CN101521110B - Winding mechanism - Google Patents

Abstract

The invention discloses a winding mechanism, which comprises a guide device, a magnetic ring driving device, and a conducting wire driving device, wherein the guide device comprises a guide groove whiThe invention discloses a winding mechanism, which comprises a guide device, a magnetic ring driving device, and a conducting wire driving device, wherein the guide device comprises a guide groove which is set by an annular inner wall; the magnetic ring driving device is positioned on a first position of the guide groove, a magnetic ring is arranged in the magnetic ring driving device, the axle cech is set by an annular inner wall; the magnetic ring driving device is positioned on a first position of the guide groove, a magnetic ring is arranged in the magnetic ring driving device, the axle center of the magnetic ring is parallel to a first tangent direction of the guide groove, and the magnetic ring driving device can drive the magnetic ring to rotate along the axle center; the conductingnter of the magnetic ring is parallel to a first tangent direction of the guide groove, and the magnetic ring driving device can drive the magnetic ring to rotate along the axle center; the conductingwire driving device is positioned on a second position of the guide groove, and can provide driving force for driving a conducting wire to move along a second tangent direction of the guide groove, a wire driving device is positioned on a second position of the guide groove, and can provide driving force for driving a conducting wire to move along a second tangent direction of the guide groove, and the driving force can guide the conducting wire to move along the annular inner wall; and the guide device, the magnetic ring driving device, and the conducting wire driving device can automaticallnd the driving force can guide the conducting wire to move along the annular inner wall; and the guide device, the magnetic ring driving device, and the conducting wire driving device can automatically wind a single or twisted copper wire onto the magnetic ring, so the winding mechanism gets rid of manual operation, reduces the processing cost, improves the efficiency, and ensures the quality of ty wind a single or twisted copper wire onto the magnetic ring, so the winding mechanism gets rid of manual operation, reduces the processing cost, improves the efficiency, and ensures the quality of the processed products. he processed products.

Description

A kind of winding mechanism

Technical field

The present invention relates to the machining tool of annular magnet ring induction coil, be specifically related to a kind of winding mechanism.

Background technology

Electromagnetic assembly extensively was applied in the industrial circle in the modern times, also often used electromagnetic assembly inevitably at various dissimilar electronic products, and therefore, the quality of its making quality and the useful life and the product quality of this electronic product are closely bound up.

In numerous all kinds of electromagnetic assemblies, the applied scope of magnet ring induction coil is very extensive, at present general coiling machinery only can be used to twine lead or twisted wire in the column magnetic core, still can't twine the loop configuration that lead penetrated and passed magnet ring, to form coil on magnet ring, therefore, the common magnet ring induction coil production method of industry is to see through manually, plain conductor or twisted wire that desire is twined twine a few on magnet ring, mode with traditional manpower processing is made, not only need higher human cost, production efficiency is low, and the uneven situation of quality also appears in coiling magnet ring easily that produced simultaneously, thus also instability of the quality that causes the electronic product used.

Summary of the invention

The present invention seeks to: overcome the defective of prior art, provide a kind of mechanization, automation winding around on magnet ring, make that its production cost is low, production efficiency is high and the stay-in-grade winding mechanism of magnet ring that produced.

Technical scheme provided by the invention is as follows: a kind of winding mechanism, and be used to make a lead to form plural coil in a magnet ring with an axle center, this winding mechanism comprises: a guiding device, a magnetic ring driving device and a conducting wire driving device; Guiding device comprises a guide channel that is set by an annular inner wall; Magnetic ring driving device is positioned at the primary importance of guide channel, and magnet ring is positioned in the magnetic ring driving device; The axis parallel of magnet ring is in the guide channel first tangential direction A, and magnetic ring driving device can drive magnet ring around its axle center rotation; Conducting wire driving device is positioned at the second place of guide channel, the actuating force that can provide lead to move along the second tangential direction B of guide channel; Actuating force by conducting wire driving device, lasting drive lead moves along the annular inner wall of guide channel, and magnetic ring driving device is rotated magnet ring along the axle center of magnet ring simultaneously, makes lead move to tighten towards magnet ring repeatedly and is wound on the magnet ring, and form plural coil on magnet ring; Described guiding device also includes a through hole, described guide channel is to be located on the outer cannelure of this through hole, this cannelure has an opening of offering along this through hole, described cannelure communicates with described through hole by this opening, guiding device also includes a breach, this breach is positioned on the described primary importance, communicates with described guide channel; Described guiding device has one oblique mouthful, and described lead enters in the described guide channel via this oblique mouthful; Described winding mechanism also includes a pilot wire drive unit, is positioned at the 3rd position of guide channel; The 3rd position of pilot wire drive unit and the second place of conducting wire driving device lay respectively at two sides of magnetic ring driving device; The actuating force that the pilot wire drive unit can provide lead to move along the 3rd tangential direction C of guide channel; This actuating force can be guided lead and move along the annular inner wall of guide channel, and away from magnet ring, the plural coil that auxiliary tension lead forms in guide channel closely is wrapped on the magnet ring; Conducting wire driving device and pilot wire drive unit also include a pedestal, a swing seat, a screw arbor assembly and a pivoting device respectively, the pedestal of conducting wire driving device and pilot wire drive unit is installed in the second place and the 3rd position of guide channel respectively, and the drive of conducting wire driving device and pilot wire drive unit is installed on the pedestal respectively; The swing seat of conducting wire driving device and pilot wire drive unit is installed on the pedestal respectively, and comprises auxiliary wheel respectively; The drive of conducting wire driving device and pilot wire drive unit respectively and respectively define an angle D between auxiliary wheel; The pivoting device of conducting wire driving device and pilot wire drive unit is installed in respectively between pedestal and the swing seat, and the swing seat can be respectively with respect to the pedestal swing, adjusting angle D, and then adjusts the chucking power of two groups of auxiliary wheels and drive difference clamping lead.

As preferably, in the described winding mechanism, described guiding device has first and second portion, and this first and this second portion define this guide channel.

As preferably, in the described winding mechanism, also include a guide pin, this guide pin is arranged in the described breach, between described guide channel and the described magnet ring, guides after described lead passes by described guide channel, penetrates in the described magnet ring.

As preferably, in the described winding mechanism, described magnetic ring driving device includes a driving wheel and two driven pulleys, and described magnet ring is to be arranged between this driving wheel and this two driven pulley, described driving wheel drives described magnet ring and rotates, and described two driven pulleys are suitable with firm described magnet ring.

As preferably, in the described winding mechanism, described conducting wire driving device and described pilot wire drive unit include a drive and an auxiliary wheel respectively, and this drive can drive described lead, and this auxiliary wheel can be assisted the described lead of clamping.

As preferably, in the described winding mechanism, described drive and described auxiliary wheel are taper cone pulley.

As preferably, in the described winding mechanism, described lead is a twisted wire, comprises some leads.

The present invention has the following advantages: guiding device, magnetic ring driving device and conducting wire driving device, energy be wound into single or stranded copper cash on the magnet ring automatically, has broken away to rely on artificial mode to operate, and has reduced processing cost, and raise the efficiency, guarantee the quality of converted products; Described conducting wire driving device and described pilot wire drive unit can be adjusted the chucking power that is clamped on the twisted wire to be wound, thereby regulate the size of coiling backguy power, guaranteeing that twisted wire around under the prerequisite of magnet ring, the enamel-cover twisted wire can be damaged, and the useful life that can improve the coiling rubber tire.

Description of drawings

Fig. 1 is the schematic diagram of automatic winding equipment of the present invention and winding mechanism;

Fig. 2 is the schematic perspective view of winding mechanism of the present invention;

Fig. 3 is the schematic perspective view of hidden parts part among Fig. 2;

Fig. 4 is the schematic internal view of conducting wire driving device of the present invention.

Embodiment

Below in conjunction with accompanying drawing concrete execution mode is illustrated:

As depicted in figs. 1 and 2, winding mechanism 3 of the present invention is installed on the automatic magnet ring spooling equipment; This automatic winding equipment also includes a magnet ring feeding machanism 1, a wire agency 2, a magnet ring driving mechanism 4 and a transmission mechanism 5; Magnet ring feeding machanism 1 can be supplied with a magnet ring 11 in magnet ring driving mechanism 4, wire agency 2 can be transported to the lead 21 of a regular length in the winding mechanism 3, via winding mechanism 3 acting in conjunction with magnet ring driving mechanism 4, lead 21 is wound into the outer surface of magnet ring 11, form plural coil; Wherein, transmission mechanism 5 is kept the action power of magnet ring feeding machanism 1, wire agency 2, winding mechanism 3 and magnet ring driving mechanism 4; By the winding mechanism 3 of the automatic magnet ring spooling equipment of the present invention, lead 21 can mechanization, the mode of automation, and winding around is on magnet ring.

As shown in Figures 2 and 3, winding mechanism 3 of the present invention includes a guiding device 31, a magnetic ring driving device 41 and a conducting wire driving device 32; Guiding device 31 comprises a guide channel 311 that is set by an annular inner wall; Magnetic ring driving device 41 is positioned at the primary importance of guide channel 311, and magnet ring 11 is positioned in the magnetic ring driving device 41; The axis parallel of magnet ring 11 is in guide channel 311 first tangential direction A, and magnetic ring driving device 41 can drive magnet ring 11 around its axle center rotation; Conducting wire driving device 32 is positioned at the second place of guide channel 311, the actuating force that can provide lead 21 to move along the second tangential direction B of guide channel 311; Actuating force by conducting wire driving device 32, lasting drive lead 21 moves along the annular inner wall of guide channel 311, and magnetic ring driving device 41 is rotated magnet ring 11 simultaneously along the axle center of magnet ring 11, make lead 21 move to tighten towards magnet ring 11 repeatedly and be wound on the magnet ring 11, and form plural coil on magnet ring 11.

Specifically, guiding device 31 of the present invention has first part 312 and the second portion 313; First part 312, second portion 313 and annular inner wall define a cannelure jointly, and this cannelure promptly is a guide channel 311; Guiding device 31 central authorities are provided with a through hole 314, and guide channel 311 is located on outside the through hole 314; Guide channel 311 has the opening 315 that is provided with along through hole 314, and this opening 315 makes guide channel 311 communicate with through hole 314; It is oblique mouthfuls 317 that guide channel 311 also includes, and after the lead 21 that wire agency 2 will have a regular length is sent, can enter in the annular guide channel 311 via oblique mouthful 317; Conducting wire driving device 32 provides the actuating force of lead 21 along the second tangential direction B of guide channel 311 moves, and constantly drives lead 21 and moves the formation coil along the annular inner wall of guide channel 311, and continue to penetrate, pass magnet ring 11; Because of the length of lead 21 of input guiding device 31 is fixed, so lead 21 formed plural loop coil in guide channel 311 will continue to be driven, strain by conducting wire driving device 32, and in the mode of diameter reduction, from guide channel 311 via opening 315, through hole 314 to the direction of magnet ring 11 toward interior contraction, continue to be tightened on the magnet ring 11.

Guiding device 3 also includes a breach 316 that is positioned at primary importance, and breach 316 communicates with guide channel 311; Breach 316 is in order to the primary importance of ccontaining magnetic ring driving device 41 at guide channel 311; Wherein, magnetic ring driving device 41 includes a driving wheel 411 and two driven pulleys 412, magnet ring 11 is positioned between driving wheel 411 and two driven pulleys 412, and the axis parallel of magnet ring 11 is in the first tangential direction A of guide channel 311, lead 21 can be driven by conducting wire driving device 32, along the axle center and the first tangential direction A penetrate in the magnet ring 11; Driving wheel 411 drives magnet ring 11 along the axle center rotation, and two driven pulleys 412 are suitable with firm magnet ring 11, and cooperates magnet ring 11 rotations.

Conducting wire driving device 32 is positioned at the second place of guide channel 311, the actuating force that conducting wire driving device 32 can provide lead 21 to move along the second tangential direction B of guide channel 31, and the bootable lead of this actuating force 21 moves along annular inner wall; Winding mechanism 3 of the present invention also includes a guide pin 318, is installed in the breach 316, between guide channel 311 and the magnet ring 11; When lead 21 drives when arriving breach 316 through conducting wire driving device 32, guide pin 318 can pass from guide channel 311 by guiding leads 21, and enters in the magnet ring 11, finishes the threading action.

Moreover winding mechanism 3 of the present invention also includes a pilot wire drive unit 33, is positioned at the 3rd position of guide channel 311; The 3rd position of pilot wire drive unit 33 and the second place of conducting wire driving device 32 lay respectively at two sides of magnetic ring driving device 41; The actuating force that pilot wire drive unit 33 can provide lead 21 to move along the 3rd tangential direction C of guide channel 311; This actuating force can be guided lead 21 and move along the annular inner wall of guide channel 311, and away from magnet ring 11, the plural coil that auxiliary tension lead 21 forms in guide channel 311 closely is wrapped on the magnet ring 11.

Conducting wire driving device 32 and pilot wire drive unit 33 include a drive 321,331 and an auxiliary wheel 322,332 respectively.Drive 321,331 and auxiliary wheel 322,332 are taper cone pulley; Drive 321,331 can drive lead 21, and auxiliary wheel 322,332 can be assisted clamping lead 21.

Conducting wire driving device 32 and pilot wire drive unit 33 must be adjusted the chucking power of clamping lead 21, avoiding conducting wire driving device 32 and pilot wire drive unit 33 to use excessive chucking powers and damage lead 21, and use too small chucking power can't provide enough actuating force guiding leads 21 in guide channel 311, to move and strain coil.Please refer to Fig. 3 and Fig. 4, conducting wire driving device 32 and pilot wire drive unit 33 also include a pedestal 323,333, swing seat 324,334, one screw arbor assembly 325,335 and a pivoting device 326,336 respectively.The pedestal 323,333 of conducting wire driving device 32 and pilot wire drive unit 33 is installed in the second place and the 3rd position of guide channel 311 respectively, and the drive 321,331 of conducting wire driving device 32 and pilot wire drive unit 33 is installed in respectively on the pedestal 323,333; The swing seat 324,334 of conducting wire driving device 32 and pilot wire drive unit 33 is installed in respectively on the pedestal 323,333, and comprises auxiliary wheel 322,332 respectively; The drive 321,331 of conducting wire driving device 32 and pilot wire drive unit 33 respectively and 322,332 of auxiliary wheels respectively define an angle D; The pivoting device 326,336 of conducting wire driving device 32 and pilot wire drive unit 33 is installed in respectively between pedestal 323,333 and the swing seat 324,334, swing seat 324,334 can be respectively with respect to pedestal 323,333 swings, adjusting angle D, and then adjust the chucking power that two groups of auxiliary wheels 322,332 and drive 321,331 are distinguished clamping leads 21.

Moreover conducting wire driving device 32 and pilot wire drive unit 33 also include a screw arbor assembly 325,335 respectively, hold separately between the pedestal 323,333 and swing seat 324,334 of conducting wire driving device 32 and pilot wire drive unit 33; Screw arbor assembly 325,335 can rotate respectively with two groups of pedestals 323,333 of adjusting conducting wire driving device 32 and pilot wire drive unit 33 spacing with 324,334 of swing seats, to assist adjustment angle D.

Conducting wire driving device 32 of the present invention and pilot wire drive unit 33, other execution modes can also be arranged, for example conducting wire driving device 32 and pilot wire drive unit 33 can be integrated into a disc conducting wire driving device, be installed in the guide channel 311 of guiding device 31, and along the annular inner wall setting.This disc conducting wire driving device can drive lead 21 and move along the tangential direction at each position of annular inner wall in guide channel 311.This area tool knows that usually the knowledgeable also can know by inference easily, and above-mentioned auxiliary wheel 322,332 and drive 321,331 can be the shape beyond the taper cone pulley, and be for example cylindric, and lead 21 can be a solid conductor or for comprising a twisted wire of plural number time lead.Therefore, the present invention's winding mechanism 3 is not limited to the foregoing description, and the present invention's interest field should be as the criterion with claim.

Please also refer to Fig. 1 to Fig. 3, when automatic winding equipment of the present invention wound the line action at magnet ring 11, details are as follows for its step:

At first, magnet ring feeding machanism 1 is delivered to magnet ring 11 between the driving wheel 411 and two driven pulleys 412 of magnetic ring driving device 41; When the driving wheel 411 of magnetic ring driving device 41 drives magnet ring 11 to primary importance along the axle center of magnet ring 11, and wire agency 2 is after oblique mouthfuls 317 carry the lead 21 of regular lengths to enter in the guide channel 311 of guiding device 31 of winding mechanism 3, conducting wire driving device 32 drives lead 21, and, penetrate magnet ring 11 and pass via the guiding of guide pin 318; Lead 21 is by the drive of conducting wire driving device 32, after entering the guide channel 311 of guiding device 31 once more, drive lead 21 away from magnet ring 11 by pilot wire drive unit 33, make a first of lead 21, promptly before form a loose coil along the annular inner wall of guide channel 311, can to dwindle the mode of annular diameter, move up to closely being wound on the magnet ring 11 gradually away from annular inner wall towards magnet ring 11; At this moment, conducting wire driving device 32 and pilot wire drive unit 33 continues to drive leads 21 and moves and form another loose coil along the annular inner wall of guide channel 311; Behind the coil that first closely is wound on the magnet ring 11 and formation has been twined of lead 21, magnetic ring driving device is rotated magnet ring 11 to the second place 41 this moments along the axle center; The second portion of lead 21, i.e. another loose coil that in guide channel 311, forms, suitable can be once more gradually away from annular inner wall to dwindle the mode of annular diameter, move to towards magnet ring 11 and closely to be wound on the magnet ring 11; Control the length of the lead 21 that enters guiding device 31 by a controller (not shown), and control magnetic ring driving device 41 and conducting wire driving device 32 continue to cooperatively interact and rotate magnet ring 11 respectively and drive lead 21 motions, and continue to repeat above-mentioned winding action till arriving the winding number of turns that controller sets; By above-mentioned steps, but reach the present invention's mechanization, the purpose of automation winding around on magnet ring, and make the magnet ring steady quality that its production cost is low, production efficiency is high and produced.

Certainly, above embodiment just is explanation rather than restriction the present invention, the above only is preferred embodiment of the present invention, so all equivalences of doing according to the described structure of patent claim of the present invention, feature and principle change or modify, is included in the patent claim of the present invention.

Claims (4)

1. a winding mechanism is used to make a lead to form plural coil in the magnet ring with an axle center, it is characterized in that this winding mechanism comprises: a guiding device, a magnetic ring driving device and a conducting wire driving device; Guiding device comprises a guide channel that is set by an annular inner wall; Magnetic ring driving device is positioned at the primary importance of guide channel, and magnet ring is positioned in the magnetic ring driving device; The axis parallel of magnet ring is in the guide channel first tangential direction A, and magnetic ring driving device can drive magnet ring around its axle center rotation; Conducting wire driving device is positioned at the second place of guide channel, the actuating force that can provide lead to move along the second tangential direction B of guide channel; Actuating force by conducting wire driving device, lasting drive lead moves along the annular inner wall of guide channel, and magnetic ring driving device is rotated magnet ring along the axle center of magnet ring simultaneously, makes lead move to tighten towards magnet ring repeatedly and is wound on the magnet ring, and form plural coil on magnet ring;

Described guiding device also includes a through hole, described guide channel is to be located on the outer cannelure of this through hole, this cannelure has an opening of offering along this through hole, described cannelure communicates with described through hole by this opening, guiding device also includes a breach, this breach is positioned on the described primary importance, communicates with described guide channel; Described guiding device has one oblique mouthful, and described lead enters in the described guide channel via this oblique mouthful;

Described winding mechanism also includes a pilot wire drive unit, is positioned at the 3rd position of guide channel; The 3rd position of pilot wire drive unit and the second place of conducting wire driving device lay respectively at two sides of magnetic ring driving device; The actuating force that the pilot wire drive unit can provide lead to move along the 3rd tangential direction C of guide channel; This actuating force can be guided lead and move along the annular inner wall of guide channel, and away from magnet ring, the plural coil that auxiliary tension lead forms in guide channel closely is wrapped on the magnet ring;

Conducting wire driving device and pilot wire drive unit also include a pedestal, a swing seat, a screw arbor assembly and a pivoting device respectively, the pedestal of conducting wire driving device and pilot wire drive unit is installed in the second place and the 3rd position of guide channel respectively, and the drive of conducting wire driving device and pilot wire drive unit is installed on the pedestal respectively; The swing seat of conducting wire driving device and pilot wire drive unit is installed on the pedestal respectively, and comprises auxiliary wheel respectively; The drive of conducting wire driving device and pilot wire drive unit respectively and respectively define an angle D between auxiliary wheel; The pivoting device of conducting wire driving device and pilot wire drive unit is installed in respectively between pedestal and the swing seat, and the swing seat can be respectively with respect to the pedestal swing, adjusting angle D, and then adjusts the chucking power of two groups of auxiliary wheels and drive difference clamping lead.

2. winding mechanism according to claim 1 is characterized in that: described guiding device has a first and second portion, and this first and this second portion define guide channel.

3. winding mechanism according to claim 1 is characterized in that: also include a guide pin, this guide pin is arranged in the described breach, between described guide channel and the described magnet ring, guides after described lead passes by described guide channel, penetrates in the described magnet ring.

4. winding mechanism according to claim 1, it is characterized in that: described magnetic ring driving device includes a driving wheel and two driven pulleys, described magnet ring is to be arranged between this driving wheel and this two driven pulley, and described driving wheel drives described magnet ring and rotates, and described two driven pulleys are suitable with firm described magnet ring.

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