CN112466659B - Low-capacity oil low-voltage coil foil winding - Google Patents

Abstract

The invention relates to the technical field of coil foil winding and discloses a low-capacity oil-to-low voltage coil foil winding, which comprises a machine body, wherein a winding shaft is rotatably connected inside the machine body, a winding block is welded on the surface of the winding shaft, a clamping block is clamped at the front part of the machine body, an automatic sticking mechanism is arranged at the front part of the clamping block, a limit groove is formed in the machine body, the limit groove is formed in the machine body, a base is welded at the rear part of the winding shaft, and a shaping device is arranged at the front part of the base. This low-capacity oil becomes low-voltage coil foil and winds, utilize automatic bonding piece mechanism and shaping device to have reached and have automatic fixed insulating paper bonding to the wire winding piece on and automatic effect of tailorring after its winding round to reach and avoid the operator long-term other effect that can't carry out other work by the organism, automatic effect to wire winding piece surface foil around copper coil extrusion plastic, further reach and make the better effect of coil width of cloth.

Description

Low-capacity oil low-voltage coil foil winding

Technical Field

The invention relates to the technical field of coil foil winding, in particular to a low-volume oil low-voltage coil foil winding.

Background

The foil winding machine series adopts the automatic control functions of a PLC automatic control variable frequency stepless speed regulating system, a photoelectric hydraulic deviation correcting system, an automatic welding mechanism and the like, ensures the welding quality of the foil winding of the transformer, greatly reduces the loss of the transformer, is mainly used for winding the high-voltage winding of the dry-type transformer before the foil winding machine, and is more used for winding the winding of the oil-immersed transformer in future, and has the characteristics of high efficiency, good winding quality, particularly household appliance experimental equipment, reduced material consumption of the whole transformer and improved short-circuit stress bearing of the coil.

The low-capacity oil low-voltage coil is wound with a circle of insulating paper on the winding block before foil winding, copper wires wrapped by epoxy resin are adhered after the insulating paper is adhered, the copper wires are wound with a layer of insulating paper, the step of adhering the insulating paper is repeated to form a second layer of copper coil after the paper is covered by the copper wires, an operator can be led to stay beside the foil winding machine for a long time through manually cutting and adhering the insulating paper for many times, other work cannot be carried out, so that the working efficiency of the operator is low, meanwhile, the operator needs to shape the copper wires when winding the coil for the good amplitude of the coil, and the low-capacity oil low-voltage coil foil winding is provided to solve the problems.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a low-volume oil low-voltage coil foil winding, which solves the problems that the copper wire is shaped manually when the coil is wound by manually performing cutting and pasting steps for a plurality of times.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a low-capacity oil becomes low-voltage coil foil and winds, includes the organism, the inside rotation of organism is connected with the spool, the surface welding of spool has the wire winding piece, the front portion joint of organism has the fixture block, the front portion of fixture block is provided with automatic bonding sheet mechanism, the spacing groove has been seted up at the inside of organism in the rear portion of spool, the inside of organism is located the rear portion welding of spool has the base, the front portion of base is provided with shaping device.

Preferably, the automatic sticking mechanism comprises a movable seat, the surface of the movable seat is fixed with the front part welding of the clamping block, the inside of the movable seat is rotationally connected with a glue spraying column, the movable seat is positioned at the bottom of the glue spraying column and rotationally connected with a conveying roller, the surface of the conveying roller is slidably connected with insulating paper, the upper surface of the movable seat is welded with a fixed table, the upper surface of the fixed table is provided with a linkage device, the bottom of the movable seat positioned at the clamping block is welded with an E-shaped box, and the inside of the E-shaped box is provided with a cutting device.

Preferably, the linkage device comprises a first rotating shaft and a main roller shaft, both ends of the first rotating shaft are rotationally connected with the inside of the fixed table, a pushing gear is welded on the surface of the first rotating shaft, a pushing device is arranged on the left side of the pushing gear, a control half gear is meshed on the surface of the pushing gear, a second rotating shaft is rotationally connected to the inside of the control half gear, a starting device is arranged at the bottom of the control half gear on the surface of the second rotating shaft, a shearing gear is welded on the surface of the main roller shaft, and a reversing gear is meshed on the surface of the shearing gear.

Preferably, the pushing device comprises a sliding column, the lower surface of the sliding column is in sliding connection with the upper surface of the fixed table, an adjusting spring is welded in the sliding column, a pushing column is welded at the rear end of the adjusting spring, a pushing plate is welded at the rear end of the pushing column, and the surface of the pushing column is in sliding connection with the inner wall of the sliding column.

Preferably, the starting device comprises an electric push rod, the front end of the electric push rod is fixedly connected with the surface of the fixed table through a bolt, the output end of the electric push rod is clamped with a pipe sleeve, the surface of the pipe sleeve is welded with a toothed bar, and the surface of the toothed bar is meshed with a meshing gear.

Preferably, the surface of the pipe sleeve and the bottom of the toothed bar are respectively connected with the upper surface of the fixed table in a sliding way, and the inside of the meshing gear is welded and fixed with the surface of the second rotating shaft.

Preferably, the cutting device comprises an auxiliary roll shaft and a connecting shaft, wherein both ends of the auxiliary roll shaft are rotationally connected with the inner wall of the E-shaped box, a large gear is welded on the surface of the auxiliary roll shaft, a small gear is welded on the top of the large gear, a large arc strip and a small arc strip are respectively rotationally connected on the surface of the connecting shaft, the large arc strip is positioned below the small arc strip, sliding blocks are welded on the right sides of the large arc strip and the small arc strip, and a cutter body is welded on the right side of the sliding blocks.

Preferably, the bottoms of the large arc bar and the sliding block are in sliding connection with the inner wall of the E-shaped box, the surface of the large arc bar is meshed with the surface of the large gear, the surface of the small arc bar is meshed with the surface of the small gear, two ends of the connecting shaft are welded and fixed with the inner part of the E-shaped box, and the surface of the auxiliary roller shaft is in transmission connection with the surface of the main roller shaft through a belt.

Preferably, the shaping device comprises a pressing spring, the rear end of the pressing spring is welded and fixed with the front part of the base, a pressing block is welded at the front end of the pressing spring, sliding arms are welded on two sides of the pressing block, and the surface of the sliding arms are in sliding connection with the inner wall of the limiting groove.

(III) beneficial effects

Compared with the prior art, the invention provides a low-volume oil low-voltage coil foil winding, which has the following beneficial effects:

1. this low-capacity oil becomes low-voltage coil foil and winds, the mutual function between each structure of utilizing automatic bonding mechanism and shaping device inside has reached the effect that automatic bonding is fixed to the wire winding piece with insulating paper and automatic tailors after its winding round, further reaches the effect of avoiding traditional manual work to cut to reach the effect that avoids the operator to carry out other work for a long time by the organism, the effect of extrusion plastic is carried out to the copper coil that wire winding piece surface foil was wound automatically, further reaches the effect that makes the width of coil to better.

2. The low-capacity oil-to-low-voltage coil foil winding achieves the effects of timing feeding and gluing of insulating paper by utilizing the mutual operation among all structures in the linkage device, and further achieves the effect of fixing when the glued insulating paper is connected with a winding block.

3. The low-capacity oil-to-low-voltage coil foil winding achieves the effect of fixing the insulating paper on the surface of the winding block by utilizing the mutual operation between each structure in the pushing device and the starting device, and achieves the effect of controlling the pushing device to operate or the cutting device to operate by meshing the rotating angle of the gears.

4. This low-capacity oil becomes low-voltage coil foil and winds, the interwork that utilizes between each structure of cutting device inside reaches the effect of tailorring to the insulating paper after having twined the round, further reaches the effect of avoiding traditional manual cutting of manual work to reach the effect of avoiding the operator to be by the organism for a long time and unable other work.

5. This low-capacity oil becomes low-voltage coil foil and winds, the mutual function between each structure of utilization shaping device inside reaches the extruded effect of wire winding piece to reach the effect of carrying out extrusion plastic to the copper coil that wire winding piece surface foil was wound, further reach the better effect in width direction that makes the coil, avoided artifical manual plastic effect, reduced its work load.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a low-volume oil low-voltage coil foil winding according to the present invention;

FIG. 2 is a schematic diagram of a foil winding automatic sticking mechanism for a low-voltage coil with low volume oil according to the present invention;

FIG. 3 is a schematic diagram of a low-volume oil-to-low-voltage coil foil winding moving seat structure according to the present invention;

FIG. 4 is a schematic diagram of a low-volume oil-to-low-voltage coil foil winding linkage device according to the present invention;

FIG. 5 is a schematic diagram of a low-volume oil-to-low-voltage coil foil winding pushing device according to the present invention;

FIG. 6 is a schematic diagram of a low-volume oil low-voltage coil foil winding starting device according to the present invention;

FIG. 7 is a schematic diagram of a low-volume oil-to-low-voltage coil foil winding cutting device according to the present invention;

fig. 8 is a schematic structural diagram of a foil winding shaping device for a low-voltage coil with low-volume oil.

In the figure: 1. a body; 2. a spool; 3. a winding block; 4. a clamping block; 5. an automatic sticking mechanism; 51. a movable seat; 52. spraying a glue column; 53. a conveying roller; 54. insulating paper; 55. a fixed table; 56. a linkage device; 561. a first rotating shaft; 562. pushing the gear; 563. a pushing device; 5631. a spool; 5632. an adjusting spring; 5633. pushing a column; 5634. a push plate; 564. a control half-gear; 565. a second rotating shaft; 566. a starting device; 5661. an electric push rod; 5662. a pipe sleeve; 5663. a toothed bar; 5664. a meshing gear; 567. a primary roll shaft; 568. shearing a gear; 569. a reversing gear; 57. e-shaped boxes; 58. a cutting device; 581. an auxiliary roll shaft; 582. a large gear; 583. a pinion gear; 584. a connecting shaft; 585. a large arc strip; 586. a small arc strip; 587. a sliding block; 588. a cutter body; 6. a limit groove; 7. a base; 8. shaping device; 81. pressing the spring; 82. compacting blocks; 83. a slide arm.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The utility model provides a low-capacity oil becomes low-voltage coil foil to be wound, as shown in fig. 1-3, including organism 1, the inside rotation of organism 1 is connected with spool 2, and spool 2's surface welding has spool 3, and the front portion joint of organism 1 has fixture block 4, and the front portion of fixture block 4 is provided with automatic bonding mechanism 5, and limit groove 6 has been seted up at the rear portion that the inside of organism 1 is located spool 2, and the inside of organism 1 is located spool 2's rear portion welding has base 7, and the front portion of base 7 is provided with shaping device 8.

In this embodiment, the automatic bonding mechanism 5 includes a moving seat 51, the surface of the moving seat 51 is welded with the front portion of the fixture block 4, the inside of the moving seat 51 is rotationally connected with a glue spraying column 52, the bottom of the moving seat 51 located at the glue spraying column 52 is rotationally connected with a conveying roller 53, the surface of the conveying roller 53 is slidably connected with an insulating paper 54, the upper surface of the moving seat 51 is welded with a fixing table 55, the upper surface of the fixing table 55 is provided with a linkage device 56, the bottom of the moving seat 51 located at the fixture block 4 is welded with an E-shaped box 57, a cutting device 58 is arranged in the E-shaped box 57, the surface of the moving seat 51 is welded with the front portion of the fixture block 4 to achieve the effect that the moving seat 51 is clamped and fixed with the front portion of the machine body 1 through the fixture block 4, so that the problem that the automatic bonding mechanism 5 cannot work due to deviation from the machine body 1 in the operation process is avoided, the effect that the moving seat 51 is convenient to move when not in operation is achieved through clamping, and the whole machine body 1 is convenient to operate is achieved.

Example 2

As shown in fig. 4-7, the linkage device 56 includes a first rotating shaft 561 and a main roller shaft 567, two ends of the first rotating shaft 561 are rotatably connected with the inside of the fixed table 55, a pushing gear 562 is welded on the surface of the first rotating shaft 561, a pushing device 563 is arranged on the left side of the pushing gear 562, a control half gear 564 is meshed on the surface of the pushing gear 562, a second rotating shaft 565 is rotatably connected in the inside of the control half gear 564, a starting device 566 is arranged on the surface of the second rotating shaft 565 at the bottom of the control half gear 564, a shearing gear 568 is welded on the surface of the main roller shaft 567, a reversing gear 569 is meshed on the surface of the shearing gear 568, a roller shaft is welded inside the reversing gear 569, and is in transmission connection with a secondary roller shaft 581 inside the right shearing device 58 through a belt, so that the effect of driving the inner structure of the right shearing device 58 is achieved, and the two shearing devices 58 are symmetrically distributed by taking the central line of the moving seat 51 as a symmetrical axis, the reversing gear 569 drives the secondary roller shaft 581 inside the right shearing device 58 to rotate in the direction opposite to the secondary roller shaft 581 inside the left shearing device 58, the shearing device is driven by the reversing gear 569, and the shearing device is close to the two sides of the cutter 58, so that the cutting device 58 is close to the cutter 588.

In this embodiment, the pushing device 563 includes a sliding column 5631, the lower surface of the sliding column 5631 is slidably connected with the upper surface of the fixed table 55, an adjusting spring 5632 is welded inside the sliding column 5631, a pushing column 5633 is welded at the rear end of the adjusting spring 5632, a pushing plate 5634 is welded at the rear end of the pushing column 5633, the surface of the pushing column 5633 is slidably connected with the inner wall of the sliding column 5631, teeth are disposed on the surface of the sliding column 5631, the sliding column 5631 is engaged with the surface of the pushing gear 562 through the teeth, the sliding column 5631 further achieves the effect of driving the sliding column 5631 to move through the rotation of the pushing gear 562, a sliding rod is disposed at the bottom of the sliding column 5631, the sliding column 5631 slides on the upper surface of the fixed table 55 through the sliding rod, and slides in a sliding slot inside the fixed table 55 to limit the sliding track of the sliding column 563, thereby achieving the effect of limiting the sliding track of the sliding column 5631.

Further, the starting device 566 comprises an electric push rod 5661, the front end of the electric push rod 5661 is fixedly connected with the surface of the fixed table 55 through a bolt, the output end of the electric push rod 5661 is clamped with a pipe sleeve 5662, the surface of the pipe sleeve 5662 is welded with a toothed rod 5663, the surface of the toothed rod 5663 is meshed with a meshing gear 5664, the effect that the toothed rod 5663 moves along with the electric push rod 5661 is achieved by arranging the pipe sleeve 5662, the meshing gear 5664 is driven to rotate through the moving toothed rod 5663, and the effect that the pushing device 563 is controlled to operate or the cutting device 58 is controlled to operate is achieved through the rotating angle of the meshing gear 5664.

Further, the surface of the sleeve 5662 and the bottom of the toothed bar 5663 are slidably connected with the upper surface of the fixed table 55, the inside of the engagement gear 5664 is welded and fixed with the surface of the second rotating shaft 565, the sliding track of the sleeve 5662 and the toothed bar 5663 is limited by slidably connecting the surface of the sleeve 5662 and the bottom of the toothed bar 5663 with the upper surface of the fixed table 55, the surface of the toothed bar 5663 is always engaged with the surface of the engagement gear 5664, and the rotation of the engagement gear 5664 is achieved by welding and fixing the inside of the engagement gear 5664 with the surface of the second rotating shaft 565, and the rotation of the second rotating shaft 565 is driven.

It is worth noting that the cutting device 58 includes a secondary roller 581 and a connecting shaft 584, two ends of the secondary roller 581 are rotatably connected with the inner wall of the E-shaped box 57, a large gear 582 is welded on the surface of the secondary roller 581, a small gear 583 is welded on the top of the large gear 582 on the surface of the secondary roller 581, a large arc bar 585 and a small arc bar 586 are respectively rotatably connected on the surface of the connecting shaft 584, the large arc bar 585 is located below the small arc bar 586, sliding blocks 587 are welded on the right sides of the large arc bar 585 and the small arc bar 586, a cutter body 588 is welded on the right side of the sliding blocks 587, and by setting the cutting device 58, the effect of cutting the insulating paper 54 which is wound one round is achieved by utilizing the mutual operation between the structures inside the cutting device 58, and the effect of avoiding the traditional manual cutting is further achieved, so that an operator can not perform other work for a long time beside the machine body 1 is achieved.

It is worth noting that the bottoms of the large arc 585 and the sliding block 587 are slidably connected with the inner wall of the E-shaped box 57, the surface of the large arc 585 is meshed with the surface of the large gear 582, the surface of the small arc 586 is meshed with the surface of the small gear 583, two ends of the connecting shaft 584 are welded and fixed with the inside of the E-shaped box 57, the surface of the auxiliary roller 581 is connected with the surface of the main roller shaft 567 through a belt in a transmission manner, teeth are arranged on the surfaces of the large arc 585 and the small arc 586, and the large arc 585 and the small arc 586 achieve the effect of meshed with the surfaces of the large gear 582 and the small gear 583 respectively through the teeth, so that the effect of driving the large arc 585 and the small arc 586 to rotate by taking the axis point of the connecting shaft 584 as a round point is achieved, and the effect of cutting the insulating paper 54 is achieved through the rotating large arc 585 and the small arc 586.

Example 3

As shown in fig. 8, the shaping device 8 comprises a pressing spring 81, the rear end of the pressing spring 81 is welded and fixed with the front part of the base 7, a pressing block 82 is welded at the front end of the pressing spring 81, sliding arms 83 are welded at two sides of the pressing block 82, the surface of the sliding arms 83 are in sliding connection with the inner wall of the limit groove 6, by arranging the shaping device 8, when the winding block 3 rotates foil to wind, the winding block 82 is in continuous contact with the pressing block 82, the extruded effect is achieved through the influence of the elastic force of the pressing spring 81 at the rear part of the pressing block 82, the effect of extruding and shaping copper coils around the surface of the winding block 3 is achieved, the effect of making the width direction of the coils better is further achieved, the effect of limiting the sliding track of the sliding arms 83 is achieved through the sliding connection of the surface of the sliding arms 83 and the inner wall of the limit groove 6, and the effect of limiting the pressing block 82 is achieved.

In the working principle, after the surface of the winding block 3 on the machine body 1 is wound by a coil to form a first layer and covered by the insulating paper 54, the electric push rod 5661 is started at fixed time and drives the pipe sleeve 5662 to slide back and forth on the fixed table 55 through the output end of the electric push rod 5661, the pipe sleeve 5662 drives the toothed bar 5663 to move, the toothed bar 5663 drives the meshing gear 5664 meshed with the surface of the toothed bar 5663 to rotate in the moving process, the meshing gear 5664 drives the rotating shaft II 565 to rotate in the rotating process, the rotating shaft II 565 drives the control half gear 564 to rotate, the control half gear 564 is sequentially meshed with the push gear 562 and the shearing gear 568 in the rotating process and drives the push gear 568 to rotate, the sliding column 5631 meshed with the surface of the push rod 5633 is driven to move in the moving process, the push plate 5634 is gradually contacted with the insulating paper 54 in the moving process and is pressed to the surface of the winding block 3 stopped from rotating, the upper surface of the insulating paper 54 is sprayed with fixing glue in advance by the glue spraying column 52, when the upper surface of the insulating paper is contacted with the surface of the winding block 3, the upper surface of the insulating paper is adhered and fixed with a coil on the surface of the winding block 3 under the influence of the pressure of the push plate 5634, at the moment, the winding shaft 2 is controlled to drive the winding block 3 to rotate, after the winding block 3 drives the insulating paper 54 to rotate for one circle, the shearing gear 568 rotates to drive the main roller shaft 567 to rotate, the number of the shearing devices 58 is two, the two shearing devices 58 are symmetrically distributed by taking the central line of the movable seat 51 as a symmetrical axis respectively, when the main roller shaft 567 rotates, the auxiliary roller shaft 581 in the left shearing device 58 rotates through a belt, the auxiliary roller shaft 581 drives the large gear 582 and the small gear 583 which are welded on the surface of the auxiliary roller shaft 581 to rotate, and the large gear 585 and the small arc bar 583 which are respectively meshed with the large gear 585 and the small gear 583 rotate in the rotating process, the large arc 585 and the small arc 586 rotate around the axis of the connecting shaft 584 in opposite directions, the center line of the connecting shaft 584 is used as a parting line, the front ends of the large arc 585 and the small arc 586 rotate close to each other, the large arc 585 and the small arc 586 drive sliding blocks 587 welded on the large arc 585 and the small arc 586 to gradually contact, the sliding blocks 587 drive the cutter bodies 588 to close to each other, the insulating paper 54 in the middle of the cutter bodies 588 is cut by the two close cutter bodies 588, the shearing gear 568 rotates with a reversing gear 569 meshed with the surfaces of the cutter bodies in the rotating process, the reversing gear 569 drives the auxiliary roll shaft 581 in the right shearing device 58 to rotate through a belt, the rotating direction of the auxiliary roll shaft 581 in the right shearing device 58 is opposite to the rotating direction of the auxiliary roll shaft 581 in the left shearing device 58, and the effect that the sliding blocks 587 drive the cutter bodies 588 to close to each other in the right shearing device 58 is achieved, thereby achieving the effect that the two sides of the cutter body 588 are close to each other to cut the insulating paper 54 at the same time, improving the cutting efficiency and quality, when the output shaft of the electric push rod 5661 moves back, the sleeve 5662 drives the meshing gear 5664 meshed with the surface of the toothed rod 5663 to operate in the opposite direction, the meshing gear 5664 drives the control half gear 564 to sequentially drive the shearing gear 568 and the pushing gear 562 to rotate in the opposite direction, thereby controlling the two cutter bodies 588 contacted with each other to be gradually separated and reset, the push plate 5634 to reset, controlling the conveying roller 53 to drive the insulating paper 54 to feed a certain amount, the bonded insulating paper 54 rotates along with the rotation of the winding block 3 and gradually contacts with the pressing block 82, the pressing block 82 presses the surface of the winding block 3 under the influence of the elasticity of the pressing spring 81, thereby achieving the effect of further fixing the insulating paper 54, the same pressing force is applied to the winding process of the copper wire, therefore, the effect of automatically shaping the coil is achieved, along with the continuous increase of the coil, the distance between the push plate 5634 and the whole winding block 3 is gradually shortened when the push plate 5634 moves, the moving push plate 5634 slides to the inside of the sliding column 5631 under the influence of the elasticity of the adjusting spring 5632 when being subjected to resistance, and the effect that no matter how many coils are wound on the surface of the winding block 3, the push plate 5634 can drive the insulating paper 54 to be contacted and fixed with the surface of the insulating paper is achieved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Claims (6)

1. The utility model provides a low-volume oil low-voltage coil foil is around, includes organism (1), its characterized in that:

the automatic winding machine is characterized in that a winding shaft (2) is rotatably connected to the inside of the machine body (1), a winding block (3) is welded on the surface of the winding shaft (2), a clamping block (4) is clamped at the front part of the machine body (1), an automatic sticking mechanism (5) is arranged at the front part of the clamping block (4), a limit groove (6) is formed in the inside of the machine body (1) at the rear part of the winding shaft (2), a base (7) is welded at the rear part of the inside of the machine body (1) far away from the winding shaft (2), and a shaping device (8) is arranged at the front part of the base (7);

the automatic sticking mechanism (5) comprises a movable seat (51), the surface of the movable seat (51) is fixedly welded with the front part of a clamping block (4), a glue spraying column (52) is rotatably connected to the inside of the movable seat (51), a conveying roller (53) is rotatably connected to the bottom of the glue spraying column (52) of the movable seat (51), insulating paper (54) is slidably connected to the surface of the conveying roller (53), a fixing table (55) is welded on the upper surface of the movable seat (51), a linkage device (56) is arranged on the upper surface of the fixing table (55), an E-shaped box (57) is welded on the bottom of the clamping block (4) of the movable seat (51), and a cutting device (58) is arranged inside the E-shaped box (57);

the linkage device (56) comprises a first rotating shaft (561) and a main roller shaft (567), wherein two ends of the first rotating shaft (561) are respectively connected with the inside of the fixed table (55) in a rotating mode, a pushing gear (562) is welded on the surface of the first rotating shaft (561), a pushing device (563) is arranged on the left side of the pushing gear (562), a control half gear (564) is meshed with the surface of the pushing gear (562), a second rotating shaft (565) is connected with the inside of the control half gear (564) in a rotating mode, a starting device (566) is arranged at the bottom of the control half gear (564) on the surface of the second rotating shaft (565), a shearing gear (568) is welded on the surface of the main roller shaft (567), and a reversing gear (569) is meshed with the surface of the shearing gear (568).

The pushing device (563) comprises a sliding column (5631), the lower surface of the sliding column (5631) is in sliding connection with the upper surface of the fixed table (55), an adjusting spring (5632) is welded in the sliding column (5631), a pushing column (5633) is welded at the rear end of the adjusting spring (5632), a pushing plate (5634) is welded at the rear end of the pushing column (5633), and the surface of the pushing column (5633) is in sliding connection with the inner wall of the sliding column (5631).

2. A low volume oil low voltage coil foil winding as claimed in claim 1, wherein:

the starting device (566) comprises an electric push rod (5661), the front end of the electric push rod (5661) is fixedly connected with the surface of the fixed table (55) through a bolt, the output end of the electric push rod (5661) is clamped with a pipe sleeve (5662), the surface of the pipe sleeve (5662) is welded with a toothed bar (5663), and the surface of the toothed bar (5663) is meshed with a meshing gear (5664).

3. A low volume oil low voltage coil foil winding as claimed in claim 2, wherein:

the surface of the sleeve (5662) and the bottom of the toothed bar (5663) are respectively connected with the upper surface of the fixed table (55) in a sliding way, and the inside of the meshing gear (5664) is welded and fixed with the surface of the rotating shaft II (565).

4. A low volume oil low voltage coil foil winding as claimed in claim 1, wherein:

the cutting device is characterized in that the cutting device (58) comprises an auxiliary roller shaft (581) and a connecting shaft (584), two ends of the auxiliary roller shaft (581) are rotationally connected with the inner wall of the E-shaped box (57), a large gear (582) is welded on the surface of the auxiliary roller shaft (581), a small gear (583) is welded on the top of the large gear (582) on the surface of the auxiliary roller shaft (581), a large arc strip (585) and a small arc strip (586) are respectively rotationally connected on the surface of the connecting shaft (584), the large arc strip (585) is located below the small arc strip (586), sliding blocks (587) are welded on the right sides of the large arc strip (585) and the small arc strip (586), and cutter bodies (588) are welded on the right sides of the sliding blocks (587).

5. A low volume oil low voltage coil foil winding as claimed in claim 4, wherein:

the bottom of big arc strip (585) and sliding block (587) and the inner wall sliding connection of equal E type case (57), the surface of big arc strip (585) and the surface intermeshing of gear wheel (582), the surface of little arc strip (586) and the surface intermeshing of pinion (583), the both ends of connecting axle (584) all with the inside welded fastening of E type case (57), the surface of vice roller axle (581) is connected with the surface transmission of main roller axle (567) through the belt.

6. A low volume oil low voltage coil foil winding as claimed in claim 1, wherein:

the shaping device (8) comprises a pressing spring (81), the rear end of the pressing spring (81) is fixedly welded with the front portion of the base (7), a pressing block (82) is welded at the front end of the pressing spring (81), sliding arms (83) are welded at two sides of the pressing block (82), and the surface of the sliding arms (83) is in sliding connection with the inner wall of the limiting groove (6).