CN109136965A - A kind of bearing oil-removing cleaning agent and preparation method - Google Patents

Abstract

The invention discloses a kind of bearing oil-removing cleaning agents, including below according to the raw material of parts by weight: 50-65 parts of surfactant, 23-37 parts of antibacterial agent, 13-25 parts of inorganic solid particles, 12-19 parts of corrosion inhibiter, 6-13 parts of acid fog inhibitor, 2-8 parts of triethanolamine oleate, 2-6 parts of surface conditioner, 3-9 parts of restrainer, 5-9 parts of emulsifier, 73-85 parts of deionized water；Bearing oil-removing cleaning agent produced by the present invention, can dissolve rapidly spot, improve the cleaning efficiency of this bearing oil-removing cleaning agent; only need a small amount of cleaning agent can rapidly bearing cleaning in use; the cleaning speed of cleaning agent is fast, and will not waste cleaning agent, will not generate acid mist; it is safe to the human body; the feature of environmental protection is good, and sterilizing ability is stablized, and does not generate noxious material in production, storage, use and cleaning process; it can be cleaned out quickly, be conducive to the protection of environment.

Description

A kind of bearing oil-removing cleaning agent and preparation method

Technical field

The present invention relates to technical field of industrial cleaning agent, specifically a kind of bearing oil-removing cleaning agent and preparation method.

Background technique

The cleaning of bearing is to ensure that the important procedure of bearing products quality.Since the components and finished product of bearing add in machinery In work, heat treatment and assembling process, many greases and dirt are all stained in internal and surface, if not cleaning up, it will influence Each process and product quality.

Currently, the traditional method of bearing industry is using petroleum solvents, with kerosene, gasoline come bearing cleaning, this is not only There are petroleum waste and problem of environmental pollutions, and petroleum solvents burning point is low, easily initiation fire, to operator's Body and skin also easily cause injury.And cleaned using metal cleaner, although metal cleaner is a variety of surface-actives A kind of surface decontamination agent of agent compounding synthesis, it can deoil, decontamination, keep workpiece surface clean, dry and comfortable, still, higher cost, Performance is not sufficiently stable, and process for preparation is cumbersome, is easy to generate acid mist, is led to environmental pollution, will also result in adverse effect to user.

It is a kind of dedicated suitable for bearing cleaning, the bearing for reaching bearing products technical requirements therefore, it is necessary to research and develop Cleaning agent becomes the important subject of scientific research personnel.

Summary of the invention

The purpose of the present invention is to provide a kind of bearing oil-removing cleaning agent and preparation methods, to solve in above-mentioned background technique The problem of proposition.

To achieve the above object, the invention provides the following technical scheme:

A kind of bearing oil-removing cleaning agent, including below according to the raw material of parts by weight: 50-65 parts of surfactant, antibacterial agent 23-37 parts, 13-25 parts of inorganic solid particles, 12-19 parts of corrosion inhibiter, 6-13 parts of acid fog inhibitor, 2-8 parts of triethanolamine oleate, 2-6 parts of surface conditioner, 3-9 parts of restrainer, 5-9 parts of emulsifier, 73-85 parts of deionized water.

As a further solution of the present invention: including below according to the raw material of parts by weight: 55-60 parts of surfactant resists 28-32 parts of microbial inoculum, 17-21 parts of inorganic solid particles, 14-16 parts of corrosion inhibiter, 8-11 parts of acid fog inhibitor, triethanolamine oleate 4- 6 parts, 3-5 parts of surface conditioner, 5-7 parts of restrainer, 6-8 parts of emulsifier, 75-80 parts of deionized water.

As further scheme of the invention: including below according to the raw material of parts by weight: 58 parts of surfactant, antibacterial 30 parts of agent, 19 parts of inorganic solid particles, 15 parts of corrosion inhibiter, 9 parts of acid fog inhibitor, 5 parts of triethanolamine oleate, surface conditioner 4 Part, 6 parts of restrainer, 7 parts of emulsifier, 78 parts of deionized water.

As further scheme of the invention: the surfactant is alkyl ether phosphate, polycarbonate and 12 Alkyl diethanolamide combines, and three's proportion is 3:3:5.

As further scheme of the invention: the antibacterial agent is Hinered phenols crosslinking agent and phosphorous acid esters crosslinking agent It combines, the two proportion is 2:1.

As the present invention further scheme: the inorganic solid particles include but is not limited to titanium dioxide, kaolin, One or two kinds of any combination of talcum, calcium carbonate, zinc oxide and mica, the granularity of inorganic solid particles are about 10 to about 30 micro- Rice.

As the present invention further scheme: the corrosion inhibiter be selected from methenamine, phenylpropyl triazole, triethanolamine, At least one of thiocarbamide.

As the present invention further scheme: the acid fog inhibitor include di-o-tolyl-thiourea 25%, starch 20%, Salt 30%, dextrin 20% and spaonin powder 5%, by weight percentage.

As further scheme of the invention: the emulsifier is OP-10 emulsifier.

Based on the preparation method of the bearing oil-removing cleaning agent, steps are as follows:

1) prepare raw material: weighed by the parts by weight of above-mentioned formula, 50-65 parts of surfactant, 23-37 parts of antibacterial agent, 13-25 parts of inorganic solid particles, 12-19 parts of corrosion inhibiter, 6-13 parts of acid fog inhibitor, 2-8 parts of triethanolamine oleate, surface adjustment 2-6 parts of agent, 3-9 parts of restrainer, 5-9 parts of emulsifier, 73-85 parts of deionized water；

2) weighed 13-25 parts of inorganic solid particles are placed at a temperature of 100~150 DEG C and are dried, contain its moisture Amount is less than 1.5~2.5%；

3) acid fog inhibitor is prepared: by di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and gleditsia sinensis Powder 5%, by weight percentage, the acid fog inhibitor that mixed configuration goes out the part of the 6-13 in step 1) are spare；

4) deionized water of amphoteric surfactant, 1/2 is added in reaction kettle and is stirred 5-10min and is allowed to dissolve, Then the acid fog inhibitor in inorganic solid particles and step 3) being added in step 2) stirs and evenly mixs；

5) antibacterial agent, corrosion inhibiter, restrainer, emulsifier are added sequentially in the reaction kettle in step 4), Bian Jia Expect that side stirring is stirred for 5 minutes after all adding；

6) deionized water of triethanolamine oleate and residue 1/2 is added and stirs and is mixed in the reaction kettle of step 5) It is even, it fills after uniformly and obtains bearing oil-removing cleaning agent.

Purposes of the bearing oil-removing cleaning agent in bearing cleaning.

Compared with prior art, the beneficial effects of the present invention are:

Bearing oil-removing cleaning agent produced by the present invention, using alkyl ether phosphate, polycarbonate and dodecyl diethanol Amide combines preparation surfactant, can dissolve spot rapidly, and coupling agent, dispersing agent, cleaning agent and table in raw material Face activating agent can be further improved the cleaning efficiency of this bearing oil-removing cleaning agent, only need a small amount of cleaning agent i.e. in use Can rapidly bearing cleaning, the cleaning speed of cleaning agent is fast, and will not waste cleaning agent, will not generate acid mist, safe to the human body, The feature of environmental protection is good, and sterilizing ability is stablized, and does not generate noxious material in production, storage, use and cleaning process, can be clear quickly It washes off, is conducive to the protection of environment.

Specific embodiment

Technical solution of the present invention is described in more detail With reference to embodiment.

Embodiment 1

A kind of bearing oil-removing cleaning agent, including below according to the raw material of parts by weight: 50 parts of surfactant, antibacterial agent 23 Part, 13 parts of inorganic solid particles, 12 parts of corrosion inhibiter, 6 parts of acid fog inhibitor, 2 parts of triethanolamine oleate, 2 parts of surface conditioner, acid 3 parts of pickling inhibitor, 5 parts of emulsifier, 73 parts of deionized water.

Preferably, in the present embodiment, the surfactant is alkyl ether phosphate, polycarbonate and dodecyl two Glycollic amide combines, and three's proportion is 3:3:5.

Preferably, in the present embodiment, the antibacterial agent is that Hinered phenols crosslinking agent is mutually tied with phosphorous acid esters crosslinking agent It closes, the two proportion is 2:1.

Preferably, in the present embodiment, the inorganic solid particles include calcium carbonate, and the granularity of inorganic solid particles is 20 Micron.

Preferably, in the present embodiment, the corrosion inhibiter is phenylpropyl triazole.

Preferably, in the present embodiment, the acid fog inhibitor includes di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and spaonin powder 5%, by weight percentage.

Preferably, in the present embodiment, the emulsifier is OP-10 emulsifier.

Based on the preparation method of the bearing oil-removing cleaning agent, steps are as follows:

1) prepare raw material: being weighed by the parts by weight of above-mentioned formula, it is 50 parts of surfactant, 23 parts of antibacterial agent, inorganic solid 13 parts of body particle, 12 parts of corrosion inhibiter, 6 parts of acid fog inhibitor, 2 parts of triethanolamine oleate, 2 parts of surface conditioner, restrainer 3 Part, 5 parts of emulsifier, 73 parts of deionized water；

2) weighed 13 parts of inorganic solid particles are placed at a temperature of 100 DEG C and are dried, be less than its moisture content 2.5%；

3) acid fog inhibitor is prepared: by di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and gleditsia sinensis Powder 5%, by weight percentage, it is spare that mixed configuration goes out 6 parts of acid fog inhibitor in step 1)；

4) deionized water of amphoteric surfactant, 1/2 is added in reaction kettle and is stirred 5min and is allowed to dissolve, then The acid fog inhibitor in inorganic solid particles and step 3) being added in step 2) stirs and evenly mixs；

5) antibacterial agent, corrosion inhibiter, restrainer, emulsifier are added sequentially in the reaction kettle in step 4), Bian Jia Expect that side stirring is stirred for 5 minutes after all adding；

6) deionized water of triethanolamine oleate and residue 1/2 is added and stirs and is mixed in the reaction kettle of step 5) It is even, it fills after uniformly and obtains bearing oil-removing cleaning agent.

Embodiment 2

A kind of bearing oil-removing cleaning agent, including below according to the raw material of parts by weight: 65 parts of surfactant, antibacterial agent 37 Part, 25 parts of inorganic solid particles, 19 parts of corrosion inhibiter, 13 parts of acid fog inhibitor, 8 parts of triethanolamine oleate, 6 parts of surface conditioner, 9 parts of restrainer, 9 parts of emulsifier, 85 parts of deionized water.

Preferably, in the present embodiment, the surfactant is alkyl ether phosphate, polycarbonate and dodecyl two Glycollic amide combines, and three's proportion is 3:3:5.

Preferably, in the present embodiment, the antibacterial agent is that Hinered phenols crosslinking agent is mutually tied with phosphorous acid esters crosslinking agent It closes, the two proportion is 2:1.

Preferably, in the present embodiment, the inorganic solid particles include kaolin, and the granularity of inorganic solid particles is 20 Micron.

Preferably, in the present embodiment, the corrosion inhibiter is triethanolamine and phenylpropyl triazole, weight ratio 2:1.

Preferably, in the present embodiment, the acid fog inhibitor includes di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and spaonin powder 5%, by weight percentage.

Preferably, in the present embodiment, the emulsifier is OP-10 emulsifier.

Based on the preparation method of the bearing oil-removing cleaning agent, steps are as follows:

1) prepare raw material: being weighed by the parts by weight of above-mentioned formula, it is 65 parts of surfactant, 37 parts of antibacterial agent, inorganic solid 25 parts of body particle, 19 parts of corrosion inhibiter, 13 parts of acid fog inhibitor, 8 parts of triethanolamine oleate, 6 parts of surface conditioner, restrainer 9 parts, 9 parts of emulsifier, 85 parts of deionized water；

2) weighed 25 parts of inorganic solid particles are placed at a temperature of 150 DEG C and are dried, be less than its moisture content 2.5%；

3) acid fog inhibitor is prepared: by di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and gleditsia sinensis Powder 5%, by weight percentage, it is spare that mixed configuration goes out 13 parts of acid fog inhibitor in step 1)；

4) deionized water of amphoteric surfactant, 1/2 is added in reaction kettle and is stirred 10min and is allowed to dissolve, so The acid fog inhibitor in inorganic solid particles and step 3) being added in step 2) afterwards stirs and evenly mixs；

5) antibacterial agent, corrosion inhibiter, restrainer, emulsifier are added sequentially in the reaction kettle in step 4), Bian Jia Expect that side stirring is stirred for 5 minutes after all adding；

6) deionized water of triethanolamine oleate and residue 1/2 is added and stirs and is mixed in the reaction kettle of step 5) It is even, it fills after uniformly and obtains bearing oil-removing cleaning agent.

Embodiment 3

A kind of bearing oil-removing cleaning agent, including below according to the raw material of parts by weight: 58 parts of surfactant, antibacterial agent 30 Part, 19 parts of inorganic solid particles, 15 parts of corrosion inhibiter, 9 parts of acid fog inhibitor, 5 parts of triethanolamine oleate, 4 parts of surface conditioner, acid 6 parts of pickling inhibitor, 7 parts of emulsifier, 78 parts of deionized water.

Preferably, in the present embodiment, the surfactant is alkyl ether phosphate, polycarbonate and dodecyl two Glycollic amide combines, and three's proportion is 3:3:5.

Preferably, in the present embodiment, the antibacterial agent is that Hinered phenols crosslinking agent is mutually tied with phosphorous acid esters crosslinking agent It closes, the two proportion is 2:1.

Preferably, in the present embodiment, the inorganic solid particles include titanium dioxide, zinc oxide and mica combination, nothing The granularity of machine solid particle is 20 microns.

Preferably, in the present embodiment, the corrosion inhibiter is triethanolamine and phenylpropyl triazole, weight ratio 2:3.

Preferably, in the present embodiment, the acid fog inhibitor includes di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and spaonin powder 5%, by weight percentage.

Preferably, in the present embodiment, the emulsifier is OP-10 emulsifier.

Based on the preparation method of the bearing oil-removing cleaning agent, steps are as follows:

1) prepare raw material: being weighed by the parts by weight of above-mentioned formula, it is 58 parts of surfactant, 30 parts of antibacterial agent, inorganic solid 19 parts of body particle, 15 parts of corrosion inhibiter, 9 parts of acid fog inhibitor, 5 parts of triethanolamine oleate, 4 parts of surface conditioner, restrainer 6 Part, 7 parts of emulsifier, 78 parts of deionized water；

2) weighed 19 parts of inorganic solid particles are placed at a temperature of 130 DEG C and are dried, be less than its moisture content 2.5%；

3) acid fog inhibitor is prepared: by di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and gleditsia sinensis Powder 5%, by weight percentage, it is spare that mixed configuration goes out 9 parts of acid fog inhibitor in step 1)；

4) deionized water of amphoteric surfactant, 1/2 is added in reaction kettle and is stirred 8min and is allowed to dissolve, then The acid fog inhibitor in inorganic solid particles and step 3) being added in step 2) stirs and evenly mixs；

5) antibacterial agent, corrosion inhibiter, restrainer, emulsifier are added sequentially in the reaction kettle in step 4), Bian Jia Expect that side stirring is stirred for 5 minutes after all adding；

6) deionized water of triethanolamine oleate and residue 1/2 is added and stirs and is mixed in the reaction kettle of step 5) It is even, it fills after uniformly and obtains bearing oil-removing cleaning agent.

Embodiment 4

A kind of bearing oil-removing cleaning agent, including below according to the raw material of parts by weight: 55 parts of surfactant, antibacterial agent 28 Part, 17 parts of inorganic solid particles, 14 parts of corrosion inhibiter, 8 parts of acid fog inhibitor, 4 parts of triethanolamine oleate, 3 parts of surface conditioner, acid 5 parts of pickling inhibitor, 6 parts of emulsifier, 75 parts of deionized water.

Preferably, in the present embodiment, the surfactant is alkyl ether phosphate, polycarbonate and dodecyl two Glycollic amide combines, and three's proportion is 3:3:5.

Preferably, in the present embodiment, the antibacterial agent is that Hinered phenols crosslinking agent is mutually tied with phosphorous acid esters crosslinking agent It closes, the two proportion is 2:1.

Preferably, in the present embodiment, the inorganic solid particles are mica, and the granularity of inorganic solid particles is 15 micro- Rice.

Preferably, in the present embodiment, the corrosion inhibiter is methenamine.

Preferably, in the present embodiment, the acid fog inhibitor includes di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and spaonin powder 5%, by weight percentage.

Preferably, in the present embodiment, the emulsifier is OP-10 emulsifier.

Based on the preparation method of the bearing oil-removing cleaning agent, steps are as follows:

1) prepare raw material: being weighed by the parts by weight of above-mentioned formula, it is 55 parts of table surfactant, 28 parts of antibacterial agent, inorganic 17 parts of solid particle, 14 parts of corrosion inhibiter, 8 parts of acid fog inhibitor, 4 parts of triethanolamine oleate, 3 parts of surface conditioner, pickling inhibition 5 parts of agent, 6 parts of emulsifier, 75 parts of deionized water；

2) weighed 17 parts of inorganic solid particles are placed at a temperature of 130 DEG C and are dried, be less than its moisture content 2.5%；

3) acid fog inhibitor is prepared: by di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and gleditsia sinensis Powder 5%, by weight percentage, it is spare that mixed configuration goes out 8 parts of acid fog inhibitor in step 1)；

4) deionized water of amphoteric surfactant, 1/2 is added in reaction kettle and is stirred 6min and is allowed to dissolve, then The acid fog inhibitor in inorganic solid particles and step 3) being added in step 2) stirs and evenly mixs；

5) antibacterial agent, corrosion inhibiter, restrainer, emulsifier are added sequentially in the reaction kettle in step 4), Bian Jia Expect that side stirring is stirred for 5 minutes after all adding；

6) deionized water of triethanolamine oleate and residue 1/2 is added and stirs and is mixed in the reaction kettle of step 5) It is even, it fills after uniformly and obtains bearing oil-removing cleaning agent.

Embodiment 5

A kind of bearing oil-removing cleaning agent, including below according to the raw material of parts by weight: 60 parts of surfactant, antibacterial agent 32 Part, 21 parts of inorganic solid particles, 16 parts of corrosion inhibiter, 11 parts of acid fog inhibitor, 6 parts of triethanolamine oleate, 5 parts of surface conditioner, 7 parts of restrainer, 8 parts of emulsifier, 80 parts of deionized water.

Preferably, in the present embodiment, the surfactant is alkyl ether phosphate, polycarbonate and dodecyl two Glycollic amide combines, and three's proportion is 3:3:5.

Preferably, in the present embodiment, the antibacterial agent is that Hinered phenols crosslinking agent is mutually tied with phosphorous acid esters crosslinking agent It closes, the two proportion is 2:1.

Preferably, in the present embodiment, the inorganic solid particles are zinc oxide, and the granularity of inorganic solid particles is 30 micro- Rice.

Preferably, in the present embodiment, the corrosion inhibiter is phenylpropyl triazole.

Preferably, in the present embodiment, the acid fog inhibitor includes di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and spaonin powder 5%, by weight percentage.

Preferably, in the present embodiment, the emulsifier is OP-10 emulsifier.

Based on the preparation method of the bearing oil-removing cleaning agent, steps are as follows:

1) prepare raw material: being weighed by the parts by weight of above-mentioned formula, it is 60 parts of surfactant, 32 parts of antibacterial agent, inorganic solid 21 parts of body particle, 16 parts of corrosion inhibiter, 11 parts of acid fog inhibitor, 6 parts of triethanolamine oleate, 5 parts of surface conditioner, restrainer 7 parts, 8 parts of emulsifier, 80 parts of deionized water；

2) weighed 21 parts of inorganic solid particles are placed at a temperature of 150 DEG C and are dried, be less than its moisture content 2.5%；

3) acid fog inhibitor is prepared: by di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and gleditsia sinensis Powder 5%, by weight percentage, it is spare that mixed configuration goes out 11 parts of acid fog inhibitor in step 1)；

4) deionized water of amphoteric surfactant, 1/2 is added in reaction kettle and is stirred 7min and is allowed to dissolve, then The acid fog inhibitor in inorganic solid particles and step 3) being added in step 2) stirs and evenly mixs；

5) antibacterial agent, corrosion inhibiter, restrainer, emulsifier are added sequentially in the reaction kettle in step 4), Bian Jia Expect that side stirring is stirred for 5 minutes after all adding；

6) deionized water of triethanolamine oleate and residue 1/2 is added and stirs and is mixed in the reaction kettle of step 5) It is even, it fills after uniformly and obtains bearing oil-removing cleaning agent.

Comparative example 1

Bearing oil-removing cleaning agent is prepared according to method same as Example 3, compared with Example 3, difference is only that not Using surfactant, other are same as Example 3.I.e. in the comparative example, the bearing oil-removing cleaning agent, including below according to The raw material of parts by weight: 30 parts of antibacterial agent, 19 parts of inorganic solid particles, 15 parts of corrosion inhibiter, 9 parts of acid fog inhibitor, oleic acid triethanolamine 5 parts of amine, 4 parts of surface conditioner, 6 parts of restrainer, 7 parts of emulsifier, 78 parts of deionized water.

Comparative example 2

Bearing oil-removing cleaning agent is prepared according to method same as Example 3, compared with Example 3, difference is only that not Using antibacterial agent, other are same as Example 3.I.e. in the comparative example, the bearing oil-removing cleaning agent, including below according to weight The raw material of part: 58 parts of surfactant, 19 parts of inorganic solid particles, 15 parts of corrosion inhibiter, 9 parts of acid fog inhibitor, oleic acid triethanolamine 5 parts of amine, 4 parts of surface conditioner, 6 parts of restrainer, 7 parts of emulsifier, 78 parts of deionized water.

Comparative example 3

Bearing oil-removing cleaning agent is prepared according to method same as Example 3, compared with Example 3, difference is only that not Using surfactant and antibacterial agent, other are same as Example 3.I.e. in the comparative example, the bearing oil-removing cleaning agent, including Below according to the raw material of parts by weight: 19 parts of inorganic solid particles, 15 parts of corrosion inhibiter, 9 parts of acid fog inhibitor, triethanolamine oleate 5 Part, 4 parts of surface conditioner, 6 parts of restrainer, 7 parts of emulsifier, 78 parts of deionized water.

Performance test:

Bearing oil-removing cleaning agent prepared by embodiment 3 and comparative example 1~3 is subjected to cleaning test:

Embodiment 3 and comparative example is respectively adopted to be tested for the property bearing oil-removing cleaning agent, test result is examined It surveys, testing result is as follows.

1 testing result table of table

Group	Degreasing rate (%)	It is rinsability	Oil removing ability (25 DEG C)
				Embodiment 3	85	Noresidue	96.8%
Comparative example 1	59	Noresidue	84.5%
				Comparative example 2	69	Noresidue	78.3%
Comparative example 3	35	There are a large amount of residues	66.9%

From result above as can be seen that table 1 statistics indicate that the embodiment of the present invention 3 use surfactant and antibacterial Agent has good oil removing ability, degreasing performance and rinse capacity, and oil removing ability can achieve 96.8% at 25 DEG C, degreasing rate Reach 85%, residue is almost reduced to 0 after cleaning；Comparative example does not use surfactant and antibacterial agent to make under cleaning performance simultaneously Drop.

Using bearing oil-removing cleaning agent of the invention, alkyl ether phosphate, polycarbonate and lauryl diethanolamide Preparation surfactant is combined, spot can be dissolved rapidly, and coupling agent, dispersing agent, cleaning agent and the surface in raw material are living Property agent can be further improved the cleaning efficiency of this bearing oil-removing cleaning agent, only need a small amount of cleaning agent fast in use Fast ground bearing cleaning, the cleaning speed of cleaning agent is fast, and will not waste cleaning agent, will not generate acid mist, safe to the human body, environmental protection Property it is good, sterilizing ability stablize, do not generate noxious material in production, storage, use and cleaning process, can be cleaned quickly Fall, is conducive to the protection of environment.

Better embodiment of the invention is explained in detail above, but the present invention is not limited to above-mentioned embodiment party Formula within the knowledge of one of ordinary skill in the art can also be without departing from the purpose of the present invention Various changes can be made.

Claims (10)

1. a kind of bearing oil-removing cleaning agent, which is characterized in that including below according to the raw material of parts by weight: surfactant 50-65 Part, 23-37 parts of antibacterial agent, 13-25 parts of inorganic solid particles, 12-19 parts of corrosion inhibiter, 6-13 parts of acid fog inhibitor, oily triethylenetetraminehexaacetic acid 2-8 parts of hydramine, 2-6 parts of surface conditioner, 3-9 parts of restrainer, 5-9 parts of emulsifier, 73-85 parts of deionized water.

2. bearing oil-removing cleaning agent according to claim 1, which is characterized in that including below according to the raw material of parts by weight: 55-60 parts of surfactant, 28-32 parts of antibacterial agent, 17-21 parts of inorganic solid particles, 14-16 parts of corrosion inhibiter, acid fog inhibitor 8-11 parts, 4-6 parts of triethanolamine oleate, 3-5 parts of surface conditioner, 5-7 parts of restrainer, 6-8 parts of emulsifier, deionized water 75-80 parts.

3. bearing oil-removing cleaning agent according to claim 2, which is characterized in that including below according to the raw material of parts by weight: 58 parts of surfactant, 30 parts of antibacterial agent, 19 parts of inorganic solid particles, 15 parts of corrosion inhibiter, 9 parts of acid fog inhibitor, oily triethylenetetraminehexaacetic acid 5 parts of hydramine, 4 parts of surface conditioner, 6 parts of restrainer, 7 parts of emulsifier, 78 parts of deionized water.

4. bearing oil-removing cleaning agent according to claim 1 to 3, which is characterized in that the surfactant is alkyl Ether phosphate, polycarbonate and lauryl diethanolamide combine, and three's proportion is 3:3:5.

5. according to any bearing oil-removing cleaning agent of claim 4, which is characterized in that the antibacterial agent is Hinered phenols friendship Connection agent and phosphorous acid esters crosslinking agent combine, and the two proportion is 2:1.

6. according to any bearing oil-removing cleaning agent of claim 5, which is characterized in that the inorganic solid particles include two One or two kinds of any combination of titanium oxide, kaolin, talcum, calcium carbonate, zinc oxide and mica, the granularity of inorganic solid particles It is 10 to 30 microns.

7. according to any bearing oil-removing cleaning agent of claim 6, which is characterized in that the corrosion inhibiter be methenamine, At least one of phenylpropyl triazole, triethanolamine, thiocarbamide.

8. any bearing oil-removing cleaning agent according to claim 1, which is characterized in that the acid fog inhibitor includes two adjacent Toluene thiocarbamide 25%, starch 20%, salt 30%, dextrin 20% and spaonin powder 5%, by weight percentage.

9. bearing oil-removing cleaning agent according to claim 1, which is characterized in that the emulsifier is OP-10 emulsifier.

10. a kind of preparation method of bearing oil-removing cleaning agent according to claim 8, which is characterized in that steps are as follows:

1) prepare raw material: being weighed by the parts by weight of above-mentioned formula, it is 50-65 parts of surfactant, 23-37 parts of antibacterial agent, inorganic 13-25 parts of solid particle, 12-19 parts of corrosion inhibiter, 6-13 parts of acid fog inhibitor, 2-8 parts of triethanolamine oleate, surface conditioner 2- 6 parts, 3-9 parts of restrainer, 5-9 parts of emulsifier, 73-85 parts of deionized water；

2) weighed 13-25 parts of inorganic solid particles are placed at a temperature of 100~150 DEG C and are dried, keep its moisture content few In 1.5~2.5%；

3) acid fog inhibitor is prepared: by di-o-tolyl-thiourea 25%, starch 20%, salt 30%, dextrin 20% and spaonin powder 5%, by weight percentage, the acid fog inhibitor that mixed configuration goes out the part of the 6-13 in step 1) is spare；

4) deionized water of amphoteric surfactant, 1/2 is added in reaction kettle and is stirred 5-10min and is allowed to dissolve, then The acid fog inhibitor in inorganic solid particles and step 3) being added in step 2 stirs and evenly mixs；

5) antibacterial agent, corrosion inhibiter, restrainer, emulsifier are added sequentially in the reaction kettle in step 4), in charging Stirring is stirred for 5 minutes after all adding；

6) deionized water of triethanolamine oleate and residue 1/2 is added in the reaction kettle of step 5) and stirs and is uniformly mixed, filled Bearing oil-removing cleaning agent is obtained after uniformly.