KR101343208B1 - Detergent for industrial use - Google Patents

Abstract

The present invention relates to an environmentally friendly detergent for industrial use. The detergent includes water, a surfactant, sodium metasilicate, sodium pyrophosphate, EDTA, and soda ash. The surfactant comprises polyethylene glycol-p-isooctyl phenyl ether and propylene glycol as an nonionic surfactant and lauryl sulfate as an anionic surfactant. The present invention is harmless to a human body, improves cleaning efficiency, and easily removes stains due to lubricant, cooling oil, and the like in a plant and the like. [Reference numerals] (AA) Surfactant (wt%);(BB) Additive (wt%);(CC) Detergency;(DD) Component;(EE) Triton X-100;(FF) Propylene glycol;(GG) Lauryl sulfate sodium;(HH) Metasilicate sodium no 9 salt;(II) Soda ash;(JJ) Composition;(KK) Middle;(LL) Excellence;(MM) Most outstanding

Description

Non-toxic industrial clean cleaner {Detergent for Industrial Use}

The present invention relates to an industrial cleaning agent, and more particularly, when washing machine parts or the like in an industrial site such as a manufacturing plant or a maintenance plant, or removing grease generated by lubricating oil or fossil fuel, solvent or TCE, etc. The present invention relates to an industrial environment-friendly cleaner that enables to remove oil stains effectively and eco-friendly without using.

Machine shops and repair shops that repair automobiles generally use detergents to wash parts and to remove grease caused by lubricating oil or fossil fuels. These greases are solvents or TCE (Trichloroethylene). Solvent, TCE, and the like are widely used as detergents because they are easily dissolved in oily solvents and the like.

However, the above-mentioned solvents such as solvents and TCE contain methylcyclohexane, which is harmful to human body and environment. Therefore, the use of solvent or TCE is limited or avoided. For this reason, it is possible to replace solvents. Research and development of excellent inorganic detergents are being actively conducted.

As an example of the cleaning agent developed to replace the solvent or TCE, there is a vehicle detergent disclosed in Japanese Patent Application Laid-open No. Hei 11-217586. The detergent disclosed in the patent document is advantageous as an impurity in the alkali component of the detergent. It is composed by mixing acidic neutralizer which neutralizes alkali component Na2O with water, and this detergent has the advantage that it is easy to remove the scale, etc., but the ability to remove the grease etc. is relatively insufficient and its use is limited.

Another example of a cleaning agent is the powder detergent composition disclosed in Japanese Patent Laid-Open No. 2008-174724, which includes sodium carbonate, sodium sesquicarbonate, sodium silicate, sodium sulfate, sodium pyrophosphate and sodium triphosphate. One or two or more inorganic salts selected from the group consisting of one or two or more chelating agents and 1 to 20% by weight of a nonionic surfactant are mixed. Since the composition contains a chelating agent, the metal ion Although there is an advantage of preventing the sedimentation of metal ions by blocking the chemical reaction of, the cleaning performance is limited because only the nonionic surfactant is used as the surfactant.

The present invention has been made to solve the problems of the conventional industrial cleaners as described above, it is an object to provide a cleaner that is environmentally friendly and non-toxic, and can exhibit a superior cleaning ability than conventional cleaners. .

The object of the present invention as described above comprises a detergent, water, surfactant, sodium metasilicate hydrate, sodium pyrophosphate, EDTA, and soda, wherein the surfactant is a nonionic surfactant, polyethylene glycol-p-isooctylphenyl. It is achieved by combining three of ether, propylene glycol, and sodium lauryl sulfate which is an anionic surfactant.

At this time, the composition ratio of the nonionic surfactant is preferably higher than the composition ratio of the anionic surfactant.

And it is preferable that the washing | cleaning agent of this invention contains sodium hexametaphosphate further.

In addition, the cleaning agent of the present invention is 50% by weight of water, 20-30% by weight of surfactant, 15-20% by weight of sodium metasilicate hydrate, 2-5% by weight of sodium pyrophosphate, 2-5% by weight of EDTA. It is more preferable that% and soda ash have a composition ratio of 2 to 5% by weight.

In addition, it is more preferable that sodium hexametaphosphate has a composition ratio of 1 to 3% by weight relative to the total detergent.

The present invention can be easily and quickly clean the grease, such as lubricating oil, cooling oil, fossil fuel, etc. generated in a factory or automobile, etc., while being excellent in cleaning performance while being harmless to a human body and the environment.

In addition, the cleaning agent of the present invention includes three surfactants having different functions, thereby greatly improving the cleaning ability.

And since the detergent of this invention contains polyethyleneglycol-p-isooctylphenylether and EDTA, the synergy of these can prevent the ligand oxidation by Mg2 + effectively.

In addition, the present invention uses sodium lauryl sulfate, which promotes the generation of bubbles, thereby increasing the contact area of the detergent with oil and the like, thereby improving the cleaning ability, and also allowing the components such as EDTA and soda ash to be uniformly dispersed in the detergent. As a result, the cleaning ability is further improved.

In addition, since the cleaning agent of the present invention includes sodium pyrophosphate to prevent oxidation and discoloration, and by using sodium pyrophosphate and EDTA together, the chemical reaction of metal ions can be more effectively blocked.

In addition, since the cleaning agent of the present invention is non-toxic, which does not contain heavy metals such as lead or chromium, or fluorine, chlorine and bromine, the cleaning operation can be safely performed.

1 is a table showing a change in the cleaning power according to the composition of the surfactant in the cleaning agent according to the present invention,
2 is a table showing a change in the cleaning power according to the composition ratio of the surfactant in the cleaning agent according to the present invention,
3 is a table showing a change in the cleaning power according to the composition ratio of additives other than surfactant in the cleaning agent according to the present invention,
Figure 4 is a table showing the change in cleaning power and fluidity according to the addition of sodium hexamethaphosphate in the cleaning agent according to the present invention,
5 is a table showing the toxicity test results of the cleaning agent according to the present invention.

Hereinafter, the configuration and operation of the present invention through the preferred embodiment in more detail.

The present invention is to provide a cleaner that is environmentally friendly and excellent cleaning performance, for this purpose, the detergent of the present invention consists of a surfactant, sodium metasilicate hexahydrate, sodium pyrophosphate, EDTA and soda cycle.

Surface active agents are substances that adsorb to the interface in dilute solutions and significantly reduce their surface tension. These surfactants usually contain two chemical functional groups (hydrophilic and hydrophobic groups) that have different properties. Retained in the molecule, it is divided into water-soluble surfactant and oil-soluble surfactant according to the size of hydrophilic group and hydrophobic group, and water-soluble surfactant is divided into ionic surfactant and nonionic surfactant according to whether or not the hydrophilic part is ionized. Ionic surfactants are further divided into anionic surfactants, cationic surfactants and amphoteric surfactants.

In the present invention, a combination of three surfactants is used to improve cleaning ability, which means that the present inventors combine two or more surfactants rather than using one type of surfactant through experiments. It was confirmed that this is advantageous for washing, and even when two or more surfactants are combined, polyethylene glycol-p-isooctylphenylether, a nonionic surfactant, and propylene glycol and anionic surfactant, lauryl sulfate, as described below, Experimental results show that the use of three surfactants in combination contributes to the improvement of cleaning ability.

The surfactant according to the present invention is a nonionic surfactant, polyethylene glycol-p-isooctylphenyl ether (trade name: Triton X-100, CAS No .: 9002-93-1), propylene glycol (CAS No .: 57-55 -6) and three surfactants of anionic surfactant Sodium Lauryl Sulfate (CAS No .: 151-21-3).

Polyethyleneglycol-p-isooctylphenylether is a kind of nonionic surfactant having a hydrophilic polyethylene oxide chain and an aromatic hydrocarbon or a lipophilic group. In the present invention, one commercially available under the trade name 'Triton X-100' is used. This surfactant not only functions as a surfactant, but also dissolves an oil component (oil component) through surface activation due to its hydrophilic and hydrophobic properties, and also functions as a cleaning agent that exerts an antibacterial effect.

In addition, when EDTA (ethylenediamine tetraacetic acid, Ethylenediaminetetraacetic Acid) described later is added to the polyethylene glycol-p-isooctylphenyl ether (triton X-100), ligand oxidation by Mg 2+ (oxidation by coordination bond) can be prevented. Can be.

Propylene glycol included in the surfactant of the present invention, like polyethylene glycol-p-isooctylphenylether, is a nonionic surfactant and reduces the interfacial tension.

And sodium lauryl sulfate (Sodium Lauryl Sulfate), unlike the polyethylene glycol-p-isooctyl phenyl ether and propylene glycol described above performs a function as a foaming agent to generate a foam as an anionic surfactant, and to form a detergent such as EDTA or soda ash described later It serves to uniformly disperse the components in the cleaning agent.

In the detergent of the present invention, sodium metasilicate nonahydrate (CAS No. 13517-24-3) is added to the surfactant having the above-described structure, and such sodium metasilicate 9 hydrochloride is used as an alkaline salt. Soluble in water, the present invention performs the cleaning function.

In the present invention, sodium pyrophosphate (CAS No. 7320-34-5) is used to block metal ions by metal chelate formation, whereby metal ions such as Fe +++, Cu ++, and Ca +++ form soluble complex salts. The chemical reaction of the metal ions is blocked to prevent precipitation, and the sodium pyrophosphate also functions as a cleaning agent, and also prevents oxidation and discoloration.

EDTA (CAS No. 139-33-3) is a chelating reagent that binds metal ions through coordination bonds in the center of the molecule. In the present invention, heavy metal ions separated by using EDTA together with sodium pyrophosphate having excellent blocking function, etc. More effectively block the chemistry of the metal, and also makes it easier to separate heavy metal ions from mechanical parts.

And the cleaning agent of the present invention includes soda ash (Soda Ash, CAS No. 497-19-8), soda ash (sodium carbonate, Sodium Carbonate) is an alkaline softening action to control the acidity and at the same time to remove carbon dioxide Has the function.

In addition, the cleaning agent of the present invention may further include sodium hexametaphosphate (Sodium Hexameta Phosphate, CAS No. 10124-56-8) in order to more effectively block the chemistry of metal ions in addition to the composition as described above, such exa Sodium metaphosphate further improves the function as a metal ion blocker and at the same time functions as a de-flocculant to impart high fluidity to the cleaning agent.

The present inventors conducted experiments while changing the composition and the composition ratio of the cleaning agent according to the present invention in order to verify the usefulness of the cleaning agent of the present invention having the composition as described above, and to grasp the cleaning effect according to the mixing ratio of each composition. It will be described below with respect to each embodiment.

In the following examples, to verify the cleaning ability of the cleaning agent, a plurality of lubricating oil supply pipes of a used vehicle with grease such as lubricating oil therein were obtained, and the amount of oil stains was removed by injecting the cleaning agent into the lubricating oil supply pipe. These tests were performed by visual inspection.

≪ Example 1 >

Example 1 in the cleaning agent according to the present invention, in order to verify the effect of the composition and the composition ratio of the surfactant, while leaving the remaining composition and composition ratio of sodium metasilicate hydrate, EDTA, soda ash and the like, while changing the composition of the surfactant In relation to the experiment, the experimental results according to Example 1 are shown in the table of FIG. At this time, water was added to the composition to have a composition ratio of 50% by weight relative to the total detergent.

In FIG. 1, it can be seen that the cleaning agent composition using three surfactants is relatively superior to the cleaning agent composition using one or two surfactants.

<Example 2>

Example 2 relates to an experiment in the cleaning agent according to the present invention while changing the composition ratio of the surfactant in order to verify the difference in the cleaning power according to the composition ratio of the surfactant consisting of three compositions, the experimental results according to Example 2 Can be summarized as in the table of FIG. 2.

<Example 3>

Example 3, in the cleaning agent according to the present invention, in order to verify the cleaning power according to the composition ratio of the other components except the surfactant composition and composition ratio of the sodium metasilicate 9 hydrochloride and EDTA while maintaining a constant composition ratio It relates to the experiment while changing only, the experimental results are shown in the table of FIG.

<Example 4>

Example 4 relates to an experiment in the cleaning agent according to the present invention while changing the composition ratio of sodium hexametaphosphate in order to determine the change in the cleaning power when the sodium hexametaphosphate is added to the composition of Example 3, The experimental results are shown in the table of FIG. 4, but the change in the cleaning power was not very large when sodium nucleated metaphosphate was added, but it was confirmed that the fluidity was improved.

And the table of Figure 5 shows the results of the toxicity test to confirm whether the toxicity is expressed when the industrial use of the cleaning agent according to the present invention, the results of the test did not show any toxicity, and thus can be used safely as an industrial cleaning agent. .

In summary, the cleaning agent according to the present invention comprises water, a surfactant, sodium metasilicate hexahydrate, sodium pyrophosphate, EDTA and soda cycle, and the surfactant is polyethylene glycol-p-isooctylphenyl ether and propylene. It consists of a combination of glycol and sodium lauryl sulfate, wherein the composition ratio of each of the components constituting the detergent is 50% by weight of water, 20-30% by weight of surfactant, and 15-20 of sodium metasilicate hydrate. It can be seen that relatively excellent cleaning ability is exhibited when the composition ranges of weight%, sodium pyrophosphate 2 to 5 wt%, EDTA 2 to 5 wt%, and soda ash 2 to 5 wt%.

As described above, the cleaning agent according to the present invention has an advantage of excellent cleaning performance by using three mixed surfactants as environmentally friendly surfactants.

Claims (5)

In the industrial cleaner to remove grease,
The cleaning agent consists of water, surfactant, sodium metasilicate hydrate, sodium pyrophosphate, EDTA and soda,
The surfactant is an industrial eco-friendly detergent comprising three combinations of a nonionic surfactant, polyethylene glycol-p-isooctylphenyl ether and propylene glycol, and anionic surfactant, sodium lauryl sulfate.
The method according to claim 1,
The weight ratio of the nonionic surfactant is higher than the weight composition ratio of the anionic surfactant.
The method according to claim 1 or 2,
The cleaner is an industrial environment-friendly cleaner, characterized in that it further comprises sodium hexametaphosphate.
delete The method according to claim 3,
The sodium hexametaphosphate is an industrial environment-friendly detergent, characterized in that it has a composition ratio of 1 to 3% by weight compared to the total detergent.

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