CN111105927A

CN111105927A - Iron core coil winding machine

Info

Publication number: CN111105927A
Application number: CN202010010594.XA
Authority: CN
Inventors: 何晓亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-01-06
Filing date: 2020-01-06
Publication date: 2020-05-05

Abstract

An iron core coil winding machine comprises a workbench, a left winding and unwinding mechanism, a right winding and unwinding mechanism, an I-shaped bobbin, a left support frame plate, a right support frame plate, two support rods, an upper guide roller set and a lower guide roller set which are arranged on the support rods, a lifting support device and an iron core clamping device arranged on the lifting support device, wherein one I-shaped bobbin is arranged on the left winding and unwinding mechanism, the other I-shaped bobbin is arranged on the right winding and unwinding mechanism, the left winding and unwinding mechanism and the right winding and unwinding mechanism alternately take up and pay off wires, a wire body forming the coil penetrates through a threading hole of the iron core, the wire body is matched with the left winding and unwinding mechanism and the right winding and unwinding mechanism, and the left winding and unwinding mechanism and the right winding and unwinding mechanism alternately take up and. By adopting the structure, in the left wire collecting and releasing mechanism and the right wire collecting and releasing mechanism, one wire is released, one wire is collected, and the wire collecting and the wire releasing are alternated, so that automatic wire pulling is realized, the work efficiency is improved, and the labor intensity is reduced.

Description

Iron core coil winding machine

Technical Field

The invention relates to a winding device of a transformer or rectifier iron core.

Background

In the prior art, when an iron core is wound with a copper wire, the operation is completely manual, the working efficiency is low, and the labor intensity is high.

Disclosure of Invention

The purpose of the invention is: the iron core coil winding machine has the characteristics of automatic wire drawing, automatic wire winding and unwinding and manual auxiliary wire threading, reduces the labor intensity and improves the working efficiency.

The invention is realized by the following steps: an iron core coil winding machine comprises a workbench, a left winding and unwinding mechanism, a right winding and unwinding mechanism, an I-shaped bobbin, a left support frame plate, a right support frame plate, two support rods, an upper guide wire roller set and a lower guide wire roller set which are arranged on the support rods, a lifting support device and an iron core clamping device which is arranged on the lifting support device,

the iron core is provided with two threading holes, the axes of the two threading holes are parallel to the horizontal plane, and the two threading holes are distributed up and down;

the lifting support device is arranged in the center of the workbench, the support rods are arranged on two sides of the lifting support device, the left support frame plate is arranged at the left end of the workbench, the right support frame plate is arranged at the right end of the workbench, and the left take-up and pay-off mechanism and the right take-up and pay-off mechanism are respectively fixed on the left support frame plate and the right support frame plate; one I-shaped spool is arranged on the left winding and unwinding mechanism, the other I-shaped spool is arranged on the right winding and unwinding mechanism, the left winding and unwinding mechanism and the right winding and unwinding mechanism alternately take up and pay off, a line body forming the coil penetrates through a threading hole of the iron core, the line body is matched with the left winding and unwinding mechanism and the right winding and unwinding mechanism, and the left winding and unwinding mechanism and the right winding and unwinding mechanism alternately take up and pay off.

The iron core coil winding machine is characterized in that: the upper ends of the left support frame plate and the right support frame plate are respectively provided with a semicircular groove;

the left take-up and pay-off mechanism and the right take-up and pay-off mechanism respectively comprise a right-angle frame seat plate, a guide rail, a sliding seat, a motor, a screw rod, a nut, a shaft cylinder with an opening at one end and a half part, a right-angle torsion arm and a guide wheel set arranged on the right-angle torsion arm,

the right-angle-shaped torque arm comprises a connecting arm and a supporting arm, the supporting arm is parallel to the axis of the shaft cylinder, and the guide wheel group is arranged on the supporting arm;

the radius of the semicircular groove is larger than or equal to that of the shaft cylinder;

the vertical plate part of a right-angle seat plate is fixedly connected with the left support frame plate, the flange of the shaft cylinder is fixedly connected with the left support frame plate, the horizontal plate part of the right-angle seat plate extends into the shaft cylinder, the guide rail is fixed on the horizontal plate part, the sliding seat is in sliding fit with the guide rail, and the motor is fixed on the sliding seat; the nut is arranged on the end plate of the shaft barrel, the driving end of the screw is fixedly connected with the shaft of the motor, the driven end of the screw is screwed with the nut and extends out of the shaft barrel, the connecting arm is connected with the driven end of the screw, and the connecting arm rotates along with the screw; the supporting arm is opposite to and parallel to the shaft cylinder;

the vertical plate part of the other right-angle seat plate is fixedly connected with the right support frame plate, the flange of the shaft cylinder is fixedly connected with the right support frame plate, the horizontal plate part of the right-angle seat plate extends into the shaft cylinder, the guide rail is fixed on the horizontal plate part, the sliding seat is in sliding fit with the guide rail, and the motor is fixed on the sliding seat; the nut is arranged on the end plate of the shaft barrel, the driving end of the screw is fixedly connected with the shaft of the motor, the driven end of the screw is screwed with the nut and extends out of the shaft barrel, the connecting arm is connected with the driven end of the screw, and the connecting arm rotates along with the screw; the supporting arm is opposite to and parallel to the shaft cylinder;

the I-shaped spool is in running fit with the shaft barrel.

The iron core coil winding machine is characterized in that: also comprises a circular guide rail, a fixed baffle ring plate and a detachable baffle ring,

the two ends of the shaft cylinder are respectively provided with a circular guide rail, the fixed baffle ring plate is fixedly connected with the circular guide rail at the opening end of the shaft cylinder, and the detachable baffle ring is detachably matched with the circular guide rail at the closed end of the shaft cylinder; the central shaft sleeve of the I-shaped spool is detachably matched with the circular guide rail.

The iron core coil winding machine is characterized in that: the lifting support device comprises an upper seat plate, a base plate, a four-rod hinged frame, a connecting rod, circular rotating columns arranged at two ends of the connecting rod, two adjusting rod pieces and a threaded adjusting rod with a knob,

two sides of the lower surface of the upper seat plate are respectively provided with an upper guide groove with an opening, and two sides of the upper surface of the base plate are provided with a lower guide groove with an opening;

the middle part of the adjusting rod piece is provided with a threaded hole;

two ends of one regulating rod piece are respectively connected with a hinge shaft at the hinge joint of the four-rod hinge frame, and two ends of the other regulating rod piece are connected with a hinge shaft at the other hinge joint of the four-rod hinge frame; the threaded adjusting rod penetrates through a threaded hole of one adjusting rod piece to be screwed with a threaded hole of the other adjusting rod piece; half shafts at two ends of the connecting rod penetrate through the suspended ends of the frame plates of the four-rod hinged frame and are connected with the circular rotating column;

the upper cylindrical rotating body is matched with the upper guide groove, and the lower cylindrical rotating body is matched with the lower guide groove; the iron core clamping device is fixed on the upper seat plate.

The iron core coil winding machine is characterized in that: the iron core clamping device comprises a seat body, a fixed groove arranged on the seat body in the left-right direction, a screw hole arranged on a front wall plate of the fixed groove, a fixed clamping plate, a movable clamping plate and a clamping screw rod,

the fixed clamping plate is attached to the rear wall plate of the fixed groove, and the clamping screw is matched with the screw hole and the movable clamping plate.

The iron core coil winding machine is characterized in that: the upper guide wire roller group and the lower guide wire roller group comprise adjusting seats, fixed shafts, roller bodies which are in running fit with the fixed shafts and fastening screws with knobs,

the adjusting seat comprises a circular hole, a tightening groove communicated with the circular hole and a screw hole penetrating through two wall plates of the tightening groove,

the support rod penetrates through the circular hole, and the fastening screw penetrates through the screw hole.

According to the iron core coil winding machine, due to the adoption of the structure, one paying-off mechanism, one taking-up mechanism and the other paying-off mechanism are arranged in the left paying-off mechanism and the right paying-off mechanism, and the taking-up and the paying-off are alternated, so that automatic wire drawing is realized, the work efficiency is improved, and the labor intensity is reduced.

Drawings

Fig. 1 is one of perspective views of the present invention.

Fig. 2 is a second perspective view of the present invention.

Fig. 3 is one of the exploded perspective views of the present invention.

Fig. 4 is a second exploded perspective view of the present invention.

FIG. 5 is a cross-sectional view of either the left take-up and pay-off mechanism or the right take-up and pay-off mechanism of the present invention.

FIG. 6 is a perspective view of either the left take-up and pay-off mechanism or the right take-up and pay-off mechanism of the present invention.

FIG. 7 is a second perspective view of the left take-up and pay-off mechanism or the right take-up and pay-off mechanism of the present invention.

FIG. 8 is an exploded perspective view of the left take-up and pay-off mechanism or the right take-up and pay-off mechanism of the present invention.

FIG. 9 is a second exploded perspective view of the left take-up and pay-off mechanism or the right take-up and pay-off mechanism of the present invention.

Fig. 10 is a perspective view of the elevation support apparatus of the present invention.

Fig. 11 is an exploded perspective view of the lift support of the present invention.

Figure 12 is a perspective view of the support bar and guide roller set of the present invention in combination.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1 and 2, an iron core coil winding machine comprises a workbench 1, a left take-up and pay-off mechanism 2, a right take-up and pay-off mechanism 3, an i-shaped bobbin 4, a left support frame plate 5, a right support frame plate 6, two support rods 7, an upper guide roller set 81 and a lower guide roller set 82 which are arranged on the support rods 7, a lifting support device 9 and an iron core clamping device 10 which is arranged on the lifting support device 9,

the iron core 11 is provided with two threading holes, the axes of the two threading holes are parallel to the horizontal plane, and the two threading holes are distributed up and down;

the lifting support device 9 is arranged in the center of the workbench 1, the support rods 7 are arranged on two sides of the lifting support device 9, the left support frame plate 5 is arranged at the left end of the workbench 1, the right support frame plate 6 is arranged at the right end of the workbench 1, and the left take-up and pay-off mechanism 2 and the right take-up and pay-off mechanism 3 are respectively fixed on the left support frame plate 5 and the right support frame plate 6; the wire body penetrates through an axial hole of the iron core, one I-shaped spool 4 is arranged on the left take-up and pay-off mechanism 2, the other I-shaped spool 4 is arranged on the right take-up and pay-off mechanism 3, and the left take-up and pay-off mechanism 2 and the right take-up and pay-off mechanism 3 alternately take up and pay off wires; the wire body of the coil penetrates through the threading hole of the iron core 11, the wire body is matched with the left winding and unwinding mechanism 2 and the right winding and unwinding mechanism 3, and the left winding and unwinding mechanism 2 and the right winding and unwinding mechanism 3 alternately wind up and unwind.

As shown in fig. 1, 8 and 9, the upper ends of the left support frame plate 5 and the right support frame plate 6 are respectively provided with a semicircular groove;

as shown in fig. 5, 8 and 9, the left take-up and pay-off mechanism 2 and the right take-up and pay-off mechanism 3 respectively comprise a right-angle frame base plate 12, a guide rail 13, a sliding seat 14, a motor 15, a screw 16, a nut 17, a shaft barrel 18 with an open end and a flange, a right-angle torsion arm 19 and a guide wheel set 20 arranged on the right-angle torsion arm,

the right-angle torsion arm 19 comprises a connecting arm 191 and a supporting arm 192, the supporting arm 192 is parallel to the axis of the shaft barrel 18, and the axis of the connecting arm 191 is perpendicular to the axis of the shaft barrel 18; the guide wheel set 20 is arranged on the support arm 192, the guide wheel set 20 is formed by three pulleys distributed along the length direction of the support arm 192, and the pulleys can also be formed by more than three pulleys;

the radius of the semicircular grooves on the left support frame plate 5 and the right support frame plate 6 is larger than or equal to that of the shaft barrel 18;

the vertical plate part 121 of the right-angle seat plate 12 is fixedly connected with the left support frame plate 5, the flange 181 of the shaft barrel 18 is fixedly connected with the left support frame plate 5, the horizontal plate part 122 of the right-angle seat plate 12 extends into the shaft barrel 18, the guide rail 13 is fixed on the horizontal plate part 122, the sliding seat 14 is in sliding fit with the guide rail 13, and the motor 15 is fixed on the sliding seat 14; the nut 17 is arranged on the end plate at the closed end of the shaft barrel 18, the driving end of the screw 16 is fixedly connected with the shaft of the motor 15, the driven end of the screw is screwed with the nut 17 and extends out of the shaft barrel 18, the connecting arm 191 is connected with the driven end of the screw 17, and the right-angle-shaped torque arm 19 rotates along with the screw 16; the support arm 192 is opposite and parallel to the shaft 18;

the vertical plate part 121 of the other right-angle seat plate 12 is fixedly connected with the right support frame plate 6, the flange 181 of the shaft barrel 18 is fixedly connected with the right support frame plate 6, the horizontal plate part 122 of the right-angle seat plate 12 extends into the shaft barrel 18, the guide rail 13 is fixed on the horizontal plate part 122, the sliding seat 14 is in sliding fit with the guide rail 13, and the motor 15 is fixed on the sliding seat 14; the nut 17 is arranged on an end plate of the shaft barrel 18, the driving end of the screw 16 is fixedly connected with the shaft of the motor 15, the driven end of the screw is screwed with the nut 17 and extends out of the shaft barrel 18, the connecting arm 191 is connected with the driven end of the screw 17, and the supporting arm 192 is opposite to and parallel to the shaft barrel 18;

as shown in fig. 5, the screw driver further comprises a shaft sleeve 21, wherein the shaft sleeve 21 is provided with a radial hole 211, and the driven end of the screw 16 is provided with a radial pin hole 161; the shaft sleeve 21 penetrates through a connecting hole on the connecting 191 arm, a flange 212 on the shaft sleeve 21 is fixedly connected with the connecting arm 191, the driven end of the screw 16 is inserted into the shaft sleeve 21, and the pin body penetrates through the radial hole 211 and the radial pin hole 161; the I-shaped spool 4 is in running fit with the shaft barrel 15;

as shown in fig. 5, when the motor 15 is powered to rotate, the screw 16 rotates relative to the nut 17, the sliding seat 14 moves leftwards on the guide rail 13, and the right-angle torsion arm 19 rotates along with the screw 16; the wire body drives the I-shaped spool 4 to rotate;

when the left take-up and pay-off mechanism 2 takes up the wire, the I-shaped spool 4 is static relative to the shaft barrel 18; the right take-up and pay-off mechanism 3 takes out the wire, and the I-shaped spool 4 rotates relative to the shaft barrel 18 under the traction of the wire body; it can also be said that: the I-shaped spool 4 and the shaft barrel 18 are braked by friction, and when the pulling force of the wire body overcomes the friction force, the I-shaped spool 4 rotates relative to the shaft barrel 18;

when the right take-up and pay-off mechanism 3 takes up the wire, the left take-up and pay-off mechanism 2 takes up the wire.

Also comprises a circular guide rail 22, a fixed baffle ring plate 23 and a detachable baffle ring 24,

the detachable baffle ring 24 comprises two semicircular rings 241, fastening seats 242 arranged at two ends of the semicircular rings 241 and fastening screws, and the screws penetrate through screw holes of the fastening seats 242;

two ends of the shaft cylinder 18 are respectively provided with a circular guide rail 22, a fixed baffle ring plate 23 is fixedly connected with the circular guide rail 22 at the opening end of the shaft cylinder 18, and a detachable baffle ring 24 is detachably matched with the circular guide rail 22 at the closed end of the shaft cylinder 18; the central shaft sleeve of the I-shaped spool 4 is detachably matched with the circular guide rail 22;

the removable stop ring 24 may be removed to allow replacement of the i-shaped spool 4.

As shown in fig. 10 and 11, the lifting support device 9 includes an upper seat plate 91, a base plate 92, a four-bar hinged frame 93, a connecting rod 94, circular rotating columns 95 disposed at both ends of the connecting rod, two adjusting rod members 96 and a threaded adjusting rod 97 with a knob,

an upper guide groove 911 with a side opening is respectively arranged on two sides of the lower surface of the upper seat plate 91, and a lower guide groove 921 with a side opening is respectively arranged on two sides of the upper surface of the base plate 92;

the middle part of the adjusting rod piece 96 is provided with a threaded hole, and the threaded holes on the two adjusting rod pieces 96 are provided with a right-handed thread and a left-handed thread;

two ends of one adjusting rod piece 96 are respectively connected with a hinge shaft at the hinge position 931 of the four-bar hinge frame 93, and two ends of the other adjusting rod piece 96 are connected with a hinge shaft at the other hinge position 931 of the four-bar hinge frame 93; the threaded adjusting rod 97 passes through a threaded hole of one adjusting rod 95 to be screwed with a threaded hole of the other adjusting rod 95; half shafts at two ends of the connecting rod 94 penetrate through the suspended ends of the frame plates of the four-rod hinged frame 93 and are connected with the circular rotating column 95;

the upper cylindrical rotating body 95 is fitted with the upper guide groove 911, and the lower cylindrical rotating body 95 is fitted with the lower guide groove 921; the iron core clamping device 10 is fixed on the upper seat plate 91;

as shown in fig. 10, the threaded adjustment rod 97 is rotated clockwise, the two adjustment rods 95 move towards each other, the four-bar hinge frame 93 extends, and the upper seat plate 91 moves upwards; the threaded adjusting rod 97 is rotated counterclockwise, the two adjusting rod pieces 95 move back to back, the four-rod hinge frame 93 is folded, and the upper seat plate 91 moves downward.

As shown in fig. 3 and 4, the iron core clamping device 10 includes a base 101, a left-right direction fixing groove 102 provided on the base, a screw hole provided on a front wall plate of the fixing groove, a fixed clamping plate 103, a movable clamping plate 104 and a clamping screw 105,

the fixed clamping plate 103 is attached to the rear wall plate of the fixed groove 102, the clamping screw 105 is matched with the screw hole and the movable clamping plate 104, the movable clamping plate 104 moves relative to the fixed clamping plate 103 by rotating the clamping screw 105, and the iron core 11 is clamped or the iron core 11 is disassembled.

As shown in fig. 12, the upper guide roller set 81 and the lower guide roller set 82 include an adjusting seat 83, a fixed shaft, a roller 84 rotatably engaged with the fixed shaft, and a fastening screw 85 with a knob,

the adjusting seat 83 comprises a circular hole 831, a tightening slot 832 communicated with the circular hole and a screw hole passing through two wall plates of the tightening slot,

the supporting rod 7 penetrates through the circular hole 831, and the fastening screw 85 penetrates through the screw hole;

with this configuration, the distance between the upper godet roller group 81 and the lower godet roller group 82 and the gap between the two godet rollers can be adjusted.

When the invention is used, as shown in figure 1, a wire body is wound on the I-shaped spool 4 of the right take-up and pay-off mechanism 3, and passes through the guide wheel group 20 on the right-angle-shaped torque arm 19, the lower guide wire shaft group on the right-side support rod 7 and the through hole at the lower part of the iron core 11; the end part of the wire body is fixed on the I-shaped spool 4 on the left take-up and pay-off mechanism 2 through the lower guide roller group 82 on the left support rod 7 and the guide roller group 20 on the left take-up and pay-off mechanism 2; secondly, operating a power switch, electrifying and rotating a motor 15, and rotationally paying off the I-shaped spool 4 on the right paying-off and paying-up mechanism 3 relative to the spool 18 under the traction of the spool body; meanwhile, the right-angle torsion arm 19 of the left take-up and pay-off mechanism 2 on the left side winds the wire body on the I-shaped spool 4 of the left take-up and pay-off mechanism 2, and the I-shaped spool 4 stands still; after the wire body on the I-shaped spool 4 on the right winding and unwinding mechanism 3 is completely unwound, the wire body passes through an upper wire guide roller group 81 on the right supporting rod 7, a wire passing hole on the upper part of the iron core 11, an upper wire guide roller group 81 on the left supporting rod 7, a lower wire guide roller group 82 on the lower part, a wire passing hole on the lower part of the iron core 11, a lower wire guide roller group 82 on the right supporting rod 7, a guide roller group 20 on the right winding and unwinding mechanism 3 by hand, and is finally fixed on the I-shaped spool 4 on the right winding and unwinding mechanism 3; and (IV) operating a power switch, rotating the motor 15, winding the wire body on the I-shaped spool 4 through a guide wheel set 20 on a right-angle torsion arm 19 on the right winding and unwinding mechanism 3, and at the moment, winding the wire body on the I-shaped spool 4 in a static state. The I-shaped spool 4 on the left take-up and pay-off mechanism 2 rotates and pays off relative to the shaft barrel 18 under the traction of the wire body. And (4) reciprocating and circulating until the number of turns is enough. Compared with the prior art, the method has the advantages that the manual operation is completely realized, the work efficiency is improved, and the labor intensity is reduced.

What has been described above is merely a preferred embodiment of the present invention. It should be noted that a person skilled in the art could make several modifications and variations without departing from the principle of the present invention, which should also be regarded as the protection scope of the present invention.

Claims

1. An iron core coil winding machine, characterized in that: it comprises a workbench, a left take-up and pay-off mechanism, a right take-up and pay-off mechanism, an I-shaped bobbin, a left support frame plate, a right support frame plate, two support rods, an upper guide wire roller group and a lower guide wire roller group which are arranged on the support rods, a lifting support device and an iron core clamping device which is arranged on the lifting support device,

2. The iron core coil winding machine according to claim 1, wherein: the upper ends of the left support frame plate and the right support frame plate are respectively provided with a semicircular groove;

the I-shaped spool is in running fit with the shaft barrel.

3. The iron core coil winding machine according to claim 2, characterized in that: also comprises a circular guide rail, a fixed baffle ring plate and a detachable baffle ring,

4. The iron core coil winding machine according to claim 1, wherein: the lifting support device comprises an upper seat plate, a base plate, a four-rod hinged frame, a connecting rod, circular rotating columns arranged at two ends of the connecting rod, two adjusting rod pieces and a threaded adjusting rod with a knob,

the middle part of the adjusting rod piece is provided with a threaded hole;

5. The iron core coil winding machine according to claim 1, wherein: the iron core clamping device comprises a seat body, a fixed groove arranged on the seat body in the left-right direction, a screw hole arranged on a front wall plate of the fixed groove, a fixed clamping plate, a movable clamping plate and a clamping screw rod,

6. The iron core coil winding machine according to claim 1, wherein: the upper guide wire roller group and the lower guide wire roller group comprise adjusting seats, fixed shafts, roller bodies which are in running fit with the fixed shafts and fastening screws with knobs,