CN109097211A - A kind of automobile glass cleaning agent and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of automobile glass cleaning agents and preparation method thereof, the automobile glass cleaning agent is prepared by the raw material of following mass percent: AES sodium salt 6.8%~7.2%, cation Gemini surfactant DHGS 2.0%~5.0%, alkyl alcohol ethoxylates sodium sulphate 7.0%~9.0%, Rosin Amine Polyoxyethylene Ether ether 3.0%~8.0%, lauryl glucosyl 3.0%~8.0%, alkyl betaine 1.0%~5.0%, the polyethylene glycol 7.0%~9.0% that molecular weight is 400；Triethanolamine 0.5%~3.0%, sodium hypochlorite 1.0%~2.0%, sodium citrate 0.1%~0.8%, surplus are deionized water.Glass cleaner of the invention has good decontamination, lubrication, antifreeze, antistatic property, and cleaning effect is good.

Description

A kind of automobile glass cleaning agent and preparation method thereof

Technical field

The present invention relates to Automobile Products fields, and in particular to a kind of automobile glass cleaning agent and preparation method thereof.

Background technique

Dirt on vehicle glass not only unsightly but also interfered pilot's line of vision；Water can't is washed off greasy dirt and object not soluble in water Matter, and the cleaning effect of existing glass cleaner is good, but the smell is awful, but also can corrode automobile parts；Current glass Glass cleaning agent is in use, need multi-injection could be by the dirty removal on vehicle glass, and the meeting having after removing is so that automobile Glass thickens.

Summary of the invention

To solve the above problems, the automobile glass cleaning agent that the present invention provides a kind of dirt-removing powers is strong, cleaning effect is good And preparation method thereof.

To achieve the above object, the technical scheme adopted by the invention is as follows:

A kind of automobile glass cleaning agent is prepared by the raw material of following mass percent:

AES sodium salt 6.8%~7.2%, cation Gemini surfactant DHGS 2.0%~5.0%, alkylol polyoxy Ethylene ether sodium sulfate 7.0%~9.0%, Rosin Amine Polyoxyethylene Ether ether 3.0%~8.0%, lauryl glucosyl 3.0%~ 8.0%, alkyl betaine 1.0%~5.0%, the polyethylene glycol 7.0%~9.0% that molecular weight is 400；Triethanolamine 0.5% ~3.0%, sodium hypochlorite 1.0%~2.0%, sodium citrate 0.1%~0.8%, surplus is deionized water.

Preferably, it is prepared by the raw material of following mass percent:

AES sodium salt 7%, cation Gemini surfactant DHGS 3.5%, alkyl alcohol ethoxylates sodium sulphate 8.0%, Rosin Amine Polyoxyethylene Ether ether 5.5%, lauryl glucosyl 5.5%, alkyl betaine 3.0%, molecular weight 400 Polyethylene glycol 8.0%；Triethanolamine 1.75%, sodium hypochlorite 1.5%, sodium citrate 0.45%, surplus are deionized water.

Preferably, it is prepared by the raw material of following mass percent:

AES sodium salt 7%, cation Gemini surfactant DHGS 3.0%, alkyl alcohol ethoxylates sodium sulphate 8.0%, Rosin Amine Polyoxyethylene Ether ether 5.0%, lauryl glucosyl 5.0%, alkyl betaine 3.0%, molecular weight 400 Polyethylene glycol 8.0%；Triethanolamine 1.5%, sodium hypochlorite 1.5%, sodium citrate 0.4%, surplus are deionized water.

Preferably, it is prepared by the raw material of following mass percent:

AES sodium salt 7%, cation Gemini surfactant DHGS 4.0%, alkyl alcohol ethoxylates sodium sulphate 8.0%, Rosin Amine Polyoxyethylene Ether ether 6.0%, lauryl glucosyl 6.0%, alkyl betaine 3.0%, molecular weight 400 Polyethylene glycol 8.0%；Triethanolamine 2.0%, sodium hypochlorite 1.5%, sodium citrate 0.5%, surplus are deionized water.

The present invention also provides a kind of above-mentioned preparation methods of automobile glass cleaning agent, include the following steps:

S1, each raw material is weighed by above-mentioned formula；

S2, by weighed AES sodium salt, alkyl alcohol ethoxylates sodium sulphate, Rosin Amine Polyoxyethylene Ether ether, dodecyl Portugal The polyethylene glycol that polyglycoside, alkyl betaine and molecular weight are 400 is placed in container after mixing, is heated to 45~50 DEG C, 15~20min is stirred, obtains closing solution A；

S3, cation Gemini surfactant is added into 60% water by weighed, is heated to 60~70 DEG C, stirring To transparent, after triethanolamine, sodium hypochlorite, sodium citrate is added, mixed solution A, remainder water are sequentially added, stirring 50~ 60min, make its be uniformly mixed to get.

Glass cleaner of the invention has good decontamination, lubrication, antifreeze, antistatic property, and cleaning effect is good.

Specific embodiment

In order to which objects and advantages of the present invention are more clearly understood, the present invention is carried out with reference to embodiments further It is described in detail.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not used to limit this hair It is bright.

Embodiment 1

S1, each raw material is weighed by following mass percent；AES sodium salt 7%, cation Gemini surfactant DHGS 3.5%, alkyl alcohol ethoxylates sodium sulphate 8.0%, Rosin Amine Polyoxyethylene Ether ether 5.5%, lauryl glucosyl 5.5%, alkyl betaine 3.0%, the polyethylene glycol 8.0% that molecular weight is 400；Triethanolamine 1.75%, sodium hypochlorite 1.5%, sodium citrate 0.45%, surplus is deionized water；

S2, by weighed AES sodium salt, alkyl alcohol ethoxylates sodium sulphate, Rosin Amine Polyoxyethylene Ether ether, dodecyl Portugal The polyethylene glycol that polyglycoside, alkyl betaine and molecular weight are 400 is placed in container after mixing, is heated to 45~50 DEG C, 15~20min is stirred, obtains closing solution A；

S3, cation Gemini surfactant is added into 60% water by weighed, is heated to 60~70 DEG C, stirring To transparent, after triethanolamine, sodium hypochlorite, sodium citrate is added, mixed solution A, remainder water are sequentially added, stirring 50~ 60min, make its be uniformly mixed to get.

Embodiment 2

S1, each raw material is weighed by following mass percent；AES sodium salt 7%, cation Gemini surfactant DHGS 3.0%, alkyl alcohol ethoxylates sodium sulphate 8.0%, Rosin Amine Polyoxyethylene Ether ether 5.0%, lauryl glucosyl 5.0%, alkyl betaine 3.0%, the polyethylene glycol 8.0% that molecular weight is 400；Triethanolamine 1.5%, sodium hypochlorite 1.5%, Sodium citrate 0.4%, surplus are deionized water；

S2, by weighed AES sodium salt, alkyl alcohol ethoxylates sodium sulphate, Rosin Amine Polyoxyethylene Ether ether, dodecyl Portugal The polyethylene glycol that polyglycoside, alkyl betaine and molecular weight are 400 is placed in container after mixing, is heated to 45~50 DEG C, 15~20min is stirred, obtains closing solution A；

S3, cation Gemini surfactant is added into 60% water by weighed, is heated to 60~70 DEG C, stirring To transparent, after triethanolamine, sodium hypochlorite, sodium citrate is added, mixed solution A, remainder water are sequentially added, stirring 50~ 60min, make its be uniformly mixed to get.

Embodiment 3

S1, each raw material is weighed by following mass percent；AES sodium salt 7%, cation Gemini surfactant DHGS 4.0%, alkyl alcohol ethoxylates sodium sulphate 8.0%, Rosin Amine Polyoxyethylene Ether ether 6.0%, lauryl glucosyl 6.0%, alkyl betaine 3.0%, the polyethylene glycol 8.0% that molecular weight is 400；Triethanolamine 2.0%, sodium hypochlorite 1.5%, Sodium citrate 0.5%, surplus are deionized water；

S2, by weighed AES sodium salt, alkyl alcohol ethoxylates sodium sulphate, Rosin Amine Polyoxyethylene Ether ether, dodecyl Portugal The polyethylene glycol that polyglycoside, alkyl betaine and molecular weight are 400 is placed in container after mixing, is heated to 45~50 DEG C, 15~20min is stirred, obtains closing solution A；

S3, cation Gemini surfactant is added into 60% water by weighed, is heated to 60~70 DEG C, stirring To transparent, after triethanolamine, sodium hypochlorite, sodium citrate is added, mixed solution A, remainder water are sequentially added, stirring 50~ 60min, make its be uniformly mixed to get.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the principle of the present invention, it can also make several improvements and retouch, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (5)

1. a kind of automobile glass cleaning agent, it is characterised in that: be prepared by the raw material of following mass percent:

AES sodium salt 6.8%~7.2%, cation Gemini surfactant DHGS 2.0%~5.0%, alkylol polyoxyethylene Ether sodium sulfate 7.0%~9.0%, Rosin Amine Polyoxyethylene Ether ether 3.0%~8.0%, lauryl glucosyl 3.0%~ 8.0%, alkyl betaine 1.0%~5.0%, the polyethylene glycol 7.0%~9.0% that molecular weight is 400；Triethanolamine 0.5% ~3.0%, sodium hypochlorite 1.0%~2.0%, sodium citrate 0.1%~0.8%, surplus is deionized water.

2. a kind of automobile glass cleaning agent as described in claim 1, it is characterised in that: by the raw material system of following mass percent It is standby to form:

AES sodium salt 7%, cation Gemini surfactant DHGS 3.5%, alkyl alcohol ethoxylates sodium sulphate 8.0%, pine Fragrant amine polyoxyethylene ether 5.5%, lauryl glucosyl 5.5%, alkyl betaine 3.0%, the poly- second two that molecular weight is 400 Alcohol 8.0%；Triethanolamine 1.75%, sodium hypochlorite 1.5%, sodium citrate 0.45%, surplus are deionized water.

3. a kind of automobile glass cleaning agent as described in claim 1, it is characterised in that: by the raw material system of following mass percent It is standby to form:

AES sodium salt 7%, cation Gemini surfactant DHGS 3.0%, alkyl alcohol ethoxylates sodium sulphate 8.0%, pine Fragrant amine polyoxyethylene ether 5.0%, lauryl glucosyl 5.0%, alkyl betaine 3.0%, the poly- second two that molecular weight is 400 Alcohol 8.0%；Triethanolamine 1.5%, sodium hypochlorite 1.5%, sodium citrate 0.4%, surplus are deionized water.

4. a kind of automobile glass cleaning agent as described in claim 1, it is characterised in that: by the raw material system of following mass percent It is standby to form:

AES sodium salt 7%, cation Gemini surfactant DHGS 4.0%, alkyl alcohol ethoxylates sodium sulphate 8.0%, pine Fragrant amine polyoxyethylene ether 6.0%, lauryl glucosyl 6.0%, alkyl betaine 3.0%, the poly- second two that molecular weight is 400 Alcohol 8.0%；Triethanolamine 2.0%, sodium hypochlorite 1.5%, sodium citrate 0.5%, surplus are deionized water.

5. a kind of preparation method of automobile glass cleaning agent, characterized by the following steps:

S1, each raw material is weighed by the described in any item formulas of claim 1-4；

S2, by weighed AES sodium salt, alkyl alcohol ethoxylates sodium sulphate, Rosin Amine Polyoxyethylene Ether ether, lauryl glucoside The polyethylene glycol that glycosides, alkyl betaine and molecular weight are 400 is placed in container after mixing, is heated to 45~50 DEG C, stirring 15~20min obtains closing solution A；

S3, cation Gemini surfactant is added into 60% water by weighed, is heated to 60~70 DEG C, stirred to saturating It is bright, triethanolamine, sodium hypochlorite is added, after sodium citrate, sequentially adds mixed solution A, remainder water, stirring 50~ 60min, make its be uniformly mixed to get.