CN106654957A - Low-voltage extraction switchgear and anti-corrosion technology thereof - Google Patents

Abstract

The invention discloses a low-voltage extraction switchgear. The low-voltage extraction switchgear comprises, by mass, 3 to 6% of Zn, 1 to 1.5% of Mo, 1 to 1.2% of Ti, 0.02 to 0.03% of N , 8 to 11% of Cr, 0.01 to 0.03% of C, 0.5 to 0.7% of Mn, 0.3 to 0.6% of Nb, 0.7 to 0.9% of Mg, 0.3 to 0.4% of Cu, 0.5 to 0.7% of W, 0.3 to 0.5% of Si, 0.025 to 0.030% of P, 0.008 to 0.010% of S and 0.1 to 0.3% of rare earth elements. The balance is Fe and unavoidable impurities. The invention further relates to the anti-corrosion technology of the low-voltage extraction switchgear. The anti-corrosion technology is simple and practicable. The anti-corrosion performance of the switchgear can be effectively improved. The service life is prolonged. The cost is reduced.

Description

A kind of low voltage drawing-out switching carbinet and its anticorrosion process

Technical field

The present invention relates to a kind of switch cubicle, and in particular to a kind of low voltage drawing-out switching carbinet and its anticorrosion process.

Background technology

Switch cubicle is a kind of electrical equipment, and switch cubicle outside line is introduced into master switch in cabinet, is switched subsequently into sub-control, respectively Branch is needed to arrange by it, such as instrument, automatic control, motor magnetic switch, various A.C. contactors etc., have also set hyperbaric chamber with Low-pressure chamber switch cubicle, is provided with high voltage bus, such as power plant, and what is had is additionally provided with to protect the low-frequency load reduction of capital equipment.

The Main Function of switch cubicle is to be generated electricity, transmitted electricity in power system, during distribution and electric energy change, being carried out Folding, control and protection electrical equipment, the part in switch cubicle mainly has breaker, disconnecting switch, on-load switch, operation machine Structure, transformer and various protection devices etc. are constituted, and High-low voltage switch cabinet is one kind of switch cubicle, existing High-low voltage switch cabinet Can indoors use, it is also possible to use out of doors, but when in use, be subject to invade compared with switch cubicle under harsh conditions Erosion, or the inadequate high temperature resistant in the case of temperature is higher, shorten the service life of switch cubicle.

The content of the invention

The technical problem to be solved is, for the shortcoming that above prior art is present, proposes that a kind of low pressure is taken out Go out formula switch cubicle and its anticorrosion process, the anticorrosion process is simple, can effectively improve the antiseptic property of switch cubicle, extend it Service life, reduces cost.

The present invention solves the technical scheme of above technical problem：

A kind of low voltage drawing-out switching carbinet, the switch cubicle includes by mass percentage following components：

Zn：3-6%, Mo：1-1.5%, Ti：1-1.2%, N：0.02-0.03%, Cr：8-11%, C：0.01-0.03%, Mn：0.5- 0.7%, Nb：0.3-0.6%, Mg：0.7-0.9%, Cu：0.3-0.4 %, W：0.5-0.7%, Si：0.3-0.5%, P：0.025- 0.030%, S：0.008-0.010%, rare earth element：0.1-0.3%, remaining is Fe and inevitable impurity；

Described rare earth element includes by mass percentage following components：Lanthanum：5-7 %, cerium：5-8%, scandium：6-7%, yttrium：3- 7%, gadolinium：5-7%, praseodymium：15-18 %, remaining is other lanthanide series, and above each component sum is 100%.

The of the invention technical scheme for further limiting as：

In aforementioned low voltage drawing-out switching carbinet, the switch cubicle includes by mass percentage following components：

Zn：3%, Mo：1 %, Ti：1%, N：0.02%, Cr：8%, C：0.01%, Mn：0.5%, Nb：0.3%, Mg：0.7%, Cu：0.3 %, W：0.5%, Si：0.3%, P：0.025%, S：0.008%, rare earth element：0.1-0.3%, remaining is Fe and inevitably miscellaneous Matter；

Rare earth element includes by mass percentage following components：Lanthanum：5%, cerium：5%, scandium：6%, yttrium：3%, gadolinium：5%, praseodymium：15%, Remaining is other lanthanide series, and above each component sum is 100%.

In aforementioned low voltage drawing-out switching carbinet, the switch cubicle includes by mass percentage following components：

Zn：6%, Mo：1.5%, Ti：1.2%, N：0.03%, Cr：11%, C：0.03%, Mn：0.7%, Nb：0.6%, Mg：0.9%, Cu： 0.4 %, W：0.7%, Si：0.5%, P：0.030%, S：0.010%, rare earth element：0.3%, remaining is Fe and inevitably miscellaneous Matter；

Rare earth element includes by mass percentage following components：Lanthanum：7 %, cerium：8%, scandium：7%, yttrium：7%, gadolinium：7%, praseodymium：18 %, remaining is other lanthanide series, and above each component sum is 100%.

In aforementioned low voltage drawing-out switching carbinet, the switch cubicle includes by mass percentage following components：

Zn：4%, Mo：1.2%, Ti：1.1%, N：0.025%, Cr：9%, C：0.02%, Mn：0.6%, Nb：0.4%, Mg：0.8%, Cu： 0.35 %, W：0.6%, Si：0.4%, P：0.028%, S：0.009%, rare earth element：0.2%, remaining is Fe and inevitably miscellaneous Matter；

Rare earth element includes by mass percentage following components：Lanthanum：6 %, cerium：6%, scandium：6%, yttrium：5%, gadolinium：6%, praseodymium：16 %, remaining is other lanthanide series, and above each component sum is 100%.

The invention further relates to a kind of anticorrosion process of low voltage drawing-out switching carbinet, coats one layer and prevents in the outer surface of switch cubicle Rotten layer, described anticorrosive coat is by parts by weight including following components：

Bisphenol A-type polyether-ether-ketone resin：40-60 parts, black lead wash：5-9 parts, defoamer：9-14 parts, levelling agent：2-5 parts, solvent： 10-20 parts, cosolvent：8-12 parts；Thixotropic agent：4-8 parts, surfactant：3-5 parts, mould inhibitor：2-4 parts；

Described defoamer is organosiloxane；The levelling agent is 1-METHYLPYRROLIDONE；The solvent be chloroform, two One kind in chloromethanes, N-methyl pyrrolidones or dimethyl sulfoxide (DMSO)；The cosolvent is methyl alcohol or ethanol；The thixotropic agent is Organo montmorillonite；The surfactant is neopelex；The mould inhibitor is substituted arene class, heterocyclic compound Thing or aminated compounds.

The anticorrosion process of aforementioned low voltage drawing-out switching carbinet, anticorrosive coat is prepared according to the following steps：

Take bisphenol A-type polyether-ether-ketone resin, black lead wash and solvent and cosolvent is put in dispersion cylinder and stirred, mixing speed is 120-200 turn/min, stirring 10-18min uniform pre-composition is obtained, be subsequently adding defoamer, levelling agent, mould inhibitor, thixotroping Agent and surfactant, continue stirring, and mixing speed is that 250-300 turns/min, and Jing is filtrated to get anti-corrosion after stirring 15-22min Coating, by anticorrosive paint the surface of switch cubicle is sprayed on, and solidification is dried to obtain anticorrosive coat.

The invention has the beneficial effects as follows：

Foaming agent is added in the anticorrosive coat of the present invention and effectively raise gas permeability, improve the bonding shape of powder particle State, improves wear resistence so that surface slightly soluble is roughened, hence it is evident that improve the being coated with property of coating.

Filler is adopted in the present invention and replaces existing glass flake for black lead wash, coming off of preventing that coating fragility from bringing is asked Topic, meanwhile, with matrix resin material adapted using material hardness is changed, make material produce toughness, use in denitrification apparatus and shake The direction that Shi Keyu devices are consistent, also just plays a part of peel, also enhances corrosion resistance.

Specific embodiment

Embodiment 1

The present embodiment provides a kind of low voltage drawing-out switching carbinet, and the switch cubicle includes by mass percentage following components：

Zn：3%, Mo：1 %, Ti：1%, N：0.02%, Cr：8%, C：0.01%, Mn：0.5%, Nb：0.3%, Mg：0.7%, Cu：0.3 %, W：0.5%, Si：0.3%, P：0.025%, S：0.008%, rare earth element：0.1-0.3%, remaining is Fe and inevitably miscellaneous Matter；

Rare earth element includes by mass percentage following components：Lanthanum：5%, cerium：5%, scandium：6%, yttrium：3%, gadolinium：5%, praseodymium：15%, Remaining is other lanthanide series, and above each component sum is 100%；

The anticorrosion process of above-mentioned low voltage drawing-out switching carbinet, in the outer surface of switch cubicle one layer of anticorrosive coat, described anti-corrosion are coated Layer is by parts by weight including following components：

Bisphenol A-type polyether-ether-ketone resin：40-60 parts, black lead wash：5-9 parts, defoamer：9-14 parts, levelling agent：2-5 parts, solvent： 10-20 parts, cosolvent：8-12 parts；Thixotropic agent：4-8 parts, surfactant：3-5 parts, mould inhibitor：2-4 parts；

Defoamer is organosiloxane；Levelling agent is 1-METHYLPYRROLIDONE；Solvent is chloroform；Cosolvent is methyl alcohol；Touch Change agent is into organo montmorillonite；Surfactant is neopelex；Mould dose of institute is substituted arene class compound；

Anticorrosive coat is prepared according to the following steps：

Take bisphenol A-type polyether-ether-ketone resin, black lead wash and solvent and cosolvent is put in dispersion cylinder and stirred, mixing speed is 120-200 turn/min, stirring 10-18min uniform pre-composition is obtained, be subsequently adding defoamer, levelling agent, mould inhibitor, thixotroping Agent and surfactant, continue stirring, and mixing speed is that 250-300 turns/min, and Jing is filtrated to get anti-corrosion after stirring 15-22min Coating, by anticorrosive paint the surface of switch cubicle is sprayed on, and solidification is dried to obtain anticorrosive coat.

Embodiment 2

The present embodiment provides a kind of low voltage drawing-out switching carbinet, and the switch cubicle includes by mass percentage following components：

Zn：6%, Mo：1.5%, Ti：1.2%, N：0.03%, Cr：11%, C：0.03%, Mn：0.7%, Nb：0.6%, Mg：0.9%, Cu： 0.4 %, W：0.7%, Si：0.5%, P：0.030%, S：0.010%, rare earth element：0.3%, remaining is Fe and inevitably miscellaneous Matter；

Rare earth element includes by mass percentage following components：Lanthanum：7 %, cerium：8%, scandium：7%, yttrium：7%, gadolinium：7%, praseodymium：18 %, remaining is other lanthanide series, and above each component sum is 100%；

The anticorrosion process of above-mentioned low voltage drawing-out switching carbinet, in the outer surface of switch cubicle one layer of anticorrosive coat, described anti-corrosion are coated Layer is by parts by weight including following components：

Bisphenol A-type polyether-ether-ketone resin：40-60 parts, black lead wash：5-9 parts, defoamer：9-14 parts, levelling agent：2-5 parts, solvent： 10-20 parts, cosolvent：8-12 parts；Thixotropic agent：4-8 parts, surfactant：3-5 parts, mould inhibitor：2-4 parts；

Defoamer is organosiloxane；Levelling agent is 1-METHYLPYRROLIDONE；Solvent is dichloromethane；Cosolvent is ethanol；Touch Change agent is into organo montmorillonite；Surfactant is neopelex；Mould inhibitor is heterocycles compound；

Anticorrosive coat is prepared according to the following steps：

Take bisphenol A-type polyether-ether-ketone resin, black lead wash and solvent and cosolvent is put in dispersion cylinder and stirred, mixing speed is 120-200 turn/min, stirring 10-18min uniform pre-composition is obtained, be subsequently adding defoamer, levelling agent, mould inhibitor, thixotroping Agent and surfactant, continue stirring, and mixing speed is that 250-300 turns/min, and Jing is filtrated to get anti-corrosion after stirring 15-22min Coating, by anticorrosive paint the surface of switch cubicle is sprayed on, and solidification is dried to obtain anticorrosive coat.

Embodiment 3

The present embodiment provides a kind of low voltage drawing-out switching carbinet, and the switch cubicle includes by mass percentage following components：

Zn：4%, Mo：1.2%, Ti：1.1%, N：0.025%, Cr：9%, C：0.02%, Mn：0.6%, Nb：0.4%, Mg：0.8%, Cu： 0.35 %, W：0.6%, Si：0.4%, P：0.028%, S：0.009%, rare earth element：0.2%, remaining is Fe and inevitably miscellaneous Matter；

Rare earth element includes by mass percentage following components：Lanthanum：6 %, cerium：6%, scandium：6%, yttrium：5%, gadolinium：6%, praseodymium：16 %, remaining is other lanthanide series, and above each component sum is 100%；

The anticorrosion process of above-mentioned low voltage drawing-out switching carbinet, in the outer surface of switch cubicle one layer of anticorrosive coat, described anti-corrosion are coated Layer is by parts by weight including following components：

Bisphenol A-type polyether-ether-ketone resin：40-60 parts, black lead wash：5-9 parts, defoamer：9-14 parts, levelling agent：2-5 parts, solvent： 10-20 parts, cosolvent：8-12 parts；Thixotropic agent：4-8 parts, surfactant：3-5 parts, mould inhibitor：2-4 parts；

Defoamer is organosiloxane；Levelling agent is 1-METHYLPYRROLIDONE；Solvent is N-methyl pyrrolidones；Cosolvent is first Alcohol or ethanol；Thixotropic agent is organo montmorillonite；Surfactant is neopelex；Mould inhibitor is aminated compounds；

Anticorrosive coat is prepared according to the following steps：

Take bisphenol A-type polyether-ether-ketone resin, black lead wash and solvent and cosolvent is put in dispersion cylinder and stirred, mixing speed is 120-200 turn/min, stirring 10-18min uniform pre-composition is obtained, be subsequently adding defoamer, levelling agent, mould inhibitor, thixotroping Agent and surfactant, continue stirring, and mixing speed is that 250-300 turns/min, and Jing is filtrated to get anti-corrosion after stirring 15-22min Coating, by anticorrosive paint the surface of switch cubicle is sprayed on, and solidification is dried to obtain anticorrosive coat.

In addition to the implementation, the present invention can also have other embodiment.All employing equivalents or equivalent transformation shape Into technical scheme, all fall within the protection domain of application claims.

Claims (6)

1. a kind of low voltage drawing-out switching carbinet, it is characterised in that the switch cubicle includes by mass percentage following components：

Zn：3-6%, Mo：1-1.5%, Ti：1-1.2%, N：0.02-0.03%, Cr：8-11%, C：0.01-0.03%, Mn：0.5- 0.7%, Nb：0.3-0.6%, Mg：0.7-0.9%, Cu：0.3-0.4 %, W：0.5-0.7%, Si：0.3-0.5%, P：0.025- 0.030%, S：0.008-0.010%, rare earth element：0.1-0.3%, remaining is Fe and inevitable impurity；

Described rare earth element includes by mass percentage following components：Lanthanum：5-7 %, cerium：5-8%, scandium：6-7%, yttrium：3- 7%, gadolinium：5-7%, praseodymium：15-18 %, remaining is other lanthanide series, and above each component sum is 100%.

2. low voltage drawing-out switching carbinet according to claim 1, it is characterised in that the switch cubicle is wrapped by mass percentage Include following components：

Zn：3%, Mo：1 %, Ti：1%, N：0.02%, Cr：8%, C：0.01%, Mn：0.5%, Nb：0.3%, Mg：0.7%, Cu：0.3 %, W：0.5%, Si：0.3%, P：0.025%, S：0.008%, rare earth element：0.1-0.3%, remaining is Fe and inevitably miscellaneous Matter；

Described rare earth element includes by mass percentage following components：Lanthanum：5%, cerium：5%, scandium：6%, yttrium：3%, gadolinium：5%, Praseodymium：15%, remaining is other lanthanide series, and above each component sum is 100%.

3. low voltage drawing-out switching carbinet according to claim 1, it is characterised in that the switch cubicle is wrapped by mass percentage Include following components：

Zn：6%, Mo：1.5%, Ti：1.2%, N：0.03%, Cr：11%, C：0.03%, Mn：0.7%, Nb：0.6%, Mg：0.9%, Cu： 0.4 %, W：0.7%, Si：0.5%, P：0.030%, S：0.010%, rare earth element：0.3%, remaining is Fe and inevitably miscellaneous Matter；

Described rare earth element includes by mass percentage following components：Lanthanum：7 %, cerium：8%, scandium：7%, yttrium：7%, gadolinium：7%, Praseodymium：18 %, remaining is other lanthanide series, and above each component sum is 100%.

4. low voltage drawing-out switching carbinet according to claim 1, it is characterised in that the switch cubicle is wrapped by mass percentage Include following components：

Zn：4%, Mo：1.2%, Ti：1.1%, N：0.025%, Cr：9%, C：0.02%, Mn：0.6%, Nb：0.4%, Mg：0.8%, Cu： 0.35 %, W：0.6%, Si：0.4%, P：0.028%, S：0.009%, rare earth element：0.2%, remaining is Fe and inevitably miscellaneous Matter；

Described rare earth element includes by mass percentage following components：Lanthanum：6 %, cerium：6%, scandium：6%, yttrium：5%, gadolinium：6%, Praseodymium：16 %, remaining is other lanthanide series, and above each component sum is 100%.

5. the anticorrosion process of low voltage drawing-out switching carbinet as claimed in claim 1, it is characterised in that in the outer surface of switch cubicle One layer of anticorrosive coat of coating, described anticorrosive coat is by parts by weight including following components：

Bisphenol A-type polyether-ether-ketone resin：40-60 parts, black lead wash：5-9 parts, defoamer：9-14 parts, levelling agent：2-5 parts, solvent： 10-20 parts, cosolvent：8-12 parts；Thixotropic agent：4-8 parts, surfactant：3-5 parts, mould inhibitor：2-4 parts；

Described defoamer is organosiloxane；The levelling agent is 1-METHYLPYRROLIDONE；The solvent be chloroform, two One kind in chloromethanes, N-methyl pyrrolidones or dimethyl sulfoxide (DMSO)；The cosolvent is methyl alcohol or ethanol；The thixotropic agent is Organo montmorillonite；The surfactant is neopelex；The mould inhibitor is substituted arene class, heterocyclic compound Thing or aminated compounds.

6. the anticorrosion process of low voltage drawing-out switching carbinet according to claim 1, it is characterised in that the anticorrosive coat press with It is prepared by lower step：

Take bisphenol A-type polyether-ether-ketone resin, black lead wash and solvent and cosolvent is put in dispersion cylinder and stirred, mixing speed is 120-200 turn/min, stirring 10-18min uniform pre-composition is obtained, be subsequently adding defoamer, levelling agent, mould inhibitor, thixotroping Agent and surfactant, continue stirring, and mixing speed is that 250-300 turns/min, and Jing is filtrated to get anti-corrosion after stirring 15-22min Coating, by anticorrosive paint the surface of switch cubicle is sprayed on, and solidification is dried to obtain anticorrosive coat.