CN101368133A

CN101368133A - Radio equipment detergent

Info

Publication number: CN101368133A
Application number: CNA2007100261660A
Authority: CN
Inventors: 仲跻和
Original assignee: JIANGSU HAIXUN INDUSTRY GROUP SHARE Co Ltd
Current assignee: JIANGSU HAIXUN INDUSTRY GROUP SHARE Co Ltd
Priority date: 2007-08-16
Filing date: 2007-08-16
Publication date: 2009-02-18

Abstract

The invention provides a cleaner for radio equipment, comprising inorganic salt, surface active agent, penetrating agent, corrosion inhibitor, pH value regulator and deionized water; the weight percentage of all the components is as follows: 3 percent to 8 percent of the inorganic salt, 5 percent to 9 percent of the penetrating agent, 5 percent to 10 percent of the surface active agent, 1 percent to 5 percent of the corrosion inhibitor, 1 percent to 5 percent of the pH value regulator and the rest is the deionized water; the pH value of the mixing liquid of the components is 11 to 12, the color is colorless and transparent without pungent smell; the cleaner has the functions of high efficiency and easy cleaning to the radio equipment, can clean the oil stain and rusty spot on the surface of electronic component completely, can prevent the surface of the electronic component from generating rusty spot again, also can shorten the cleaning time and improve the working efficiency; the cleaner is a water soluble cleaner, has low corrosion to the equipment, reduces the production cost effectively and has safe and reliable use.

Description

Radio equipment detergent

Technical field

The present invention relates to clean-out system, relate in particular to a kind of radio equipment detergent of aq. type.

Background technology

The cleaning of electronic unit be these parts process, assemble, store and process such as maintenance in indispensable process procedure.Because the consumption of the precise electronic components and parts of wireless apparatus is quite big, therefore the workload of this type of electrical component cleaning and the usage quantity of clean-out system also are certain to corresponding increase.At present,, mainly contain the method for embathing, hydro-peening method and ultrasonic cleaning process etc., no matter take which kind of purging method, all need to use clean-out system the purging method of electronic unit.Typically program is to clean under the situation of low pH value scope earlier, the dirty pollutent that demineralizes, and then carry out high pH value and clean, remove organism.Added washing composition in some cleaning solution to help to remove serious biology and organic fragment dirt thing, simultaneously, available inner complex is assisted and is removed colloid, organism, microorganism and sulfate scale.Existing be used for radio equipment detergent and mostly be solvent-borne type, the shortcoming that these clean-out systems exist at first is that cleaning performance is not really desirable, and the top layer of black appears in electronic unit material after the cleaning easily, make troubles to following process, the processing to precision components causes puzzlement especially; Next is stronger to equipment corrosion, increases equipment cost; Moreover, cleaning temperature and scavenging period are difficult to reach simultaneously ideal conditions, under the constant situation of cleaning performance, at high temperature clean often, can shorten scavenging period, cleaning temperature is reduced under the situation of room temperature, and scavenging period just needs to prolong, and generally scavenging period needs 10 to 30 minutes at ambient temperature.

Therefore remain to be developed a kind of clean-out system of aq. type, can improve cleaning performance at ambient temperature, can also reduce corrodibility equipment.

Summary of the invention

Main purpose of the present invention is to overcome the above-mentioned shortcoming that currently available products exists, and provide a kind of radio equipment detergent, the effect that electronic unit is had efficient easy cleaning, wireless apparatus surface and oil contaminant and rust staining are cleaned thoroughly, and can prevent that the wireless apparatus surface from forming rust staining once more, can also shorten scavenging period, increase work efficiency; It is a water-soluble washing agent, and low to the corrodibility of equipment, effectively reduces production costs, and is safe and reliable.

The objective of the invention is to realize by following technical scheme.

Radio equipment detergent of the present invention comprises inorganic salt, tensio-active agent, permeate agent, inhibiter, pH value conditioning agent and deionized water; It is characterized in that: the shared weight percent of various components is: inorganic salt are 3% to 8%, and permeate agent is 5 to 9%, and tensio-active agent is 5 to 10%, and inhibiter is 1 to 5%, and the pH value conditioning agent is 1 to 5%, and deionized water is a surplus.

Aforesaid radio equipment detergent is characterized in that: described inorganic salt are sodium sulfate, sodium phosphate, trimerization sodium sulfate or potassium sulphide, trimerization vitriolate of tartar.

Aforesaid radio equipment detergent is characterized in that: described permeate agent is fatty alcohol-polyoxyethylene ether (JFC), alkaline sodium lignosulfonate or glycol ether compounds.

Aforesaid radio equipment detergent, it is characterized in that: described tensio-active agent is a nonionic surface active agent, this nonionic surface active agent is a nonionic surface active agent, and this nonionic surface active agent is alkylphenol polyoxyethylene or alkylol amide

Aforesaid radio equipment detergent is characterized in that: described glycol ether compounds is a kind of in ethylene glycol ethyl ether and the butyl glycol ether or their combination

Aforesaid radio equipment detergent is characterized in that: described aliphatic alcohol polyoxyethylene is that the polymerization degree is that 15 fatty alcohol-polyoxyethylene ether (O-15), the polymerization degree are that 20 fatty alcohol-polyoxyethylene ether (O-25), the polymerization degree are that 35 the fatty alcohol-polyoxyethylene ether (O-35) or the polymerization degree are 40 fatty alcohol-polyoxyethylene ether (O-40).

Aforesaid radio equipment detergent is characterized in that: described PH conditioning agent is a mineral alkali; Described mineral alkali is sodium hydroxide, potassium hydroxide, sodium bicarbonate or potassium permanganate.

Aforesaid radio equipment detergent is characterized in that: described inhibiter is that water-soluble of DT-402 and three eats azoles, DT-403 compound phosphine zinc prefilming agent or sodium wolframate

The preparation method of radio equipment detergent of the present invention, it is characterized in that: take by weighing inorganic salt, tensio-active agent, permeate agent, inhibiter, pH value conditioning agent and deionized water according to part by weight, at room temperature successively inorganic salt, tensio-active agent, permeate agent, inhibiter, pH value conditioning agent are joined in the deionized water, mix, be made for the clean-out system finished product.

Beneficial effect of the present invention, scientific formulation of the present invention is reasonable, and production technique is simple, does not need specific installation; Its cleansing power is strong, and scavenging period is short, saves manpower and man-hour, increases work efficiency, and has rust cleaning and antirust effect; This clean-out system is alkalescence, and is lower to the corrodibility of equipment, safe and reliable, is beneficial to the reduction equipment cost; In addition, this clean-out system is a water soluble liq.

Production technique of the present invention is simple, does not need specific installation, only needs above-mentioned raw materials mixed at normal temperatures to get final product; Its cleansing power is strong, and scavenging period is short, saves manpower and man-hour, and has rust cleaning and antirust effect; In addition, this clean-out system is water-soluble.

Embodiment

Radio equipment detergent of the present invention comprises inorganic salt, tensio-active agent, permeate agent, inhibiter, pH value conditioning agent and deionized water; The shared weight percent of various components is: inorganic salt are 3% to 8%, and permeate agent is 5 to 9%, and tensio-active agent is 5 to 10%, and inhibiter is 1 to 5%, and the pH value conditioning agent is 1 to 5%, and deionized water is a surplus.The pH value of the liquid that is mixed by said components is 11 to 12, and color is a water white transparency, has no irritating odor.

Radio equipment detergent of the present invention, wherein: inorganic salt are sodium sulfate, sodium phosphate, trimerization sodium sulfate or potassium sulphide, trimerization vitriolate of tartar; Permeate agent is fatty alcohol-polyoxyethylene ether (JFC), alkaline sodium lignosulfonate or glycol ether compounds; This glycol ether compounds is a kind of in ethylene glycol ethyl ether and the butyl glycol ether or their combination; Tensio-active agent is a nonionic surface active agent, and this nonionic surface active agent is alkylphenol polyoxyethylene or alkylol amide, and this alkylol amide is lauroyl monoethanolamine, polyoxyethylene glycol, trolamine, sodium alkyl benzene sulfonate.Permeate agent is fatty alcohol-polyoxyethylene ether (JFC), alkaline sodium lignosulfonate or glycol ether compounds; The employed polymerization degree of nonionic surface active agent is that 15 fatty alcohol-polyoxyethylene ether (O-15), the polymerization degree are that 20 fatty alcohol-polyoxyethylene ether (O-25), the polymerization degree are that 35 the fatty alcohol-polyoxyethylene ether (O-35) or the polymerization degree are 40 fatty alcohol-polyoxyethylene ether (O-40); The PH conditioning agent is a mineral alkali; This mineral alkali is sodium hydroxide, potassium hydroxide, sodium bicarbonate or potassium permanganate.Inhibiter is the water-soluble benzotriazole of DT-402, DT-403 compound phosphine zinc prefilming agent or sodium wolframate.

The preparation method of radio equipment detergent of the present invention, at first, take by weighing inorganic salt, tensio-active agent, permeate agent, inhibiter, pH value conditioning agent and deionized water according to part by weight, at room temperature successively phosphoric acid salt, tensio-active agent, permeate agent, inhibiter, pH value conditioning agent are joined in the deionized water, mix, be made for the clean-out system finished product.

Embodiment 1: configuration 20kg clean-out system.

Taking by weighing configuration weight respectively is 9% ethylene glycol ethyl ether, 3% sodium sulfate, and 8% the polymerization degree is 20 aliphatic alcohol polyoxyethylene (O-20), 2% potassium hydroxide, 1% sodium wolframate, deionized water is surplus, and is standby.

Successively ethylene glycol ethyl ether, sodium wolframate, sodium phosphate, O-20 and the potassium hydroxide of above-mentioned weight is joined in the deionized water at ambient temperature, be stirred to the uniform aqueous solution and get final product.

The pH value of this clean-out system is 11 to 12, and proportion is 1.0～1.1.

Embodiment 2: configuration 20kg clean-out system.

Taking by weighing configuration weight respectively is that 8% the polymerization degree is 40 aliphatic alcohol polyoxyethylene (O-15), 3% sodium phosphate, and 5% the polymerization degree is 40 aliphatic alcohol polyoxyethylene (O-40), 3% sodium hydroxide, the water-soluble benzotriazole of 1%DT-402, deionized water is surplus, and is standby.

Successively the water-soluble benzotriazole of the DT-402 of above-mentioned weight, O-15, sodium phosphate, O-40 and sodium hydroxide are joined in the deionized water at ambient temperature, be stirred to the uniform aqueous solution and get final product.

The pH value of this clean-out system is 11 to 12, and proportion is 1.0～1.1.

Be that 35 fatty alcohol-polyoxyethylene ether (O-35), sodium wolframate, potassiumphosphate, O-40 and sodium hydroxide join in the deionized water at ambient temperature successively with the polymerization degree of above-mentioned weight, be stirred to the uniform aqueous solution and get final product.

The pH value of this clean-out system is 11 to 12, and proportion is 1.0～1.1.

Employed raw material of the embodiment of the invention and equipment are the commercially available prod, so no longer give unnecessary details.

The tensio-active agent that contains in the radio equipment detergent of the present invention can make aluminium form compact protective film on the surface through meeting after cleaning, thereby the part after having guaranteed to clean has antirust function.Cleanup action, inhibiter that permeate agent improves scavenging solution play the corrosive effect that prevents.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, every foundation technical spirit of the present invention all still belongs in the scope of technical solution of the present invention any simple modification, equivalent variations and modification that above embodiment did.

Claims

1. a radio equipment detergent comprises inorganic salt, tensio-active agent, permeate agent, inhibiter, pH value conditioning agent and deionized water; It is characterized in that: the shared weight percent of various components is: inorganic salt are 3% to 8%, and permeate agent is 5 to 9%, and tensio-active agent is 5 to 10%, and inhibiter is 1 to 5%, and the pH value conditioning agent is 1 to 5%, and deionized water is a surplus.

2. radio equipment detergent according to claim 1 is characterized in that: described inorganic salt are sodium sulfate, sodium phosphate, trimerization sodium sulfate or potassium sulphide, trimerization vitriolate of tartar.

3. radio equipment detergent according to claim 1 is characterized in that: described tensio-active agent is a nonionic surface active agent, and this nonionic surface active agent is alkylphenol polyoxyethylene or alkylol amide.

4. radio equipment detergent according to claim 3 is characterized in that: described is alkylphenol-polyethenoxy (10) ether, alkylphenol-polyethenoxy (15) ether, aliphatic alcohol polyethenoxy (9) ether, aliphatic alcohol polyethenoxy (10) ether, aliphatic alcohol polyethenoxy (3) ether.

5. radio equipment detergent according to claim 3 is characterized in that: described alkylol amide is lauroyl monoethanolamine, polyoxyethylene glycol, trolamine, sodium alkyl benzene sulfonate.

6. radio equipment detergent according to claim 1 is characterized in that: described permeate agent is fatty alcohol-polyoxyethylene ether (JFC), alkaline sodium lignosulfonate or glycol ether compounds.

7. radio equipment detergent according to claim 6 is characterized in that: described aliphatic alcohol polyoxyethylene is that the polymerization degree is that 15 fatty alcohol-polyoxyethylene ether (0-15), the polymerization degree are that 20 fatty alcohol-polyoxyethylene ether (0-25), the polymerization degree are that 35 the fatty alcohol-polyoxyethylene ether (0-35) or the polymerization degree are 40 fatty alcohol-polyoxyethylene ether (0-40).

8. radio equipment detergent according to claim 6 is characterized in that: described glycol ether compounds is that the glycol ether compounds is ethylene glycol ethyl ether and butyl glycol ether or their compound.

9. radio equipment detergent according to claim 1 is characterized in that: described inhibiter is that water-soluble of DT-402 and three eats azoles, DT-403 compound phosphine zinc prefilming agent or sodium wolframate.

10. radio equipment detergent according to claim 1 is characterized in that: described PH conditioning agent is a mineral alkali; Described mineral alkali is sodium hydroxide, potassium hydroxide, sodium bicarbonate or potassium permanganate.