CN106252041A - Three-phase Width funtion Industrial Frequency Transformer structure - Google Patents

Abstract

The present invention relates to a kind of three-phase Width funtion Industrial Frequency Transformer structure, including iron core, equipped with armature winding and secondary windings on iron core, armature winding is divided into top the first armature winding, top the second armature winding, top the 3rd armature winding and bottom the first armature winding, bottom the second armature winding, bottom the 3rd armature winding.Top the first armature winding is positioned at above the first secondary windings of top, and top the second armature winding is positioned at above the second subprime winding of top, and top the 3rd armature winding is positioned at above the third time level winding of top.Bottom the first armature winding is positioned at below the first secondary windings of bottom, and bottom the second armature winding is positioned at below the second subprime winding of bottom, and bottom the 3rd armature winding is positioned at below the third time level winding of bottom.The three-phase Width funtion Industrial Frequency Transformer structure of the present invention, makes outputting current steadily, possesses and make outputting current steadily work in the range of the such alternating current of three-phase 320V～440V.

Description

Three-phase Width funtion Industrial Frequency Transformer structure

Technical field

The present invention relates to a kind of three-phase Width funtion Industrial Frequency Transformer structure.

Background technology

Conventional three-phase Industrial Frequency Transformer is operationally the widest to outputting current steadily scope after silicon controlled rectifier, when city's net When voltage falls to 360V, output electric current begins to drop, and output electric current cannot well be stablized.

Summary of the invention

The technical problem to be solved in the present invention is: overcome the deficiencies in the prior art, it is provided that a kind of three-phase Width funtion power frequency becomes Depressor structure, possesses and makes outputting current steadily work in the range of the such alternating current of three-phase 320V～440V.

The technical solution adopted for the present invention to solve the technical problems is: a kind of three-phase Width funtion Industrial Frequency Transformer structure, Including iron core, skeleton, support, binding post, equipped with armature winding and secondary windings on described iron core, described armature winding is divided into At the beginning of portion's the first armature winding, top the second armature winding, top the 3rd armature winding and bottom the first armature winding, bottom second Level winding, bottom the 3rd armature winding；Described top the first armature winding is connected with bottom the first primary windings connected in series, described on Portion's the second armature winding is connected with bottom the second primary windings connected in series；Described top the 3rd armature winding and bottom the 3rd primary around Group is connected in series.

Described secondary windings be divided into top the first secondary windings, top second subprime winding, top third time level winding and Bottom the first secondary windings, bottom second subprime winding, bottom third time level winding；Described top the first secondary windings and bottom First time level winding parallel connects, and described top second subprime winding is connected with bottom second subprime winding parallel；Described top Level winding is connected with bottom third time level winding parallel for the third time；

Described top the first armature winding is positioned at above the first secondary windings of top, and described top the second armature winding is positioned at Above the second subprime winding of top, described top the 3rd armature winding is positioned at above the third time level winding of top.

Described bottom the first armature winding is positioned at below the first secondary windings of bottom, and described bottom the second armature winding is positioned at Below the second subprime winding of bottom, described bottom the 3rd armature winding is positioned at below the third time level winding of bottom.

Further, described top the first armature winding, top the second armature winding, top the 3rd armature winding, bottom First armature winding, bottom the second armature winding, bottom the 3rd armature winding are 1/2 number of turns coiling of armature winding and are formed.

Further, described top the first secondary windings, top second subprime winding, top third time level winding, bottom First secondary windings, bottom second subprime winding, bottom third time level winding are the number of turns coiling of secondary windings and are formed.

Further, isolated by insulation barrier between described armature winding and secondary windings.

The invention has the beneficial effects as follows: the three-phase Width funtion Industrial Frequency Transformer structure of the present invention, eliminate urban network electricity and press through Top the first secondary windings, top second subprime winding, top third time level winding and bottom the first secondary windings, bottom time low The problem that second subprime winding, bottom third time level winding output current are unstable, coupling is good, and energy conversion efficiency is high, band Loading capability is strong, makes outputting current steadily, possesses and make outputting current steadily in the range of the such alternating current of three-phase 320V～440V Work, disclosure satisfy that through silicon controlled rectifier and presses relatively low area to charge normal at urban network electricity, this makes it possible to meet more The user in area uses.

Accompanying drawing explanation

The present invention is further described below in conjunction with the accompanying drawings.

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the schematic side view of Fig. 1；

Wherein: 1, iron core, 2, skeleton, 3, support, 6, insulation barrier, 7, binding post,

41, top the first armature winding, 42, top the second armature winding, 43, top the 3rd armature winding, 44, bottom One armature winding, 45, bottom the second armature winding, 46, bottom the 3rd armature winding,

51, top the first secondary windings, 52, top second subprime winding, 53, top third time level winding, 54, bottom the One secondary windings, 55, bottom second subprime winding, 56, bottom third time level winding.

Detailed description of the invention

Presently in connection with accompanying drawing, the present invention is further illustrated.These accompanying drawings are the schematic diagram of simplification only with signal side The basic structure of the formula explanation present invention, therefore it only shows the composition relevant with the present invention.

As it is shown in figure 1, a kind of three-phase Width funtion Industrial Frequency Transformer structure, including iron core 1, skeleton 2, support 3, binding post 7, Equipped with armature winding and secondary windings on described iron core 1, described armature winding is divided into top the first armature winding 41, top second Armature winding 42, top the 3rd armature winding 43 and bottom the first armature winding 44, bottom the second armature winding 45, bottom the 3rd Armature winding 46；Described top the first armature winding 41 is connected in series with bottom the first armature winding 44, at the beginning of described top second Level winding 42 is connected in series with bottom the second armature winding 45；Described top the 3rd armature winding 43 and bottom the 3rd armature winding 46 are connected in series.

Described secondary windings be divided into top the first secondary windings 51, top second subprime winding 52, top third time level around Group 53 and bottom the first secondary windings 54, bottom second subprime winding 55, bottom third time level winding 56；Described top is for the first time Level winding 51 is connected in parallel with bottom the first secondary windings 54, described top second subprime winding 52 and bottom second subprime winding 55 are connected in parallel；Described top third time level winding 53 is connected in parallel with bottom third time level winding 56；

Described top the first armature winding 41 is positioned at above top the first secondary windings 51, described top the second armature winding 42 are positioned at above top second subprime winding 52, and described top the 3rd armature winding 43 is positioned on the third time level winding 53 of top Side；

Described bottom the first armature winding 44 is positioned at below bottom the first secondary windings 54, described bottom the second armature winding 45 are positioned at below bottom second subprime winding 55, and described bottom the 3rd armature winding 46 is positioned at bottom third time level winding 56 times Side.

Described top the first armature winding 41, top the second armature winding 42, top the 3rd armature winding 43, bottom first Armature winding 44, bottom the second armature winding 45, bottom the 3rd armature winding 46 are 1/2 number of turns coiling shape of armature winding Become.

Described top the first secondary windings 51, top second subprime winding 52, top third time level winding 53, bottom first Secondary windings 54, bottom second subprime winding 55, bottom third time level winding 56 are the number of turns coiling of secondary windings and are formed.

Isolated by insulation barrier 6 between described armature winding and secondary windings.

Conventional transformer structure cannot make outputting current steadily through SCR rectification circuit in the range of 320V～440V. If using the three-phase Width funtion Industrial Frequency Transformer structure of the present invention, eliminate top the first secondary windings when urban network electricity presses through low 51, top second subprime winding 52, top third time level winding 53 and bottom the first secondary windings 54, bottom second subprime winding 55, third time level winding 56 in bottom exports the problem that electric current is unstable, and coupling is good, and energy conversion efficiency is high, and load capacity is strong, Make outputting current steadily, possess and make outputting current steadily work in the range of the such alternating current of three-phase 320V～440V, pass through Silicon controlled rectifier disclosure satisfy that presses relatively low area to charge normal at urban network electricity, this makes it possible to meet the user in more area Use.

With the above-mentioned desirable embodiment according to the present invention for enlightenment, by above-mentioned description, relevant staff is complete Entirely can carry out various change and amendment in the range of without departing from this invention technological thought.The technology of this invention The content that property scope is not limited in description, it is necessary to determine its technical scope according to right.

Claims (4)

1. a three-phase Width funtion Industrial Frequency Transformer structure, including iron core, skeleton, support, binding post, equipped with just on described iron core Level winding and secondary windings, it is characterised in that: described armature winding be divided into top the first armature winding, top the second primary around Group, top the 3rd armature winding and bottom the first armature winding, bottom the second armature winding, bottom the 3rd armature winding；Described Top the first armature winding is connected with bottom the first primary windings connected in series, and described top the second armature winding is primary with bottom second Windings in series connects；Described top the 3rd armature winding is connected with bottom the 3rd primary windings connected in series；

Described secondary windings is divided into top the first secondary windings, top second subprime winding, top third time level winding and bottom First secondary windings, bottom second subprime winding, bottom third time level winding；Described top the first secondary windings and bottom first Secondary windings is connected in parallel, and described top second subprime winding is connected with bottom second subprime winding parallel；Described top the 3rd Secondary windings is connected with bottom third time level winding parallel；

Described top the first armature winding is positioned at above the first secondary windings of top, and described top the second armature winding is positioned at top Above second subprime winding, described top the 3rd armature winding is positioned at above the third time level winding of top；

Described bottom the first armature winding is positioned at below the first secondary windings of bottom, and described bottom the second armature winding is positioned at bottom Below second subprime winding, described bottom the 3rd armature winding is positioned at below the third time level winding of bottom.

Three-phase Width funtion Industrial Frequency Transformer structure the most according to claim 1, it is characterised in that: described top first is primary Winding, top the second armature winding, top the 3rd armature winding, bottom the first armature winding, bottom the second armature winding, bottom 3rd armature winding is 1/2 number of turns coiling of armature winding and is formed.

Three-phase Width funtion Industrial Frequency Transformer structure the most according to claim 1, it is characterised in that: first time, described top level Winding, top second subprime winding, top third time level winding, bottom the first secondary windings, bottom second subprime winding, bottom Level winding is the number of turns coiling formation of secondary windings for the third time.

Three-phase Width funtion Industrial Frequency Transformer structure the most according to claim 1, it is characterised in that: described armature winding is with secondary Isolated by insulation barrier between level winding.