl phthalate of part, 20-35 The fire retardant of part, 2-10 The titanium dioxide of part, 2-10 The antioxidant of part 1010 , 5-15 The heat filling composition of part；Described B In component, including: 60-80 The glycidyl methacrylate of part, 15-25 The chlorosulfonated polyethylene of part, 5-15 The triethylenediamine of part, 3-15 The silane crosslinker of part, 1-8 The platinum of part or platinum complex, 10-15 The defoamer of part, 0.1-6 The silane adhesion promoters of part.

Described fire retardant is at least one in basic zinc carbonate, Firebrake ZB, aluminium hydroxide, magnesium hydroxide, iron oxide red, decabromodiphenyl oxide, red phosphorus, chlorinated paraffin；Heat filling is nanometer silicon carbide, nano aluminum nitride, nm-class boron nitride, nano-silicon nitride, high heat conduction composite powder, at least one in nano silicon carbide aluminum；Described defoamer is silicone and polyacrylate apoplexy due to endogenous wind BYK-065 、 BYK-066N 、 BYK-354 、 DEUCHEM2700 In any one.

Described A In component, including: 50 Methacrylic acid 13 ester of part, 35 The chloroform of part, 10 The dibutyl phthalate of part, 25 The fire retardant of part, 5 The titanium dioxide of part, 6 The antioxidant of part 1010 , 10 The heat filling composition of part；Described B In component, including: 70 The glycidyl methacrylate of part, 20 The chlorosulfonated polyethylene of part, 10 The triethylenediamine of part, 8 The silane crosslinker of part, 4 The platinum of part or platinum complex, 12 The defoamer of part, 3 The silane adhesion promoters of part.

Concretely comprise the following steps:

A Component includes step: by above-mentioned weight, by methacrylic acid 13 ester, chloroform, dibutyl phthalate adds in vacuum kneader, and temperature controls 60 ~ 100 ℃ , vacuum is 0.08 ~ 0.12MPa , dehydration is blended 1 ~ 6 Hour, then move in reactor, start stirring, then put into fire retardant, and titanium dioxide, antioxidant 1010 , heat filling, mix homogeneously, to obtain final product A Component； B Component includes step: by above-mentioned weight, by glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine adds in vacuum kneader, and temperature controls 60 ~ 120 ℃ , vacuum is 0.08 ~ 0.12MPa , dehydration is blended 1 ~ 7 Hour, then move in reactor, start stirring, put into silane crosslinker, platinum or platinum complex, defoamer, silane adhesion promoters, after mix homogeneously, to obtain final product B Component.

The rotating speed of described reactor is 50 ~ 1000rpm , the mix and blend time is 15 ~ 120 Minute.

Embodiment 2 :

Described A In component, including: 40-60 Methacrylic acid 13 ester of part, 25-40 The chloroform of part, 5-15 The dibutyl phthalate of part, 20-35 The fire retardant of part, 2-10 The titanium dioxide of part, 2-10 The antioxidant of part 1010 , 5-15 The heat filling composition of part；Described B In component, including: 60-80 The glycidyl methacrylate of part, 15-25 The chlorosulfonated polyethylene of part, 5-15 The triethylenediamine of part, 3-15 The silane crosslinker of part, 1-8 The platinum of part or platinum complex, 10-15 The defoamer of part, 0.1-6 The silane adhesion promoters of part.

Specifically Production and processing Step is:

A Component includes step: by above-mentioned weight, by methacrylic acid 13 ester, chloroform, dibutyl phthalate adds in vacuum kneader, and temperature controls 60 ~ 100 ℃ , vacuum is 0.08 ~ 0.12MPa , dehydration is blended 1 ~ 6 Hour, then move in reactor, start stirring, then put into fire retardant, and titanium dioxide, antioxidant 1010 , heat filling, mix homogeneously, to obtain final product A Component； B Component includes step: by above-mentioned weight, by glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine adds in vacuum kneader, and temperature controls 60 ~ 120 ℃ , vacuum is 0.08 ~ 0.12MPa , dehydration is blended 1 ~ 7 Hour, then move in reactor, start stirring, put into silane crosslinker, platinum or platinum complex, defoamer, silane adhesion promoters, after mix homogeneously, to obtain final product B Component.

A Component, B Component Respectively Stand subpackage, directly will during use A Component, B Component is according to carrying out potting operation after weight ratio mix homogeneously.

Embodiment 3 :

Described A In component, including: 50 Methacrylic acid 13 ester of part, 35 The chloroform of part, 10 The dibutyl phthalate of part, 25 The fire retardant of part, 5 The titanium dioxide of part, 6 The antioxidant of part 1010 , 10 The heat filling composition of part；Described B In component, including: 70 The glycidyl methacrylate of part, 20 The chlorosulfonated polyethylene of part, 10 The triethylenediamine of part, 8 The silane crosslinker of part, 4 The platinum of part or platinum complex, 12 The defoamer of part, 3 The silane adhesion promoters of part.

Specifically Production and processing Step is:

A Component includes step: by above-mentioned weight, by methacrylic acid 13 ester, chloroform, dibutyl phthalate adds in vacuum kneader, and temperature controls 60 ~ 100 ℃ , vacuum is 0.08 ~ 0.12MPa , dehydration is blended 1 ~ 6 Hour, then move in reactor, start stirring, then put into fire retardant, and titanium dioxide, antioxidant 1010 , heat filling, mix homogeneously, to obtain final product A Component； B Component includes step: by above-mentioned weight, by glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine adds in vacuum kneader, and temperature controls 60 ~ 120 ℃ , vacuum is 0.08 ~ 0.12MPa , dehydration is blended 1 ~ 7 Hour, then move in reactor, start stirring, put into silane crosslinker, platinum or platinum complex, defoamer, silane adhesion promoters, after mix homogeneously, to obtain final product B Component.

A Component, B Component Respectively Stand subpackage, directly will during use A Component, B Component is according to carrying out potting operation after weight ratio mix homogeneously.

The above; being only the detailed description of the invention of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should contain within protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with scope of the claims.

Claims (5)

1. a photovoltaic storage battery fluid sealant based on 13 esters and glyceride, it is characterised in that: include component A and B component；Described component A is made up of methacrylic acid 13 ester, chloroform, dibutyl phthalate, fire retardant, titanium dioxide, antioxidant 1010, heat filling；B component is made up of glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine, silane crosslinker, platinum or platinum complex, defoamer, silane adhesion promoters；In wherein said component A, including: methacrylic acid 13 ester of 40-60 part, the chloroform of 25-40 part, the dibutyl phthalate of 5-15 part, the fire retardant of 20-35 part, the titanium dioxide of 2-10 part, the antioxidant 1010 of 2-10 part, the heat filling composition of 5-15 part；In described B component, including: the glycidyl methacrylate of 60-80 part, the chlorosulfonated polyethylene of 15-25 part, the triethylenediamine of 5-15 part, the silane crosslinker of 3-15 part, the platinum of 1-8 part or platinum complex, the defoamer of 10-15 part, the silane adhesion promoters of 0.1-6 part.

A kind of photovoltaic storage battery fluid sealant based on 13 esters and glyceride the most according to claim 1, it is characterised in that: described fire retardant is at least one in basic zinc carbonate, Firebrake ZB, aluminium hydroxide, magnesium hydroxide, iron oxide red, decabromodiphenyl oxide, red phosphorus, chlorinated paraffin；Heat filling is nanometer silicon carbide, nano aluminum nitride, nm-class boron nitride, nano-silicon nitride, high heat conduction composite powder, at least one in nano silicon carbide aluminum；Described defoamer is any one in silicone and polyacrylate apoplexy due to endogenous wind BYK-065, BYK-066N, BYK-354, DEUCHEM2700.

A kind of photovoltaic storage battery fluid sealant based on 13 esters and glyceride the most according to claim 1, it is characterized in that: in described component A, including: methacrylic acid 13 ester of 50 parts, the chloroform of 35 parts, the dibutyl phthalate of 10 parts, the fire retardant of 25 parts, the titanium dioxide of 5 parts, the antioxidant 1010 of 6 parts, the heat filling composition of 10 parts；In described B component, including: the glycidyl methacrylate of 70 parts, the chlorosulfonated polyethylene of 20 parts, the triethylenediamine of 10 parts, the silane crosslinker of 8 parts, the platinum of 4 parts or platinum complex, the defoamer of 12 parts, the silane adhesion promoters of 3 parts.

4. according to the manufacture method of a kind of based on 13 esters and glyceride the photovoltaic storage battery fluid sealant according to any one of claim 1-3, it is characterised in that: concretely comprise the following steps:

Component A includes step: by above-mentioned weight, by methacrylic acid 13 ester, chloroform, dibutyl phthalate adds in vacuum kneader, and temperature controls at 60～100 DEG C, and vacuum is 0.08～0.12MPa, dehydration 1～6 hour is blended, then moves in reactor, start stirring, put into fire retardant again, titanium dioxide, antioxidant 1010, heat filling, mix homogeneously, obtains component A；B component includes step: by above-mentioned weight, by glycidyl methacrylate, chlorosulfonated polyethylene, triethylenediamine adds in vacuum kneader, and temperature controls at 60～120 DEG C, and vacuum is 0.08～0.12MPa, dehydration 1～7 hour is blended, then moves in reactor, start stirring, put into silane crosslinker, platinum or platinum complex, defoamer, silane adhesion promoters, after mix homogeneously, obtain B component.

5. according to the manufacture method of a kind of based on 13 esters and glyceride the photovoltaic storage battery fluid sealant described in claim 4, it is characterised in that: the rotating speed of described reactor is 50～1000rpm, and the mix and blend time is 15～120 minutes.