CN105006361A - Double-station winding machine for high-tension coil of three-dimensional wound core dry type transformer - Google Patents

Abstract

Provided is a double-station winding machine for a high-tension coil of a three-dimensional wound core dry type transformer. The winding machine comprises a base, a left wallboard, a left rack, a right wallboard, a right rack, a winding power device on the left wallboard, a left riding wheel supporting plate mechanism on the left rack, a right riding wheel supporting plate mechanism on the left rack, a winding power device on the right wallboard, a left riding wheel supporting plate mechanism on the right rack, a right riding wheel supporting plate mechanism on the right rack, an iron core support frame, and an iron core turnover support. Since the winding machine has two sets of independent winding power devices, the machine can wind two phases of coils of a transformer. Since positions of the right wallboard can be moved, the machine is suitable for installation of iron cores of transformers in different sizes. Since the main shaft of the main shaft mechanism of the winding power device can move parallelly, cooperation of a left gear and a right gear on the main shaft and riding wheels which are on the right rack and are corresponding to the left gear and the right gear is convenient and reliable, and a gap between a low-voltage inner wall of a transformer winding former and a core limb in rotation can be easily ensured. The device is simple in structure, convenient in operation, high in winding efficiency, and is safe and practical.

Description

Dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine

Technical field

The present invention relates to transformer coil coil winding machine, especially relate to a kind of dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine.

Background technology

A kind of three-dimensional rolled iron core resin casting dry-type transformer, high-tension coil is segmented layered structure, when coiling, its adjacent coil segment needs separately coiling: several coil segments that in first coiling high-tension coil, initial line end position is identical, reverse adjacent several coil segments be connected in series with it in coiling high-tension coil again, such two adjacent coil segments around to could be identical, just can be sequentially connected in series.

If with the coil of general conventional this segmented layered structure of single-phase coil winding machine coiling, more loaded down with trivial details, because single-phase coil winding machine only has a coiling station, can only first phase one phase in complete high-tension coil identical initial line end position coil segment after, transformer body is installed in tune again, the more adjacent coil segment that in the coiling high-tension coil of phase one phase, initial line end position is contrary; Around complete three-phase high voltage coil, transformer body needs once to reverse end for end, twice installation, four upsets, so the winding efficiency of single-phase coil winding machine is lower, non-cutting time is long wait not enough.

Summary of the invention

The object of the present invention is to provide a kind of dibit coil winding machine, it has two cover routing power devices, has two independently coiling stations, can simultaneously to the two-phase coil winding of transformer; Be the coil of segmented layered structure to transformer high-voltage coil, its adjacent coil segment be connected in series can separate coiling on two different coiling stations of dibit coil winding machine, and transformer body does not need tune, only needs upset; And around the three-phase high-voltage segmental layered coil of complete transformer, transformer body only needs twice installation, twice upset can be accomplished; Device structure is simple, easy to operate, safe and practical, winding efficiency is high.

The present invention is achieved in that

A kind of dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, it comprises right support roller dragging plate mechanism, core support frame and turnover bracket unshakable in one's determination on right support roller dragging plate mechanism on the routing power device on base, left wallboard, left stand, right wallboard, right stand, left wallboard, the left support roller dragging plate mechanism on left stand table top, left stand table top, the routing power device on right wallboard, the left support roller dragging plate mechanism on right stand table top, right stand table top, wherein:

Base is rectangular frame; The bottom of base is the bedframe with channel-section steel welding, and the upper surface of bedframe is the base plane with Plate Welding; The length and width size of base plane and the length and width of bedframe measure-alike; Base plane has base plane square hole, and (effect of base plane square hole is when the disc coil of coiling SGB type dry transformer high-tension coil, in base plane square hole, arrange a support staff, below coil winding machine, coordinate turning over cake and pulling out the insulation ceramics between winding displacement cake of the anti-cake line segment of the disc coil of SGB type dry transformer high-tension coil); At the Width of base plane, be welded with one and connect flat, equal with base plane width dimensions base boss with base plane left end sideline; At the length direction of base plane, be welded with base plane length direction position of center line symmetry, the left channel-section steel be parallel to each other, right channel-section steel; Base boss is withstood in the front end of left channel-section steel, right channel-section steel, and the rear end of left channel-section steel, right channel-section steel and the right-hand member sideline of base plane connect flat;

Left wallboard is the body of wall shape vertical frame with sheet material welding; The bottom surface length and width size of left wallboard and the length and width of base boss measure-alike; The identical length and width dimensional directions of base boss pressed by left wallboard, is fixed on base boss;

Left stand is cuboid framework; The size of left stand on the Width of base plane is identical with left wallboard, identical with the width dimensions of base; Left stand is close to left wallboard, is fixed on the left channel-section steel on base plane, right channel-section steel; Left stand is on the Width of base, concordant with left wallboard, base;

Right wallboard is that body of wall shape vertical frame, the platform framework welded by sheet material is formed; The body of wall shape vertical frame of right wallboard is welded on the platform framework of right wallboard, and concordant with the right of the platform framework of right wallboard; Measure-alike on base Width of the body of wall shape vertical frame of right wallboard, platform framework is identical with the width of base;

Right wallboard press the table top of platform framework inwardly, body of wall shape vertical frame position outwardly, be located at the another side on base relative to left wallboard; Right wallboard is concordant with left wallboard, left stand, base on base plane Width;

Left wallboard is provided with the horizontal notch of left-hand, the horizontal notch of dextrad; Right wallboard is provided with the horizontal notch of left-hand, the horizontal notch of dextrad; Their height on base of the upper plane of the horizontal notch of left-hand of the horizontal notch of left-hand of left wallboard, the horizontal notch of dextrad, the upper plane of left wallboard, right wallboard, the horizontal notch of dextrad, right wallboard are identical; The metope of left wallboard, the metope of right wallboard parallel on base;

The bottom surface of right wallboard is provided with roller, guide wheel; Wherein:

Roller in the forward and backward position angle in the left side, bottom surface of right wallboard contacts with the interior rail level of the left channel-section steel of base, in left channel-section steel, rail level can roll;

Guide wheel in the forward and backward position angle in the left side, bottom surface of right wallboard contacts with the outer guide face of the left channel-section steel of base, can roll on the outer guide face of left channel-section steel;

Roller on the right of the bottom surface of right wallboard in forward and backward position angle contacts with the interior rail level of the right channel-section steel of base, in right channel-section steel, rail level can roll;

Guide wheel on the right of the bottom surface of right wallboard in forward and backward position angle contacts with the outer guide face of the right channel-section steel of base, can roll on the outer guide face of right channel-section steel;

Screw rod connecting mechanism is provided with in the middle of the bottom surface of right wallboard; Screw rodb base pivot joint fixing on the outer face, the right of screw mandrel one end of screw rod connecting mechanism and the platform framework of right wallboard, the other end and the threaded engagement being fixed on the feed screw nut's seat on base plane of screw mandrel; Rotate the handwheel that is fixed on screw mandrel axle head, screw mandrel rotates, and the rotation of screw mandrel promotes roller on the angle, four, bottom surface of right wallboard, guide wheel rolls, and the roller on the angle, four, bottom surface of right wallboard, the rolling of guide wheel drive right wallboard to move as horizontal linear on base;

Right stand is cuboid framework; The length and width of the length and width size of right stand and the platform framework table top of right wallboard is measure-alike, also measure-alike with the length and width of left stand; Right stand is close to the body of wall shape vertical frame of right wallboard, be fixed on the table top of the platform framework of right wallboard by the length and width dimensional directions that the platform framework table top of right wallboard is identical, concordant with the body of wall shape vertical frame of right wallboard, concordant with left wallboard, left stand, base;

The height of table top on base of the height of table top on base of right stand, left stand is identical;

Described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, left wallboard is provided with routing power device; Routing power device on left wallboard comprises motor, worm type of reduction gearing, mainshaft mechanism, chain, clutch, chain tensioning mechanism; Wherein:

Motor is located on the Side fascia of left wallboard, fixed motor belt pulley in the rotating shaft of motor; Worm type of reduction gearing is located in the body of wall of left wallboard; Fix worm screw belt pulley at the power intake of worm type of reduction gearing, fix worm-wheel shaft sprocket wheel at the clutch end of worm type of reduction gearing; Motor is connected with the worm screw belt pulley of the power intake of worm type of reduction gearing by motor pulley, V belt; The worm-wheel shaft sprocket wheel of the clutch end of worm type of reduction gearing is connected by the clutch sprocket of chain with the clutch of the routing power device on left wallboard; Clutch sprocket is fixing on the clutch, and clutch sleeve is connected on the main shaft of the mainshaft mechanism of the routing power device on left wallboard; The degree of tightness of the chain of the routing power device on left wallboard is regulated by the chain tensioning mechanism be located on left wallboard front end face;

The mainshaft mechanism of the routing power device on described left wallboard comprises main shaft, left shaft holder, left redundant support, left gear, right gear, right redundant support, right bearing seat; Wherein:

Main shaft is long optical axis, on the table top being located at the table top of left stand, right stand, is close to the outer end of first half table top of the outer end of the first half table top of the table top of left stand, the table top of right stand; Routing power device winded coil of transformer on left wallboard: left wallboard is on the left side of winding operation standing place, and right wallboard is on the right of winding operation standing place; The left end fulcrum of main shaft and left shaft holder pivot joint, left shaft holder is located in the horizontal notch of left-hand of left wallboard; The right-hand member fulcrum of main shaft and the pivot joint of right bearing seat, the pivot joint of right bearing seat is located in the horizontal notch of dextrad of right wallboard; Wherein:

The left end of main shaft passes in left shaft holder, and on axle, cover has the clutch of the routing power device on left wallboard, spacing with spacer between clutch and left shaft holder; The left end position of the fulcrum of main shaft is fixed, and can not slide in left shaft holder;

The right-hand member of main shaft passes in right bearing seat, cover pipe fitting useless on axle; Right-hand member fulcrum on main shaft can change, can with right wallboard on base position change time, the right-hand member axial plane of main shaft can slide in right bearing seat, and the right-hand member fulcrum of main shaft is changed;

The main shaft of the mainshaft mechanism of the routing power device on described left wallboard: be provided with left redundant support, left gear, right gear, right redundant support on main shaft; Wherein:

Left gear is close to the left end fulcrum left shaft holder of main shaft, and left redundant supports and is located between left shaft holder, left gear;

Right gear is close to the right-hand member fulcrum right bearing seat of main shaft, and right redundant supports and is located between right gear, right bearing seat;

Left redundant support, left gear, right gear, right redundant support and can slide on the axial plane of main shaft;

Left gear is provided with flat key, and right gear is provided with flat key; Flat key slot fit on flat key on left gear, the flat key on right gear and main shaft; Flat key on left gear can slide with left gear in the flat key groove of main shaft; Flat key on right gear can slide with right gear in the flat key groove of main shaft;

The flat key of left gear is provided with screw, tightens the screw on left gear flat key, can fix the position of left gear on main shaft;

The flat key of right gear is provided with screw, tightens the screw on right gear flat key, can fix the position of right gear on main shaft;

Left redundant supports endoporus by bearing and main shaft pivot joint, and the bottom surface that left redundant supports is near the table top of left stand; The bottom surface supported in left redundant is provided with supporting screw, tightens this supporting screw, can fix left redundant and be supported on position on the table top of left stand;

Right redundant supports endoporus by bearing and main shaft pivot joint, and the bottom surface that right redundant supports is near the table top of right stand; The bottom surface supported in right redundant is provided with supporting screw, tightens this supporting screw, can fix right redundant and be supported on position on the table top of right stand;

The left shaft holder of the mainshaft mechanism of the routing power device on described left wallboard: the front end face of left shaft holder connects left socle screw rod, left socle screw rod and the threaded engagement being fixed on the left socle nut on left stand, rotate left socle nut, left socle nut rotation, the rotation of left socle nut pulls left socle screw rod, left socle screw rod pulls left shaft holder to move in the horizontal notch of the left-hand of left body of wall again, and moving horizontally of left shaft holder drives the left end of the main shaft of the routing power device on left wallboard to move horizontally;

The right bearing seat of the mainshaft mechanism of the routing power device on described left wallboard: the front end face of right bearing seat connects right support screw rod, right support screw rod and the threaded engagement being fixed on the right support nut on right stand, rotate right support nut, right support nut rotation, the rotation of right support nut pulls right support screw rod, right support screw rod pulls right bearing seat to move in the horizontal notch of the dextrad of right body of wall again, and moving horizontally of right bearing seat drives the right-hand member of the main shaft of the routing power device on left wallboard to move horizontally;

The chain tensioning mechanism of the routing power device on described left wallboard comprises screw mandrel, screw rodb base, sprocket shaft, tightener sprocket; Wherein:

One end of screw mandrel and the screw rodb base pivot joint be fixed on left wallboard front end face, the screw-internal thread fit on the other end of screw mandrel and sprocket shaft, pivot joint tightener sprocket on sprocket shaft, the chain contact of the routing power device on tightener sprocket and left wallboard; Rotary screw rod, moves in the chute of screw mandrel pulling chain wheel shaft on left body of wall, and the tightener sprocket position be articulated on sprocket shaft changes, the degree of tightness of the chain of the routing power device just on the left body of wall of adjustable;

Described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, right wallboard is provided with routing power device, and the routing power device on right wallboard is identical, separate with the routing power apparatus structure on left wallboard; Routing power device on right wallboard comprises motor, worm type of reduction gearing, mainshaft mechanism, chain, clutch, chain tensioning mechanism; Wherein:

Motor is located on the Side fascia of right wallboard, fixed motor belt pulley in the rotating shaft of motor; Worm type of reduction gearing is located in the body of wall of right wallboard, fixes worm screw belt pulley at the power intake of worm type of reduction gearing, fixes worm-wheel shaft sprocket wheel at the clutch end of worm type of reduction gearing; Motor is connected with the worm screw belt pulley of the power intake of worm type of reduction gearing by motor pulley, V belt; The worm-wheel shaft sprocket wheel of the clutch end of worm type of reduction gearing is connected by the clutch sprocket of chain with the clutch of the routing power device on right wallboard; Clutch sprocket is fixing on the clutch, and clutch sleeve is connected on the main shaft of the mainshaft mechanism of the routing power device on right wallboard; The degree of tightness of chain is regulated by the chain tensioning mechanism be located on right wallboard front end face;

The mainshaft mechanism of the routing power device on described right wallboard comprises main shaft, left shaft holder, left redundant support, left gear, right gear, right redundant support, right bearing seat; Wherein:

Main shaft is long optical axis, on the table top being located at the table top of left stand, right stand, is close to the outer end of later half table top of the outer end of the later half table top of the table top of left stand, the table top of right stand; Routing power device winded coil of transformer on right wallboard: right wallboard is on the left side of winding operation standing place, and left wallboard is on the right of winding operation standing place; The left end fulcrum of main shaft and left shaft holder pivot joint, left shaft holder is located in the horizontal notch of left-hand of right wallboard; The right-hand member fulcrum of main shaft and the pivot joint of right bearing seat, right bearing seat is located in the horizontal notch of dextrad on left wallboard; Wherein:

The left end of main shaft passes in left shaft holder, and on axle, cover has the clutch of the routing power device on right wallboard, spacing with spacer between clutch and left shaft holder; The left end position of the fulcrum of main shaft is fixed, and can not slide in left shaft holder;

The right-hand member of main shaft passes in right bearing seat, cover pipe fitting useless on axle; Right-hand member fulcrum on main shaft can change, can with right wallboard on base position change time, the right-hand member axial plane of main shaft can slide in right bearing seat, and the right-hand member fulcrum of main shaft is changed;

The main shaft of the mainshaft mechanism of the routing power device on described right wallboard: be provided with left redundant support, left gear, right gear, right redundant support on the axial plane of main shaft; Wherein:

Left gear is close to the left end fulcrum left shaft holder of main shaft, and left redundant supports and is located between left shaft holder, left gear;

Right gear is close to the right-hand member fulcrum right bearing seat of main shaft, and right redundant supports and is located between right gear, right bearing seat;

Left redundant support, left gear, right gear, right redundant support and can slide on the axial plane of main shaft;

Left gear is provided with flat key, and right gear is provided with flat key; Flat key slot fit on flat key on left gear, the flat key on right gear and main shaft; Flat key on left gear can slide with left gear in the flat key groove of main shaft; Flat key on right gear can slide with right gear in the flat key groove of main shaft;

The flat key of left gear is provided with screw, tightens and changes screw, can fix the position of left gear on main shaft;

The flat key of right gear is provided with screw, tightens this screw, can fix the position of right gear on main shaft;

Left redundant supports endoporus by bearing and main shaft pivot joint, and the bottom surface of left redundant supporting seat is near the table top of right stand; Be provided with supporting screw in the bottom surface of left redundant supporting seat, tighten this supporting screw, left redundant can be fixed and be supported on position on the table top of right stand;

Right redundant supports endoporus by bearing and main shaft pivot joint, and the bottom surface of right redundant supporting seat is near the table top of left stand; Be provided with supporting screw in the bottom surface of right redundant supporting seat, tighten this supporting screw, right redundant can be fixed and be supported on position on the table top of left stand;

The left shaft holder of the mainshaft mechanism of the routing power device on described right wallboard: the front end face of left shaft holder connects left socle screw rod, left socle screw rod and the threaded engagement being fixed on the left socle nut on right stand, rotate left socle nut, left socle nut rotation, the rotation of left socle nut pulls left socle screw rod, left socle screw rod pulls left shaft holder to move in the horizontal notch of the left-hand of right body of wall, and moving horizontally of left shaft holder drives the left end of the main shaft of the routing power device on right wallboard to move horizontally;

The right bearing seat of the mainshaft mechanism of the routing power device on described right wallboard: the front end face of right bearing seat connects right support screw rod, right support screw rod and the threaded engagement being fixed on the right support nut on left stand, rotate right support nut, right support nut rotation, the rotation of right support nut pulls right support screw rod, right support screw rod pulls right bearing seat to move in the horizontal notch of the dextrad of left body of wall, and moving horizontally of right bearing seat drives the right-hand member of the main shaft of the routing power device on right wallboard to move horizontally;

The chain tensioning mechanism of the routing power device on described right wallboard comprises screw mandrel, screw rodb base, sprocket shaft, tightener sprocket; Wherein:

One end of screw mandrel and the screw rodb base pivot joint be fixed on right wallboard front end face, the screw-internal thread fit on the other end of screw mandrel and sprocket shaft, pivot joint tightener sprocket on sprocket shaft, the chain contact of the routing power device on tightener sprocket and right wallboard; Rotary screw rod, moves in the chute of screw mandrel pulling chain wheel shaft on right body of wall, and the tightener sprocket position be articulated on sprocket shaft changes, the degree of tightness of the chain of the routing power device just on the right body of wall of adjustable;

Described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine: be provided with left support roller dragging plate mechanism on the first half table top of the table top of left stand, the later half table top of the table top of left stand is provided with right support roller dragging plate mechanism; Left support roller dragging plate mechanism on left stand, the structure of right support roller dragging plate mechanism are identical, separate; Wherein:

Left support roller dragging plate mechanism on left stand comprises left screw mandrel, left planker, left roller bracket, left guide shaft, left supporting-roller shaft, left support roller; Wherein:

The screw rodb base of left screw mandrel is fixed on the front end face of left stand; One end of left screw mandrel and screw rodb base pivot joint, the other end of left screw mandrel and the threaded engagement of left planker; Left planker is arranged in the rail groove in the table top of left stand; Left roller bracket fixed by left planker; Left roller bracket is provided with axis hole; Push rod screw is provided with in the bottom of axis hole; In axis hole, left guide shaft is installed; The bottom of left guide shaft and push rod screws contact; Left supporting-roller shaft is fixed in the upper end of left guide shaft; The axle head of left supporting-roller shaft and left support roller pivot joint;

Rotate the left screw mandrel of left support roller dragging plate mechanism, left planker horizontal slip; The horizontal slip of left planker drives left support roller to move horizontally on the table top of left stand;

Rotate the push rod screw bottom left roller bracket axis hole, left guide shaft moves up and down in the axis hole of left roller bracket, and moving up and down of left guide shaft drives left support roller to move up and down on the table top of left stand;

Right support roller dragging plate mechanism on left stand comprises right screw mandrel, right planker, right planker support, right guide shaft, right supporting-roller shaft, right support roller; Wherein:

The screw rodb base of right screw mandrel is fixed on the rear end face of left stand; One end of right screw mandrel and screw rodb base pivot joint, the threaded engagement on the other end of right screw mandrel and right planker; Right planker is arranged in the rail groove in the table top of left stand; Right roller bracket fixed by right planker, and right roller bracket is provided with axis hole; Push rod screw is provided with in the bottom of axis hole; In axis hole, right guide shaft is installed; The bottom of right guide shaft and push rod screws contact; Right supporting-roller shaft is fixed in the upper end of right guide shaft; The axle head of right supporting-roller shaft and right support roller pivot joint;

Rotate the right screw mandrel of right support roller dragging plate mechanism, right planker horizontal slip; The horizontal slip of right planker drives right support roller to move horizontally on the table top of left stand;

Rotate the push rod screw bottom right roller bracket axis hole, right guide shaft moves up and down in the axis hole of right roller bracket, and moving up and down of right guide shaft drives right support roller to move up and down on the table top of left stand;

Described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine: be provided with left support roller dragging plate mechanism on the later half table top of the table top of right stand, the first half table top of the table top of right stand is provided with right support roller dragging plate mechanism; Left support roller dragging plate mechanism on right stand, right support roller dragging plate mechanism structure are identical, separate; Wherein:

Left support roller dragging plate mechanism on right stand comprises left screw mandrel, left planker, left roller bracket, left guide shaft, left supporting-roller shaft, left support roller; Wherein:

The screw rodb base of left screw mandrel is fixed on the rear end face of right stand; One end of left screw mandrel and screw rodb base pivot joint, the other end of left screw mandrel and the threaded engagement of left planker; Left planker is arranged in the rail groove in the table top of right stand; Left roller bracket fixed by left planker; Left roller bracket is provided with axis hole; Push rod screw is provided with in the bottom of axis hole; In axis hole, left guide shaft is installed; The bottom of left guide shaft and push rod screws contact; Left supporting-roller shaft is fixed in the upper end of left guide shaft; The axle head of left supporting-roller shaft and left support roller pivot joint;

Rotate the left screw mandrel of left support roller dragging plate mechanism, left planker horizontal slip; The horizontal slip of left planker drives left support roller to move horizontally on the table top of right stand;

Rotate the push rod screw bottom left roller bracket axis hole, left guide shaft can move up and down in the axis hole of left roller bracket, and moving up and down of left guide shaft drives left support roller to move up and down on the table top of right stand;

Right support roller dragging plate mechanism on right stand comprises right screw mandrel, right planker, right roller bracket, right guide shaft, right supporting-roller shaft, right support roller; Wherein:

The screw rodb base of right screw mandrel is fixed on the front end face of right stand; One end of right screw mandrel and screw rodb base pivot joint, the threaded engagement on the other end of right screw mandrel and right planker; Right planker is arranged in the rail groove in the table top of right stand; Right roller bracket fixed by right planker, and right roller bracket is provided with axis hole; Push rod screw is provided with in the bottom of axis hole; In axis hole, right guide shaft is installed; The bottom of right guide shaft and push rod screws contact; Right supporting-roller shaft is fixed in the upper end of right guide shaft; The axle head of right supporting-roller shaft and right support roller pivot joint;

Rotate the right screw mandrel of right support roller dragging plate mechanism, right planker horizontal slip; The horizontal slip of right planker drives right support roller to move horizontally on the table top of right stand;

Rotate the push rod screw bottom right roller bracket axis hole, right guide shaft moves up and down in the axis hole of right roller bracket, and moving up and down of right guide shaft drives right support roller to move up and down on the table top of right stand;

The right support roller of the right support roller dragging plate mechanism on the left support roller of the left support roller dragging plate mechanism on described left stand, right stand, when transformer coil winding, matches with the left gear of the mainshaft mechanism of the routing power device on left wallboard, right gear; Wherein:

The left support roller of the left support roller dragging plate mechanism on left stand is inner, the left gear of the mainshaft mechanism of the routing power device on left wallboard outside, jointly hold the left side gear of this winding mould of the transformer coil of wanted coiling, and the gear teeth of left gear are meshed with the gear teeth of the left side gear of this winding mould;

Rotate the left screw mandrel of the left support roller dragging plate mechanism on left stand, removable left support roller;

Rotate the left socle nut of the left shaft holder of the mainshaft mechanism of the routing power device on left wallboard, left shaft holder moves horizontally, and can move horizontally with left shaft holder with the left end of the main shaft of left shaft holder pivot joint, and the left gear be arranged on main shaft also can along with moving horizontally;

By this adjustment to left support roller, left gear position, left support roller can be made, the change in location of the left side gear of winding former that left gear is held, and make the low pressure of the left side gear of winding former watt between inwall and the core limb encased, have gap, when winding former rotates, the low pressure watt inwall of the left side gear of winding former can not scratching to core limb;

The right support roller of the right support roller dragging plate mechanism on right stand is inner, the right gear of the mainshaft mechanism of the routing power device on left wallboard outside, jointly hold the right gear of this winding mould of the transformer coil of wanted coiling, and the gear teeth of right gear are meshed with the gear teeth of the right gear of this winding mould;

Rotate the right screw mandrel of the right support roller dragging plate mechanism on right stand, removable right support roller;

Rotate the right support nut of the right bearing seat of the mainshaft mechanism of the routing power device on left wallboard, right bearing seat moves horizontally, and can move horizontally with right bearing seat with the right-hand member of the main shaft of right bearing seat pivot joint, and the right gear be arranged on main shaft also can along with moving horizontally;

By this adjustment to right support roller, right gear position, right support roller can be made, the change in location of the right gear of winding former that right gear is held, and make the low pressure of the right gear of winding former watt between inwall and the core limb encased, have gap, when winding former rotates, the low pressure watt inwall of the right gear of winding former can not scratching to core limb;

The right support roller of the right support roller dragging plate mechanism on the left support roller of the left support roller dragging plate mechanism on described right stand, left stand, when transformer coil winding, matches with the left gear of the equipment mechanism of the routing power device on right wallboard, right gear; Wherein:

The left support roller of the left support roller dragging plate mechanism on right stand is inner, the left gear of the mainshaft mechanism of the routing power device on right wallboard outside, jointly hold the left side gear of the winding former of an other phase of transformer coil, and the gear teeth of left gear are meshed with the gear teeth of the left side gear of this winding mould;

Rotate the left screw mandrel of the left support roller dragging plate mechanism on right stand, removable left support roller;

Rotate the left socle nut of the left shaft holder of the mainshaft mechanism of the routing power device on right wallboard, left shaft holder moves horizontally, and can move horizontally with left shaft holder with the left end of the main shaft of left shaft holder pivot joint, and the left gear be arranged on main shaft also can along with moving horizontally;

By this adjustment to left support roller, left gear position, left support roller can be made, the change in location of the left side gear of the winding former of transformer coil that left gear is held, and make the low pressure of the left side gear of this winding former watt between inwall and the core limb encased, have gap, when winding former rotates, the low pressure watt inwall of the left side gear of winding former can not scratching to core limb;

The right support roller of the right support roller dragging plate mechanism on left stand is inner, the right gear of the mainshaft mechanism of the routing power device on right wallboard outside, jointly hold the right gear of the winding former of an other phase of transformer coil, and the gear teeth of right gear are meshed with the gear teeth of the right gear of the winding former of this phase transformer coil;

Rotate the right screw mandrel of the right support roller dragging plate mechanism on left stand, removable right support roller;

Rotate the right support nut of the right bearing seat of the mainshaft mechanism of the routing power device on right wallboard, right bearing seat moves horizontally, and can move horizontally with right bearing seat with the right-hand member of the main shaft of right bearing seat pivot joint, and the right gear be arranged on main shaft also can along with moving horizontally;

By this adjustment to right support roller, right gear position, right support roller can be made, the change in location of the right gear of the winding former of transformer coil that right gear is held, and make the low pressure of the right gear of this winding former watt between inwall and the core limb encased, have gap, when winding former rotates, the low pressure watt inwall of the right gear of winding former can not scratching to core limb;

Described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, core support frame has four; Wherein:

The table top of left stand is provided with two core support framves; The left end folder of transformer core held by core support frame on the table top of left stand, makes the left end of transformer core be fixed on the table top of left stand;

The table top of right stand is provided with two core support framves; The right-hand member folder of transformer core held by core support frame on the table top of right stand, makes the right-hand member of transformer core be fixed on the table top of right stand;

Core support frame is provided with support nut, swinging mounting nut, can change the support height of core support frame;

Described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, turnover bracket unshakable in one's determination has two; Wherein:

The upper plane of left wallboard is provided with a turnover bracket unshakable in one's determination; The upper plane of right wallboard is provided with a turnover bracket unshakable in one's determination;

Being provided with V-type plate above turnover bracket unshakable in one's determination, is the U-type groove mouth of turnover bracket unshakable in one's determination below V-type plate; The U-type groove mouth of turnover bracket unshakable in one's determination be abdicate clamping left end folder unshakable in one's determination, locus that the central shaft of right-hand member folder is occupied on left wallboard, on right wallboard; V-type plate two end band latch on turnover bracket unshakable in one's determination, takes out a latch on V-type plate, and V-type plate can rotating opening; When transformer core needs upset, to sling iron core with driving, close the V-type plate of the turnover bracket unshakable in one's determination on left wallboard, right wallboard, plug latch, the central shaft bracket of left end folder unshakable in one's determination for clamping, right-hand member folder on left wallboard, on the board slot of the V-type plate of turnover bracket unshakable in one's determination on right wallboard, unshakable in one's determination with driving upset.

The present invention is a kind of dibit curling machine of dry-type transformer with three-dimensional rolled iron core high-tension coil: its band two independently routing power devices: on the first half table top of the table top of the left stand of dibit coil winding machine, on the first half table top of the table top of right stand, be provided with the coiling station controlled by the power set on left wallboard; Another coiling station controlled by the routing power device on right wallboard is provided with on the later half table top of the table top of the left stand of coil winding machine, on the later half table top of the table top of right stand; Utilize two coiling stations of dibit coil winding machine, can simultaneously to the two-phase coil winding in three-phase transformer, two phase coils are after complete, upset transformer body, the third phase coil of coiling transformer again, thus dibit coil winding machine to have winding efficiency high, the advantages such as non-cutting time is short.This device structure is simple, easy to operate, safe and practical.

Accompanying drawing explanation

Fig. 1 is main TV structure figure of the present invention;

Fig. 2 is the vertical view of Fig. 1;

Fig. 3 is the left view of Fig. 1;

Fig. 4 is the right view of Fig. 1;

Fig. 5 is the main TV structure figure of base 1 on Fig. 1 position;

Fig. 6 is the plan structure figure of base 1 in Fig. 5;

Fig. 7 is the right view of base 1 in Fig. 5;

Fig. 8 is the main TV structure figure of left wallboard 2 on Fig. 1 position.

Fig. 9 is the right TV structure figure of left wallboard 2 in Fig. 8;

Figure 10 is the main TV structure figure of right wallboard 4 on Fig. 1 position;

Figure 11 is the left TV structure figure of right wallboard 4 in Figure 10;

Figure 12 is the sectional structure chart of the left support roller dragging plate mechanism 8 on left stand 3, right support roller dragging plate mechanism 9;

Figure 13 is the sectional structure chart of the left support roller dragging plate mechanism 10 on right stand 5, right support roller dragging plate mechanism 11;

Figure 14 is the structure chart that the left support roller 8-6 on the left stand of the left apparent direction of Figure 16 3, right support roller 9-6 match with the mainshaft mechanism gear 27,42 of routing power device 6,7;

Figure 15 is the structure chart that the left support roller 10-6 on the right stand of the right apparent direction of Figure 16 5, right support roller 11-6 match with routing power device 6,7 mainshaft mechanism gear 28,41;

Main TV structure figure when Figure 16 is winded coil of transformer of the present invention.

Embodiment

Below in conjunction with accompanying drawing, the present invention is described in further detail.

As shown in Figures 1 to 4, a kind of dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, it comprises right support roller dragging plate mechanism 11, core support frame 12 and turnover bracket unshakable in one's determination 13 on right support roller dragging plate mechanism 9 on the routing power device 6 on base 1, left wallboard 2, left stand 3, right wallboard 4, right stand 5, left wallboard 2, the left support roller dragging plate mechanism 8 on left stand 3 table top, left stand 3 table top, the routing power device 7 on right wallboard 4, the left support roller dragging plate mechanism 10 on right stand 5 table top, right stand 5 table top, wherein:

As shown in Figs. 5 to 7, base 1 is rectangular frame, the bottom of the base 1 base plane 1-2 that to be the upper surface of the bedframe 1-1 with channel-section steel welding, bedframe 1-1 be with Plate Welding, the length and width size of base plane 1-2 and the length and width of bedframe 1-1 measure-alike; The effect that base plane 1-2 has base plane square hole 1-2-1(base plane square hole 1-2-1 is when the disc coil of coiling SGB type dry transformer high-tension coil, in base plane square hole 1-2-1, arrange a support staff, below coil winding machine, coordinate the insulation ceramics turning over cake and dial between winding displacement cake of the anti-cake line segment of the disc coil of SGB type dry transformer high-tension coil); Be welded with one at the Width of base plane 1-2 and meet flat, equal with base plane 1-2 width dimensions base boss 1-3 with base plane 1-2 left end sideline; The length direction of base plane 1-2 be welded with base plane 1-2 length direction position of center line symmetry, the left channel-section steel 1-4 be parallel to each other, right channel-section steel 1-5; Base boss 1-3 is withstood in the front end of left channel-section steel 1-4, right channel-section steel 1-5, and left channel-section steel 1-4, the rear end of right channel-section steel 1-5 and the right-hand member sideline of base plane 1-2 connect flat;

As shown in Fig. 1, Fig. 3, Fig. 5, Fig. 6, Fig. 8, Fig. 9, left wallboard 2 is the body of wall shape vertical frames with sheet material welding; The length and width size of the bottom surface 2-1 of left wallboard 2 and the length and width of base boss 1-3 measure-alike; The identical length and width dimensional directions of base boss 1-3 pressed by left wallboard 2, is fixed on base boss 1-3;

As shown in Figure 1, Figure 2, shown in Fig. 6, Fig. 7, left stand 3 is cuboid frameworks; The size of left stand 3 on the Width of base plane 1-2 is identical with left wallboard 2, identical with the width dimensions of base 1; Left stand 3 is close to left wallboard 2, is fixed on the left channel-section steel 1-4 on the base plane 1-2 of base 1, right channel-section steel 1-5; Left stand 3 is on the Width of base 1, concordant with left wallboard 2, base 1;

As shown in Fig. 6, Figure 10, Figure 11, right wallboard 4 is that body of wall shape vertical frame 4-1, the platform framework 4-2 welded by sheet material is formed; The body of wall shape vertical frame 4-1 of right wallboard 4 is welded on the platform framework 4-2 of right wallboard 4, and concordant with the right of the platform framework 4-2 of right wallboard 4; Measure-alike on the Width of base 1 of body of wall shape vertical frame 4-1, the platform framework 4-2 of right wallboard 4 is identical with the width of base 1;

As shown in Figure 1, Figure 2, shown in Fig. 4, Fig. 6, right wallboard 4 press the table top of platform framework 4-2 inwardly, body of wall shape vertical frame 4-1 position outwardly, be located at the another side on base 1 relative to left wallboard 2; Right wallboard 4 is concordant with left wallboard 2, left stand 3, base 1 on base plane 1-2 Width;

As shown in Fig. 1, Fig. 3, Fig. 4, Fig. 9, Figure 11, left wallboard 2 is provided with left-hand horizontal notch 2-3, the horizontal notch 2-4 of dextrad; Right wallboard 4 is provided with left-hand horizontal notch 4-4, the horizontal notch 4-5 of dextrad; Left-hand horizontal notch 4-4, the dextrad horizontal notch 4-5 of left-hand horizontal notch 2-3, the dextrad horizontal notch 2-4 of left wallboard 2, the upper plane 2-5 of left wallboard 2, right wallboard 4, their height on base 1 of the upper plane 4-6 of right wallboard 4 are identical; The metope 2-6 of left wallboard 2, the metope 4-7 of right wallboard 4 parallel on base 1;

As Figure 1 and Figure 4, the bottom surface of right wallboard 4 is provided with roller 14, guide wheel 15; Wherein:

Roller 14 in the forward and backward position angle in the left side, bottom surface of right wallboard 4 contacts with the interior rail level of the left channel-section steel 1-4 of base, in left channel-section steel 1-4, rail level can roll;

Guide wheel 15 in the forward and backward position angle in the left side, bottom surface of right wallboard 4 contacts with the outer guide face of the left channel-section steel 1-4 of base, can roll on the outer guide face of left channel-section steel 1-4;

Roller 14 on the right of the bottom surface of right wallboard 4 in forward and backward position angle contacts with the interior rail level of the right channel-section steel 1-5 of base, in right channel-section steel 1-5, rail level can roll;

Guide wheel 15 on the right of the bottom surface of right wallboard 4 in forward and backward position angle contacts with the outer guide face of the right channel-section steel 1-5 of base, can roll on the outer guide face of right channel-section steel 1-5;

As shown in Figure 1, Figure 2, shown in Fig. 4, Figure 10, in the middle of the bottom surface of right wallboard 4, is provided with screw rod connecting mechanism 16; Screw rodb base 16-2 pivot joint fixing on outer face, the right 4-2-1 of screw mandrel 16-1 one end of screw rod connecting mechanism 16 and the platform framework 4-2 of right wallboard 4, the other end and the threaded engagement being fixed on the feed screw nut's seat 16-3 on base plane 1-2 of screw mandrel 16-1; Rotate the handwheel 16-4 be fixed on screw mandrel 16-1 axle head, screw mandrel 16-1 rotates, the rotation of screw mandrel 16-1 promotes roller 14 on the angle, four, bottom surface of right wallboard 4, guide wheel 15 rolls, and the roller 14 on the angle, four, bottom surface of right wallboard 4, the rolling of guide wheel 15 drive right wallboard 4 to move as horizontal linear on base 1;

As shown in Figure 1, Figure 2, shown in Figure 10, right stand 5 is cuboid frameworks; The length and width of the table top 4-2-2 of the length and width size of right stand 5 and the platform framework 4-2 of right wallboard 4 is measure-alike, also measure-alike with the length and width of left stand 3; Right stand 5 is close to the body of wall shape vertical frame 4-1 of right wallboard 4, be fixed on the table top 4-2-2 of the platform framework 4-2 of right wallboard 4 by the length and width dimensional directions that the table top 4-2-2 of the platform framework 4-2 of right wallboard 4 is identical, concordant with the body of wall shape vertical frame 4-1 of right wallboard 4, concordant with left wallboard 2, left stand 3, base 1;

As shown in Figure 1, the height of table top 3-1 on base 1 of the height of table top 5-1 on base 1 of right stand 5, left stand 3 is identical;

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 8, Fig. 9, described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, left wallboard 2 is provided with routing power device 6; Routing power device 6 on left wallboard 2 comprises motor 17, worm type of reduction gearing 18, mainshaft mechanism 19, chain 20, clutch 21, chain tensioning mechanism 22; Wherein:

Motor 17 is located on the Side fascia 2-2 of left wallboard 2, fixed motor belt pulley 17-1 in the rotating shaft of motor 17; Worm type of reduction gearing 18 is located in the body of wall 2-7 of left wallboard 2, fixes worm screw belt pulley 18-1 at the power intake of worm type of reduction gearing 18, fixes worm-wheel shaft sprocket wheel 18-2 at the clutch end of worm type of reduction gearing 18; Motor 17 is connected with the worm screw belt pulley 18-1 of the power intake of worm type of reduction gearing 18 by motor pulley 17-1, V belt 23; The worm-wheel shaft sprocket wheel 18-2 of the clutch end of worm type of reduction gearing 18 is connected with the clutch sprocket 21-1 of the clutch 21 of the routing power device 6 on left wallboard 2 by chain 20; Clutch sprocket 21-1 is fixed on clutch 21, and clutch 21 is socketed on the main shaft 24 of the mainshaft mechanism 19 of the routing power device 6 on left wallboard 2; The degree of tightness of the chain 20 of the routing power device 6 on left wallboard 2 is regulated by the chain tensioning mechanism 22 be located on left wallboard 2 front end face;

As shown in Figure 1 and Figure 2, the mainshaft mechanism 19 of the routing power device 6 on described left wallboard 2 comprises main shaft 24, left shaft holder 25, left redundant support 26, left gear 27, right gear 28, right redundant support 29, right bearing seat 30; Wherein:

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 9, Figure 11, main shaft 24 is long optical axises, on the table top 5-1 being located at the table top 3-1 of left stand 3, right stand 5, be close to the outer end of the outer end of first half table top 3-1-1 of the table top 3-1 of left stand 3, the first half table top 5-1-1 of the table top 5-1 of right stand 5; Routing power device 6 winded coil of transformer on left wallboard 2: left wallboard 2 is on the left side of winding operation standing place, and right wallboard 4 is on the right of winding operation standing place; The left end fulcrum of main shaft 24 and left shaft holder 25 pivot joint, left shaft holder 25 is located in the horizontal notch 2-3 of left-hand on left wallboard 2; The right-hand member fulcrum of main shaft 24 and right bearing seat 30 pivot joint, right bearing seat 30 is located in the horizontal notch 4-5 of dextrad on right wallboard 4; Wherein:

The left end of main shaft 24 passes in left shaft holder 25, and on axle, cover has the clutch 21 of the routing power device 6 on left wallboard 2, spacing with spacer 31 between clutch 21 and left shaft holder 25; The left end position of the fulcrum of main shaft 24 is fixed, and can not slide in left shaft holder 25;

The right-hand member of main shaft 24 passes in right bearing seat 30, cover pipe fitting useless on axle; Right-hand member fulcrum on main shaft 24 can change, can with right wallboard 4 on base 1 position change time, the right-hand member axial plane of main shaft 24 can slide in right bearing seat 30, and the right-hand member fulcrum of main shaft 24 is changed;

As shown in Figure 1 and Figure 2, the main shaft 24 of the mainshaft mechanism 19 of the routing power device 6 on described left wallboard 2: be provided with left redundant support 26, left gear 27, right gear 28, right redundant support 29 on the axial plane of main shaft 24; Wherein:

Left gear 27 is close to the left end fulcrum left shaft holder 25 of main shaft 24, and left redundant supports 26 and is located between left shaft holder 25, left gear 27;

Right gear 28 is close to the right-hand member fulcrum right bearing seat 30 of main shaft 24, and right redundant supports 29 and is located between right gear 28, right bearing seat 30;

Left redundant support 26, left gear 27, right gear 28, right redundant support 29 and can slide on the axial plane of main shaft 24;

As shown in Figure 1 and Figure 2, left gear 27 is provided with flat key 27-1, and right gear 28 is provided with flat key 28-1; Flat key 27-1 on left gear 27, the flat key 28-1 on right gear 28 coordinate with the flat key groove 24-1 on main shaft 24; Flat key 27-1 on left gear 27 can slide with left gear 27 in the flat key groove 24-1 of main shaft 24; Flat key 28-1 on right gear 28 can slide with right gear 28 in the flat key groove 24-1 of main shaft 24;

The flat key 27-1 of left gear 27 is provided with screw 27-2, tightens the screw 27-2 on left gear flat key, can fix the position of left gear 27 on main shaft 24;

The flat key 28-1 of right gear 28 is provided with screw 28-2, tightens the screw 28-2 on right gear flat key, can fix the position of right gear 28 on main shaft 24;

As shown in Figure 1 and Figure 2, left redundant supports 26 endoporus by bearing 26-2 and main shaft 24 pivot joint, and left redundant supports the bottom surface of 26 near the table top 3-1 of left stand 3; The bottom surface supporting 26 in left redundant is provided with supporting screw 26-1, tightens this supporting screw 26-1, can fix the position of left redundant support 26 on the table top 3-1 of left stand 3;

As shown in Figure 1 and Figure 2, right redundant supports 29 endoporus by bearing 29-2 and main shaft 24 pivot joint, and right redundant supports the bottom surface of 29 near the table top 5-1 of right stand 5; The bottom surface supporting 29 in right redundant is provided with supporting screw 29-1, tightens this supporting screw 29-1, can fix the position of right redundant support 29 on the table top 5-1 of right stand 5;

As Fig. 1, Fig. 2, Fig. 3, shown in Fig. 9, the left shaft holder 25 of the mainshaft mechanism 19 of the routing power device 6 on described left wallboard 2: the front end face of left shaft holder 25 connects left socle screw rod 25-1, left socle screw rod 25-1 and the threaded engagement being fixed on the left socle nut 25-2 on left stand 3, rotate left socle nut 25-2, left socle nut 25-2 rotates, the rotation of left socle nut 25-2 pulls left socle screw rod 25-1, left socle screw rod 25-1 pulls in the horizontal notch 2-3 of the left-hand of left shaft holder 25 on left body of wall 2 again and moves, moving horizontally of left shaft holder 25 drives the left end of the main shaft 24 of the mainshaft mechanism 19 of the power set 6 on left wallboard 2 to move horizontally,

As Fig. 1, Fig. 2, Fig. 4, shown in Figure 11, the right bearing seat 30 of the mainshaft mechanism 19 of the routing power device 6 on described left wallboard 2: the front end face of right bearing seat 30 connects right support screw rod 30-1, right support screw rod 30-1 and the threaded engagement being fixed on the right support nut 30-2 on right stand 5, rotate right support nut 30-2, right support nut 30-2 rotates, the rotation of right support nut 30-2 pulls right support screw rod 30-1, right support screw rod 30-1 pulls in the horizontal notch 4-5 of the dextrad of right bearing seat 30 on right body of wall 5 again and moves, moving horizontally of right bearing seat 30 drives the right-hand member of the main shaft 24 of the mainshaft mechanism 19 of the power set 6 on left wallboard 2 to move horizontally,

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 9, the chain tensioning mechanism 22 of the routing power device 6 on described left wallboard 2 comprises screw mandrel 22-1, screw rodb base 22-2, sprocket shaft 22-3, tightener sprocket 22-4; Wherein:

One end and the screw rodb base 22-2 pivot joint be fixed on left wallboard 2 front end face of screw mandrel 22-1, screw-internal thread fit on the other end of screw mandrel 22-1 and sprocket shaft 22-3, on sprocket shaft 22-3, pivot joint tightener sprocket 22-4, tightener sprocket 22-4 contact with the chain 20 of the routing power device 6 on left wallboard 2; Move in the chute 2-8 of rotary screw rod 22-1, screw mandrel 22-1 pulling chain wheel shaft 22-3 on left body of wall 2, the tightener sprocket 22-4 position be articulated on sprocket shaft 22-3 changes, the degree of tightness of the chain 20 of the routing power device 6 just on the left body of wall 2 of adjustable;

As shown in Figure 1, Figure 2, Figure 4 shows, described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, right wallboard 4 is provided with routing power device 7, and the routing power device 7 on right wallboard 4 is identical, separate with routing power device 6 structure on left wallboard 2; Routing power device 7 on right wallboard 4 comprises motor 31, worm type of reduction gearing 32, mainshaft mechanism 33, chain 34, clutch 35, chain tensioning mechanism 36; Wherein:

As shown in Figure 1, Figure 2, shown in Fig. 4, Figure 10, Figure 11, motor 31 is located on the Side fascia 4-3 of right wallboard 4, fixed motor belt pulley 31-1 in the rotating shaft of motor 31; Worm type of reduction gearing 32 is located in the body of wall 4-8 of right wallboard 4; Worm screw belt pulley 32-1 is fixed, at the fixing worm-wheel shaft sprocket wheel 32-2 of the clutch end of worm type of reduction gearing 32 at the power intake of worm type of reduction gearing 32; Motor 31 is connected with the worm screw belt pulley 32-1 of the power intake of worm type of reduction gearing 32 by motor pulley 31-1, V belt 37; The worm-wheel shaft sprocket wheel 32-2 of the clutch end of worm type of reduction gearing 32 is connected with the clutch sprocket 35-1 of the clutch 35 of the routing power device 7 on right wallboard 4 by chain 34; Clutch sprocket 35-1 is fixed on clutch 35, and clutch 35 is socketed on the main shaft 38 of the mainshaft mechanism 33 of the routing power device 7 on right wallboard 4; The degree of tightness of chain 34 is regulated by the chain tensioning mechanism 36 be located on right wallboard 4 front end face;

As shown in Figure 2, the mainshaft mechanism 33 of the routing power device 7 on described right wallboard 4 comprises main shaft 38, left shaft holder 39, left redundant support 40, left gear 41, right gear 42, right redundant support 43, right bearing seat 44; Wherein:

As shown in Fig. 2, Fig. 3, Fig. 4, Fig. 9, Figure 11, main shaft 38 is long optical axises, on the table top 5-1 being located at the table top 3-1 of left stand 3, right stand 5, be close to the outer end of the outer end of later half table top 3-1-2 of the table top 3-1 of left stand 3, the later half table top 5-1-2 of the table top 5-1 of right stand 5; Routing power device 7 winded coil of transformer on right wallboard 4: right wallboard 4 is on the left side of winding operation standing place, and left wallboard 2 is on the right of winding operation standing place; The left end fulcrum of main shaft 38 and left shaft holder 39 pivot joint, left shaft holder 39 is located in the horizontal notch 4-4 of left-hand on right wallboard 4; The right-hand member fulcrum of main shaft 38 and right bearing seat 44 pivot joint, right bearing seat 44 is located in the horizontal notch 2-4 of dextrad on left wallboard 2; Wherein:

The left end of main shaft 38 passes in left shaft holder 39, and on axle, cover has the clutch 35 of the routing power device 7 on right wallboard 4, spacing with spacer 45 between clutch 35 and left shaft holder 39; The left end position of the fulcrum of main shaft 38 is fixed, and can not slide in left shaft holder 39;

The right-hand member of main shaft 38 passes in right bearing seat 44, cover pipe fitting useless on axle; Right-hand member fulcrum on main shaft 38 can change, can with right wallboard 4 on base 1 position change time, the right-hand member axial plane of main shaft 38 can slide in right bearing seat 44, and the right-hand member fulcrum of main shaft 38 is changed;

As shown in Figure 2, the main shaft 38 of the mainshaft mechanism 33 of the routing power device 7 on described right wallboard 4: be provided with left redundant support 40, left gear 41, right gear 42, right redundant support 43 on the axial plane of main shaft 38; Wherein:

Left gear 41 is close to the left end fulcrum left shaft holder 39 of main shaft 38, and left redundant supports 40 and is located between left shaft holder 39, left gear 41;

Right gear 42 is close to the right-hand member fulcrum right bearing seat 44 of main shaft 38, and right redundant supports 43 and is located between right gear 42, right bearing seat 44;

Left redundant support 40, left gear 41, right gear 42, right redundant support 43 and can slide on the axial plane of main shaft 38;

As shown in Figure 2, left gear 41 is provided with flat key 41-1, and right gear 42 is provided with flat key 42-1; Flat key 41-1 on left gear 41, the flat key 42-1 on right gear 42 coordinate with the flat key groove 38-1 on main shaft 38; Flat key 41-1 on left gear 41 can slide with left gear 41 in the flat key groove 38-1 of main shaft 38; Flat key 42-1 on right gear 42 can slide with right gear 42 in the flat key groove 38-1 of main shaft 38;

The flat key 41-1 of left gear 41 is provided with screw 41-2, tightens this screw 41-2, can fix the position of left gear 41 on main shaft 38;

The flat key 42-1 of right gear 42 is provided with screw 42-2, tightens this screw 42-2, can fix the position of right gear 42 on main shaft 38;

As shown in Figure 2, it is not shown by bearing 40-2(that left redundant supports 40 endoporus) and main shaft 38 pivot joint, left redundant supports the bottom surface of 40 on the table top 5-1 of right stand 5; The bottom surface supported in left redundant is provided with supporting screw 40-1, tightens this supporting screw 40-1, can fix the position of left redundant support 40 on the table top 5-1 of right stand 5;

As shown in Figure 2, it is not shown by bearing 43-2(that right redundant supports 43 endoporus) and main shaft 38 pivot joint, right redundant supports the bottom surface of 43 on the table top 3-1 of left stand 3; The bottom surface supporting 43 in right redundant is provided with supporting screw 43-1, tightens this supporting screw 43-1, can fix the position of right redundant support 43 on the table top 3-1 of left stand 3;

As Fig. 2, Fig. 4, shown in Figure 11, the left shaft holder 39 of the mainshaft mechanism 33 of the routing power device 7 on described right wallboard 4: the front end face of left shaft holder 39 connects left socle screw rod 39-1, left socle screw rod 39-1 and the threaded engagement being fixed on the left socle nut 39-2 on right stand 5, rotate left socle nut 39-2, left socle nut 39-2 rotates, the rotation of left socle nut 39-2 pulls left socle screw rod 39-1, left socle screw rod 39-1 pulls in the horizontal notch 4-4 of the left-hand of left shaft holder 39 on right body of wall 4 again and moves, moving horizontally of left shaft holder 39 drives the left end of the main shaft 38 of the mainshaft mechanism 33 of the routing power device 7 on right wallboard 4 to move horizontally,

As Fig. 2, Fig. 3, shown in Fig. 9, the right bearing seat 44 of the mainshaft mechanism 33 of the routing power device 7 on described right wallboard 4: the front end face of right bearing seat 44 connects right support screw rod 44-1, right support screw rod 44-1 and the threaded engagement being fixed on the right support nut 44-2 on left stand 3, rotate right support nut 44-2, right support nut 44-2 rotates, the rotation of right support nut 44-2 pulls right support screw rod 44-1, right support screw rod 44-1 pulls in the horizontal notch 2-4 of the dextrad of right bearing seat 44 on left body of wall 2 again and moves, moving horizontally of right bearing seat 44 drives the right-hand member of the main shaft 38 of the mainshaft mechanism 33 of the routing power device 7 on right wallboard 4 to move horizontally,

As shown in Fig. 2, Fig. 4, Figure 11, the chain tensioning mechanism 36 of the routing power device 7 on described right wallboard 4 comprises screw mandrel 36-1, screw rodb base 36-2, sprocket shaft 36-3, tightener sprocket 36-4; Wherein:

One end and the screw rodb base 36-2 pivot joint be fixed on right wallboard 4 front end face of screw mandrel 36-1, screw-internal thread fit on the other end of screw mandrel 36-1 and sprocket shaft 36-3, on sprocket shaft 36-3, pivot joint tightener sprocket 36-4, tightener sprocket 36-4 contact with the chain 34 of the routing power device 7 on right wallboard 4; Move in the chute 4-9 of rotary screw rod 36-1, screw mandrel 36-1 pulling chain wheel shaft 36-3 on right body of wall 4, the tightener sprocket 36-4 position be articulated on sprocket shaft 36-3 changes, the degree of tightness of the chain 34 of the routing power device 7 just on the right body of wall 4 of adjustable;

As shown in Fig. 2, Figure 12, described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine: be provided with left support roller dragging plate mechanism 8 on the first half table top 3-1-1 of the table top 3-1 of left stand 3, the later half table top 3-1-2 of the table top 3-1 of left stand 3 is provided with right support roller dragging plate mechanism 9; Left support roller dragging plate mechanism 8 on left stand 3, the structure of right support roller dragging plate mechanism 9 are identical, separate; Wherein:

As shown in Fig. 2, Figure 12, the left support roller dragging plate mechanism 8 on left stand 3 comprises left screw mandrel 8-1, left planker 8-2, left roller bracket 8-3, left guide shaft 8-4, left supporting-roller shaft 8-5, left support roller 8-6; Wherein:

The screw rodb base 8-1-1 of left screw mandrel 8-1 is fixed on the front end face of left stand 3; One end of left screw mandrel 8-1 and screw rodb base 8-1-1 pivot joint, the other end of left screw mandrel 8-1 and the threaded engagement of left planker 8-2; Left planker 8-2 is arranged in the rail groove 3-2 in the table top 3-1 of left stand 3; Fixing left roller bracket 8-3 on left planker 8-2; Left roller bracket 8-3 is provided with axis hole 8-3-1; Push rod screw 8-3-2 is provided with in the bottom of axis hole 8-3-1; In axis hole 8-3-1, left guide shaft 8-4 is installed; The bottom of left guide shaft 8-4 contacts with push rod screw 8-3-2; Left supporting-roller shaft 8-5 is fixed in the upper end of left guide shaft 8-4; The axle head of left supporting-roller shaft 8-5 and left support roller 8-6 pivot joint;

Rotate the left screw mandrel 8-1 of left support roller dragging plate mechanism 8, left planker 8-2 horizontal slip; The horizontal slip of left planker 8-2 drives left support roller 8-6 to move horizontally on the table top 3-1 of left stand 3;

Rotate the push rod screw 8-3-2 bottom left roller bracket 8-3 axis hole 8-3-1, left guide shaft 8-4 moves up and down in the axis hole 8-3-1 of left roller bracket 8-3, and moving up and down of left guide shaft 8-4 drives left support roller 8-6 to move up and down on the table top 3-1 of left stand 3;

As shown in Fig. 2, Figure 12, the right support roller dragging plate mechanism 9 on left stand 3 comprises right screw mandrel 9-1, right planker 9-2, right planker support 9-3, right guide shaft 9-4, right supporting-roller shaft 9-5, right support roller 9-6; Wherein:

The screw rodb base 9-1-1 of right screw mandrel 9-1 is fixed on the rear end face of left stand 3; One end of right screw mandrel 9-1 and screw rodb base 9-1-1 pivot joint, the threaded engagement on the other end of right screw mandrel 9-2 and right planker 9-2; Right planker 9-2 is arranged in the rail groove 3-2 in the table top 3-1 of left stand 3; Fixing right roller bracket 9-3 on right planker 9-2, right roller bracket 9-3 is provided with axis hole 9-3-1; Push rod screw 9-3-2 is provided with in the bottom of axis hole 9-3-1; In axis hole 9-3-1, right guide shaft 9-4 is installed; The bottom of right guide shaft 9-4 contacts with push rod screw 9-3-2; Right supporting-roller shaft 9-5 is fixed in the upper end of right guide shaft 9-4; The axle head of right supporting-roller shaft 9-5 and right support roller 9-6 pivot joint;

Rotate the right screw mandrel 9-1 of right support roller dragging plate mechanism 9, right planker 9-2 horizontal slip; The horizontal slip of right planker 9-2 drives right support roller 9-6 to move horizontally on the table top 3-1 of left stand 3;

Rotate the push rod screw 9-3-2 bottom right support 9-3 axis hole 9-3-1, right guide shaft 9-4 moves up and down in the axis hole 9-3-1 of right roller bracket 9-3, and moving up and down of right guide shaft 9-4 drives right support roller 9-6 to move up and down on the table top 3-1 of left stand 3;

As shown in Fig. 2, Figure 13, described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine: be provided with left support roller dragging plate mechanism 10 on the later half table top 5-1-2 of the table top 5-1 of right stand 5, the first half table top 5-1-1 of the table top 5-1 of right stand 5 is provided with right support roller dragging plate mechanism 11; Left support roller dragging plate mechanism 10 on right stand 5, the structure of right support roller dragging plate mechanism 11 are identical, separate; Wherein:

As shown in Fig. 2, Figure 13, the left support roller dragging plate mechanism 10 on right stand 5 comprises left screw mandrel 10-1, left planker 10-2, left roller bracket 10-3, left guide shaft 10-4, left supporting-roller shaft 10-5, left support roller 10-6; Wherein:

The screw rodb base 10-1-1 of left screw mandrel 10-1 is fixed on the rear end face of right stand 5; One end of left screw mandrel 10-1 and screw rodb base 10-1-1 pivot joint, the other end of left screw mandrel 10-1 and the threaded engagement of left planker 10-2; Left planker 10-2 is arranged in the rail groove 5-2 in the table top 5-1 of right stand 5; Fixing left roller bracket 10-3 on left planker 10-2; Left roller bracket 10-3 is provided with axis hole 10-3-1; Push rod screw 10-3-2 is provided with in the bottom of axis hole 10-3-1; In axis hole 10-3-1, left guide shaft 10-4 is installed; The bottom of left guide shaft 10-4 contacts with push rod screw 10-3-2; Left supporting-roller shaft 10-5 is fixed in the upper end of left guide shaft 10-4; The axle head of left supporting-roller shaft 10-5 and left support roller 10-6 pivot joint;

Rotate the left screw mandrel 10-1 of left support roller dragging plate mechanism 10, left planker 10-2 horizontal slip; The horizontal slip of left planker 10-2 drives left support roller 10-6 to move horizontally on the table top 5-1 of right stand 5;

Rotate the push rod screw 10-3-2 bottom left roller bracket 10-3 axis hole 10-3-1, left guide shaft 10-4 can move up and down in the axis hole 10-3-1 of left roller bracket 10-3, and moving up and down of left guide shaft 10-4 drives left support roller 10-6 to move up and down on the table top 5-1 of right stand 5;

As shown in Fig. 2, Figure 13, the right support roller dragging plate mechanism 11 on right stand 5 comprises right screw mandrel 11-1, right planker 11-2, right roller bracket 11-3, right guide shaft 11-4, right supporting-roller shaft 11-5, right support roller 11-6; Wherein:

The screw rodb base 11-1-1 of right screw mandrel 11-1 is fixed on the front end face of right stand 5; One end of right screw mandrel 11-1 and screw rodb base 11-1-1 pivot joint, the threaded engagement on the other end of right screw mandrel 11-2 and right planker 11-2; Right planker 11-2 is arranged in the rail groove 5-2 in the table top 5-1 of right stand 5; Fixing right roller bracket 11-3 on right planker 11-2, right roller bracket 11-3 is provided with axis hole 11-3-1; Push rod screw 11-3-2 is provided with in the bottom of axis hole 11-3-1; In axis hole 11-3-1, right guide shaft 11-4 is installed; The bottom of right guide shaft 11-4 contacts with push rod screw 11-3-2; Right supporting-roller shaft 11-5 is fixed in the upper end of right guide shaft 11-4; The axle head of right supporting-roller shaft 11-5 and right support roller 11-6 pivot joint;

Rotate the right screw mandrel 11-1 of right support roller dragging plate mechanism 11, right planker 11-2 horizontal slip; The horizontal slip of right planker 11-2 drives right support roller 11-6 to move horizontally on the table top 5-1 of right stand 5;

Rotate the push rod screw 11-3-2 bottom right roller bracket 11-3 axis hole 11-3-1, right guide shaft 11-4 moves up and down in the axis hole 11-3-1 of right roller bracket 11-3, and moving up and down of right guide shaft 11-4 drives right support roller 11-6 to move up and down on the table top 4-1 of right stand 5;

As shown in Fig. 2, Figure 14, Figure 15, Figure 16, the right support roller 11-6 of the right support roller dragging plate mechanism 11 on the left support roller 8-6 of the left support roller dragging plate mechanism 8 on described left stand 3, right stand 5, when transformer coil winding, match with the left gear 27 of the mainshaft mechanism 19 of the routing power device 6 on left wallboard 2, right gear 28; Wherein:

As shown in Figure 14, Figure 16, the left support roller 8-6 of the left support roller dragging plate mechanism 8 on left stand 3 is inner, the left gear 27 of the mainshaft mechanism 19 of the routing power device 6 on left wallboard 2 outside, jointly hold the left side gear 46-1 of this winding mould 46 of the transformer coil of wanted coiling, the gear teeth of left gear 27 are meshed with the gear teeth of the left side gear 46-1 of this winding mould 46;

Rotate the left screw mandrel 8-1 of the left support roller dragging plate mechanism 8 on left stand 3, removable left support roller 8-6;

Rotate the left socle nut 25-2 of the left shaft holder 25 of the mainshaft mechanism 19 of the routing power device 6 on left wallboard 2, left shaft holder 25 moves horizontally, and can move horizontally with left shaft holder 25 with the left end of the main shaft 24 of left shaft holder 25 pivot joint, and the left gear 27 be arranged on main shaft 24 also can along with moving horizontally;

By this adjustment to left support roller 8-6, left gear 27 position, left support roller 8-6 can be made, the change in location of the left side gear 46-1 of winding former 46 that left gear 27 is held, and make the low pressure of the left side gear 46-1 of winding former 46 watt between inwall 46-1-1 and the core limb 52-1 encased, have gap, when winding former 46 rotates, the low pressure watt inwall 46-1-1 of the left side gear 46-1 of winding former 46 can not scratching to core limb 52-1;

As shown in Figure 15, Figure 16, the right support roller 11-6 of the right support roller dragging plate mechanism 11 on right stand 5 is inner, the right gear 28 of the mainshaft mechanism 19 of the routing power device 6 on left wallboard 2 outside, jointly hold the right gear 46-2 of this winding mould 46 of the transformer coil of wanted coiling, the gear teeth of right gear 28 are meshed with the gear teeth of the right gear 46-2 of this winding mould 46;

Rotate the right screw mandrel 11-1 of the right support roller dragging plate mechanism 11 on right stand 5, removable right support roller 11-6;

Rotate the right support nut 30-2 of the right bearing seat 30 of the mainshaft mechanism 19 of the routing power device 6 on left wallboard 2, right bearing seat 30 moves horizontally, and can move horizontally with right bearing seat 30 with the right-hand member of the main shaft 24 of right bearing seat 30 pivot joint, and the right gear 28 be arranged on main shaft 24 also can along with moving horizontally;

By this adjustment to right support roller 11-6, right gear 28 position, right support roller 11-6 can be made, the change in location of the right gear 46-2 of winding former 46 that right gear 28 is held, and make the low pressure of the right gear 46-2 of winding former 46 watt between inwall 46-2-1 and the core limb 52-1 encased, have gap, when winding former 46 rotates, the low pressure watt inwall 46-2-1 of the right gear 46-2 of winding former 46 can not scratching to core limb 52-1;

As shown in Fig. 2, Figure 14, Figure 15, the right support roller 9-6 of the right support roller dragging plate mechanism 9 on the left support roller 10-6 of the left support roller dragging plate mechanism 10 on described right stand 5, left stand 3, when transformer coil winding, match with the left gear 41 of the equipment mechanism 33 of the routing power device 7 on right wallboard 4, right gear 42; Wherein:

As shown in Fig. 2, Figure 15, the left support roller 10-6 of the left support roller dragging plate mechanism 10 on right stand 5 is inner, the left gear 41 of the mainshaft mechanism 33 of the routing power device 7 on right wallboard 4 outside, jointly hold the left side gear 47-1 of the winding former 47 of an other phase of transformer coil, the gear teeth of left gear 41 are meshed with the gear teeth of the left side gear 47-1 of this winding former 47;

Rotate the left screw mandrel 10-1 of the left support roller dragging plate mechanism 10 on right stand 5, removable left support roller 10-6;

Rotate the left socle nut 39-2 of the left shaft holder 39 of the mainshaft mechanism 33 of the routing power device 7 on right wallboard 4, left shaft holder 39 moves horizontally, and can move horizontally with left shaft holder 39 with the left end of the main shaft 38 of left shaft holder 39 pivot joint, and the left gear 41 be arranged on main shaft 38 also can along with moving horizontally;

By this adjustment to left support roller 10-6, left gear 41 position, left support roller 10-6 can be made, the change in location of the left side gear 47-1 of the winding former 47 of transformer coil that left gear 41 is held, and make the low pressure of the left side gear 47-1 of this winding former 47 watt between inwall 47-1-1 and the core limb 52-2 encased, have gap, when winding former 47 rotates, the low pressure watt inwall 47-1-1 of the left side gear 47-1 of winding former 47 can not scratching to core limb 52-2;

As shown in Fig. 2, Figure 14, the right support roller 9-6 of the right support roller dragging plate mechanism 9 on left stand 3 is inner, the right gear 42 of the mainshaft mechanism 33 of the routing power device 7 on right wallboard 4 outside, jointly hold the right gear 47-2 of the winding former 47 of the transformer coil of an other phase, the gear teeth of right gear 42 are meshed with the gear teeth of the right gear 47-2 of the winding former 47 of this transformer coil;

Rotate the right screw mandrel 9-1 of the right support roller dragging plate mechanism 9 on left stand 3, removable right support roller 9-6;

Rotate the right support nut 44-2 of the right bearing seat 44 of the mainshaft mechanism 33 of the routing power device 7 on right wallboard 4, right bearing seat 44 moves horizontally, and can move horizontally with right bearing seat 44 with the right-hand member of the main shaft 38 of right bearing seat 44 pivot joint, and the right gear 42 be arranged on main shaft 38 also can along with moving horizontally;

By this adjustment to right support roller 9-6, right gear 42 position, right support roller 9-6 can be made, the change in location of the right gear 47-2 of the winding former 47 of transformer coil that right gear 42 is held, and make the low pressure of the right gear 47-2 of winding former 47 watt between inwall 47-2-1 and the core limb 52-2 encased, have gap, when winding former 47 rotates, the low pressure watt inwall 47-2-1 of the right gear 47-2 of winding former 47 can not scratching to core limb 52-2;

As shown in Figure 1, Figure 2, shown in Figure 14, Figure 15, Figure 16, described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, core support frame 12 has four; Wherein:

The table top 3-1 of left stand 3 is provided with two core support framves 12; The left end folder 49 of transformer core 52 held by core support frame 12 on the table top 3-1 of left stand 3, makes the left end of transformer core 52 be fixed on the table top 3-1 of left stand 3;

The table top 5-1 of right stand 5 is provided with two core support framves 12; The right-hand member folder 50 of transformer core 52 held by core support frame 12 on the table top 5-1 of right stand 5, makes the right-hand member of transformer core 52 be fixed on the table top 5-1 of right stand 5;

Core support frame 12 is provided with support nut 12-1, swinging mounting nut 12-1, can change the support height 12-2 of core support frame 12;

As shown in Fig. 1, Fig. 3, Fig. 4, Figure 16, described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, turnover bracket 13 unshakable in one's determination has two, wherein:

The upper plane 2-5 of left wallboard 2 is provided with a turnover bracket 13 unshakable in one's determination; The upper plane 4-6 of right wallboard 4 is provided with a turnover bracket 13 unshakable in one's determination;

Being provided with V-type plate 13-1 above turnover bracket 13 unshakable in one's determination, is the U-type groove mouth 13-2 of turnover bracket 13 unshakable in one's determination below V-type plate 13-1; The U-type groove mouth 13-2 of turnover bracket 13 unshakable in one's determination be abdicate the clamping left end folder 49 of 52 unshakable in one's determination, the central shaft 51 of right-hand member folder 50 on left wallboard 2, locus that right wallboard 4 is occupied; The two end band latch 13-3 of the V-type plate 13-1 on turnover bracket 13 unshakable in one's determination, take out a latch 13-3 on V-type plate 13-1, and V-type plate 13-1 can rotating opening; When the iron core 52 of transformer needs upset, sling with driving unshakable in one's determination 52 device body, close the V-type plate 13-1 of the turnover bracket unshakable in one's determination 13 on left wallboard 2, right wallboard 4, plug latch 13-3, central shaft 51 frame of the left end folder 49 of unshakable in one's determination for clamping 52, right-hand member folder 50 on left wallboard 2, on the board slot 13-4 of the V-type plate 13-1 of turnover bracket unshakable in one's determination 13 on right wallboard 4, with driving upset unshakable in one's determination 52;

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Figure 14, Figure 15, Figure 16, the present invention is a kind of dibit curling machine of dry-type transformer with three-dimensional rolled iron core high-tension coil: its two, band independently routing power devices: on the first half table top 3-1-1 of the table top 3-1 of the left stand 3 of dibit coil winding machine, on the first half table top 5-1-1 of the table top 5-1 of right stand 5, be provided with the coiling station controlled by the power set 6 on left wallboard 2; Another coiling station controlled by the routing power device 7 on right wallboard 4 is provided with on the later half table top 3-1-2 of the table top 3-1 of the left stand 3 of coil winding machine, on the later half table top 5-1-2 of the table top 5-1 of right stand 5; Utilize two coiling stations of dibit coil winding machine, can simultaneously to the two-phase coil winding in three-phase transformer, two phase coils are after complete, upset transformer body, the third phase coil of coiling transformer again, thus dibit coil winding machine to have winding efficiency high, the advantages such as non-cutting time is short.

Claims (1)

1. a dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, it is characterized in that: comprise the routing power device on the left support roller dragging plate mechanism on the routing power device on base, left wallboard, left stand, right wallboard, right stand, left wallboard, left stand table top, the right support roller dragging plate mechanism on left stand table top, right wallboard, the left support roller dragging plate mechanism on right stand table top, right support roller dragging plate mechanism, core support frame and the turnover bracket unshakable in one's determination on right stand table top, wherein:

Base is rectangular frame; The bottom of base is the bedframe with channel-section steel welding, and the upper surface of bedframe is the base plane with Plate Welding; The length and width size of base plane and the length and width of bedframe measure-alike; Base plane has base plane square hole; At the Width of base plane, be welded with one and connect flat, equal with base plane width dimensions base boss with base plane left end sideline; At the length direction of base plane, be welded with base plane length direction position of center line symmetry, the left channel-section steel be parallel to each other, right channel-section steel; Base boss is withstood in the front end of left channel-section steel, right channel-section steel, and the rear end of left channel-section steel, right channel-section steel and the right-hand member sideline of base plane connect flat;

Left wallboard is the body of wall shape vertical frame with sheet material welding; The bottom surface length and width size of left wallboard and the length and width of base boss measure-alike; The identical length and width dimensional directions of base boss pressed by left wallboard, is fixed on base boss;

Left stand is cuboid framework; The size of left stand on the Width of base plane is identical with left wallboard, identical with the width dimensions of base; Left stand is close to left wallboard, is fixed on the left channel-section steel on base plane, right channel-section steel; Left stand is on the Width of base, concordant with left wallboard, base;

Right wallboard is that body of wall shape vertical frame, the platform framework welded by sheet material is formed; The body of wall shape vertical frame of right wallboard is welded on the platform framework of right wallboard, and concordant with the right of the platform framework of right wallboard; Measure-alike on base Width of the body of wall shape vertical frame of right wallboard, platform framework is identical with the width of base;

Right wallboard press the table top of platform framework inwardly, body of wall shape vertical frame position outwardly, be located at the another side on base relative to left wallboard; Right wallboard is concordant with left wallboard, left stand, base on base plane Width;

Left wallboard is provided with the horizontal notch of left-hand, the horizontal notch of dextrad; Right wallboard is provided with the horizontal notch of left-hand, the horizontal notch of dextrad; Their height on base of the upper plane of the horizontal notch of left-hand of the horizontal notch of left-hand of left wallboard, the horizontal notch of dextrad, the upper plane of left wallboard, right wallboard, the horizontal notch of dextrad, right wallboard are identical; The metope of left wallboard, the metope of right wallboard parallel on base;

The bottom surface of right wallboard is provided with roller, guide wheel; Wherein:

Roller in the forward and backward position angle in the left side, bottom surface of right wallboard contacts with the interior rail level of the left channel-section steel of base, in left channel-section steel, rail level can roll;

Guide wheel in the forward and backward position angle in the left side, bottom surface of right wallboard contacts with the outer guide face of the left channel-section steel of base, can roll on the outer guide face of left channel-section steel;

Roller on the right of the bottom surface of right wallboard in forward and backward position angle contacts with the interior rail level of the right channel-section steel of base, in right channel-section steel, rail level can roll;

Guide wheel on the right of the bottom surface of right wallboard in forward and backward position angle contacts with the outer guide face of the right channel-section steel of base, can roll on the outer guide face of right channel-section steel;

Screw rod connecting mechanism is provided with in the middle of the bottom surface of right wallboard; Screw rodb base pivot joint fixing on the outer face, the right of screw mandrel one end of screw rod connecting mechanism and the platform framework of right wallboard, the other end and the threaded engagement being fixed on the feed screw nut's seat on base plane of screw mandrel; Rotate the handwheel that is fixed on screw mandrel axle head, screw mandrel rotates, and the rotation of screw mandrel promotes roller on the angle, four, bottom surface of right wallboard, guide wheel rolls, and the roller on the angle, four, bottom surface of right wallboard, the rolling of guide wheel drive right wallboard to move as horizontal linear on base;

Right stand is cuboid framework; The length and width of the length and width size of right stand and the platform framework table top of right wallboard is measure-alike, also measure-alike with the length and width of left stand; Right stand is close to the body of wall shape vertical frame of right wallboard, be fixed on the table top of the platform framework of right wallboard by the length and width dimensional directions that the platform framework table top of right wallboard is identical, concordant with the body of wall shape vertical frame of right wallboard, concordant with left wallboard, left stand, base;

The height of table top on base of the height of table top on base of right stand, left stand is identical;

Left wallboard is provided with routing power device; Routing power device on left wallboard comprises motor, worm type of reduction gearing, mainshaft mechanism, chain, clutch, chain tensioning mechanism; Wherein:

Motor is located on the Side fascia of left wallboard, fixed motor belt pulley in the rotating shaft of motor; Worm type of reduction gearing is located in the body of wall of left wallboard; Fix worm screw belt pulley at the power intake of worm type of reduction gearing, fix worm-wheel shaft sprocket wheel at the clutch end of worm type of reduction gearing; Motor is connected with the worm screw belt pulley of the power intake of worm type of reduction gearing by motor pulley, V belt; The worm-wheel shaft sprocket wheel of the clutch end of worm type of reduction gearing is connected by the clutch sprocket of chain with the clutch of the routing power device on left wallboard; Clutch sprocket is fixing on the clutch, and clutch sleeve is connected on the main shaft of the mainshaft mechanism of the routing power device on left wallboard; The degree of tightness of the chain of the routing power device on left wallboard is regulated by the chain tensioning mechanism be located on left wallboard front end face;

The mainshaft mechanism of the routing power device on described left wallboard comprises main shaft, left shaft holder, left redundant support, left gear, right gear, right redundant support, right bearing seat; Wherein:

Main shaft is long optical axis, on the table top being located at the table top of left stand, right stand, is close to the outer end of first half table top of the outer end of the first half table top of the table top of left stand, the table top of right stand; Routing power device winded coil of transformer on left wallboard: left wallboard is on the left side of winding operation standing place, and right wallboard is on the right of winding operation standing place; The left end fulcrum of main shaft and left shaft holder pivot joint, left shaft holder is located in the horizontal notch of left-hand of left wallboard; The right-hand member fulcrum of main shaft and the pivot joint of right bearing seat, the pivot joint of right bearing seat is located in the horizontal notch of dextrad of right wallboard; Wherein:

The left end of main shaft passes in left shaft holder, and on axle, cover has the clutch of the routing power device on left wallboard, spacing with spacer between clutch and left shaft holder; The left end position of the fulcrum of main shaft is fixed, and can not slide in left shaft holder;

The right-hand member of main shaft passes in right bearing seat, cover pipe fitting useless on axle; Right-hand member fulcrum on main shaft can change, can with right wallboard on base position change time, the right-hand member axial plane of main shaft can slide in right bearing seat, and the right-hand member fulcrum of main shaft is changed;

The main shaft of the mainshaft mechanism of the routing power device on described left wallboard: be provided with left redundant support, left gear, right gear, right redundant support on main shaft; Wherein:

Left gear is close to the left end fulcrum left shaft holder of main shaft, and left redundant supports and is located between left shaft holder, left gear;

Right gear is close to the right-hand member fulcrum right bearing seat of main shaft, and right redundant supports and is located between right gear, right bearing seat;

Left redundant support, left gear, right gear, right redundant support and can slide on the axial plane of main shaft;

Left gear is provided with flat key, and right gear is provided with flat key; Flat key slot fit on flat key on left gear, the flat key on right gear and main shaft; Flat key on left gear can slide with left gear in the flat key groove of main shaft; Flat key on right gear can slide with right gear in the flat key groove of main shaft;

The flat key of left gear is provided with screw, tightens the screw on left gear flat key, can fix the position of left gear on main shaft;

The flat key of right gear is provided with screw, tightens the screw on right gear flat key, can fix the position of right gear on main shaft;

Left redundant supports endoporus by bearing and main shaft pivot joint, and the bottom surface that left redundant supports is near the table top of left stand; The bottom surface supported in left redundant is provided with supporting screw, tightens this supporting screw, can fix left redundant and be supported on position on the table top of left stand;

Right redundant supports endoporus by bearing and main shaft pivot joint, and the bottom surface that right redundant supports is near the table top of right stand; The bottom surface supported in right redundant is provided with supporting screw, tightens this supporting screw, can fix right redundant and be supported on position on the table top of right stand;

The left shaft holder of the mainshaft mechanism of the routing power device on described left wallboard: the front end face of left shaft holder connects left socle screw rod, left socle screw rod and the threaded engagement being fixed on the left socle nut on left stand, rotate left socle nut, left socle nut rotation, the rotation of left socle nut pulls left socle screw rod, left socle screw rod pulls left shaft holder to move in the horizontal notch of the left-hand of left body of wall again, and moving horizontally of left shaft holder drives the left end of the main shaft of the routing power device on left wallboard to move horizontally;

The right bearing seat of the mainshaft mechanism of the routing power device on described left wallboard: the front end face of right bearing seat connects right support screw rod, right support screw rod and the threaded engagement being fixed on the right support nut on right stand, rotate right support nut, right support nut rotation, the rotation of right support nut pulls right support screw rod, right support screw rod pulls right bearing seat to move in the horizontal notch of the dextrad of right body of wall again, and moving horizontally of right bearing seat drives the right-hand member of the main shaft of the routing power device on left wallboard to move horizontally;

The chain tensioning mechanism of the routing power device on described left wallboard comprises screw mandrel, screw rodb base, sprocket shaft, tightener sprocket; Wherein:

One end of screw mandrel and the screw rodb base pivot joint be fixed on left wallboard front end face, the screw-internal thread fit on the other end of screw mandrel and sprocket shaft, pivot joint tightener sprocket on sprocket shaft, the chain contact of the routing power device on tightener sprocket and left wallboard; Rotary screw rod, moves in the chute of screw mandrel pulling chain wheel shaft on left body of wall, and the tightener sprocket position be articulated on sprocket shaft changes, the degree of tightness of the chain of the routing power device just on the left body of wall of adjustable;

Right wallboard is provided with routing power device, and the routing power device on right wallboard is identical, separate with the routing power apparatus structure on left wallboard; Routing power device on right wallboard comprises motor, worm type of reduction gearing, mainshaft mechanism, chain, clutch, chain tensioning mechanism; Wherein:

Motor is located on the Side fascia of right wallboard, fixed motor belt pulley in the rotating shaft of motor; Worm type of reduction gearing is located in the body of wall of right wallboard, fixes worm screw belt pulley at the power intake of worm type of reduction gearing, fixes worm-wheel shaft sprocket wheel at the clutch end of worm type of reduction gearing; Motor is connected with the worm screw belt pulley of the power intake of worm type of reduction gearing by motor pulley, V belt; The worm-wheel shaft sprocket wheel of the clutch end of worm type of reduction gearing is connected by the clutch sprocket of chain with the clutch of the routing power device on right wallboard; Clutch sprocket is fixing on the clutch, and clutch sleeve is connected on the main shaft of the mainshaft mechanism of the routing power device on right wallboard; The degree of tightness of chain is regulated by the chain tensioning mechanism be located on right wallboard front end face;

The mainshaft mechanism of the routing power device on described right wallboard comprises main shaft, left shaft holder, left redundant support, left gear, right gear, right redundant support, right bearing seat; Wherein:

Main shaft is long optical axis, on the table top being located at the table top of left stand, right stand, is close to the outer end of later half table top of the outer end of the later half table top of the table top of left stand, the table top of right stand; Routing power device winded coil of transformer on right wallboard: right wallboard is on the left side of winding operation standing place, and left wallboard is on the right of winding operation standing place; The left end fulcrum of main shaft and left shaft holder pivot joint, left shaft holder is located in the horizontal notch of left-hand of right wallboard; The right-hand member fulcrum of main shaft and the pivot joint of right bearing seat, right bearing seat is located in the horizontal notch of dextrad on left wallboard; Wherein:

The left end of main shaft passes in left shaft holder, and on axle, cover has the clutch of the routing power device on right wallboard, spacing with spacer between clutch and left shaft holder; The left end position of the fulcrum of main shaft is fixed, and can not slide in left shaft holder;

The right-hand member of main shaft passes in right bearing seat, cover pipe fitting useless on axle; Right-hand member fulcrum on main shaft can change, can with right wallboard on base position change time, the right-hand member axial plane of main shaft can slide in right bearing seat, and the right-hand member fulcrum of main shaft is changed;

The main shaft of the mainshaft mechanism of the routing power device on described right wallboard: be provided with left redundant support, left gear, right gear, right redundant support on the axial plane of main shaft; Wherein:

Left gear is close to the left end fulcrum left shaft holder of main shaft, and left redundant supports and is located between left shaft holder, left gear;

Right gear is close to the right-hand member fulcrum right bearing seat of main shaft, and right redundant supports and is located between right gear, right bearing seat;

Left redundant support, left gear, right gear, right redundant support and can slide on the axial plane of main shaft;

Left gear is provided with flat key, and right gear is provided with flat key; Flat key slot fit on flat key on left gear, the flat key on right gear and main shaft; Flat key on left gear can slide with left gear in the flat key groove of main shaft; Flat key on right gear can slide with right gear in the flat key groove of main shaft;

The flat key of left gear is provided with screw, tightens and changes screw, can fix the position of left gear on main shaft;

The flat key of right gear is provided with screw, tightens this screw, can fix the position of right gear on main shaft;

Left redundant supports endoporus by bearing and main shaft pivot joint, and the bottom surface of left redundant supporting seat is near the table top of right stand; Be provided with supporting screw in the bottom surface of left redundant supporting seat, tighten this supporting screw, left redundant can be fixed and be supported on position on the table top of right stand;

Right redundant supports endoporus by bearing and main shaft pivot joint, and the bottom surface of right redundant supporting seat is near the table top of left stand; Be provided with supporting screw in the bottom surface of right redundant supporting seat, tighten this supporting screw, right redundant can be fixed and be supported on position on the table top of left stand;

The left shaft holder of the mainshaft mechanism of the routing power device on described right wallboard: the front end face of left shaft holder connects left socle screw rod, left socle screw rod and the threaded engagement being fixed on the left socle nut on right stand, rotate left socle nut, left socle nut rotation, the rotation of left socle nut pulls left socle screw rod, left socle screw rod pulls left shaft holder to move in the horizontal notch of the left-hand of right body of wall, and moving horizontally of left shaft holder drives the left end of the main shaft of the routing power device on right wallboard to move horizontally;

The right bearing seat of the mainshaft mechanism of the routing power device on described right wallboard: the front end face of right bearing seat connects right support screw rod, right support screw rod and the threaded engagement being fixed on the right support nut on left stand, rotate right support nut, right support nut rotation, the rotation of right support nut pulls right support screw rod, right support screw rod pulls right bearing seat to move in the horizontal notch of the dextrad of left body of wall, and moving horizontally of right bearing seat drives the right-hand member of the main shaft of the routing power device on right wallboard to move horizontally;

The chain tensioning mechanism of the routing power device on described right wallboard comprises screw mandrel, screw rodb base, sprocket shaft, tightener sprocket; Wherein:

One end of screw mandrel and the screw rodb base pivot joint be fixed on right wallboard front end face, the screw-internal thread fit on the other end of screw mandrel and sprocket shaft, pivot joint tightener sprocket on sprocket shaft, the chain contact of the routing power device on tightener sprocket and right wallboard; Rotary screw rod, moves in the chute of screw mandrel pulling chain wheel shaft on right body of wall, and the tightener sprocket position be articulated on sprocket shaft changes, the degree of tightness of the chain of the routing power device just on the right body of wall of adjustable;

The first half table top of the table top of left stand is provided with left support roller dragging plate mechanism, the later half table top of the table top of left stand is provided with right support roller dragging plate mechanism; Left support roller dragging plate mechanism on left stand, the structure of right support roller dragging plate mechanism are identical, separate; Wherein:

Left support roller dragging plate mechanism on left stand comprises left screw mandrel, left planker, left roller bracket, left guide shaft, left supporting-roller shaft, left support roller; Wherein:

The screw rodb base of left screw mandrel is fixed on the front end face of left stand; One end of left screw mandrel and screw rodb base pivot joint, the other end of left screw mandrel and the threaded engagement of left planker; Left planker is arranged in the rail groove in the table top of left stand; Left roller bracket fixed by left planker; Left roller bracket is provided with axis hole; Push rod screw is provided with in the bottom of axis hole; In axis hole, left guide shaft is installed; The bottom of left guide shaft and push rod screws contact; Left supporting-roller shaft is fixed in the upper end of left guide shaft; The axle head of left supporting-roller shaft and left support roller pivot joint;

Rotate the left screw mandrel of left support roller dragging plate mechanism, left planker horizontal slip; The horizontal slip of left planker drives left support roller to move horizontally on the table top of left stand;

Rotate the push rod screw bottom left roller bracket axis hole, left guide shaft moves up and down in the axis hole of left roller bracket, and moving up and down of left guide shaft drives left support roller to move up and down on the table top of left stand;

Right support roller dragging plate mechanism on left stand comprises right screw mandrel, right planker, right planker support, right guide shaft, right supporting-roller shaft, right support roller; Wherein:

The screw rodb base of right screw mandrel is fixed on the rear end face of left stand; One end of right screw mandrel and screw rodb base pivot joint, the threaded engagement on the other end of right screw mandrel and right planker; Right planker is arranged in the rail groove in the table top of left stand; Right roller bracket fixed by right planker, and right roller bracket is provided with axis hole; Push rod screw is provided with in the bottom of axis hole; In axis hole, right guide shaft is installed; The bottom of right guide shaft and push rod screws contact; Right supporting-roller shaft is fixed in the upper end of right guide shaft; The axle head of right supporting-roller shaft and right support roller pivot joint;

Rotate the right screw mandrel of right support roller dragging plate mechanism, right planker horizontal slip; The horizontal slip of right planker drives right support roller to move horizontally on the table top of left stand;

Rotate the push rod screw bottom right roller bracket axis hole, right guide shaft moves up and down in the axis hole of right roller bracket, and moving up and down of right guide shaft drives right support roller to move up and down on the table top of left stand;

The later half table top of the table top of right stand is provided with left support roller dragging plate mechanism, the first half table top of the table top of right stand is provided with right support roller dragging plate mechanism; Left support roller dragging plate mechanism on right stand, right support roller dragging plate mechanism structure are identical, separate; Wherein:

Left support roller dragging plate mechanism on right stand comprises left screw mandrel, left planker, left roller bracket, left guide shaft, left supporting-roller shaft, left support roller; Wherein:

The screw rodb base of left screw mandrel is fixed on the rear end face of right stand; One end of left screw mandrel and screw rodb base pivot joint, the other end of left screw mandrel and the threaded engagement of left planker; Left planker is arranged in the rail groove in the table top of right stand; Left roller bracket fixed by left planker; Left roller bracket is provided with axis hole; Push rod screw is provided with in the bottom of axis hole; In axis hole, left guide shaft is installed; The bottom of left guide shaft and push rod screws contact; Left supporting-roller shaft is fixed in the upper end of left guide shaft; The axle head of left supporting-roller shaft and left support roller pivot joint;

Rotate the left screw mandrel of left support roller dragging plate mechanism, left planker horizontal slip; The horizontal slip of left planker drives left support roller to move horizontally on the table top of right stand;

Rotate the push rod screw bottom left roller bracket axis hole, left guide shaft can move up and down in the axis hole of left roller bracket, and moving up and down of left guide shaft drives left support roller to move up and down on the table top of right stand;

Right support roller dragging plate mechanism on right stand comprises right screw mandrel, right planker, right roller bracket, right guide shaft, right supporting-roller shaft, right support roller; Wherein:

The screw rodb base of right screw mandrel is fixed on the front end face of right stand; One end of right screw mandrel and screw rodb base pivot joint, the threaded engagement on the other end of right screw mandrel and right planker; Right planker is arranged in the rail groove in the table top of right stand; Right roller bracket fixed by right planker, and right roller bracket is provided with axis hole; Push rod screw is provided with in the bottom of axis hole; In axis hole, right guide shaft is installed; The bottom of right guide shaft and push rod screws contact; Right supporting-roller shaft is fixed in the upper end of right guide shaft; The axle head of right supporting-roller shaft and right support roller pivot joint;

Rotate the right screw mandrel of right support roller dragging plate mechanism, right planker horizontal slip; The horizontal slip of right planker drives right support roller to move horizontally on the table top of right stand;

Rotate the push rod screw bottom right roller bracket axis hole, right guide shaft moves up and down in the axis hole of right roller bracket, and moving up and down of right guide shaft drives right support roller to move up and down on the table top of right stand;

The right support roller of the right support roller dragging plate mechanism on the left support roller of the left support roller dragging plate mechanism on described left stand, right stand, when transformer coil winding, matches with the left gear of the mainshaft mechanism of the routing power device on left wallboard, right gear; Wherein:

The left support roller of the left support roller dragging plate mechanism on left stand is inner, the left gear of the mainshaft mechanism of the routing power device on left wallboard outside, jointly hold the left side gear of this winding mould of the transformer coil of wanted coiling, and the gear teeth of left gear are meshed with the gear teeth of the left side gear of this winding mould;

Rotate the left screw mandrel of the left support roller dragging plate mechanism on left stand, removable left support roller;

Rotate the left socle nut of the left shaft holder of the mainshaft mechanism of the routing power device on left wallboard, left shaft holder moves horizontally, and can move horizontally with left shaft holder with the left end of the main shaft of left shaft holder pivot joint, and the left gear be arranged on main shaft also can along with moving horizontally;

By this adjustment to left support roller, left gear position, left support roller can be made, the change in location of the left side gear of winding former that left gear is held, and make the low pressure of the left side gear of winding former watt between inwall and the core limb encased, have gap, when winding former rotates, the low pressure watt inwall of the left side gear of winding former can not scratching to core limb;

The right support roller of the right support roller dragging plate mechanism on right stand is inner, the right gear of the mainshaft mechanism of the routing power device on left wallboard outside, jointly hold the right gear of this winding mould of the transformer coil of wanted coiling, and the gear teeth of right gear are meshed with the gear teeth of the right gear of this winding mould;

Rotate the right screw mandrel of the right support roller dragging plate mechanism on right stand, removable right support roller;

Rotate the right support nut of the right bearing seat of the mainshaft mechanism of the routing power device on left wallboard, right bearing seat moves horizontally, and can move horizontally with right bearing seat with the right-hand member of the main shaft of right bearing seat pivot joint, and the right gear be arranged on main shaft also can along with moving horizontally;

By this adjustment to right support roller, right gear position, right support roller can be made, the change in location of the right gear of winding former that right gear is held, and make the low pressure of the right gear of winding former watt between inwall and the core limb encased, have gap, when winding former rotates, the low pressure watt inwall of the right gear of winding former can not scratching to core limb;

The right support roller of the right support roller dragging plate mechanism on the left support roller of the left support roller dragging plate mechanism on described right stand, left stand, when transformer coil winding, matches with the left gear of the equipment mechanism of the routing power device on right wallboard, right gear; Wherein:

The left support roller of the left support roller dragging plate mechanism on right stand is inner, the left gear of the mainshaft mechanism of the routing power device on right wallboard outside, jointly hold the left side gear of the winding former of an other phase of transformer coil, and the gear teeth of left gear are meshed with the gear teeth of the left side gear of this winding mould;

Rotate the left screw mandrel of the left support roller dragging plate mechanism on right stand, removable left support roller;

Rotate the left socle nut of the left shaft holder of the mainshaft mechanism of the routing power device on right wallboard, left shaft holder moves horizontally, and can move horizontally with left shaft holder with the left end of the main shaft of left shaft holder pivot joint, and the left gear be arranged on main shaft also can along with moving horizontally;

By this adjustment to left support roller, left gear position, left support roller can be made, the change in location of the left side gear of the winding former of transformer coil that left gear is held, and make the low pressure of the left side gear of this winding former watt between inwall and the core limb encased, have gap, when winding former rotates, the low pressure watt inwall of the left side gear of winding former can not scratching to core limb;

The right support roller of the right support roller dragging plate mechanism on left stand is inner, the right gear of the mainshaft mechanism of the routing power device on right wallboard outside, jointly hold the right gear of the winding former of an other phase of transformer coil, and the gear teeth of right gear are meshed with the gear teeth of the right gear of the winding former of this phase transformer coil;

Rotate the right screw mandrel of the right support roller dragging plate mechanism on left stand, removable right support roller;

Rotate the right support nut of the right bearing seat of the mainshaft mechanism of the routing power device on right wallboard, right bearing seat moves horizontally, and can move horizontally with right bearing seat with the right-hand member of the main shaft of right bearing seat pivot joint, and the right gear be arranged on main shaft also can along with moving horizontally;

By this adjustment to right support roller, right gear position, right support roller can be made, the change in location of the right gear of the winding former of transformer coil that right gear is held, and make the low pressure of the right gear of this winding former watt between inwall and the core limb encased, have gap, when winding former rotates, the low pressure watt inwall of the right gear of winding former can not scratching to core limb;

Core support frame has four; Wherein:

The table top of left stand is provided with two core support framves; The left end folder of transformer core held by core support frame on the table top of left stand, makes the left end of transformer core be fixed on the table top of left stand;

The table top of right stand is provided with two core support framves; The right-hand member folder of transformer core held by core support frame on the table top of right stand, makes the right-hand member of transformer core be fixed on the table top of right stand;

Core support frame is provided with support nut, swinging mounting nut, can change the support height of core support frame;

Described dry-type transformer with three-dimensional rolled iron core high-tension coil dibit coil winding machine, turnover bracket unshakable in one's determination has two; Wherein:

The upper plane of left wallboard is provided with a turnover bracket unshakable in one's determination; The upper plane of right wallboard is provided with a turnover bracket unshakable in one's determination;

Being provided with V-type plate above turnover bracket unshakable in one's determination, is the U-type groove mouth of turnover bracket unshakable in one's determination below V-type plate; The U-type groove mouth of turnover bracket unshakable in one's determination be abdicate clamping left end folder unshakable in one's determination, locus that the central shaft of right-hand member folder is occupied on left wallboard, on right wallboard; V-type plate two end band latch on turnover bracket unshakable in one's determination, takes out a latch on V-type plate, and V-type plate can rotating opening; When transformer core needs upset, to sling iron core with driving, close the V-type plate of the turnover bracket unshakable in one's determination on left wallboard, right wallboard, plug latch, the central shaft bracket of left end folder unshakable in one's determination for clamping, right-hand member folder on left wallboard, on the board slot of the V-type plate of turnover bracket unshakable in one's determination on right wallboard, unshakable in one's determination with driving upset.