CN1722321A - Iron core exhibiting excellent insulating property at end face, and method for coating end face of iron core - Google Patents

Iron core exhibiting excellent insulating property at end face, and method for coating end face of iron core Download PDF

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Publication number
CN1722321A
CN1722321A CN 200510085587 CN200510085587A CN1722321A CN 1722321 A CN1722321 A CN 1722321A CN 200510085587 CN200510085587 CN 200510085587 CN 200510085587 A CN200510085587 A CN 200510085587A CN 1722321 A CN1722321 A CN 1722321A
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coating
iron core
organosilicon polymer
insulation
solution
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CN100561617C (en
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熊野知二
开道力
藤井浩康
东根和隆
田中收
藤井宣宪
半泽和文
田中正义
久保祐治
山田纪子
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Nippon Steel Corp
Nippon Steel Engineering Co Ltd
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Nippon Steel Corp
Nippon Steel Engineering Co Ltd
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    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C18/00Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating
    • C23C18/02Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating by thermal decomposition
    • C23C18/12Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating by thermal decomposition characterised by the deposition of inorganic material other than metallic material
    • C23C18/1204Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating by thermal decomposition characterised by the deposition of inorganic material other than metallic material inorganic material, e.g. non-oxide and non-metallic such as sulfides, nitrides based compounds
    • C23C18/122Inorganic polymers, e.g. silanes, polysilazanes, polysiloxanes
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C18/00Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating
    • C23C18/02Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating by thermal decomposition
    • C23C18/12Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating by thermal decomposition characterised by the deposition of inorganic material other than metallic material
    • C23C18/125Process of deposition of the inorganic material
    • C23C18/1254Sol or sol-gel processing
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C18/00Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating
    • C23C18/02Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating by thermal decomposition
    • C23C18/12Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating by thermal decomposition characterised by the deposition of inorganic material other than metallic material
    • C23C18/125Process of deposition of the inorganic material
    • C23C18/1262Process of deposition of the inorganic material involving particles, e.g. carbon nanotubes [CNT], flakes
    • C23C18/127Preformed particles

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Physics & Mathematics (AREA)
  • Inorganic Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • Nanotechnology (AREA)
  • Dispersion Chemistry (AREA)
  • Soft Magnetic Materials (AREA)
  • Iron Core Of Rotating Electric Machines (AREA)
  • Chemical Treatment Of Metals (AREA)
  • Other Surface Treatments For Metallic Materials (AREA)
  • Manufacture Of Motors, Generators (AREA)
  • Silicon Compounds (AREA)
  • Paints Or Removers (AREA)
  • Manufacturing Cores, Coils, And Magnets (AREA)

Abstract

A core having an insulation coating comprising a dry film of a pure silicone polymer, modified silicone polymer, and/or mixed silicone polymer as a silicone compound on the core end faces and having an average film thickness of at least 0.5 mu m, a breakdown voltage of at least 30V, and a heat resistance in the air of at least 400 DEG C; and a method of production comprising forming a core, then dipping it in or spraying it by one or more types of a pure silicone polymer, modified silicone polymer, and/or mixed silicone polymer as an insulation coating.A means for treating the end faces of a core which is used for an electrical apparatuses and etc., to give insulation extremely superior in effect of improvement of the insulation, corrosion resistance, adhesiveness, heat resistance, and magnetic properties at a low temperature in a short time without cleaning for removing punching oil, annealing, or other pre-treatment.

Description

Have the iron core of excellent end face insulation and handle end face of iron core to obtain the method for insulating coating
Technical field
The present invention relates to iron core, it have in the process of using magnetic links production iron core produced by the cutting of iron core, punching press etc., through handling by the end face that insulating coating covered extremely excellent with relate to the method for this insulation processing unshakable in one's determination at aspects such as insulation, adhesiveness, corrosion resistances.
In addition, the present invention relates to the iron core of electric equipment, applied and deposited silicon compound in the above so that improve various performances and prevent short circuit and relate to the method for producing it and relate to the high-temperature operation electric equipment and the method for this equipment of production with Si-O key.
Here, " transformer " is a kind of electric equipment, and they are by piling up or twining that magnetic material produces and comprise sensu lato electric machine iron core, generator and the transformer of the stationary apparatus of the high frequency band that is used to change voltage." magnetic material " is meant the orientated magnetic steel sheet, and non-orientated magnetic steel sheet, amorphous metal, dust be alloy and being used for from large-scale to ferromagnetic other the known soft magnetic material of having of miniature transformer not.
Background technology
When using non-orientated magnetic steel sheet to be used for electric machine iron core or stationary apparatus, this iron core is by cutting magnetic links coil, it is struck out predetermined formed body, pile up these formed bodies of predetermined number, utilize then clampings such as welding, filleting, bolt connection, pipe collar, casting, bonding they and finally make.For the situation of using the transformer core of being made by oriented electrical steel, bar shaped coil is cut, cuts or strike out predetermined formed body, afterwards the sheet material of these shapings is made stack iron core or wound core.Transformer probably is divided into three types:
1) there is the orientated magnetic steel sheet to pile up and forms " the stack transformer " that be mainly medium-to-large unshakable in one's determination
2) there are orientated magnetic steel sheet or amorphous metal to reel and form small-sized " winding type transformer " unshakable in one's determination
3) " small-sized transformer " comprises the power switched power supply annex on the equipment of being attached to, and they mainly contain non-orientated magnetic steel sheet, orientated magnetic steel sheet, amorphous metal and Ai Mo alloy as piling up and wound core (EI iron core etc.).
1) the medium-to-large transformer that is called " stack transformer " is to be used for superhigh pressure transformer station and the primary station transformer to middle transformer station.They are by the stack orientation magnetic links with nut and bolt or special adhesive tape tightens up them or will wind the line if necessary annealing or varnish coating and attaching are produced.
2) the miniature transformer that is called " winding type transformer " is the miniature transformer that the distribution in the downstream of transformer station in the middle of being positioned at is used.They are to be wound into predetermined size by orientated magnetic steel sheet and amorphous metal with cutting, it are shaped, and strain annealing then, shaping and this conductor of reeling are then assembled once more.
3) EI iron core and other miniature transformer of being attached on the electric equipment are not limited to the orientated magnetic steel sheet and also can use non-orientated magnetic steel sheet.They are to form by sheet material being cut or strike out predetermined size, piling up then.Sometimes they are also produced by reeling.
Notice that above-mentioned distinguishing characteristics only limits to Japan.In other country,, do not have 2 especially in Europe) classification.This be considered to belong to the classification 1) small-sized.
All transformers go up substantially main use magnetic links or amorphous metal as the material of iron core to guarantee efficient.
Among these, magnetic links is produced by steelmaker.Final form steelmaker there normally thickness be the steel disc that is wound in coil of 0.20-0.70mm.It is cut into needed width, further is cut to needed length then and cuts into final size.
The surface of magnetic links is handled usually to make it possessing insulating coating.Varnish and blueing is in order to improve the corrosion resistance and the insulation property on end face of iron core (surface that forms by punching press, cutting etc.).The surface insulation coating of the magnetic links of Shi Yonging is for corrosion resistance, punching property, solderability and the influential effect of insulation property by this way.Especially, thereby suppress increase because of the iron loss that eddy current loss caused in order to improve insulation property between the steel disc when piling up, people have carried out improved many researchs of relevant insulation property.
In the past, as the insulation coating agent of surface of steel plate, the organic type coating agent has been used for oriented electrical steel, and inorganic type, organic type and composite inorganic-organic type coating agent is used for non-orientation silicon steel sheet according to application or purpose.Good thermal endurance dielectric film is that oriented electrical steel is needed, because in the secondary recrystallization annealing process, on the surface of steel disc, formed the forsterite film, therefore must carry out flat processing of hot pressing under 800-900 ℃ to impel coil stationary and to remove destressing.In addition, oriented electrical steel utilizes the membrane tension effect and sizable improvement is arranged in iron loss and magnetic strain.As mentioned above, the organic type coating agent as insulating coating is not suitable for oriented electrical steel.Usually, the inorganic type coating shows excellent on thermal endurance and solderability, but punching property is relatively poor.On the other hand, organic coating performance on punching property and adhesiveness is excellent, but thermal endurance and solderability are relatively poor.In recent years, in order to eliminate the defective in the two, can show that the composite inorganic-organic type coating of performance between the two is generally used.Yet for the insulating coating that only forms when producing steel disc, these insulation property are not enough, or for the situation that comprises annealing steps, insulation property significantly descend, and therefore varnish or other insulation measures becomes very necessary.
Especially, having been found that is in recent years having big influence by the punching press or the insulation property of cutting on the formed end face of iron core for efficient unshakable in one's determination.Still need to develop a kind of industrial favourable technology that is used to handle end face of iron core.Yet for the method for the insulation processing of past end face of iron core commonly used, although the improvement of corrosion resistance or insulation property is more effective, adhesiveness, strength of coating and insulation property are not enough.
For example, blueing not only causes insulation and corrosion-resistant, and causes poor stability and cause that in heat treatment step huge funds increase.
In addition, utilizing organic compound or the processing of the varnish mainly is made up of organic compound is effectively for corrosion resistance and insulation on himself, is not enough for adhesiveness, strength of coating, insulation and thermal endurance still.Especially, the problem of wetability difference is meant needs cleaning or annealing as preliminary treatment.In addition, equally for thermal endurance, when forming process unshakable in one's determination comprised aluminium die casting or other heat treatment, this was inappropriate.
In addition, utilize the processing of phosphate or another kind of inorganic type insulating coating,, need preliminary treatment and need high temperature drying as the processing that utilizes organic type and half organic type coating.Some problems are so also arranged on coating performance equally: thick coating is difficult, and poor adhesion is owing to annealing comes off or the like insulating coating.Consider that from operational environment and efficient these prior arts have many problems, therefore need further to improve.
In addition, the phenol product of phenolic laminate, polyorganosiloxane resin laminated material, molding processing and other insulated synthetic resin material are as insulator, but these directly are not coated on the end face unshakable in one's determination, but twine or adhere to as goods, therefore can't prevent the problem of the decreasing insulating of the end face that Yin Maoci etc. causes.
In addition, also produced in recent years and used the transformer of amorphous metal as core material, but in the production of transformer, because " weak stiffness " when " insertion unshakable in one's determination (tightening) ", need carry out interim fastening because amorphous paper tinsel meeting " is torn ".The measure that prevents " tearing " is necessary.Unshakable in one's determination main the immersion in the oil of the transformer of completion, but be used to prevent that the interim fastening and fixed solution of " tearing " from needing grease resistance.This has intrinsic restriction for the various performances of looking for from the viewpoint of operating efficiency and labour health.
As electric equipment, motor, exciter, generator, transformer, reactor and other electromagnetic apparatus or heater or the like are arranged.Electromagnetic apparatus is normally by the conductor of carrying electric current and carry the magnetic circuit of magnetic flux to form.
A large amount of electric currents passes conductor and has realized the highoutput of electromagnetic apparatus.Yet if big electric current passes conductor, conductor or periphery material are heated, and have destroyed the electrical insulation capability of conductor or magnetic material, and produce some problems when each element of the equipment of tightening up.
This magnetic circuit uses iron core and yoke.Most of employed iron core is the stacked body of magnetic links.In order to tie up the iron core that this piles up, usually adopt filleting, welding, bolt to connect or the like.For filleting and welding, between the layer that piles up electrical short takes place.For AC excitation, short circuit current and the decline that causes equipment performance have been produced.Therefore, molding or bonding are used for tying up between the magnetic links sometimes.Yet for molding or bonding, it is impossible using high temperature.
In heater, heating element is fastened and insulate by other element that pottery maybe can tolerate high temperature.These are fastening to be partly.Time and work are that assembly technology is needed, and noise becomes problem with vibration because part is fastening sometimes.For the bonding etc., fastening completely is possible.If can guarantee insulation, this technical process becomes simple and automation also is possible, does not still also have at present the adhesive method that can at high temperature use.
Disclosure of an invention
The purpose of this invention is to provide the extremely quick and easy coating method that covers end face, obtain the new technology of insulating coating as handling end face of iron core, replace common varnishing, blueing and other heat treatment, this is owing to the following fact: after toasting based on blueing with in the conventional treatment that obtains insulating coating of the varnish corrosion resistance of improving end face of iron core and insulation property, in adhesiveness, insulation property, corrosion resistance, thermal endurance and the operating efficiency of insulating coating many problems are arranged.
Another order of the present invention provides the production method of electric equipment and this equipment that can at high temperature operate.
A further object of the present invention provides at electrical short and follows be suppressed and simple dressing method improved from the teeth outwards electric equipment element and this element aspect the stress and strain of wrapping.
(1) have the iron core of excellent end face insulation, what it is characterized in that end face unshakable in one's determination obtained containing at least 30% weight after treatment changes into SiO 2Silicon compound and have the insulating coating of at least 0.5 μ m average film thickness.
(2) according to the iron core in the excellent end face insulation of having described in (1), the average film thickness that is characterised in that this insulating coating is that at least 2 μ m and puncture voltage are 30V at least.
(3) according to the iron core of in (1) or (2), describing, be characterised in that this insulating coating has at least 400 ℃ * 1 hour thermal endurance in air with excellent end face insulation.
(4) according to any one described iron core in (1) to (3) with excellent end face insulation, be characterised in that silicon compound is the dry coating that contains one or more following materials: silicones, alkali silicate, colloidal silica, low-melting glass clinkering material is by passing through (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) the pure organosilicon polymer formed of the compound that hydrolysis and dehydration condensation produced of one or more materials of expression, by by (R 3) nSi (X 2) 4-n(wherein n is the integer of 0-3, R 3Be the organo-functional group except that alkyl or phenyl, a plurality of R when n=2 or 3 3Can be different, X 2Be by Cl or O (R 4) alkoxyl of expression, R wherein 4It is alkyl and as n=0, a plurality of R 1 or 2 time 4Can be different) silicon modified organic polymer formed of the compound that hydrolysis and dehydration condensation produced of one or more materials of expression, and by by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) compound of one or more types of expression and by (R 3) nSi (X 2) 4-n(wherein n is the integer of 0-3, R 3Be the organo-functional group except that alkyl or phenyl, a plurality of R when n=2 or 3 3Can be different, X 2Be by Cl or O (R 4) alkoxyl of expression, R wherein 4Be alkyl, as n=0, a plurality of R 1 or 2 time 4Can be different) one or more materials of expression hydrolysis and dehydration condensation produced is mixed with organosilicon polymer.
(5) according to (4) described iron core, be characterised in that this pure organosilicon polymer is such compound, wherein at R with excellent end face insulation 1And R 2Carbon number in the alkyl is no more than 4; and this compound is by being selected from tetramethoxy-silicane; tetraethoxysilane; tetraisopropoxysilan; four butoxy silanes; the monomethyl trimethoxy silane; the monomethyl triethoxysilane; monomethyl three isopropoxy silane; monomethyl three butoxy silanes; single ethyl trimethoxy silane; single ethyl triethoxysilane; single ethyl three isopropoxy silane; single ethyl three butoxy silanes; dimethyldimethoxysil,ne; dimethyldiethoxysilane; diethyl dimethoxy silane; the diethyl diethoxy silane; phenyltrimethoxysila,e; dimethoxydiphenylsilane; the compound that the hydrolysis of one or more materials in phenyl triethoxysilane and the diphenyl diethoxy silane and partial dehydration condensation reaction are produced, and described silicon modified organic polymer is the organosilicon polymer of acryloyl group modification; the organosilicon polymer of alkyd resins modification; the organosilicon polymer of polyester acryloyl group modification; the organosilicon polymer of epoxy radicals modification; amino modified organosilicon polymer; in the organosilicon polymer of the organosilicon polymer of vinyl modification and fluorine modification one or more.
(6) according to any one described iron core in (1)-(5) with excellent end face insulation, be characterised in that deoxygenation in the described insulating coating (O), carbon (C), hydrogen (H), nitrogen (N), sulphur (S) and fluorine (F) metallic element or semimetallic elements M in addition mainly is silicon (Si), mainly exist with described Si and the described M except that Si is one or more elements that are selected among Li, Na, K, Mg, Ca, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Ti, Zr, Nb, B, Al, Ge, Sn, P, Sb and the Bi with form with Si-O key.
(7) according to any one described iron core in (1)-(6) with excellent end face insulation, be characterised in that Si, Li, Na, K, Mg, Ca, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Ti, Zr, Nb, B, Al, Ge, Sn, P, Sb and Bi are with respect to deoxygenation in the described insulating coating (O), carbon (C), hydrogen (H), nitrogen (N), the total weight ratio of the total weight of sulphur (S) and fluorine (F) those elements in addition is at least 90 weight portions and is Si with respect to removing O in the described insulating coating, C, H, the weight ratio of the total weight of those elements beyond N and the S is at least 50 weight portions.
(8), be characterised in that this iron core is made up of non-orientated magnetic steel sheet according to any one described iron core in (1)-(7) with excellent end face insulation.
(9) transformer core of excellence extremely on insulation and corrosion resistance is characterised in that on the end face of the stacked steel sheet of magnetic material and surface to have the insulating coating of being made up of pure organosilicon polymer.
(10) the insulation and corrosion resistance on extremely the excellence transformer core, be characterised in that and in the iron core of forming by stacked magnetic material, have conductor and on magnetic material and surface of conductors, have the insulating coating of forming by pure organosilicon polymer with between.
(11) according at the transformer core of excellence extremely on insulation and corrosion resistance described in (9) or (10), be characterised in that this insulating coating has the average film thickness of 0.5-100 μ m and the puncture voltage of 30V at least.
(12) by utilize organosilicon polymer to pile up and combine strike out the magnetic element that is used for electromagnetic equipment that identical shaped substantially a plurality of magnetic material sheets being are formed, the described magnetic element that is used for electromagnetic equipment is characterised in that it is not applying under strain and/or the stress combined to the magnetic material sheets being part.
(13) basis is at the magnetic element that is used for electromagnetic equipment described in (12), and wherein armature core is made up of a plurality of laminations that separate.
(14) electric equipment of high-temperature operation, it is characterized in that having conductor combined together or a plurality of conductor and magnetic material and utilize pure organosilicon polymer to guarantee electric insulation between the adjacent elements of identical or different type simultaneously as solution, this solution have the ability between adjacent elements coating and dry after with adjacent elements fastening mutually and keep together and even surpassing the fastening and wrapping of having the ability under 200 ℃ the high temperature, this pure organosilicon polymer is by passing through (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) hydrolysis of one or more pure organosilicon polymers of expression and the compound that the partial dehydration condensation reaction is produced form.
(15) end face that processing is unshakable in one's determination and processing is unshakable in one's determination is to obtain the method for insulating coating, this method comprises, when producing iron core, with the material punching press or cut into predetermined formed body, pile up and clamp them, with they annealing or unannealed, handle end face unshakable in one's determination and obtain insulating coating, drying and/or baking then, the described end face of handling iron core is characterised in that as the insulating coating inorganic agent with the method that obtains insulating coating and can uses one or more following materials: silicones, alkali silicate, colloidal silica, low-melting glass clinkering material is by comprising by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) the pure organosilicon polymer of the solution composition of the compound that hydrolysis and dehydration condensation produced of one or more materials of expression, by comprising by (R 3) nSi (X 2) 4-n(wherein n is the integer of 0-3, R 3Be the organo-functional group except that alkyl or phenyl, a plurality of R when n=2 or 3 3Can be different, X 2Be by Cl or O (R 4) alkoxyl of expression, R wherein 4It is alkyl and as n=0, a plurality of R 1 or 2 time 4Can be different) the silicon modified organic polymer colloidal sol formed of the solution of the compound that hydrolysis and dehydration condensation produced of one or more materials of expression, and by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) one or more compounds of expression and by (R 3) nSi (X 2) 4-n(wherein n is the integer of 0-3, R 3Be the organo-functional group except that alkyl or phenyl, a plurality of R when n=2 or 3 3Can be different, X 2Be by Cl or O (R 4) alkoxyl of expression, R wherein 4It is alkyl and as n=0, a plurality of R 1 or 2 time 4Can be different) solution composition of the compound that hydrolysis and dehydration condensation produced of one or more materials of expression be mixed with organosilicon polymer colloidal sol, carry out dip-coating and/or spraying and/or brushing so that after dry and/or baking, have the average film thickness of 0.5-20 μ m.
(16) end face of the processing iron core described in the basis (15) is characterised in that to obtain the method for insulating coating this pure organosilicon polymer colloidal sol is wherein at R 1And R 2Carbon number in the alkyl is no more than a kind of compound of 4; this compound comprises by being selected from tetramethoxy-silicane; tetraethoxysilane; tetraisopropoxysilan; four butoxy silanes; the monomethyl trimethoxy silane; the monomethyl triethoxysilane; monomethyl three isopropoxy silane; monomethyl three butoxy silanes; single ethyl trimethoxy silane; single ethyl triethoxysilane; single ethyl three isopropoxy silane; single ethyl three butoxy silanes; dimethyldimethoxysil,ne; dimethyldiethoxysilane; diethyl dimethoxy silane; the diethyl diethoxy silane; phenyltrimethoxysila,e; dimethoxydiphenylsilane; the compound that the hydrolysis of one or more materials in phenyl triethoxysilane and the diphenyl diethoxy silane and partial dehydration condensation reaction are produced, and be characterised in that silicon modified organic polymer colloidal sol is the organosilicon polymer that comprises the acryloyl group modification; the organosilicon polymer of alkyd resins modification; the organosilicon polymer of polyester acryloyl group modification; the organosilicon polymer of epoxy radicals modification; amino modified organosilicon polymer; the solution of one or more in the organosilicon polymer of the organosilicon polymer of vinyl modification and fluorine modification.
(17) end face of the processing iron core described in the basis (15) or (16) is to obtain the method for insulating coating, be characterised in that deoxygenation in this insulating coating (O), carbon (C), hydrogen (H), nitrogen (N), sulphur (S) and fluorine (F) in addition metallic element or semimetallic elements M mainly be silicon (Si), mainly exist with described Si with form with Si-O key and silica removal beyond M be one or more elements that are selected among Li, Na, K, Mg, Ca, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Ti, Zr, Nb, B, Al, Ge, Sn, P, Sb and the Bi.
(18) according to any one describedly handles end face unshakable in one's determination to obtain the method for insulating coating in (15)-(17), be characterised in that Si, Li, Na, K, Mg, Ca, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Ti, Zr, Nb, B, Al, Ge, Sn, P, Sb and Bi are with respect to deoxygenation in the described insulating coating (O), carbon (C), hydrogen (H), nitrogen (N), the total weight ratio of the total weight of sulphur (S) and fluorine (F) those elements in addition is at least 90% and is Si with respect to removing O in the described insulating coating, C, H, the weight ratio of the total weight of those elements beyond N and the S is at least 50% weight.
(19) according to any one describedly handles end face unshakable in one's determination to obtain the method for insulating coating in (15)-(18), be characterised in that further one or more inorganic oxide powder particles, inorganic oxide colloid material, organic resin powder particle and the organic resin latex solution that in described insulation coating inorganic agent, add as filler, with respect to pure organosilicon polymer colloidal sol, the silicon modified organic polymer colloidal sol of 100 weight portions and/or be mixed with the SiO of organosilicon polymer colloidal sol by solid content meter 0.1-50 weight portion 2Meter.
(20) end face of the processing iron core described in the basis (19) is characterised in that as inorganic powder grains or colloidal substance and can uses the SiO with 7-5000nm initial particle size to obtain the method for insulating coating 2, Al 2O 3, TiO 2, ZrO 2And/or in its compound one or more.
(21) end face of the processing iron core described in the basis (19) is characterised in that as this organic resin powder particle or latex solution material and can uses one or more materials that are selected from polyacrylate, polystyrene, polyethylene, polypropylene, polyamide, Merlon, polyurethane, melamine resin, phenolic resin, epoxy resin and/or its copolymer with 50-10000nm granularity to obtain the method for insulating coating.
(22) according to any one describedly handles end face unshakable in one's determination to obtain the method for insulating coating in (15)-(21), be characterised in that, when handling end face unshakable in one's determination, handle them with the coating of at least twice repetition, the centre attaches room temperature to 300 ℃ following drying 30 seconds at least.
(23) according to the end face of the processing iron core of any one in (15)-(22) to obtain the method for insulating coating, be characterised in that, when when obtaining the coating of repetition, handle by at least a coating that to apply the insulation coating agent that has added with blend the filler described in any one in (19)-(20) obtained to comprise the coating of filler after drying thickness be that 0.2-10 μ m and coating not have the insulation coating agent of interpolation and blend filler to obtain total insulation coating agent in last at least coating is handled average film thickness are 0.5-20 μ m.
(24) according to the end face of the processing iron core of any one in (15)-(23) to obtain the method for insulating coating, be characterised in that this iron core is made up of non-orientated magnetic steel sheet.
(25) produce on insulation and corrosion resistance the extremely method of excellent transformer core, be characterised in that the end face of the transformer core of forming by the stacked body of magnetic material with pure organosilicon polymer coating or surperficial and drying then it and form insulating coating.
(26) produce on insulation and corrosion resistance the extremely method of excellent transformer core, be characterised in that, stacked magnetic material, the attaching conductor is coated with insulating coating and dry its next fastening this magnetic material and conductor of organic silicon compound then.
(27) according to the method for excellent transformer core extremely on insulation and corrosion resistance of the production described in (25)-(26), the insulating coating that is characterised in that this coating and drying has the average film thickness of 2-100 μ m and the puncture voltage of 30V at least.
(28) according to the method for excellent transformer core extremely on insulation and corrosion resistance of any one described production in (25)-(27), be characterised in that use thermohardening type compound is as pure organosilicon polymer.
(29) according to the method for excellent transformer core extremely on insulation and corrosion resistance of any one described production in (25)-(28), be characterised in that and use by preparing general formula (R 1) nSi (X 1) 4-n(wherein n is the integer among the 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) one or more inorganic agents that silane obtained of expression are as pure organosilicon polymer, utilize at least a method in dip-coating, spraying and the brushing to apply and dried reaches one or many.
(30) according in the method for transformer core of excellence extremely on insulation and corrosion resistance of the production described in (29), be characterised in that this pure organosilicon polymer contains at least 50% Si (OX 1) 4And R 1Si (OX 2) 3
(31) according to the method for excellent transformer core extremely on insulation and corrosion resistance of any one production in (25)-(30), be characterised in that SiO as inorganic powder grains or colloidal substance interpolation and blend 0.1-50 weight portion 2, Al 2O 3, TiO 2, ZrO 2And/or in its compound one or more, with respect to 100 weight portions in pure organosilicon polymer as SiO that additive comprised 2Meter.
(32) according to the method for the transformer core of excellence extremely on insulation and corrosion resistance of any one production in (25)-(31), be characterised in that the baking temperature of pure organosilicon polymer is no more than 200 ℃.
(33) the simple dressing method of the magnetic element of forming by a plurality of magnetic material sheets being that is used for calutron, the described wrapping method feature that is used for the magnetic element of calutron is to arrange and assemble described a plurality of magnetic material sheets being, apply a kind of solution then, this solution can be by dry or these magnetic material sheets being are immersed in this solution wraps up magnetic material sheets being, and in addition drying bonds them together then.
(34) be used for the simple dressing method of the magnetic element of calutron, be characterised in that will strike out identical shaped substantially a plurality of magnetic material sheets being piles up, apply a kind of solution then, this solution can be by dry or magnetic material sheets being immersed in this solution wraps up magnetic material sheets being, and in addition drying bonds them together then.
(35) the simple dressing method of the magnetic element that is used for calutron described in the basis (33) or (34), be characterised in that as using main by dry with magnetic material sheets being wrapping solution together by at least a solution of forming in pure organosilicon polymer and the silicon modified organic polymer.
(36) according to any one described simple dressing method that is used for the magnetic element of calutron in (33)-(35), be characterised in that, use and pass through by (R as pure organosilicon polymer 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) hydrolysis of one or more materials of expression and the organo-silicon compound that the partial dehydration condensation reaction is produced.
(37) according to any one described simple dressing method that is used for the magnetic element of calutron in (33)-(35); be characterised in that as described silicon modified organic polymer, use in the organosilicon polymer of the organosilicon polymer of the organosilicon polymer of organosilicon polymer, the epoxy radicals modification of organosilicon polymer, the modification of polyester acryloyl group of organosilicon polymer, the alkyd resins modification of acryloyl group modification, amino modified organosilicon polymer, vinyl modification and fluorine modification one or more.
(38) production method of the electric equipment of the high-temperature operation of any one in basis (28)-(42), be characterised in that as coating and dry after having the ability adjacent elements is fastening mutually and keep together and have the ability even surpassing a kind of solution of they are fastening and wrapping under 200 ℃ the high temperature between the adjacent elements, use by passing through (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) the pure organosilicon polymer formed of the hydrolysis of one or more organo-silicon compound of expression and the compound that the partial dehydration condensation reaction is produced, this solution is coated on conductor or these conductors and the magnetic material or conductor or these conductors and magnetic material are immersed in this solution, in addition dry then and conductor or these conductors and magnetic material are combined, guaranteed the electric insulation between the adjacent elements of identical or different type simultaneously.
(39) production method of the electric equipment of basis (38) described high-temperature operation is characterised in that use is by (R 1) nSi (X 1) 4-n(wherein n is the integer of O-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) the pure organosilicon polymer formed of the organo-silicon compound of expression, it contains at least 80% n=0 at least, 1 organo-silicon compound and has 1: 20 to 4: 1 the organo-silicon compound of n=0 and the ratio of components of the organo-silicon compound of n=1.
(40), be characterised in that and use the pure organosilicon polymer of thermohardening type as pure organosilicon polymer (compound) according to the production method of the electric equipment of any one described high-temperature operation in (38) or (39).
(41) according to the production method of the electric equipment of the high-temperature operation of any one in (38)-(40), be characterised in that the SiO that in pure organosilicon polymer, adds the 0.1-10 weight portion as additive with 7-5000nm initial particle size 2, Al 2O 3And TiO 2In one or more.
(42) according to the production method of the electric equipment of the high-temperature operation of any one in (38)-(41), be characterised in that at dried thickness be 2-100 μ m.
(43) according to the production method of the electric equipment of the high-temperature operation of any one in (38)-(42), be characterised in that baking temperature is no more than 200 ℃.
The summary of accompanying drawing
Fig. 1 is that the solution of inventive embodiments 3 and inventive embodiments 6 in an embodiment toasts and changes under the situation of deposit thickness after drying the view of the relation between film thickness and puncture voltage simultaneously;
Fig. 2 is the view of lamination separately;
Fig. 3 is the view that is held with the state of those fastening laminations that separate that pile up;
Fig. 4 is the part detail drawing with the film formed lamination that separates that piles up of wrapping;
Fig. 5 is the perspective view that the lamination that separates that piles up of wrap wire is arranged on the wrapping film;
Fig. 6 is the view that the state of those laminations that separate that pile up that immerse the wrap wire in the wrapping solution is arranged;
Fig. 7 is wrapped up the view of the state of those laminations that separate that pile up in housing;
Fig. 8 is the cutaway view (a) and the plan view (b) of IPM rotor; With
Fig. 9 is the cutaway view with the film formed reactor of wrapping.
Implement optimal mode of the present invention
Iron core in the present invention is the iron core of motor, exciter, generator, transformer, reactor or other Conversion of energy equipment, the iron core that piles up that is magnetic links (comprising stainless steel substrates and iron plate as magnetic material) (comprises net type, excellent type, piece type and other iron core, the powder core of casting, or the like).
The part on finished end face unshakable in one's determination and surface is without any insulating coating or do not have a more coating at all.For the iron core that on the end face of iron core or surface, does not have insulation or insulation difference, sometimes contact element unshakable in one's determination, secondary conductor as induction machine, be used for fastening should iron core at the casing of motor, generator etc., bolt and other tightening member, coiling and magnet can be short-circuited and cause the increase of loss with iron core, this is owing to the minimizing of short circuit current and moment of torsion, thrust or amount of exports.
In addition, when the corrosion resistance on the end face of iron core or surface was low, this end face or surface got rusty easily.The meeting of getting rusty damages medium and encoder and other sophisticated sensor of tape deck or causes various mechanical breakdowns, so the improvement of corrosion resistance is important.
Past, as when using magnetic links to form iron core, improving end face of iron core or the insulation on surface and the measure of corrosion resistance, after coil method is struck out iron core, adopt varnish, japanning, blueing or other heat treatment.
Yet, in prior art, when varnishing, as preliminary treatment, the punching oil that is deposited when removing punching press, cleaning, annealing etc. are necessary, are therefore bringing problems aspect equipment, time and the expense.In addition, the adhesion strength of formed layer of varnish, insulation and corrosion resistance are unsettled, are difficult to obtain enough effects, therefore have a problem when varnishing, and promptly can not obtain essential thick coating or more.
In addition, even for blueing, the time that is spent except annealing and the problem of expense are also on the stability of oxidation film and corrosion resistance and problems are arranged on insulation effect.
The inventor places on the improvement of insulating coating difference composition, coating condition and the drying or the baking condition of solution.Found that the iron core with extremely excellent insulation property can obtain as the end face inorganic agent by using the solution of mainly being made up of silicon compound.
Conversion SiO by at least 30 weight portions 2The coating of forming is excellent on insulation property.Especially, the inventor utilizes the colloidal sol of mainly being made up of organo-silicon compound by dip-coating or spraying formed by pure organosilicon polymer, silicon modified organic polymer and/or be mixed with the insulating coating that organosilicon polymer is formed, has successfully developed end face of iron core coating and need not a kind of coating method with regard to outward appearance, adhesiveness, thermal endurance, corrosion resistance, resistance to wear and insulation property that can obtain to have excellence such as preliminary treatment or high temperature drying at short notice.
" transform SiO here, 2Weight " expression is converted into SiO with whole Si that the form of siloxanes (Si-O-Si) key is present in the silicon compound 2The situation of form.
In addition, " pure organosilicon polymer " is meant by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=O, a plurality of R 1 or 2 time 2Can be different) compound that hydrolysis and dehydration condensation produced of one or more materials of expression, " silicon modified organic polymer " is meant by (R 3) nSi (X 2) 4-n(wherein n is the integer of 0-3, R 3Be other organo-functional group except that alkyl or phenyl, a plurality of R when n=2 or 3 3Can be different, X 2Be by Cl or O (R 4) alkoxyl of expression, R wherein 4It is alkyl and as n=0, a plurality of R 1 or 2 time 4Can be different) compound that hydrolysis and dehydration condensation produced of one or more materials of expression, and " being mixed with organosilicon polymer " is meant by by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) one or more compounds of expression and by (R 3) nSi (X 2) 4-n(wherein n is the integer of 0-3, R 3Be the organo-functional group except that alkyl or phenyl, a plurality of R when n=2 or 3 3Can be different, X 2Be by Cl or O (R 4) alkoxyl of expression, R wherein 4It is alkyl and as n=0, a plurality of R 1 or 2 time 4Can be different) compound that hydrolysis and dehydration condensation produced of one or more materials of expression.
In addition, the solution state of these organosilicon polymers is with pure organosilicon polymer, silicon modified organic polymer and is mixed with organosilicon polymer and makes.
The present invention is elaborated below.
The invention is characterized in the processing method that on end face of iron core, obtains insulating coating.The composition of solution is characterised in that and uses silicones, alkali silicate, colloidal silica, low-melting glass clinkering material, pure organosilicon polymer colloidal sol, silicon modified organic polymer colloidal sol and be mixed with one or more compositions as solution in the organosilicon polymer colloidal sol.By core material being immersed in this solution or, forming the coating of even compact on the exposed surface of the iron that can when punching press, form (end face of iron core or slot part) by applying it.
Especially, when employed silicon compound is pure organosilicon polymer colloidal sol, silicon modified organic polymer colloidal sol and when being mixed with in the organosilicon polymer colloidal sol one or more, finish drying in short period at low temperatures, on end face of iron core, formed dense film with good adhesive property and insulating properties.
As everyone knows, the organosilicon polymer that forms from these colloidal sols, the film of especially pure organosilicon polymer can obtain more excellent thermal endurance and be best for the production process unshakable in one's determination that comprises annealing steps.
In addition, as forming the method for coating at a lower temperature with in the short period, can be effectively introduce and cause and dehydration condensation with silicon compound therefore quickened the formation of siloxanes (Si-O-Si) key network to be dissolved in alkoxide in the solvent or chloride form to have other metal except that Si of crosslinked action or semimetal be Li, Na, K, Mg, Ca, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Ti, Zr, Nb, B, Al, Ge, Sn, P, Sb or Bi.
When in order to attempt obtaining high insulation resistance or voltage resistance, when corrosion resistance or thermal endurance, with respect to the SiO of whole organosilicon polymers of per 100 weight portions 2Meter, can join one or more inorganic oxide powder particles, inorganic oxide colloid material, organic resin powder particle and the organic resin latex solution of 0.1-50 weight portion (by solids content) in the organosilicon polymer that belongs in the above-mentioned silicon compound as filler, therefore obtained the extremely remarkable result aspect the improvement of insulation and puncture voltage, with as complex effect, further improved wettability for end face of iron core or steel disc surface.
In passing through the processing of coating agent, preliminary treatment is unnecessary as cleaning or annealing, and this preliminary treatment is to use the general case of organic varnish or inorganic insulation agent necessary.This brings an advantage, and the core material of punching press can directly be handled, thereby obtains insulating coating after clamping.
When a kind of insulating compound solution of coating, the ability of this solution deposition on end face of iron core can be controlled by the type of control solvent and ratio, concentration and the viscosity of solvent., combine for the speed of extracting of dip-coating situation with for the nozzle form of spraying situation, jet velocity etc. by control, this solution can be coated to predetermined thickness with the condition of solution.At this moment, in the time can not obtaining required thickness by single processing, can by coating once, dry at low temperatures and then dip-coating or spraying obtain this thickness.
For the situation of silicon compound of the present invention, drying condition is to be lower than under 300 ℃ the low temperature and at short notice dry and baking.
Especially, when using by using silane, dry down just enough about room temperature to 120 ℃ as pure organosilicon polymer, silicon modified organic polymer that raw material obtained or when being mixed with organosilicon polymer.Especially, when using silicon modified organic polymer or being mixed with organosilicon polymer, low temperature and short time drying can be utilized the effect of modification functional group and become possibility.When the needs short time is dry,,, can make the extremely fast processing of end face of iron core become possibility by dry under the temperature about up to 300 ℃ according to mode identical when using silicon compound.
Then, explain the reason of these restrictions of the present invention.
At first, the reason of restriction that explanation is had the core material of high insulating property.
Iron core of the present invention is characterised in that a kind of coating, and this coating has the average film thickness of at least 0.5 μ m and contain the SiO that is scaled of at least 30 weight portions in coating 2Silicon compound.
The reason that the average film thickness of the coating of end face of iron core will reach at least 0.5 μ m is that this is necessary for the improvement effect that obtains insulation and corrosion resistance.For the average film thickness that is lower than 0.5 μ m, if the local thin part that has coating then can not obtain enough insulation and corrosion resistance.
In addition, be necessary that the silicon compound that comprises at least 30 weight portions in coating (presses SiO why 2Meter) reason is that this density for coating, insulation property and thermal endurance are important.Especially, preferably comprise at least 50 weight portions, more preferably this compound of at least 75 weight portions, so that improve insulating properties and thermal endurance.
Another feature is that this silicon compound comprises one or more alkali silicates, colloidal silica, low-melting glass clinkering material, pure organosilicon polymer, silicon modified organic polymer and is mixed with organosilicon polymer.
When by these silicon compound treatment surface and dry they the time, insulating coating is fine and close and has formed uniform coating.Employed alkali silicate is by M 2OnSiO 2MH 2(n:1-4) Biao Shi one or more compounds are as sodium metasilicate for M:LiNa, K for O.
Have and be known as the iron core that especially belongs to pure organosilicon polymer, the silicon modified organic polymer in the middle of these silicon compounds or be mixed with the organo-silicon compound coating of organosilicon polymer and be characterised in that the dense coating of full and uniform property and obtaining excellent performance aspect corrosion resistance and the insulation property.Especially, for the situation of the iron core that pure organosilicon polymer coating is arranged, the advantage that possesses excellent heat resistance under higher temperature is arranged then.
As most preferred insulating coating condition, exist on the end face of iron core have at least 2.0 μ m, preferred 2.5-20 μ m average thickness and have 30V puncture voltage at least by belonging to pure organosilicon polymer, the silicon modified organic polymer in the middle of the above-mentioned silicon compound and/or being mixed with the insulating coating that the desciccator diaphragm of organosilicon polymer is formed.
Shape and the iron core on the roughness at end face of iron core change cutting or the punching press condition that depends on material.If the thickness of at least 2.0 μ m is arranged, then any variation is absorbed and obtains stable insulation property.If this thickness is too thick, then can produce cost issues or the problem such as the insulating coating adhesiveness descends.
Another feature of iron core of the present invention is that thermal endurance is at least 400 ℃.Described in the present invention " thermal endurance " be meant when under this temperature when annealing adhesiveness and insulation property do not suffer damage.When especially using the pure organosilicon polymer colloidal sol belong in the middle of the used inorganic agent of the present invention, thermal endurance is excellent.This makes that it is suitable when the Al of iron core die casting or Cu die casting.
In addition, for organosilicon polymer colloidal sol, the organosilicon polymer colloidal sol of thermohardening type is preferred inorganic agent.This is because of the situation for thermohardening type, and an advantage is arranged: can be dry at short notice when heating with drying at the solution that oozes out between the steel disc in dip-coating or other coating process.
The inventor has studied the insulation and the efficient unshakable in one's determination of electric machine iron core, and find, the improvement of the insulation property by end face of iron core can obtain the improvement effect of electric insulation for contact element unshakable in one's determination, suppress to cause the short circuit current between each sheet that loss increase and amount of exports descend and improved motor torque (thrust) and power output.
For example, for the secondary conductor with 2cm in rotary core at interval, high-speed induction motor (180 with 50cm height unshakable in one's determination (piling height of magnetic links) and 1T iron core magnetizing flux amount, 000rpm, the two poles of the earth), at least the puncture voltage of 34V (reference: 180,000rpm/60s=3kHz, √ 2 ǒ * 3,000 * 0.02m * 0.5m/2 * 1T * two end face=33.3V) are necessary.Therefore, in practice, 50V is necessary at least.
By pure organosilicon polymer of the present invention, modification silicon polymer be mixed with the coating that organosilicon polymer obtains and utilize low temperature drying at short notice in the process by alcohol contained in removing solution or other solvent, solidify and constitute mainly by SiO with stratiform or 3D shape 2The fine and close insulating coating of forming with excellent adhesiveness.
Then obtain the puncture voltage of 30V at least because if utilize the insulating coating that forms by this way to make dried film thickness reach at least 0.5 μ m, so the lower limit of average film thickness is 0.5 μ m.
Yet, if film thickness greater than 20 μ m, according to drying or baking condition, the adhesiveness of coating can descend after handling, and ftractures.Especially when heat-treating, bonding defect takes place sometimes.In addition, the time that dry cost is long, cause expense to increase, so this thickness is restricted.
Employed insulating coating is one or more pure organosilicon polymers, silicon modified organic polymer or is mixed with organosilicon polymer.For example, by by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) one or more materials of expression are not having under the situation of solvent or hydrolysis in inorganic solvent and partial dehydration condensation reaction, can produce pure organosilicon polymer colloidal sol.
At this moment, can change the type of employed raw material silane monomer so that the coating that forms from colloidal sol possesses various performances.
In addition, the inventor uses pure organosilicon polymer to be used for the large-scale experiment of repetition and in order to obtain to have good insulation and stable on heating thick film conditions needed is studied, found that, when comprising heat treatment step, it is very favorable having the so-called four-functional group of composition of above general formula of n=0 wherein or 1 or the use of trifunctional organosilicon polymer.
Especially, by in the combination of n=0 and 1 coming component in the 20-80% scope in conjunction with n=1, the extremely excellent thick insulating coating possibility that becomes on outward appearance, insulation, thermal endurance and adhesiveness.
Silicon modified organic polymer is by the starting monomer of the pure organosilicon polymer of the organic resin modification except that alkyl or phenyl.As the method for modification, this polymer waits modification by known cold blend or condensation reaction.
Being mixed with organosilicon polymer produces in the hydrolysis and the dehydration condensation of required ratio by starting monomer that can form pure organosilicon polymer and the starting monomer that can form silicon modified organic polymer.Pure organosilicon polymer component and silicon modified organic polymer component are to form network on molecular level.
The raw material that is used to obtain the colloidal sol of pure organosilicon polymer is one or more C4 or the following alkyl type of C4 tetramethoxy-silicane, tetraethoxysilane, tetraisopropoxysilan, four butoxy silanes, the monomethyl trimethoxy silane, the monomethyl triethoxysilane, monomethyl three isopropoxy silane, monomethyl three butoxy silanes, single ethyl trimethoxy silane, single ethyl triethoxysilane, single ethyl three isopropoxy silane, single ethyl three butoxy silanes, dimethyldimethoxysil,ne, dimethyldiethoxysilane, diethyl dimethoxy silane, the diethyl diethoxy silane, phenyltrimethoxysila,e, dimethoxydiphenylsilane, phenyl triethoxysilane and diphenyl diethoxy silane and as the muriatic silane tetrachloride of silane, the methyl titanium trichloride, or the like.
The introducing of alkyl or phenyl makes coating possess pliability and processing characteristics and it is demonstrated compares better thermal endurance with other organo-functional group.
Yet along with the increase of alkyl carbon atoms number, thermal endurance descends, and film-formability descends, and it is higher that baking temperature becomes, and produces other problem, therefore be no more than four carbon atom and be desire.Especially when the thermal endurance of considering about 500-600 ℃, be no more than a carbon atom and be desire.
As silicon modified organic polymer; for example can use the organosilicon polymer of one or more acryloyl group modification; the organosilicon polymer of alkyd resins modification; the organosilicon polymer of polyester acryloyl group modification; the organosilicon polymer of epoxy radicals modification; amino modified organosilicon polymer, the organosilicon polymer of the organosilicon polymer of vinyl modification and fluorine modification.These silicon modified organic polymers form key equally between the organo-functional group except that the Si-O-Si key, therefore obtained fine and close insulating coating at low temperatures.
Being mixed with organosilicon polymer and being separately one or more of the starting monomer that is used for obtaining the starting monomer of above-mentioned pure organosilicon polymer and is used to obtain silicon modified organic polymer by use forms.Low-temperature curable, water repellency and other function of feasible thermal endurance that can on molecular level, realize pure organosilicon polymer simultaneously of this polymer etc. and silicon modified organic polymer.
In addition, any introducing that can be in these organosilicon polymers as the another kind of metal oxide of catalyst or crosslinking points to promote condensation reaction.As the metal alkoxide of raw material this moment, purity titanium tetraethoxide, titanium isopropoxide, butoxy aluminium etc. are arranged.
The insulating coating that contains this organosilicon polymer has formed mainly by SiO by drying steps (wherein desolvation and dehydration take place simultaneously) extremely fast 2The densification that forms, firm coating.Therefore, formed insulating coating is fine and close, has corrosion resistance and compression stress.Carry out the various man-hours that add in each step in the back, this is favourable.
In addition, when organic group be alkyl such as methyl, phenyl or group such as the CH that comprises fluorine 3During group, then have water repellency and obtain more excellent corrosion resistance, so this helps the improvement of corrosion resistance.
In these organosilicon polymers each can obtain than the better coating of prior art, but the situation for pure organosilicon polymer has obtained to have the good insulation performance, thermal endurance and fusible finer and close coating, and for silicon modified organic polymer or be mixed with the situation of organosilicon polymer, because contained organic resin component demonstrates with the previous case and compares in poor slightly trend in aspect such as insulation property, film-strength, corrosion resistance, thermal endurances.
In addition, metallic element or semimetallic elements M beyond deoxygenation, carbon, hydrogen and nitrogen mainly are silicon (Si), described Si mainly exists with the form with Si-O key, contain under the situation of one or more elements as the optimum condition of above-mentioned insulating coating that is selected among Li, Na, K, Mg, Ca, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Ti, Zr, Nb, B, Al, Ge, Sn, P, Sb and the Bi with the M beyond the silica removal, advantage should the sub-underlying cause of attribution:
In order to give insulation property, the impalpable structure that this insulating coating is preferably fine and close.Therefore, be necessary to make the Si-O-Si network configuration that under higher temperature, has impalpable structure to become the basic framework of coating matrix.
Yet, forming the method for coating, can run into the problem that coating is peeled off from solution (colloidal sol), this is owing to the contraction that takes place when desolvation or the condensation.
As the measure that addresses this problem, existing a kind ofly steady oxide is dispersed in the solvent neutralization is introduced into method in the coating.It is favourable being suitable for the metal except that Si of this solvent or the interpolation of semimetallic oxide or composite oxides.
In addition, the shortcoming of the condensation reaction of Si-O-Si is usually low reactivity.In order to improve this reactivity, add metal or semimetal catalyst, or the alkoxide by using M or acetyl group acetate compound or chloride are introduced the metal except that Si that constitutes Si-O-Si network cross-linked point or the M-O key of semimetal (M).Formed the dense film that comprises M at short notice.As a result, the coating that comprises M obtains the seldom insulating coating of the densification of crackle.
Secondly, make Si in the described insulating coating, Li, Na, K, Mg, Ca, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Ti, Zr, Nb, B, Al, Ge, Sn, P, Sb and Bi are at least 90 weight portions with respect to the total weight ratio for the total weight of those elements beyond deoxygenation in the described insulating coating, carbon, hydrogen, nitrogen, sulphur and the fluorine and make that the weight ratio of Si for the total weight of those elements beyond deoxygenation in the described insulating coating, carbon, hydrogen, nitrogen, sulphur and the fluorine is that the reason of at least 50 weight portions is as follows:
High insulating property keeps by the insulating properties oxide in the coating basically.Therefore, except for giving deoxygenation, carbon, hydrogen, nitrogen, sulphur and the fluorine that contains in the organo-functional group of introducing such as processing characteristics, water repellency and in addition except being in the whole components that limit the oxygen of metal component, the metal component of insulating properties oxide is ratio preferably at least 90 weight portions, more preferably at least 95 weight portions of Si, Li, Na, K, Mg, Ca, Y, Ti, Zr, Nb, B, Al, Ge, Sn, P, Sb and Bi.
Among these, as mentioned above, the matrix structure of coating is very big to the contribution of Si-O-Si network.In this insulating coating, consider that from the improvement of the improvement of insulation property and strength of coating the basic framework component is that the weight ratio of Si must be for the total weight of those elements beyond deoxygenation, carbon, hydrogen, nitrogen, sulphur and the fluorine at least 50 parts and at least 75 weight portions preferably.
In using the present invention, advantageously especially use non-orientated magnetic steel sheet and when assembling is unshakable in one's determination, it is used for the insulation of end face as core material.Promptly in the core material of electric machine iron core etc., under nearly all situation, the iron core that piles up through processing prevent to get rusty carry out annealing in process or with organic varnish treated with the acquisition insulation property or carry out this two kinds of processing.The effect of doing like this is huge.
Then, using the present invention to produce in the method unshakable in one's determination, in processing step unshakable in one's determination, this non-orientated magnetic steel sheet iron core is stamped, piles up, clamps and gets rusty or obtain insulation property or the like preventing through processing as required.Technology of the present invention makes simple, low cost and the non-orientated magnetic steel sheet of the high production rate iron core can easily obtain to have excellent coating performance.
As the silicon compound of the component that is used as the insulation coating agent, this iron core utilizes one or more silicones, alkali silicate, colloidal silica, low-melting glass clinkering material, pure organosilicon polymer colloidal sol, silicon modified organic polymer colloidal sol and is mixed with organosilicon polymer colloidal sol and handles.
This iron core is characterised in that the insulating coating average thickness that obtains 0.5 μ m-20 μ m after production.When handle by silicon compound and dry it the time, this insulating coating is fine and close and be formed uniformly coating.
Especially, when using pure organosilicon polymer colloidal sol, the silicon modified organic polymer colloidal sol of forming by organo-silicon compound and being mixed with organosilicon polymer colloidal sol, in the processing that utilizes the insulation coating agent, do not need cleaning, annealing or other preliminary treatment, so this can reduce the expense of industrial treatment effectively.
In addition, insulating coating is fine and close and uniform and is excellent on corrosion resistance and insulation property.For the situation of pure organosilicon polymer, the advantage that possesses excellent heat resistance under higher temperature is arranged then in addition.This is favourable for the situation that comprises annealing, aluminium die casting or other heat treatment step.
For coating of the present invention, when average film thickness is lower than 0.5 μ m, can't obtain improved enough effects of insulation property and corrosion resistance.On the other hand, for the film thickness that surpasses 20 μ m, can occur local than thickness portion and stack thickness increase or adhesiveness deterioration unshakable in one's determination.Especially, this sets as boundary, because when comprising annealing steps, peel off or leafing the part that occurs insulating coating easily.
For these coatings, the method for dip-coating, spraying etc. and so on is arranged now, if but consider the simplicity of equipment and the service efficiency of solution, dip-coating is favourable.
Embody the coating agent of feature of the present invention, according to the composition of solution, be with one or more pure organosilicon polymer colloidal sols, silicon modified organic polymer colloidal sol and be mixed with organosilicon polymer colloidal sol use to feature.
Pure organosilicon polymer colloidal sol is by by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) one or more known substances of expression are not having to be hydrolyzed in the presence of the solvent or in organic solvent and the partial dehydration condensation reaction is produced, and are remaining under the collosol state.
Silicon modified organic polymer colloidal sol is by being hydrolyzed by the starting monomer of the pure organosilicon polymer colloidal sol of the organic resin modification except alkyl or phenyl and the solution of the compound that obtained of partial dehydration condensation reaction.Method of modifying is the known method of modifying that utilizes cold blend, condensation reaction etc.
The starting monomer that is mixed with organosilicon polymer colloidal sol and is the starting monomer by constituting pure organosilicon polymer colloidal sol and constitute silicon modified organic polymer colloidal sol is hydrolyzed in required ratio and dehydration condensation is produced, and is used in the pure organosilicon polymer colloidal sol component and the silicon modified organic polymer colloidal sol component that form network on the molecular level and forms structure.
In addition,, these coating agents are made colloidal sol, obtain the O-M-O-Si key by making metal or semimetal (M) except that Si be hydrolyzed and the partial dehydration condensation reaction as alkoxide or chloride.
The raw material of employed pure organosilicon polymer colloidal sol is one or more C4 or the following alkyl type of C4 tetramethoxy-silicane, tetraethoxysilane, tetraisopropoxysilan, four butoxy silanes, the monomethyl trimethoxy silane, the monomethyl triethoxysilane, monomethyl three isopropoxy silane, monomethyl three butoxy silanes, single ethyl trimethoxy silane, single ethyl triethoxysilane, single ethyl three isopropoxy silane, single ethyl three butoxy silanes, dimethyldimethoxysil,ne, dimethyldiethoxysilane, diethyl dimethoxy silane, the diethyl diethoxy silane, phenyltrimethoxysila,e, dimethoxydiphenylsilane, phenyl triethoxysilane and diphenyl diethoxy silane and as the muriatic silane tetrachloride of silane, the methyl titanium trichloride, or the like.
Employed silicon modified organic polymer colloidal sol for example is the organosilicon polymer of one or more acryloyl group modification; the organosilicon polymer of alkyd resins modification; the organosilicon polymer of polyester acryloyl group modification; the organosilicon polymer of epoxy radicals modification; amino modified organosilicon polymer; the organosilicon polymer of the organosilicon polymer of vinyl modification and fluorine modification.These dilute suitably and use by water and/or alcohol or another kind of solvent.
Especially, the silicon modified organic polymer with polar functional group is effective mode of operation, and this is because do not need alcohol as solvent.In addition for silicon modified organic polymer, at the key that exists between the organo-functional group except that the Si-O-Si key.This is effective for forming fine and close insulating coating at low temperatures.
As being mixed with organosilicon polymer, separately one or more of the starting monomer that can use the starting monomer that is used for obtaining above-mentioned pure organosilicon polymer and be used to obtain silicon modified organic polymer.In addition, as the metal alkoxide of the crosslinking points that is used as matrix, existing purity titanium tetraethoxide, titanium isopropoxide, butoxy aluminium etc.
The solution of handling end face of iron core, surface etc. with these organosilicon polymers can carry out desolvation and dehydration simultaneously, and is therefore dry extremely apace, forms the dense coating of mainly being made up of the Si-O structure.In addition, formed insulating coating is fine and close, has corrosion resistance and compression stress.Carry out the various man-hours that add in each step in the back, this is favourable.
When using these organosilicon polymer colloidal sols and the film thickness after dry and/or baking to be 0.5-20 μ m, adhesiveness is good and can be implemented in the insulation processing of end face of iron core excellent on insulation property, puncture voltage, corrosion resistance and the thermal endurance.Especially, for pure organosilicon polymer, obtained insulating coating more excellent on thermal endurance.
Especially, when the tetraethoxysilane that uses one or more, tetramethoxy-silicane, methyl three methylamino ethoxy silane, methyltrimethoxy silane etc., obtained excellent thermal endurance.On the other hand, for described silicon modified organic polymer or be mixed with the situation of organosilicon polymer, can demonstrate the trend of thermal endurance deterioration, so this is suitable for the application not carrying out annealing.
By with respect to pure organosilicon polymer colloidal sol, the silicon modified organic polymer colloidal sol of 100 weight portions be mixed with the SiO of organosilicon polymer colloidal sol 2Meter, with the amount (by solids content) of 0.1-50 weight portion to the pure organosilicon polymer colloidal sol, the silicon modified organic polymer colloidal sol that use one or more be mixed with one or more inorganic powder grains, organic resin powder particle and/or its latex solution or the colloidal solution that adds in the coating solution of organosilicon polymer colloidal sol as filler, can realize the improved extremely remarkable result of insulation property and puncture voltage, as composite effect, improved in addition in end face of iron core or the lip-deep deposition power of steel disc.
By reducing the shrinkage when drying, can easily suppress cracking and increase thickness in addition.
As the filler that adds at this moment,, add the SiO that is selected from 7-5000nm initial particle size of 0.1-50 weight portion for inorganic substances 2, Al 2O 3, TiO 2, ZrO 2With one or more materials in its compound, and come blending as powder particle or colloidal substance.
For organic substance; 0.1-50 weight portion has a 50-10, one or more materials that are selected from acryloyl group resin, polystyrene, polyethylene, polypropylene, polyamide, Merlon, polyurethane, melamine, phenolic resin, epoxy resin and its copolymer of 000nm granularity can improve insulation property effectively as the interpolation and the blending of emulsion material.
As SiO with respect to whole organosilicon polymers of 100 weight portions 2Meter, when addition was lower than 0.1 weight portion, insulation property and fusible improvement effect were faint.On the other hand, if surpass 50 weight portions, then the improvement of coating puncture voltage is bigger, but the density of film is undermined or the life-span of solution can descend, so this sets as boundary.
As filler, for the situation of inorganic oxide, SiO 2, Al 2O 3, TiO 2, ZrO 2Or the powder of its compound or colloidal substance be favourable, because cost reduces and obtained the improvement effect of insulation property, this is owing to good dispersion and interpolation.
For the situation of organic type, can use to be selected from one or more powder in acryloyl group resin, polystyrene, polyethylene, polypropylene, polyamide, Merlon, polyurethane, melamine, phenolic resin and the epoxy resin or emulsion etc. with suitable combining form.
If for the situation of adding, stability of solution, hardness, insulation effect, thermal endurance etc. are all come together to consider, then inorganic additive is favourable, and this is because cost hangs down and can obtain good dispersion and insulation property and fusible stable improvement effect.Especially, this effect is significant when carrying out strain annealing or another heat treatment step.
The granularity of filler is important.For the inorganic type filler, when granularity was lower than 7nm, in the time of in being dispersed in solution, cohesion became stronger and coating layer thickness becomes inhomogeneous or influential to the pH of solution, and the stability degradation of solution, so this sets as boundary.
On the other hand, when granularity surpasses 5000nm, become too big owing to thick particle makes surface roughness, because abrasion etc. are former thereby make inorganic substances be easy to peel off from end face of iron core, so this sets as boundary.If in this scope, if between film thickness and addition, have balance then adhesiveness be good, and can form insulating coating with high puncture voltage.This sets as boundary, for the reason identical with the situation of organic type filler.
When additive is added in the organosilicon polymer, more uniform dispersion be desire.If add powdered rubber after in being scattered in alcohol or other solvent, then obtained excellent dispersion effect.This is favourable for the coating that obtains uniform thickness.Especially, if use the peptizaiton of the peptizaiton of ultrasonic vibration or another kind of blender etc. jointly, can obtain uniform dispersion.
When dry iron core after with the solution coating, drying at normal temperatures is enough, but when attempting dry at short notice or improving the efficient of this process, if be no more than under 300 ℃ the temperature in baker drying at least 30 seconds, then good coating performance can be carried out and obtain to desolvation and dehydration condensation fully.As preferred drying means, heating gradually can obtain good coating performance.
This is because if heating apace, then water, alcohol or another kind of solvent can be apace drying and be easy to generate block blemish.
Apply when obtaining thick coating when using solution weight overcoating of the present invention, in order to obtain thicker coating and good insulation performance, advantageously at first coating and the dry solution that contains filler under the low temperature of room temperature to 120 ℃, coating and the dry solution that does not contain filler then.
When repeating to apply, the coating agent that coating contains filler is enough to obtain the average film thickness of 0.2-10 μ m drying after, applies the average film thickness that the solution that does not contain filler is enough to obtain 0.5-20 μ m after drying then.
Should be owing to the following fact with the processing that reduces filer content: the coating agents that do not contain filler in conjunction with coating in a large number can make flattening exhibition of the roughness that is caused by filler, make the insulating coating that acquisition easily has high-insulativity, uniformity, adhesiveness and corrosion resistance.
Then explain reason in the restriction in the heart of the transformer fe with high insulating property.
Magnetic material in the present invention pile up sheet they end face and the surface on handle with the coatings that contains organo-silicon compound, thereby possess excellent insulation and corrosion resistance.The coating composition that is used for the present invention's organo-silicon compound has the Si-O key and has formed mainly by SiO 2The extremely fine and close coating that component is formed.Therefore, can form and have the extremely excellent insulation property and the insulating coating of corrosion resistance.
The thickness of insulating coating of the present invention reaches 2-100 μ m.For the thickness that surpasses 2 μ m, puncture voltage becomes 40V, and this is enough for small-sized transformer.If thickness is lower than 2 μ m, then depend on the shape of end face of iron core, there is local thin part and can't obtains stable puncture voltage.On the other hand, if thickness surpasses 50 μ m, then near unlimited puncture voltage.Even when the occasion for high-power transformer needs high puncture voltage, also no problem.For the upper limit, this coating can be thick, but but consider drying property, repeat to apply and when real work the adhesiveness of insulating coating, the boundary of maximum ga(u)ge is 100 μ m.Consider easiness that coating handles, coating performance, cost etc., most preferred scope is 3-30 μ m.
In addition, transformer core of the present invention be meant wherein only pile up unshakable in one's determination through processing with the transformer core that possesses insulation property and wherein conductor be attached to the transformer core that piles up on the iron core, they obtain insulating coating simultaneously then.At latter event, owing to piling up unshakable in one's determination and electric conducting material is handled simultaneously and obtained insulating coating, so not only insulate but also the bonding of iron core and conductor is all finished simultaneously.This coatings is penetrated into end face of iron core, surface, between steel disc (paper tinsel), between the conductor and the interface between iron core and conductor.For dried film, not only obtained extremely excellent insulation property and corrosion resistance, and piled up core, conductor itself and iron core and conductor all bonds forcefully.For organo-silicon compound coating of the present invention, form according to it, obtained to possess the excellence insulation of hardness, intensity, thermal endurance etc. and the coating of bonding.
Then, as the composition of the solution of the organo-silicon compound that are used for the present invention, use by general formula (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) one or more types of expression pass through the preparation inorganic agent that silane obtained, end face and surface apply and dry one or many by at least a method in dip-coating, spraying and the brushing, the centre is carried drying secretly.These organo-silicon compound are not having to be hydrolyzed under the situation of solvent or in organic solvent and polymerization is produced by known alkoxy silane.Can obtain have the coating of various performances by changing the type or the combination of employed silane this moment.
When the partial hydrolysate produced as the alkoxy silane of organo-silicon compound, can use one or more tetramethoxy-silicane, tetraethoxysilane, tetraisopropoxysilan, four butoxy silanes, the monomethyl trimethoxy silane, the monomethyl triethoxysilane, monomethyl three isopropoxy silane, monomethyl three butoxy silanes, single ethyl-trimethoxy silane, single ethyl triethoxysilane, single ethyl three isopropoxy silane, single ethyl three butoxy silanes, dimethyldimethoxysil,ne, dimethyldiethoxysilane, diethyl dimethoxy silane, the diethyl diethoxy silane, phenyltrimethoxysila,e, dimethoxydiphenylsilane, phenyl triethoxysilane and diphenyl diethoxy silane.At this moment, as preferred condition, if the preparation raw material so that coating agent contain at least 50% by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) one or more materials of expression, then can obtain coating excellent on insulation property, corrosion resistance, adhesiveness and thermal endurance.When this content during less than this numerical value, thermal endurance is tended to descend and peeling off according to heating condition generation film.Most preferably work as this reagent and contain at least 50% R 1At least 5% X 1Situation.In this case, obtained thick coating excellent on adhesiveness and thermal endurance.
Depend on production method, as organo-silicon compound, a kind of thermohardening type inorganic agent is arranged, it obtains the partial hydrolysate of silane compound as reaction in solidification process, can be used to so to handle and utilize the alcohol of heating evaporation solvent composition or moisture and solidify and a kind of wet-cured type inorganic agent arranged, partial hydrolysis does not take place in it in the production process of organo-silicon compound, but can obtain a kind of curing agent, be used for handling, utilize hydrolysis that water in air divides and condensation reaction then and solidify.For the present invention, not only the steel disc end face and also between the steel disc (paper tinsel), handle in the space between the conductor and the insulation between steel disc (paper tinsel) and conductor coating, wrapping and bonding all be important.As preferred condition, using thermohardening type solution is favourable for the rapid draing and the performance that obtain stable insulating coating.
By coating at low temperatures and dry one or more by the organo-silicon compound that the partial condensate that obtains from silane is formed, can be formed on the SiO of excellence on the coating performance 2Polymer film.
In addition; when attempting in the wrapping film, to obtain high insulation resistance or puncture voltage; the inorganic oxide powder particle or the colloidal solution of 0.1-50 weight portion (by solids content) are joined in the organo-silicon compound as filler, with respect to the SiO that in organo-silicon compound, is contained of 100 weight portions 2Meter.As the composite effect that adds filler, be improved in the crack resistance and the insulation property of end face of iron core or lip-deep deposition capability of steel disc (paper tinsel) and coating.As inorganic powder grains that is added or colloidal substance, can add the SiO that is selected from 7-5000nm initial particle size of 0.1-50 weight portion 2, Al 2O 3, TiO 2, ZrO 2And/or one or more materials in its compound substance.If addition is lower than 0.1 weight portion, then can't obtain the improvement effect of wetability, cracking resistance and insulation property.In addition, if surpass 20 weight portions, then the film inhomogeneities appears in wrapping property and poor adhesion easily.Optimum addition range is the 0.4-2 weight portion.
The method that applies above-mentioned organo-silicon compound can be the universal method of applicator surface coating, japanning etc.Not only can use spraying and dip-coating method, and can use spread coating.Can also use the conventional method that suppresses coating amount inhomogeneities etc.In addition, for the cohesive force of the contact portion of improving conductor, magnetic material etc., if make once cleaning on the contact portion, in contact portion this wrapping solution of dipping and set up predetermined contact condition then, then might after drying, guarantee packing force.
Dry thickness is controlled by the type of solvent of change solution or the concentration or the method for viscosity of solvent easily.If this coating and drying steps carry out several times, then can increase film thickness by this amount.By control for the speed of extracting of dip-coating situation with for the nozzle form of spraying situation, jet velocity etc., with above-mentioned solution condition, can be with this coating paint predetermined thickness.In addition, can suppress solution aggregation and regulate film thickness by being blown into compressed air.
The electric insulation coating layer of Xing Chenging also has the wrapping function in the present invention.In addition, it is also as rust-preventing film.That is to say, can only apply end face of iron core or can this coiling of attaching and apply then this coiling with fastening it.Desciccator diaphragm of the present invention is mainly by SiO 2Form, formed dense film, therefore demonstrate extremely excellent insulation and antirust function with Si-O key.
When using organo-silicon compound of the present invention, baking temperature should be no more than 200 ℃.This be because constitute organic silicon compound the solvent of a part mainly be methyl alcohol, ethanol, butanols, propyl alcohol, water or another kind of low temperature volatile solvent.Preferred baking temperature is 80-120 ℃.By using low boiling point solvent, this baking temperature becomes possibility.If in this temperature range, become possibility at the short time of a few minutes inner drying.
In large-scale, the medium-sized and small-sized transformer of electricity usage, short circuit current itself mobile is serious problem and therefore must not allows.The present invention has been also noted that the caused problems on operating efficiency, cost and operational environment of other processing by other processing of varnishing and carrying out usually and core material end face after deburring.If use organo-silicon compound of the present invention, then those more performance (function) when varnishing are guaranteed that these problems are alleviated.
As electric equipment in the present invention, calutron and heater are arranged.Calutron comprises motor, exciter, generator, transformer, reactor etc.This heater uses induction heating, utilizes the heating of infrared ray or other light and irradiation of electromagnetic waves and utilizes the directly heating of conduction.Application and model are incoherent.
Motor, exciter and generator belong to induction machine type, synchronous machine type, direct current motor type, reactance type or the combination of two or more types, and comprise large-scale to miniature motor.In addition, transformer comprises the coiling transformer, piles up transformer and uses other types of various types of iron cores.Reactor is used for inverter, converter, chopper, be used for regulation voltage and electric current mutually and improve the equipment of power coefficient, be used to remove the filter of high-frequency or the like, igniting or the like.Winding-type is arranged now, and stacked is with the type of cleaning and not with the type of cleaning, the saturable type does not allow saturated type during use, uses the type of cutting core, or the like.It all is possible the type of iron core or yoke being arranged and do not have their type.In addition, the type that has the type of permanent magnet and do not have them all is possible.
Unshakable in one's determination and yoke comprises magnetic links, and dust is alloying metal not, iron-cobalt alloy, and amorphous magnetic material iron core and other pile up iron core, the soft ferrite iron core, casting is unshakable in one's determination, the powder metallurgy iron core, the iron core of the Plastic Forming of powder, or the like.Raw material unshakable in one's determination and yoke comprises magnetic links, and plate and other ferrous metal or ferrous metal alloy, nickel, dust be alloying metal and other nickel alloy not, cobalt and cobalt alloy, and soft ferrite, and amorphous material, nano crystal material, or the like.This application comprises armature core, yoke, and transformer core, iron core of electric reactor, electricity is unshakable in one's determination, printed circuit board (PCB), or the like.Especially, use in a large number by punching press and pile up iron core and the yoke that magnetic links obtains.Iron core comprises and for example is used in passing through punching press and pile up single iron core that is obtained, use combination unshakable in one's determination of lamination separately and the wound core that sometimes is used for axial slits type rotary machine in the rotary machine, for example be used in plastic deformation in transformer or the reactor unshakable in one's determination as claw-type pole iron core, wound core, pile up iron core, sintering iron core, stamping of powder iron core, Plastic Forming iron core etc., cut core, the El iron core, or the like.The present invention can be used for all these.
Permanent magnet in type or in shape without limits and not only is used for the field of motor, exciter and generator, and is used for the magnetic bias flux (magnetic field) that uses at feedback transformer and reactor.
Calutron as explained above, uses many magnetic elements such as armature core, permanent magnet, and yoke, or the like.Even armature core, yoke or the like usually comprise a plurality of magnetic material sheets being, in the piling up of magnetic links.
Calutron carries out magnetic shield or electromagnetic shielding sometimes to prevent magnetic flux and drain to the outside or to prevent the external magnetic flux and invade in this device and for the outside or the inside of equipment adverse effect to be arranged.Magnetic element of the present invention comprises the magnetic element of magnetic screen and electromagnetic shielding.In this case, calutron involved in the present invention comprises and can produce magnetic flux and electromagnetic device, equipment and facility and correspondingly comprise device, equipment and the facility that is subjected to magnetic flux and electromagnetic wave influence.In addition, the present invention can also be used for general magnetic shielding material and electromagnetic shielding material.
Electric equipment uses conductor.The conductor of calutron is carried armature supply or is carried the electric current that produces the magnetic field flux amount.They can provide or provide at rotor or motion sheet side in stator side.In short-circuited conducting sleeve that for example carry faradic secondary conductor in induction machine, is used for voice coil motor or the like also is included in as conductor.The conductor of heater is heating element or the like.In addition, lead-in wire and the lead system that is used for electric equipment is included in the conductor of the present invention.
The electric equipment of high-temperature operation of the present invention comprises the equipment that at high temperature uses and use in hot environment, and because the equipment that uprises on temperature owing to the heat of conductor or magnetic material generation.Therefore, the electric insulation of conductor or magnetic material and magnetic flux keep and must can bear even high temperature.The heat resisting temperature that is applied over insulating coating on the normal conductor or adhesive is 180 ℃ of the maximums of the H type of JIS (Japanese Industrial Standards) normally.In the present invention, " high temperature " is meant 200-900 ℃ temperature range (comprising end value).If this temperature is higher than 900 ℃, then in conductor itself, produce mechanical breakdown.According to the present invention, can provide the electric equipment that can even under this temperature, operate.
In the present invention, have the ability fastening and wrapping conductor or magnetic material and have the ability drying after, at high temperature to keep the electrical insulation capability of conductor or magnetic material or a kind of solution (hereinafter to be referred as " wrapping solution ") fastening and the state of wrapping coated, it is impregnated maybe should to wrap up solution, maybe will wrap up solution impregnation in the outside of conductor or magnetic material between the conductor, between the magnetic material, between conductor and the magnetic material and on the contact portion between conductor, magnetic material and other element thereby will wrap up solution deposition.Then, this wrapping solution is dry with wrapping conductor and magnetic material or these and other element at normal temperatures or under the higher temperature.Drying condition in the present invention is the intensive drying under about room temperature to 120 ℃, but by 80-200 ℃ down dry at least 30 seconds to obtain enough coating effects, dry extremely fast and be solidified into possibility.
In the present invention, will cover the outer surface of magnetic material or other element etc. by the formed coating of drying wrapping solution and their will be wrapped up together.In addition, this wrapping solution is invaded in adjacent conductor, the magnetic material etc., and bonds them with wrapping up when drying and be in the same place.(below, the coating or the thin layer that form after wrapping solution drying are called " wrapping film ") therefore, because the wrapping ability is type and thickness decision by the wrapping film, so be enough to come as required to determine the type and the film thickness of wrapping solution.In addition, this wrapping ability changes according to the shape of conductor and magnetic material and the state of surface or end face, therefore is necessary to consider the shape of conductor and magnetic material and the state of surface or end face.
As wrapping solution, use the solution of mainly forming by one or more pure organosilicon polymers.Pure organosilicon polymer is by by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) hydrolysis of one or more organo-silicon compound of expression and the compound that dehydration condensation is produced.These are not having to be hydrolyzed under the situation of solvent or in organic solvent and polymerization is produced by known alkoxy silane.Can obtain have the coating of various performances by changing the type of employed silane this moment.
Usually, pure organosilicon polymer comprises the type that is called thermohardening type and wet-cured type.In the present invention, preferably use the former thermohardening type.As explained above, " thermohardening type " is by organo-silicon compound, methyl alcohol, ethanol, isopropyl alcohol, butanols or have lower boiling other alcohol and water and form.Therefore in this solidification process, by dry under about low temperature below 120 ℃ or 120 ℃, solvent composition can be evaporated in the short time and evict from the utmost point, can form the dense coating with Si-O key to dozens of minutes by dry a few minutes.For latter's wet-cured type, the absorption that divides by water in air cause hydrolysis and coating be cured and utilize the catalyst that added be used for forming coating.Therefore, need to spend several days time solidified coating sometimes.In addition, in this case, the formation of coating and curing are not finished, unless moisture is provided from ambiance.When being applied over when piling up on the sheet, especially the large tracts of land material in the present invention uses is solidificated on the end face and carries out, and moisture is infeeded inside become very difficult, therefore inner sometimes coating even several weeks after, can not solidify, so exist and can not keep constant problem curing time.
In thermohardening type of the present invention, if be heated to boiling point above solvent, then solvent can penetrate and be evicted from simply.This is an extremely big advantage in industrialization.
In addition; when attempting in the wrapping coating, to obtain high insulation resistance and puncture voltage; one or more inorganic oxide powder particles or colloidal solution, organic resin powder particle or their latex solution of 0.1-50 weight portion (by solids content) are joined in the organosilicon polymer as filler, with respect to the SiO of the pure organosilicon polymer of 100 weight portions 2Meter.Composite effect as adding filler has improved at end face of iron core or the lip-deep deposition capability of steel disc.As inorganic powder grains that is added or colloidal substance, can add the SiO that is selected from 7-5000nm initial particle size with blending 0.1-50 weight portion 2, Al 2O 3, TiO 2, ZrO 2And/or one or more materials in its compound substance.Because employed condition is stable influential for solution, so preferred being to use has the material that is no more than 0.5 μ m initial particle size.
In the present invention, when attempting to obtain the wrapping film of excellent heat resistance, if organo-silicon compound contain at least 80% by (R 1) nSi (X 1) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, a plurality of R when n=2 or 3 1Can be different, X 1Be by Cl or O (R 2) alkoxyl of expression, R wherein 2It is alkyl and as n=0, a plurality of R 1 or 2 time 2Can be different) if in the general formula of expression at least n=0,1 compound and when the ratio of the situation of the situation of n=0 with the time as n=1 be in 1: 20 to 4: 1 scope, then obtained to wrap up the more excellent properties of film.Especially, the ratio of the component of n=0 is high more, and the hardness of coating is big more.In addition, the wrapping film that the is obtained anti-cracking that becomes.This application when at high temperature using is favourable.In addition, this drying is fast usually, and dry operating efficiency is improved.Yet, a problem is arranged: no longer can obtain thick coating because of the cracking problem in the dry run of coating because the component of n=0 becomes too hard.That is, when the situation of n=0 wherein/when wherein the ratio of the situation of n=1 is lower than 0.05 (1: 20), thermal endurance variation, so this sets as boundary.On the other hand, surpass 4 (4: 1) if this ratio becomes, then thermal endurance is improved, but also can run into coating cracking and the problem that is difficult to obtain thick coating, so this sets as boundary.
In order to improve electrical insulation capability, as additive add and blending 0.1-10 weight portion have a 7-5, the 000nm initial particle size be selected from SiO 2, Al 2O 3, TiO 2With one or more compounds in its mixture be enough.
Applying the method for this wrapping solution or the method for dip-coating in this wrapping solution can be the universal method of surface applied or japanning etc.Except spraying and dip-coating, also can use and brush or other method.The inhomogeneities of the amount of coating etc. also can suppress by universal method.In addition, in order to improve the cohesive force on the contact portion of conductor, magnetic material etc., by once clearing up, on contact portion, flood this wrapping solution for contact portion, setting up predetermined contact condition then, also can improve the packing force after drying.
The dry thickness of wrapping film is controlled by the type of solvent of change wrapping solution or the concentration or the method for viscosity of solvent easily.If this coating and drying steps carry out several times, then can increase film thickness by this amount.By control for the speed of extracting of dip-coating situation with for the nozzle form of spraying situation, jet velocity etc., with above-mentioned solution condition, can be with this applying coating to predetermined thickness.In addition, can suppress solution aggregation and regulate film thickness by being blown into compressed air.
The wrapping film of Xing Chenging also can be used as electric insulation coating layer (when seeking electrical insulation capability) and also can be used as antirust coating in the present invention.According to dry coating of the present invention mainly by SiO with Si-O structure 2Form and formed dense film, therefore demonstrate extremely excellent insulation and antirust function.
(embodiment 1)
The cold rolling coil that contains the Mn of 0.35% Si, 0.002% Al and 0.25% and have a non-orientated magnetic steel sheet of 0.50mm thickness is annealed on the continuous annealing production line, then a kind of containing is being toasted in the above as the insulation coating agent on this production line under the steel disc temperature of solution at 350 ℃ by 450 weight portion Mg, 120 weight portion boric acid and the 5 weight portions acryloyl group-styrene resin fat liquor of solid content after the baking.
Then, by stamping out sheet material and joint filling, can prepare the iron core of rotor of the squirrel-cage induction motor (44 lines of rabbet joint, semi-enclosed, have and copy rod (skew) (stator slots of 1.23 times of pitches)) of 2.2kW, 200V and 60Hz three-phase and quadrupole from this coil.
Have the thickness that changes film after drying at the solution of forming shown in the table 1 simultaneously by use, iron core is immersed in the coating agent to be deposited on the end face, dry at normal temperatures and 100 ℃ of bakings 10 minutes down.Then, formed the secondary conductor rod, made the rotor of above-mentioned induction motor by aluminium die casting on iron core that inserts and axle.Find loss from the non-load characteristic of motor, confirm effect of the present invention.
In addition, at this moment wait, from the production line of non-orientated magnetic steel sheet take off some annealed materials (processed obtain insulating coating before), cut 10 * 30 centimetres of samples, use metering bar coater with above-mentioned solution sample application then, change the thickness of dry back coating simultaneously, toast and be used for the evaluation of puncture voltage, coating density, corrosion resistance etc. then similarly.
In this test unshakable in one's determination coating state and magnetic characteristic and be coated in the lip-deep material of steel disc be annealed before and afterwards the evaluation result of this insulating coating all be shown in table 2 and the table 3.
As the result of this test, when handling end face of iron core, formed clear coat and demonstrated extremely excellent corrosion resistance and thermal endurance with good gloss with insulation coating agent of the present invention.In contrast, for the situation of handling contrast material with common varnish or insulation coating agent, the oil that deposits when punching press has bigger influence.Therefore this insulating coating deposits inhomogeneously, compares the corrosion resistance extreme difference that becomes with the iron core that coating agent of the present invention applied.
In addition, even when using acetone to remove oil as preliminary treatment in Comparative Examples 1 and 2, the sedimentation state of coating at end face also becomes inhomogeneous, even obtains obviously to be inferior to result of the present invention on coating performance.
In addition, the contrast that iron loss unshakable in one's determination reduces ratio shows that the loss of the motor of handling reduces 7-17% in inventive embodiments 1-12.For Comparative Examples 13 and 14, find about 4.5% improvement in addition.Opposite with this, with regard to Comparative Examples 1, almost do not find the minimizing of loss.With regard to Comparative Examples 1, loss reduces 5% in addition.On motor performance, for insulation processing of the present invention, compare with common nonisulated processing or conventional treatment equally, loss obviously reduces and has realized the high efficiency of motor.
In addition, check the coating performance when using the section agent to apply test by metering bar coater, as shown in table 3, for the situation of using reagent of the present invention, corrosion resistance, insulation property and binding agent all are extremely good.Especially, for the situation of coating, confirm after annealing, to have obtained equally the extremely excellent results with regard to puncture voltage by the formed pure organosilicon polymer of hydrolysis of inventive embodiments 1-8,10 and 11 alkoxy silane.
Same in the example that is mixed with organosilicon polymer of inventive embodiments 12, obtained obvious good puncture voltage and coating performance.In addition, alkali silicate, colloidal silica and silicones for inventive embodiments 13 and 14, although puncture voltage, corrosion resistance and adhesiveness are inferior to the situation of above pure organosilicon polymer slightly, obtained the stable coating characteristic of comparing with Comparative Examples.
Opposite with this, compare with the present invention, with regard to Comparative Examples 1 and 2, corrosion resistance and adhesiveness extreme difference.Especially, for common varnishing, coating is fully burnt and blackening after annealing basically, compares with the present invention, and corrosion resistance and insulation property are extreme differences.
Table 1
Treatment conditions The inorganic agent condition Thickness (um) Drying condition
Inventive embodiments 1 Hydrolysate (the SiO of tetramethoxy-silicane 2Concentration 10%): the hydrolysate (SiO of 70cc monomethyl triethoxysilane 2Concentration 10%): 30cc 1.5 Room temperature 15 minutes-100 ℃ * 5 minutes
Inventive embodiments 2 Hydrolysate (the SiO of tetramethoxy-silicane 2Concentration 10%): the hydrolysate (SiO of 70cc monomethyl triethoxysilane 2Concentration 10%): 30cc 3.0
Inventive embodiments 3 Hydrolysate (the SiO of tetramethoxy-silicane 2Concentration 10%): the hydrolysate (SiO of 70cc monomethyl triethoxysilane 2Concentration 10%): 30cc 5.0
Inventive embodiments 4 3 pairs of coatings of inventive embodiments (coating-drying-coating-drying) 10.0
Inventive embodiments 5 The hydrolysate of monomethyl triethoxysilane (20%): the hydrolysate of 75cc tetraethoxysilane (20%): the hydrolysate of 15cc dimethyldiethoxysilane (20%): 10cc 5.0 Room temperature 5 minutes-150 ℃ * 5 minutes
Inventive embodiments 6 The hydrolysate of monomethyl trimethoxy silane: 100cc+granularity 15nm Al 2O 3 1%-SiO 2Mixed-powder: 1.5g 1.5
Inventive embodiments 7 5.0
Inventive embodiments 8 Inventive embodiments 7-〉inventive embodiments 5 (two coating) 1.5+3.5
Inventive embodiments 9 The siloxanes of alkali metals modified (acrylic monomers, methacryl silane reaction product) 5.0 Room temperature (25 ℃) 120 minutes
Inventive embodiments 10 Hydrolysate (the SiO of tetramethoxy-silicane 2Concentration 10%): the hydrolysate (SiO of 70cc monomethyl triethoxysilane 2Concentration 10%): 30cc 5.0 Room temperature 15 minutes-100 ℃ * 5 minutes
Inventive embodiments 11 The hydrolysate of dimethyldimethoxysil,ne (15%): the hydrolysate of 20cc phenyl triethoxysilane (15%): the hydrolysate of 30cc tetraethoxysilane (15%): 50cc+granularity 500nm SiO 2Powder: 2.5g 5.0
Inventive embodiments 12 Poly-diphenyl organosilicon polymer 50 150 ℃ * 20 minutes
Inventive embodiments 13 Alkali silicate (Na 2O·SiO 2) 100g+ colloidal silica (30%) 50g 5.0 100 ℃ * 15 minutes
Inventive embodiments 14 The silandiol polymer 5.0 150 ℃ * 15 minutes
Comparative Examples 1 Polyimide varnish 5.0 150℃×2hr
Comparative Examples 2 50Al phosphate 100L+CrO 310kg+30% colloidal silica 40L 5.0 300 ℃ * 10 minutes
Table 2
Treatment conditions Form the state (dried outward appearance) of coating Corrosion resistance (50 ℃, 120hr, humidity 80%) End coating state after iron core annealing *1
Inventive embodiments 1 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 2 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 3 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 4 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 5 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 6 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 7 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 8 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 9 VG forms the homogeneous transparent coating VG does not get rusty G has some blackouts, and is glossy
Inventive embodiments 10 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 11 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 12 VG forms the homogeneous transparent coating VG does not get rusty VG, basic not variation
Inventive embodiments 13 F-G, winding bright, some coatings are inhomogeneous G gets rusty a little in inhomogeneous coating place G has some blackouts, and is glossy
Inventive embodiments 14 VG forms the homogeneous transparent coating VG does not get rusty G has some blackouts, and is glossy
Comparative Examples 1A *2) Comparative Examples 1B *3) F, brown, the inhomogeneous G of more coating, brown, some coatings are inhomogeneous F has the more G-F of getting rusty in bad coating part, has some to get rusty in inhomogeneous coating part P, blackout, matt P, blackout, tarnish
Comparative Examples 2A *2) Comparative Examples 2B *3) F-P, white opacity, the inhomogeneous P of more coating, very Duo coating is inhomogeneous F-P has the more P of getting rusty in bad coating part, in bad coating part more getting rusty is arranged F-P, white opacity, most of leafing F-P, white opacity, most of leafing
*1) annealing: 700 ℃ * 5 minutes, N 2
*2) Comparative Examples 1A and 2A are according to the same mode punching press of inventive embodiments 1-14.
*3) Comparative Examples 1B and 2B come degreasing by solvent (acetone soaks and washing) as preliminary treatment.
Table 3
Form the state (dried outward appearance) of coating Corrosion resistance (50 ℃, 120hr, humidity 80%) Adhesiveness *4) Puncture voltage (n=10 mean value)
Before the annealing After the annealing *5) Before the annealing After the annealing *5)
Inventive embodiments 1 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 80 78
Inventive embodiments 2 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 200 200
Inventive embodiments 3 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 220 230
Inventive embodiments 4 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 260 250
Inventive embodiments 5 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 250 210
Inventive embodiments 6 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 180 200
Inventive embodiments 7 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 300< 300<
Inventive embodiments 8 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 300< 300<
Inventive embodiments 9 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off G has some to peel off 150 40
Inventive embodiments 10 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off G-VG has some to peel off 250 220
Inventive embodiments 11 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off G-VG has some to peel off 300< 300<
Inventive embodiments 12 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off VG does not peel off 250 200
Inventive embodiments 13 VG forms the homogeneous transparent coating G has some corrosion VG does not peel off G has some to peel off 130 60
Inventive embodiments 14 VG forms the homogeneous transparent coating VG does not get rusty VG does not peel off F-G has some to peel off 150 40
Comparative Examples 1 F, brown, tarnish, inhomogeneous color G-F corrodes in inhomogeneous coating part F, 50% peels off P peels off fully 100 0
Comparative Examples 2 P, white opacity, more uneven coating F, more corrosion F, 95% peels off G, little peels off 160 120
*4) observed flexure plane after 5mm φ bending.
*5) annealing: 700 ℃ * 30 seconds, atmosphere N 2, the appearance after annealing
(embodiment 2)
Have each reagent of the present invention that pure organosilicon polymer shown in the table 4 is formed according to embodiment 1 in same mode be used to toast insulating coating so that on the surface of the non-orientated magnetic steel sheet of the sheet thickness of 0.5mm, obtain the film thickness after drying of 5 μ m.Then, the steel disc with this insulating coating piles up, annealing under 400 ℃ * 1hr in air, and the thermal endurance of investigation coating.The results are shown in the table 4.
Result as test, when being that based solutions is when handling these sheets in order to the pure organosilicon polymer of the present invention, in each case, in addition 400 ℃ down annealing kept transparent glossiness coating state after 1 hour and do not observed the decline of adhesiveness or insulation property.Opposite with this, for the situation of the organic type varnish of contrast material, cause that because of annealing significant decline is arranged on appearance, adhesiveness and the insulation property.
Table 4
The inorganic agent condition Appearance after annealing Adhesiveness (10mm φ bending) after annealing Puncture voltage
Before the annealing After the annealing
Inventive embodiments 1 The hydrolysate of tetraethoxysilane: the hydrolysate of 50cc monomethyl triethoxysilane: 50cc Transparent, glossy Do not peel off 230 220
Inventive embodiments 2 The hydrolysate of monomethyl triethoxysilane: the hydrolysate of 70cc tetraethoxysilane: the hydrolysate of 15cc dimethyldiethoxysilane: 15cc 240 250
Inventive embodiments 3 The hydrolysate of dimethyldimethoxysil,ne: the hydrolysate of 40cc phenyl triethoxysilane: the hydrolysate of 10cc tetraethoxysilane: 50cc granularity 15nm Al 2O 3Powder: 0.5g 270 260
Inventive embodiments 4 The hydrolysate of monomethyl triethoxysilane: the hydrolysate of 70cc tetraethoxysilane: 15cc granularity 200nm SiO 2Powder: 2g 300< 300<
Comparative Examples 1 Polyimide varnish Brownish black, lackluster More peeling off 65 10
(embodiment 3)
Stator (armature) iron core that uses the present invention to carry out handling in its surface is used to make the Microturbine generator.By obtaining stator core from the die-cut and joint filling of magnetic links, it have bolt hole with fastening should iron core.
Then, stator core is handled by the inventive embodiments 1 of embodiment 1, and this stator core is inserted in this housing, should connect with bolt by iron core then.In the past, because the layer of contact housing unshakable in one's determination or bolt or this joint filling contacts with each other, short circuit current flows through this iron core, so loss increase and stator have temperature rise largely.If application the present invention can reduce and avoid above-mentioned short circuit current and might keep this temperature rise amplitude to be lower than average 3 degree.
(embodiment 4)
On its end face, utilize the combination with one another unshakable in one's determination that the present invention handles and produce the XY linear motor.In this XY linear motor, because the mobile of magnetic flux is three-dimensional, so die-cut iron core is combined along the right angle from the common magnetic links.
Common iron core contacts on their end face each other, but is embedded insulating paper between iron core, therefore under the situation of iron core contact, makes the loss increase because of the contact of end face and bigger variation is arranged on performance.On the other hand, if insert insulating paper, then this gap becomes bigger relatively, and excitation current becomes bigger and causes the increase of no-load resistance loss.
Combine if insulating treatment method of the present invention is used to handle end face and two iron cores of the U-iron heart, then loss meeting decline and changes of properties also reduce.
(embodiment 5)
Seal stainless steel cover protecting iron core or by using ferritic stainless steel to be used for core material on the clearance side between rotor and the stator by the situation that is used for core material for magnetic links, corrode preventing the unshakable in one's determination protected of pump motor.
In the previous case, this structure is complicated.It is bigger or the like that eddy generation loss on stainless steel cover, this gap become, so the decline of amount of exports is inevitable.Under latter event,, caused the decline of amount of exports because the saturation magnetization of ferritic stainless steel is low.Therefore, make motor by handling the iron core of forming by magnetic links according to the present invention.
Made this iron core of insulation processing also handles on its end face by the present invention.It is excellent on corrosion resistance, much less, and structurally is simply also can use the high saturation magnetic links to make, and is therefore no problem aspect the decline of amount of exports.They in addition after 100 hours operation, do not get rusty yet, and this motor performance is identical with common motor except that the pump motor.
(embodiment 6)
The non-orientated magnetic steel sheet of 50H800 is punched to get off, and the iron core that uses for small-sized 48mm audio power transformer is produced in strain annealing and being used to.Capacity is 100VA (100V/6V: 1A/16A).
In this case, condition 1 is in joint filling that it is die-cut, and condition 2 be do not have under the joint filling it is die-cut.
The present invention is applicable to condition 2.That is to say that this iron core surface (comprising end face) is used from diphenyl diethoxy silane, dimethyl monomethyl triethoxysilane and tetraethoxysilane and sprayed by the partial condensate that 1: 4: 5 ratio obtains, dry then and form film.At this moment, this coating is handled and is carried out twice, follows under 75 ℃ by dry 5 minutes of hot-air, obtains the average film thickness of 7 μ m.Then, this coiling of attaching and finish assembling.
Condition 1 is used for making power transformer by commonsense method, does not use the present invention.The transformer of condition 1 is not fastening fully with its iron core.Produce noise, therefore the independent fastening clamper that provides is provided.Yet,, almost do not produce noise and do not need extra clamper from iron core for the transformer of condition 2 according to the present invention.
(embodiment 7)
The present invention is used to produce the brushless DC motor of four-pole motor.Employed wrapping solution is the partial condensate (concentration 20%) that obtains from according to the monomethyl trimethoxy silane of 3: 1 ratios and tetramethoxy-silicane, and it is dry then and form the wrapping film.The armature that this stator is made up of 12 laminations that separate (lamination 1 that is shown among Fig. 2 is stacked on together).The circular external diameter unshakable in one's determination of assembling is 120mm.Lamination 1A that should be separately is die-cut from the magnetic links, and the windrow of going forward side by side is folded.At the center of the top of stacked body and bottom upper magnetic steel sheet by the excellent 4a of Fig. 3 and 4b maintenance with fastening this stacked body.Wrapping solution only is coated on the die-cut end face-and or not on the end face of tooth 2, corresponding to that clearance side of rotor.Then, the at room temperature dry and fastening formation wrapping film of this stacked body.This wrapping solution is by brushing, and only utilizes fully the method for coating processing end face and coated.In this case, this wrapping solution impregnation is in brush and apply, and has obtained the dry back average film thickness of 5 ' (Fig. 4) the last 10 μ m in the gap, and this gap is formed by piling up slotted portion die-cut on the processing end face unshakable in one's determination.
Then, coiling 6 directly is wrapped on the lamination 1B that separates with wrapping film, the dry simultaneously wrapping solution that is somebody's turn to do, as shown in Figure 5.In addition as shown in Figure 6, will the part except clearance side immerse in this wrapping solution and in addition dry.Because this, this coiling wrapping intensity and rigidity fastened and unshakable in one's determination is improved.Then, single lamination is assembled, and backing plate 9a and 9b are placed on the top surface and basal surface of stacked body unshakable in one's determination unshakable in one's determination, and this assembly is press fit in this housing 10 simultaneously.When placing backing plate, this wrapping solution is applied on the surface of this iron core of contact, then backing plate is placed on this iron core.The assembly of having placed these laminations that separate of backing plate applies on its excircle with wrapping solution then, then it is press-fit in this housing, as shown in Figure 6.Then, with its bone dry.
If use method of the present invention, then between the conductor, between each sheet magnetic links, between conductor and the lamination that separates, between the lamination that separating and the electric insulation between iron core and housing and fastening and wrapping for the temperature that can bear from normal temperature to used permanent magnet motor or to be higher than 500 ℃ temperature all be possible.Therefore, because this is higher than common 200 ℃ of stable on heating coiling temperature, might allows bigger electric current flow through coiling and obtain high amount of exports.In addition, the rigidity of motor becomes higher generally, therefore becomes a kind of mode of opposing noise and vibration.If adopt wrapping of the present invention, might be suppressed at the short circuit current that can cause problem in joint filling, the welding etc. and reduce loss and the improvement controllability.In addition, might improve from conductor and the heat that produces unshakable in one's determination and escape through wrapping film of the present invention.Consider from this point that equally this can improve the amount of exports of motor effectively and reduce resistance loss (resistance that suppresses to be caused because of heating up increases).
(embodiment 8)
By the armature in embodiment 7, produced with use IPM rotor of the present invention to make IPM (implantation magnet) motor of four utmost points.This motor is being controlled on the moment of torsion under the low velocity.Motor is immersed the wrapping solution that the partial condensate that obtained by monomethyl triethoxysilane and tetraethoxysilane from 1: 3 ratio forms, and having converted with respect to 100 weight portions changes into SiO 2This material meter, this solution contains the Al with 10nm granularity as the 2g of filler 2O 3, obtained 5 μ m at dried average film thickness.It is in addition dry and form the wrapping film.
Magnetized SmCo sintered magnet is immersed in the wrapping solution, dry then.As shown in FIG. 8, this magnet 12 is inserted in the IPM rotor core 11.The rotor core of having inserted magnet also is dipped in this wrapping solution.When spraying Compressed Gas, remove unnecessary wrapping solution, then iron core is force-fitted on the axle 13.This assembly is in addition dry then and form the wrapping film 14 of partial condensate.The present invention not only can fastening this magnet but also insulated in surface unshakable in one's determination in epitrochanterian use.In addition, it can improve the intensification of the heat conductivity between magnet and the iron core and insulation property and this magnet of inhibition and be suppressed at magnet and iron core between short circuit current.Gap between rotor and axle is wrapped up film and is filled and be used to suppress the intensification of rotor.SmCo magnet can use under the temperature higher than FeNdB magnet, but the temperature rise of SmCo sintered magnet also can be suppressed, and the magnetized minimizing of magnet also can be suppressed.
(embodiment 9)
The present invention is used for the induction motor at production the two poles of the earth.Used wrapping solution is the partial condensate that obtains from the diphenyl Ethoxysilane of 1: 5: 4 ratio, dimethyl monomethyl triethoxysilane and tetraethoxysilane.It is in addition dry and form the wrapping film.This stator core is the iron core of integrally punching, provides joint filling thereon so that carry out fastening temporarily on three positions of along the circumferential direction going up apart from the same distance of excircle 2mm.Wrapping solution is sprayed onto on the line of rabbet joint of whole iron core and through super-dry forms the wrapping film.At this moment, this coating is handled and is carried out twice, and middle the intervention under 5 ℃ by dry 5 minutes of warm air obtains the average film thickness of 7 μ m.Then, this wrapping solution deposition on armature winding and the surface of winding in addition dry.Utilize inserter that the coiling of drying is inserted in the line of rabbet joint of stator core.Then, whole armature is immersed in this wrapping solution.100 ℃ of hot-airs are that clearance side from rotor is blown into so that blow away the redundant solution that deposits at the tooth edge, so that the film thickness that reduces clearance surface is to being lower than 0.1mm.These 100 ℃ of hot-airs have the effect of the drying quickened.At last, it is formed final wrapping film 300 ℃ of following dryings.
If use the present invention then might adopt the temperature up to 500 ℃.Can expect the high wrapping unshakable in one's determination of piling up to this temperature, the inhibition of short circuit current, the noise that utilizes the minimizing of tooth edge vibration and cause reduces, and discharges amount of exports and the low resistance loss (suppressing because the resistance that temperature rise causes raises) that increases owing to higher heat.
(embodiment 10)
Produce induction motor by armature core and the use aluminium die casting rotor of the present invention in embodiment 9, produced.The neutralization of wrapping solution is dry then carries out aluminium die casting then to wrap up it by die-cut iron core is immersed, and obtains rotor.Employed wrapping solution is the mixed solution from monomethyl trimethoxy silane, tetramethoxy-silicane and the dimethyldimethoxysil,ne of 5: 3: 2 ratios.It is in addition dry and form the wrapping film.
The wrapping film that forms by drying can bear even aluminium die casting, and therefore the short circuit between secondary conductor aluminium conductor and iron core can be inhibited.Therefore, can realize the stabilisation of the high output performance of induction motor.
(embodiment 11)
Wrapping solution is applied on the surface of coiling and is in addition dry.To wind the line to twine and, it is in addition dry that the transformer core that will wind the line then immerses the neutralization of wrapping solution.Used wrapping solution is the partial condensate from the diphenyl triethoxysilane of 1: 9 ratio and the acquisition of single ethyl triethoxysilane.This coating is handled and is carried out three times, the middle intervention by dry 15 minutes of 80 ℃ hot-air, and this coating forms the wrapping film through super-dry then.
By the present invention is applied over transformer fe in the heart, might even under 200 ℃, operate, improve rigidity unshakable in one's determination and noise is reduced 3 decibels.
(embodiment 12)
The present invention is used to produce the iron core with line of rabbet joint, its be used to boost reactor of chopper.As shown in Figure 9, the wrapping solution that the partial condensate that formation wound core 21 and immersion are obtained by diphenyl diethoxy silane and tetramethoxy-silicane from 1.5: 8.5 ratios is formed, and dry under this state.This iron core stacked body is wrapped up, and keeps its shape simultaneously.Then, formed the line of rabbet joint 22 by tightening up and cut near the zone formation place of the line of rabbet joint.On the other hand, be inserted into coiling in the wound core that cuts, and then immerse in this wrapping solution and dry in advance by lead (wire) being twined and allow the wrapping solution deposition in its surface and dry and it is shaped, and final acquisition.Then, institute's coiling of forming and reeling being inserted unshakable in one's determination face with each other two of this neutralization of cutting core on cutting partly cuts the line of rabbet joint partly is provided.In order to keep this line of rabbet joint, nonmagnetic insulator 23 to be inserted, 24 windings that will wind the line are then got on.Under this state, assembly is inserted in the wrapping solution once more to form wrapping film 25, drying then.
This wrapping film can bear the temperature up to 500 ℃ at least.This reactor can operation fully under the temperature that can bear up to other parts except that reactor.This iron core itself is high rigidity.This line of rabbet joint is the obstacle of noise and vibration, also is made up of fabricated structure.Therefore, can reduce noise.
(embodiment 13)
The orientated magnetic steel sheet is punched to get off, and each sheet is used for the unitary circular armature core of 8 utmost point motors with manufacturing by spiral shaping.This spirality iron core is stacked in rotation, this assembly is dipped into the wrapping solution of being made up of the partial condensate that obtains from the monomethyl trimethoxy silane of 1: 1 ratio and tetramethoxy-silicane and has obtained the dry film thickness afterwards of 15 μ m, for fastening next dry, produce armature core then.Then, with it 800 ℃ of following strain annealings.After this, wrapping solution is deposited on the surface of coiling, and coiling is at room temperature dry and be attached on the armature core to produce armature then.The wound core of orientated magnetic steel sheet has crown on the rolling direction of orientated magnetic steel sheet, and the magnetic of crown is extremely excellent, so the motor iron loss can reduce.For coiling, this face coat can be peeled off.Yet, through processing of the present invention, even on the coating layer portion of peeling off, also formed face coat, therefore can avoid many problems.In addition, being dipped into the neutralization of wrapping solution can be 800 ℃ of following strain annealing by fastening dry armature, and therefore the strain that causes owing to coiling can be eliminated, and can make full use of the various performances of orientated magnetic steel sheet material.
(embodiment 14)
The present invention is used for producing simple small-sized 500 ℃ of heating furnaces.
As wrapping solution, use the partial condensate that obtains from the monomethyl trimethoxy silane and the tetramethoxy-silicane of 1: 1 ratio.This wrapping solution deposition is on the surface of heater wire.This heater wire is at room temperature dry and be arranged on the inner wall surface of heating furnace.Whole inner wall element is dipped into once more that wrapping solution neutralization is in addition dry to have the inner wall element of heater with preparation.The inner wall element that heater is housed is used to produce heating furnace.This heater wire is towards the inside of heating furnace, but the surface of heater wire is to constitute with the dry coating of wrapping up solution, so the effect of electric insulation can be maintained to high temperature.This heating furnace structurally is simple and is suitable for small-sized heating furnace.
(embodiment 15)
The present invention is used for producing the coil of the bobbin less physical activities of the voice coil motor be used for HDD (hard disk drive).As wrapping solution, use the partial condensate solution that obtains from the monomethyl trimethoxy silane and the tetramethoxy-silicane of 1: 1 ratio.This wrapping solution deposition is on the rectangular aluminum surface of conductors.This rectangular aluminum conductor is at room temperature dry and be wound in motor coil.Then, whole formed coil immerses once more in the wrapping solution and is dry and obtain moving coil.By under the fastening of the employed wrapping solution of present embodiment and insulation even fusing point, also not having problems, and be favourable, and these can become problem in the moving coil of voice coil motor for mechanical oscillation and intensity at aluminium.
(embodiment 16)
By the armature core in embodiment 16, produced with use IPM rotor of the present invention to make IPM (implantation magnet) motor of four utmost points.This motor is being controlled on the moment of torsion under the low velocity.Employed wrapping solution is the mixed solution that tetramethoxy-silicane, monomethyl trimethoxy silane and the diphenyl diethoxy silane from 2: 1: 1 ratios obtains.It is in addition dry and form the wrapping film.
Magnetized FeNdB sintered magnet is immersed in the wrapping solution, dry then.As shown in Figure 8, this magnet 12 is inserted in the IPM rotor core 11.The rotor core of having inserted magnet also is dipped in this wrapping solution.When spraying Compressed Gas, remove unnecessary wrapping solution, then iron core is force-fitted on the axle 13.This assembly is in addition dry then and formed the wrapping film 14 of partial condensate.The use of the present invention in the IPM rotor is for not only fastening this magnet but also the surface of handling this magnet, improves heat conductivity and the insulation property between magnet and iron core, suppresses the intensification of magnet, and is suppressed at the short circuit current between magnet and the iron core.Gap between rotor and axle is wrapped up film and is filled and be used to suppress the intensification of rotor.The temperature rise of FeNdB sintered magnet also can be suppressed and the magnetized decline of magnet also can be suppressed.
(embodiment 17)
The present invention is used for the induction motor at production the two poles of the earth.Employed wrapping solution is the monomethyl methoxy silane.It is in addition dry and form the wrapping film.This stator core is the iron core of integrally punching, provides joint filling thereon so that carry out fastening temporarily on three positions of along the circumferential direction going up apart from the same distance of excircle 2mm.The line of rabbet joint unshakable in one's determination is insulated paper and covers, and the armature winding attaching is got on, and then whole armature is immersed in the wrapping solution.Then, 100 ℃ of hot-airs are that clearance side from rotor is blown into so that blow away redundant solution in crown part deposition, thereby the film thickness that reduces clearance surface is to being lower than 0.1mm.Then that it is in addition dry and form the wrapping film.These 100 ℃ of hot-airs have the effect of the drying quickened.
If use the present invention, can expect then and pile up wrapping unshakable in one's determination that the inhibition of short circuit current descends because of vibration reduces the noise that is caused on the crown part, discharge the higher amount of exports cause and lower resistance loss (inhibition of the increase resistance that causes because of temperature rise) by the heat of height.
(embodiment 18)
The coiling transformer core that coiling is provided immersed in the wrapping solution and in addition dry.Employed wrapping solution is silicon modified organic polymer, that is, and and the polymer of epoxy radicals modification.It is in addition dry and form the wrapping film.
By the present invention is applied over transformer fe in the heart, rigidity unshakable in one's determination is improved and noise reduces 3 decibels.
(embodiment 19)
In embodiment 7, this stator is dipped into wrapping solution and in addition dryly piles up and wrap up implementing, and anneals under 750 ℃ then.This annealing reduces 8% with the motor iron loss.
(embodiment 20)
The present invention is used to produce the iron core with line of rabbet joint, its be used to boost reactor of chopper.As shown in Figure 9, form wound core 21 and immerse and wrap up in the solution, dry then.This iron core stacked body is wrapped up, and keeps its shape simultaneously.Then, formed the line of rabbet joint 22 by tightening up and cut into the line of rabbet joint near the zone formation place of the line of rabbet joint.In order to keep this line of rabbet joint, nonmagnetic insulator 23 to be inserted, 24 windings that will wind the line are then got on.Under this state, assembly is inserted in the wrapping solution once more to form wrapping film 25, drying then.
This reactor is characterised in that own high rigidity unshakable in one's determination.In addition, this line of rabbet joint is the obstacle of noise and vibration, also is made up of fabricated structure.Therefore, can reduce noise.
(embodiment 21)
The orientated magnetic steel sheet is punched to get off, and each sheet is used for the unitary circular armature core of 8 utmost point motors with manufacturing by spiral shaping.This spirality iron core is stacked in rotation, assembly is immersed in the wrapping solution, through super-dry with fastening it, therefore produce armature core.The wound core of orientated magnetic steel sheet has crown on the rolling direction of orientated magnetic steel sheet.The magnetic of crown is extremely excellent, so this motor iron loss can be reduced.For coiling, peeling off of face coat can be taken place, but by processing of the present invention, also form face coat and therefore avoided many problems on the coating layer portion of peeling off.
(embodiment 22)
The polygon mirror motor that laser beam printer is used is made on printed circuit board (PCB) by using magnetic links.This printed circuit board (PCB) is the layered product of two magnetic links.Armature coil is fastened on above it.This armature coil and circuit board are fastened, and magnetic links uses wrapping method of the present invention to wrap up.Two magnetic links are piled up, and this armature coil is fastened then, and assembly immerses in the wrapping solution then, and is dry so that fastening by hot-air.Employed wrapping solution even the problem that under the situation that coil temperature raises, also keeps packing force and do not have to exit, even therefore motor operatedly cause temperature rise, fastening on printed circuit board (PCB) of the wrapping of the stacked body of two magnetic links of printed circuit board (PCB) and armature coil also can be kept fully.Because there is not the problem of venting, so there is not the problem of minute surface atomizing yet.
(embodiment 23)
The following production of the wound core of transformer: amorphous magnetic material is immersed in the wrapping solution, dry then and keep its shape simultaneously.This iron core is used to produce transformer, is assembled in the housing of magnetic screen, and uses in dry this transformer.For the housing of magnetic screen, can use the assembly of the plate of forming by the nanocrystal high osmosis material that piles up, immerse in the same wrapping solution, dry then fastening to implement.This amorphous materials is as thin as a wafer, therefore should iron core or barricade lack rigidity, but this element can come combination simply and improve rigidity by wrapping method of the present invention, and the fastening of iron core or barricade becomes easily, and can not produce the fragment of amorphous metal or nanocrystal greatly.
Industrial applicibility
If in the end face of the used iron core of motor or other Conversion of Energy equipment or the short circuit that there are secondary conductor, housing, bolt etc. in the surface, then the loss of this equipment will improve, moment of torsion, thrust or amount of exports will descend, and performance will change. Therefore, the insulation processing on end face unshakable in one's determination and surface is extremely important for improvement and the stabilisation of equipment performance. The ability of easily carrying out at short notice this insulation processing industrial be valuable.
According to the present invention, can process end face unshakable in one's determination, obtain insulating barrier extremely excellent on the improvement effect of insulating properties, corrosion resistance, cohesive, heat resistance and magnetic at low temperature with in the short time, need not cleaning and remove die-cut oil, annealing or other preliminary treatment.
Therefore, this method is effective for improvement and the stabilisation of equipment performance. This technical process is simple, so cost can reduce, this technology industrial be extremely valuable. For energy and environment, the improvement of efficient and the reduction of equipment loss are important. Therefore use of the present invention also is valuable socially. Can consider to widely apply such as household electrical appliance, automation equipment in factory, business automation equipment, automobile, train etc.
In addition, the present invention notices the following fact: if there is the short circuit of secondary conductor, housing, bolt etc. on the end face of the iron core that uses in range transformer or surface, then the loss of equipment will improve and damage. In addition, this becomes the reason of performance inconsistency. Therefore, the insulation processing on end face unshakable in one's determination and surface is extremely important for improvement and the stabilisation of equipment performance. The ability of easily carrying out at short notice this insulation processing industrial be valuable. In addition, this can cause the improvement of properties, as after processing when annealing needed heat resistance.
The superior heat resistance temperature that in addition, can obtain to wind the line according to the electrical equipment of high-temperature operation of the present invention. Coiling and the iron core that is formed by magnetic material and yoke fastening and wrap up and also at high temperature do not become problem. Therefore, can improve widely the electric current that flows through coiling and the amount of exports that improves this equipment. In addition, the electrical equipment of high-temperature operation can use in the high temperature occasion.

Claims (4)

1. a surface treatment is used for the method for the magnetic element of calutron, it is characterized in that applying mainly the solution formed by at least a pure organosilicon polymer and silicon modified organic polymer or magnetic element is immersed in this solution, will apply then afterwards or the magnetic element drying after the immersion.
2. a surface treatment method that is used for the magnetic element of calutron as claimed in claim 1 is characterized in that using by passing through (R 1) nSi (OR 2) 4-n(wherein n is the integer of 0-3, R 1Be alkyl or phenyl, R 2Being alkyl) hydrolysis of one or more materials of expression and organo-silicon compound that the partial dehydration condensation reaction is produced are as pure organosilicon polymer.
3. surface treatment method that is used for the magnetic element of calutron as claimed in claim 1 or 2 is characterized in that described silicon modified organic polymer is one or more in the organosilicon polymer of the organosilicon polymer of the organosilicon polymer of organosilicon polymer, the epoxy radicals modification of organosilicon polymer, the modification of polyester acryloyl group of organosilicon polymer, the alkyd resins modification of acryloyl group modification, amino modified organosilicon polymer, vinyl modification and fluorine modification.
4. each described surface treatment is used for the method for the magnetic element of calutron according to claim 1-3, and wherein magnetic element is Sm-Co magnet or Fe-Nd-B magnet.
CNB2005100855871A 2001-10-05 2002-10-04 Have the iron core of excellent end face insulation and handle end face of iron core to obtain the method for insulating coating Expired - Fee Related CN100561617C (en)

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JP4568029B2 (en) 2010-10-27
CN1737958A (en) 2006-02-22

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