CN112837932A - Coil winding equipment for transformer production - Google Patents

Abstract

The invention discloses coil winding equipment for transformer production, which relates to the technical field of transformer coil winding equipment and comprises a workbench, a power area, a wire pressing mechanism, a winding mechanism, a driving platform, a tensioning regulator and a wire roller mechanism, wherein the power area is arranged on one side of the top of the workbench; not only can prevent the wound iron core from easily sliding out of the transmission winding transmission rod; moreover, the coils wound on the iron core can be compacted and compressed in time, so that the coils on the iron core are wound more tightly; meanwhile, a worker does not need to leave a hand to control the on and off of the power supply, so that the worker can conveniently and timely cut off the copper wire when the winding is finished; an object storage area is also arranged, and tools and equipment maintenance tools which are commonly used for winding can be placed in the object storage area.

Description

Coil winding equipment for transformer production

Technical Field

The invention relates to the technical field of transformer coil winding equipment, in particular to coil winding equipment for transformer production.

Background

The transformer is a static electrical equipment for transforming alternating voltage and current and transmitting alternating current energy; the electric energy transmission is realized according to the principle of electromagnetic induction; the transformer can be divided into a power transformer, a test transformer, an instrument transformer and a transformer with special purposes according to the purpose, wherein the power transformer is necessary equipment for power transmission and distribution and power consumer distribution; the device is used for carrying out voltage withstand (boosting) test on electrical equipment by the test transformer; the instrument transformer is used for electrical measurement and relay protection (PT, CT) of a power distribution system; the transformers with special purposes comprise electric furnace transformers for smelting, electric welding transformers, rectifier transformers for electrolysis, small-sized regulating transformers and the like;

the power transformer is internally provided with an important component part, namely a coil winding, wherein the coil winding is a copper wire wound on a transformer iron core, the middle iron core of the transformer iron core is round or square, the middle part of the transformer iron core is transversely provided with a through hole, some of the small single-phase transformer iron cores are square or round, and the small single-phase transformer iron cores and the through holes are square, so that auxiliary winding needs to be carried out through winding equipment during winding;

however, analysis shows that when the existing small-sized single-phase transformer winding equipment is used for winding, the winding iron core is easy to slide out of the transmission winding transmission rod; moreover, when the existing small-sized single-phase transformer winding equipment is used for winding, the coils wound on the iron core cannot be compacted and compacted in time, so that the coils on the iron core are not tightly wound; meanwhile, most of the existing small-sized single-phase transformer winding equipment controls the on-off of a power supply by leaving a hand for a worker, so that a copper wire is cut off inconveniently and timely by one hand when winding is finished.

Disclosure of Invention

Therefore, in order to solve the above-mentioned deficiencies, the present invention provides a coil winding device for transformer production, which can prevent the winding iron core from easily slipping out of the transmission winding transmission rod; moreover, the coils wound on the iron core can be compacted and compressed in time, so that the coils on the iron core are wound more tightly; meanwhile, a worker does not need to leave a hand to control the on and off of the power supply, so that the worker can conveniently and timely cut off the copper wire when the winding is finished; finally, an object storage area is provided, and tools and equipment maintenance tools which are commonly used for winding can be placed in the object storage area.

The invention is realized in such a way, the coil winding equipment for transformer production is constructed, and comprises a workbench, a power area, a wire pressing mechanism, a winding mechanism, a driving platform, a tensioning regulator and a wire roller mechanism, wherein the power area is arranged on one side of the top of the workbench; the bottom of the working table is provided with a bottom bin, and the bottom of the bottom bin is provided with a control switch; the power area comprises a braking bin, a drawing basin and a temporary storage bin, the temporary storage bin is arranged at one end of the braking bin, and the drawing basin is arranged on one side of the braking bin; the controller is arranged outside the temporary storage bin; the wire pressing mechanism comprises a connecting plate, a wire pressing frame, an adjusting frame and a wheel roller, the wire pressing frame is connected to one end of the connecting plate in a sliding mode, the adjusting frame is connected to one end of the wire pressing frame, and the wheel roller is installed at the other end of the wire pressing frame through a bearing; the winding mechanism comprises an iron core frame, a transmission square rod, a fixed sleeve piece, a limiting sliding groove A, a limiting sleeve and a spring B, the iron core frame is nested at one end of the transmission square rod, the fixed sleeve piece is connected to one end of the limiting sleeve, the spring B is nested at the outer side of the transmission square rod, one end of the spring B is connected to the inner side of the limiting sleeve, and the limiting sliding groove A is formed in two sides of the inner portion of the transmission square rod; the driving platform consists of a driving motor, a screw rod, a T-shaped groove and a sliding bin, the driving motor is arranged at one end of the sliding bin, the T-shaped groove is formed in the bottom of the sliding bin, one end of the screw rod is connected to the other end of the sliding bin through a bearing, and the other end of the screw rod penetrates through the side wall of one end of the sliding bin through a bearing and is connected to one end of an output shaft of; the tensioning adjuster is composed of an adjusting frame, a butterfly screw A, an adjusting box, a side through hole and a thread through hole A, wherein the thread through hole A is formed in one end of the adjusting frame, the side through hole is formed in two sides of the adjusting frame, the adjusting box is connected to the inside of the adjusting frame in a sliding mode, one end of the butterfly screw A penetrates through the thread through hole A, and the penetrating part of the butterfly screw A is connected to one end of the adjusting box through a bearing; the wire roller mechanism comprises a base, a T-shaped sliding block, a threaded through hole B, a protective cover, an end face plate, a wire roller, a ball and a limiting groove B, wherein the base is arranged at the bottom of the protective cover, the end face plate is arranged at two ends of the protective cover, the threaded through hole B is arranged at the middle part of the base, the T-shaped sliding block is arranged at the bottom of the base, the limiting groove B is arranged at the inner side of the end face plate, and the ball is arranged at the.

Furthermore, the control switch is composed of a pressing plate, a backing plate, a connecting rod, a spring, a supporting cylinder, a metal movable contact, an insulating contact block and a metal stationary contact, wherein one end of the pressing plate is hinged to one end of the backing plate, the connecting rod is connected to the bottom of the other end of the pressing plate, the spring is nested outside the connecting rod, the bottom of the spring is connected to the top of the supporting cylinder, the insulating contact block is arranged at the bottom of the supporting cylinder, the metal stationary contact is arranged at the top of the insulating contact block, and the metal; the top of the other end of the pressing plate is provided with a lead, one end of the lead is connected with a brake motor, the other end of the lead is connected with a metal movable contact, the brake motor is controlled by a controller, the controller controls the positive and negative rotation and the rotating speed of the brake motor, the bottom of the insulating contact block is connected with the lead, one end of the lead is connected with an external power line, and the other end of the lead is connected with a metal stationary contact;

the staff moves the connecting rod through stepping on the clamp plate with the foot and pushes down, oppresses the spring simultaneously, and the connecting rod drives metal movable contact metal stationary contact this moment for brake motor moves, loosens the power of trampling the clamp plate, and the spring resets, resets with clamp plate propelling movement to original position, drives the connecting rod simultaneously and mentions, makes metal movable contact and metal stationary contact separation, disconnection brake motor power.

Further, the braking bin comprises an inner bin, an instrument bin and a braking motor, the instrument bin is arranged at the bottom of the inner bin, the braking motor is arranged inside the inner bin, tools for overhauling equipment can be placed in the instrument bin, and one end of the braking motor is connected to the fixed external member through a coupling.

Furthermore, both sides of an opening at one end of the connecting plate are provided with limiting grooves, and a threaded through hole is formed at one end of the opening of the connecting plate; the other end of the butterfly screw penetrates through the threaded through hole, and two sides of the line pressing frame are embedded into the limiting grooves, so that the line pressing frame is in sliding connection with an opening at one end of the connecting plate, and the connecting plate, the line pressing frame and the iron core of the iron core frame are at the same horizontal height.

Furthermore, a limit groove A is formed in the side of one end of the line pressing frame; the adjusting frame is composed of a butterfly screw, a push plate, a contraction stay bar and side rails, one end of the butterfly screw is connected to one side of the push plate through a bearing, the two ends of the push plate are provided with the side rails, and one end of the contraction stay bar is connected to the other side of the push plate; side rails at two ends of the push plate are embedded into the limiting groove A, the push plate is connected with one end of the line pressing frame in a sliding mode through the side rails at the two ends, and the other end of the shrinkage support rod is connected to one end of the line pressing frame;

twist and move the butterfly screw rod, the butterfly screw rod promotes the push pedal through the screw thread through-hole and slides in line ball frame one end, and the push pedal promotes the line ball frame through the shrink vaulting pole simultaneously and slides at connecting plate one end opening part, can drive the wheel roller this moment and lean out connecting plate one end opening and be close to and contact on the iron core of the inboard winding coil of iron core frame for interior pole in the shrink vaulting pole oppresses spring A a little, makes spring A tighten a certain degree a little.

Furthermore, the contraction support rod consists of an outer sleeve rod, a spring A, a limiting sliding groove, an inner rod and limiting blocks, one end of the inner rod is connected to the inside of the outer sleeve rod through the spring A, the inner rod is connected with the outer sleeve rod in a sliding mode, the limiting sliding grooves are formed in two sides of the inside of the outer sleeve rod, and the limiting blocks are arranged on two sides of one end of the inner rod;

the limiting block is embedded in the limiting sliding groove and is in sliding connection with the limiting sliding groove, when the wheel roller is close to and contacts with an iron core on the inner side of an iron core frame fixedly connected with copper wires, then a brake motor power supply is switched on through a worker treading on a control switch, at the moment, the iron core frame rotates to start winding a copper wire coil, the diameter of the section of the iron core frame is continuously increased due to the winding of the copper wire coil, so that the iron core on the inner side of the iron core frame passes through the coil extrusion wheel roller, the wheel roller continuously compresses and compacts the copper wire coil, the copper wire coil extrusion wheel roller pushes the pressing line frame to slide towards the end of the butterfly screw rod at the opening at one end of the connecting plate along with the continuous increase of the diameter of the copper wire coil, at the moment, the pressing line pressing frame extrudes and contracts the supporting, because the push plate is propped by the butterfly-shaped screw rod, the push plate can not slide, and three groups of the contraction support rods are distributed at equal intervals, so that the stress of the push plate is balanced.

Furthermore, the transmission square rod mainly comprises an arc-shaped pressing block, a square through groove, a spring C, a support frame, a through hole A, a pulley, a steel wire, a pull ring and a pull rod, wherein the square through groove is formed in the side walls of the other two sides of the transmission square rod, one end of the arc-shaped pressing block is hinged to one end of the square through groove, the support frame is installed at the bottom of the square through groove, the through hole A is formed in one end of the support frame, the pulley is installed on the side wall of the through hole A, the two ends of the spring C are respectively connected to the bottom of the other end of the arc-shaped pressing block and the top of the through hole A, one end of the steel wire is connected to the bottom of the other end of the arc-shaped pressing;

the sliding block is connected with the limiting sliding groove A in a sliding mode, the through hole of the iron core frame is a square through hole, when the square through hole of the iron core frame is nested on the transmission square rod, the arc-shaped pressing block is extruded along the transmission square rod through the square through hole of the iron core frame, the arc-shaped pressing block presses the spring C to enter the square through groove, then the iron core frame continues to slide towards the end, close to the fixed sleeve, of the transmission square rod, one end of the iron core frame compresses the spring B, the spring B is forced to shrink to enter the supporting sleeve, the other end of the iron core frame slides through the arc-shaped pressing block at the moment, the external pressure of the arc-shaped pressing block disappears, the spring C resets to push the arc-shaped pressing block out of the square through groove, the;

after the coil has been wound to the iron core frame, toward pulling the pull rod outward, the pull rod passes through the slider and slides in transmission square bar one end is inside, the pull rod passes through pull ring and steel wire pulling arc briquetting other end bottom oppression spring C and gets into the logical inslot portion of side this moment, the iron core frame other end is not blocked by the arc briquetting, spring B's pressure disappears and resets and rebounds, release transmission square bar with the iron core frame, be convenient for take out around the iron core frame of good line, take out behind the iron core frame, loosen the power of pulling the pull rod, spring C resets and ejecting with the arc briquetting.

Furthermore, the top and the bottom of the adjusting frame are provided with limiting sliding chutes B; twist and move butterfly screw A, butterfly screw A drives the regulating box through screw thread through-hole A and slides in the regulating box is inside, and spacing slide rail imbeds inside spacing spout B, is convenient for carry on spacingly through spacing spout B to the regulating box.

Furthermore, regulation box one end top and bottom are equipped with spacing slide rail, and regulation box internally mounted has six sets of pulley A, penetrates copper line one end on the line roller from regulation box one side, wears out from the regulation box other end along pulley A, then connects in the inboard iron core outside of iron core frame, makes the regulation box slide in regulation frame inside through twisting butterfly screw rod A, and the tensioning degree of adjustable coil copper line is twined more when the iron core frame of being convenient for twines the coil.

Furthermore, the fixing sleeve is composed of a support sleeve and a connecting shaft, and the support sleeve is nested at the position, close to the middle, outside the connecting shaft through a bearing; the middle part of the supporting sleeve is connected with a side plate at one side of the inner bin, and one end of the connecting shaft is connected with one end of an output shaft of the brake motor through a coupling.

The invention has the following specific advantages:

the method has the advantages that: the winding transmission rod is a transmission square rod, the winding iron core is an iron core frame, when a square through hole of the iron core frame is nested on the transmission square rod, an arc-shaped pressing block is extruded along the transmission square rod through the square through hole of the iron core frame, the arc-shaped pressing block presses a spring C to enter the square through groove, then the iron core frame continues to slide towards the end, close to the fixed sleeve, of the transmission square rod, meanwhile, one end of the iron core frame compresses a spring B, the spring B is forced to shrink to enter the supporting sleeve, the other end of the iron core frame slides through the arc-shaped pressing block, the external pressure of the arc-shaped pressing block disappears, the spring C resets to push the arc-shaped pressing block out of the square through groove, the other end of the arc-shaped pressing block bounces to clamp.

The method has the advantages that: twist and move butterfly screw, butterfly screw promotes the push pedal and slides in line ball frame one end through the screw thread through-hole, the push pedal promotes the line ball frame through the shrink vaulting pole and slides at connecting plate one end opening part simultaneously, can drive this moment the wheel roller and lean out on connecting plate one end opening is close to and contact on the iron core of the inboard winding coil of iron core frame, when the wheel roller is close to and contact on the iron core frame inboard iron core of fixedly connected with copper line, then step on through the staff foot and step on control switch-on brake motor power again, iron core frame rotates and begins to twine copper line coil this moment, iron core frame iron core cross-section diameter is owing to twined the continuous grow of copper line coil this moment, make the inboard iron core of iron core frame pass through coil extrusion wheel roller.

The method has the advantages that: the staff moves the connecting rod through stepping on the clamp plate with the foot and pushes down, oppress the spring simultaneously, the connecting rod drives metal movable contact metal stationary contact this moment, make brake motor operation, loosen the power of trampling the clamp plate, the spring resets, reset to original position with clamp plate propelling movement, it mentions to drive the connecting rod simultaneously, make metal movable contact and metal stationary contact separation, disconnection brake motor power, do not need the staff to vacate a hand, it opens and close to come the control power, the staff of being convenient for is at the convenient timely copper line that cuts of wire winding end.

The advantages are that: the storage areas are a tool bin and a temporary storage bin, the tool bin is arranged at the bottom of the inner bin, and tools for equipment maintenance can be placed in the tool bin; the temporary storage bin is arranged at one end of the braking bin, and tools which are commonly used in the process of winding can be placed through the temporary storage bin.

Drawings

FIG. 1 is a schematic structural diagram of a coil winding apparatus for transformer production according to the present invention;

FIG. 2 is a schematic diagram of the control switch of the present invention;

FIG. 3 is a schematic view of the brake chamber of the present invention;

FIG. 4 is a schematic structural view of the wire pressing mechanism of the present invention;

FIG. 5 is an enlarged view B of a portion of FIG. 4;

FIG. 6 is a schematic view of a retracting strut of the present invention;

FIG. 7 is an enlarged view of a portion of the retaining chute of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of the structure of the wire crimping frame of the present invention;

FIG. 9 is a schematic view of a side rail construction of the present invention;

FIG. 10 is a winding mechanism of the present invention;

FIG. 11 is a schematic view of the structure of the tie bar of the present invention;

FIG. 12 is a cross-sectional view AA taken along the line A-A of the square drive shaft of FIG. 11 in accordance with the present invention;

FIG. 13 is a schematic view of the drive stage of the present invention;

FIG. 14 is a schematic view of the tension adjuster construction of the present invention;

FIG. 15 is a top sectional view of the conditioning cartridge of the present invention;

FIG. 16 is a schematic view of the wire roller mechanism of the present invention;

FIG. 17 is a schematic view of the wire roller configuration of the present invention;

FIG. 18 is a schematic view of a retaining groove B according to the present invention.

The figure illustrates the format: the wire winding machine comprises a workbench 1, a power area 2, a wire pressing mechanism 3, a wire winding mechanism 4, a driving table 5, a tensioning regulator 6, a wire roller mechanism 7, a bottom bin 11, a control switch 12, a pressing plate 121, a backing plate 122, a connecting rod 123, a spring 124, a supporting cylinder 125, a metal movable contact 126, an insulating contact block 127, a metal stationary contact 128, a braking bin 21, a drawing basin 22, a temporary storage bin 23, an inner bin 211, a tool bin 212, a braking motor 213, a controller 231, a connecting plate 31, a wire pressing frame 32, an adjusting frame 33, a wheel roller 34, a threaded through hole 311, a limiting groove 312, a limiting groove A321, a butterfly screw 331, a pushing plate 332, a contraction supporting rod 333, a side rail, an outer sleeve 3331, a spring A3332 inner rod, a limiting sliding groove 3333, a limiting block 3334, an iron core frame 41, a transmission square rod 42, a fixing sleeve 43, a limiting sliding groove A44, a limiting sleeve 45, a spring B46, an arc pressing block 421, a square through groove 422, The device comprises a through hole A425, a pulley 426, a steel wire 427, a pull ring 428, a pull rod 429, a sliding block 4291, a supporting sleeve 431, a connecting shaft 432, a driving motor 51, a screw rod 52, a T-shaped groove 53, a sliding bin 54, an adjusting frame 61, a butterfly screw rod A62, an adjusting box 63, a lateral through hole 64, a threaded through hole A65, a limiting sliding groove B611, a pulley A631, a limiting sliding rail 632, a base 71, a T-shaped sliding block 72, a threaded through hole B76, a protective cover 73, an end plate 74, a wire roller 75, a ball 77 and a limiting groove B78.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any creative effort belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, for example, as being fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention provides a coil winding device for transformer production through improvement, which can be implemented as follows as shown in the attached drawings of the specification; the wire winding machine comprises a workbench 1, a power area 2, a wire pressing mechanism 3, a wire winding mechanism 4, a driving platform 5, a tensioning regulator 6 and a wire roller mechanism 7, wherein the power area 2 is arranged on one side of the top of the workbench 1, the wire pressing mechanism 3 is arranged on one side of the power area 2, the wire winding mechanism 4 is arranged on one side of the power area 2 and is adjacent to the wire pressing mechanism 3, the driving platform 5 is arranged on the other side of the top of the workbench 1, the wire roller mechanism 7 is connected to one end of the driving platform 5 in a sliding manner, and the tensioning regulator 6 is arranged on the top of one end of; the bottom of the working table 1 is provided with a bottom bin 11, and the bottom of the bottom bin 11 is provided with a control switch 12; the power area 2 comprises a braking bin 21, a drawing basin 22 and a temporary storage bin 23, the temporary storage bin 23 is arranged at one end of the braking bin 21, and the drawing basin 22 is arranged at one side of the braking bin 21; the controller 231 is installed outside the temporary storage bin 23; the wire pressing mechanism 3 comprises a connecting plate 31, a wire pressing frame 32, an adjusting frame 33 and a roller 34, the wire pressing frame 32 is connected to one end of the connecting plate 31 in a sliding mode, the adjusting frame 33 is connected to one end of the wire pressing frame 32, and the roller 34 is installed at the other end of the wire pressing frame 32 through a bearing; the winding mechanism 4 comprises an iron core frame 41, a transmission square rod 42, a fixing sleeve 43, a limiting sliding groove A44, a limiting sleeve 45 and a spring B46, wherein the iron core frame 41 is nested at one end of the transmission square rod 42, the fixing sleeve 43 is connected to one end of the limiting sleeve 45, the spring B46 is nested at the outer side of the transmission square rod 42, one end of the spring B46 is connected to the inner side of the limiting sleeve 45, and the limiting sliding groove A44 is arranged at two sides inside the transmission square rod 42; the driving platform 5 consists of a driving motor 51, a screw rod 52, a T-shaped groove 53 and a sliding bin 54, the driving motor 51 is installed at one end of the sliding bin 54, the T-shaped groove 53 is arranged at the bottom of the sliding bin 54, one end of the screw rod 52 is connected to the other end of the sliding bin 54 through a bearing, and the other end of the screw rod 52 penetrates through the side wall of one end of the sliding bin 54 through a bearing and is connected to one end of an output shaft of the; the tensioning adjuster 6 comprises an adjusting frame 61, a butterfly screw A62, an adjusting box 63, a side through hole 64 and a thread through hole A65, wherein the thread through hole A65 is arranged at one end of the adjusting frame 61, the side through hole 64 is arranged at two sides of the adjusting frame 61, the adjusting box 63 is connected inside the adjusting frame 61 in a sliding mode, one end of the butterfly screw A62 penetrates through the thread through hole A65, and the penetrating part of the butterfly screw A62 is connected to one end of the adjusting box 63 through a bearing; the wire roller mechanism 7 is composed of a base 71, a T-shaped sliding block 72, a threaded through hole B76, a protective cover 73, an end face plate 74, a wire roller 75, a ball 77 and a limiting groove B78, wherein the base 71 is arranged at the bottom of the protective cover 73, the end face plate 74 is arranged at two ends of the protective cover 73, the threaded through hole B76 is arranged in the middle of the base 71, the T-shaped sliding block 72 is arranged at the bottom of the base 71, the limiting groove B78 is arranged at the inner side of the end face plate 74, and the ball 77 is arranged at the bottom;

it should be noted that the T-shaped slider 72 is slidably connected inside the T-shaped slot 53, the screw 52 passes through the threaded through hole B76, and the driving motor 51 is a servo motor and is controlled by an external PLC.

As shown in fig. 2, the control switch 12 is composed of a pressing plate 121, a backing plate 122, a connecting rod 123, a spring 124, a supporting cylinder 125, a metal moving contact 126, an insulating contact block 127 and a metal stationary contact 128, wherein one end of the pressing plate 121 is hinged to one end of the backing plate 122, the connecting rod 123 is connected to the bottom of the other end of the pressing plate 121, the spring 124 is nested outside the connecting rod 123, the bottom of the spring 124 is connected to the top of the supporting cylinder 125, the insulating contact block 127 is arranged at the bottom of the supporting cylinder 125, the metal stationary contact 128 is arranged at the top of the insulating contact block 127, and; a lead is arranged at the top of the other end of the pressure plate 121, one end of the lead is connected with a brake motor 213, the other end of the lead is connected with a metal movable contact 126, the brake motor 213 is controlled by a controller 231, the controller 231 controls the positive and negative rotation and the rotating speed of the brake motor 213, the bottom of the insulated contact block 127 is connected with the lead, one end of the lead is connected with an external power line, and the other end of the lead is connected with a metal stationary contact 128;

the staff drives connecting rod 123 to push down through stepping on pressing plate 121 with the foot, oppresses spring 124 simultaneously, and connecting rod 123 drives metal movable contact 126 and contacts metal stationary contact 128 this moment for brake motor 213 moves, loosens the power of stepping on pressing plate 121, and spring 124 resets, resets with clamp plate 121 propelling movement to original position, drives connecting rod 123 simultaneously and mentions, makes metal movable contact 126 and metal stationary contact 128 separate, disconnection brake motor 213 power.

As shown in fig. 3, the braking chamber 21 is composed of an inner chamber 211, a tool chamber 212 and a braking motor 213, the tool chamber 212 is disposed at the bottom of the inner chamber 211, the braking motor 213 is installed inside the inner chamber 211, some tools for equipment maintenance can be placed through the tool chamber 212, one end of the braking motor 213 is connected to the fixing kit 43 through a coupling, it should be noted that the braking motor 213 is monitored by an external PLC, and the braking motor 213 is a servo motor.

As shown in fig. 4, two open sides of one end of the connecting plate 31 are provided with limiting grooves 312, and one open end of the connecting plate 31 is provided with a threaded through hole 311; the other end of the butterfly screw 331 penetrates through the threaded through hole 311, and the two sides of the wire pressing frame 32 are embedded in the limiting groove 312, so that the wire pressing frame 32 is connected with one end opening of the connecting plate 31 in a sliding manner, and the connecting plate 31, the wire pressing frame 32 and the iron core of the iron core frame 41 are at the same horizontal height.

As shown in fig. 4 and 8, a limiting groove a321 is formed on the side of one end of the wire pressing frame 32; the adjusting frame 33 is composed of a butterfly screw 331, a push plate 332, a contraction stay bar 333 and a side rail 334, one end of the butterfly screw 331 is connected to one side of the push plate 332 through a bearing, two ends of the push plate 332 are provided with the side rail 334, and one end of the contraction stay bar 333 is connected to the other side of the push plate 332; side rails 334 at two ends of the push plate 332 are embedded into the limiting groove A321, the push plate 332 is connected with one end of the wire pressing frame 32 in a sliding manner through the side rails 334 at the two ends, and the other end of the telescopic stay bar 333 is connected with one end of the wire pressing frame 32;

the butterfly screw 331 is screwed, the butterfly screw 331 pushes the push plate 332 to slide at one end of the wire pressing frame 32 through the threaded through hole 311, meanwhile, the push plate 332 pushes the wire pressing frame 32 to slide at an opening at one end of the connecting plate 31 through the contraction stay 333, and at the moment, the roller 34 can be driven to extend out of the opening at one end of the connecting plate 31 to be close to and contact with the iron core wound with the coil at the inner side of the iron core frame 41, so that the inner rod 3334 in the contraction stay 333 slightly presses the spring A3332, and the spring A3332 is slightly tightened to a certain.

As shown in fig. 4, 6 and 8, the retracting support rod 333 is composed of an outer sheath rod 3331, a spring a3332, a position-limiting sliding groove 3333, an inner rod 3334 and a position-limiting block 3335, wherein one end of the inner rod 3334 is connected to the inside of the outer sheath rod 3331 through the spring a3332, the inner rod 3334 is slidably connected with the outer sheath rod 3331, the position-limiting sliding grooves 3333 are arranged on two sides of the inside of the outer sheath rod 3331, and the position-limiting block 3335 is arranged on two sides of one end of the inner;

the limiting block 3335 is embedded in the limiting sliding groove 3333, and the two are connected in a sliding manner, when the roller 34 is close to and contacts with the iron core on the inner side of the iron core frame 41 fixedly connected with the copper wire, then the brake motor 213 is powered on by the operator stepping on the control switch 12, at this time, the iron core frame 41 rotates to start winding the copper wire coil, at this time, the diameter of the iron core section of the iron core frame 41 is continuously increased due to the winding of the copper wire coil, so that the iron core on the inner side of the iron core frame 41 extrudes the roller 34 through the coil, and the roller 34 continuously compresses and compacts the copper wire coil, and as the diameter of the copper wire coil is continuously increased, the roller 34 pushes the line pressing frame 32 to slide towards the end of the butterfly screw 331 at the opening at one end of the connecting plate 31, at this time, the line pressing frame 32 extrudes and contracts the supporting rod 333, so that the inner rod 3334, the inner rod 3334 can be prevented from sliding laterally when sliding into the outer loop bar 3331, the push plate 332 cannot slide because the push plate 332 is supported by the butterfly screw 331, and three groups of the contraction stay rods 333 are distributed at equal intervals, so that the push plate 332 is stressed uniformly.

As shown in fig. 3, 10 and 12, the transmission square rod 42 mainly comprises an arc-shaped pressing block 421, a square through groove 422, a spring C423, a supporting frame 424, a through hole a425, a pulley 426, a steel wire 427, a pull ring 428 and a pull rod 429, wherein the square through groove 422 is formed in the side walls of the other two sides of the transmission square rod 42, one end of the arc-shaped pressing block 421 is hinged to one end of the square through groove 422, the supporting frame 424 is installed at the bottom of the square through groove 422, the through hole a425 is formed in one end of the supporting frame 424, the pulley 426 is installed at the side wall of the through hole a425, the two ends of the spring C423 are respectively connected to the bottom of the other end of the arc-shaped pressing block 421 and the top of the through hole a425, one end of the steel wire 427 is connected to the bottom of the other end of the arc-shaped pressing block 421, the other end;

the sliding block 4291 is slidably connected with the limiting sliding groove A44, the through hole of the iron core frame 41 is a square through hole, when the square through hole of the iron core frame 41 is nested on the transmission square rod 42, the arc-shaped pressing block 421 is extruded along the transmission square rod 42 through the square through hole of the iron core frame 41, the arc-shaped pressing block 421 presses the spring C423 to enter the square through groove 422, then the iron core frame 41 continues to slide towards the end of the transmission square rod 42 close to the fixed sleeve 43, meanwhile, one end of the iron core frame 41 compresses the spring B46, the spring B46 is forced to contract into the support sleeve 431, at the moment, the other end of the iron core frame 41 slides over the arc-shaped pressing block 421, the external pressure of the arc-shaped pressing block 421 disappears, the spring C423 resets to push the arc-shaped pressing block 421 out of the square through groove 422, the other end of the arc-shaped pressing block;

after the coil is wound on the iron core frame 41, the pull rod 429 is pulled outwards, the pull rod 429 slides inside one end of the transmission square rod 42 through the sliding block 4291, at the moment, the pull rod 429 pulls the bottom of the other end of the arc-shaped pressing block 421 through the pull ring 428 and the steel wire 427 to press the spring C423 to enter the square through groove 422, the other end of the iron core frame 41 is not clamped by the arc-shaped pressing block 421, the pressure of the spring B46 disappears, the iron core frame 41 is reset and rebounded, the transmission square rod 42 is pushed out, the wound iron core frame 41 is conveniently taken out, after the iron core frame 41 is taken out, the force for pulling the pull rod 429 is released, and the spring.

As shown in fig. 14, the top and bottom of the adjusting frame 61 are provided with limiting sliding grooves B611; the butterfly screw A62 is screwed, the butterfly screw A62 drives the adjusting box 63 to slide in the adjusting frame 61 through the threaded through hole A65, and the limiting slide rail 632 is embedded in the limiting slide groove B611, so that the adjusting box 63 is limited through the limiting slide groove B611.

As shown in fig. 14 and 15, the top and the bottom of one end of the adjusting box 63 are provided with limiting slide rails 632, six sets of pulleys a631 are installed inside the adjusting box 63, one end of the copper wire on the wire roller 75 penetrates into one side of the adjusting box 63, penetrates out from the other end of the adjusting box 63 along the pulleys a631, and is then connected to the outer side of the iron core inside the iron core frame 41, the adjusting box 63 slides inside the adjusting frame 61 by screwing the butterfly screw a62, so that the tension degree of the copper wire of the coil can be adjusted, and the winding of the iron core frame 41 is more tight when the coil is wound.

As shown in fig. 3, the fixing sleeve 43 is composed of a supporting sleeve 431 and a connecting shaft 432, wherein the supporting sleeve 431 is nested at a position close to the middle outside the connecting shaft 432 through a bearing; the middle position of the supporting sleeve 431 is connected with a side plate at one side of the inner bin 211, and one end of the connecting shaft 432 is connected with one end of an output shaft of the brake motor 213 through a coupling.

The working principle of the coil winding equipment for producing the transformer is as follows: the worker slides the wire roller 75 into the bottom end concave part of the limiting groove B78 through the short shafts at the two ends of the wire roller, then the wire roller is supported through the ball 77, then the arc pressing block 421 is extruded along the transmission square rod 42 through the square through hole of the iron core frame 41, the arc pressing block 421 presses the spring C423 to enter the square through groove 422, then the iron core frame 41 continues to slide towards the end of the transmission square rod 42 close to the fixed sleeve 43, meanwhile, one end of the iron core frame 41 compresses the spring B46, so that the spring B46 is forced to contract to enter the supporting sleeve 431, at the moment, the other end of the iron core frame 41 slides through the arc pressing block 421, the external pressure of the arc pressing block 421 disappears, the spring C423 resets to push the arc pressing block 421 out of the square through groove 422, and the other end;

after the iron core frame 41 is fixed, one end of the copper wire on the wire roller 75 penetrates through one side of the adjusting box 63 and penetrates out of the other end of the adjusting box 63 along the pulley A631, then, the core is connected to the outside of the core frame 41, and the butterfly screw 331 is screwed, the butterfly screw 331 pushes the push plate 332 to slide at one end of the wire pressing frame 32 through the threaded through hole 311, meanwhile, the push plate 332 pushes the wire pressing frame 32 to slide at the opening at one end of the connecting plate 31 through the contracting brace 333, and at this time, the roller 34 can be driven to extend out of the opening at one end of the connecting plate 31 to be close to and contact the iron core of the winding at the inner side of the iron core frame 41, so that the inner rod 3334 of the retracting strut 333 slightly compresses the spring a3332, causing the spring a3332 to be slightly taut, then, the butterfly screw A62 is screwed to enable the adjusting box 63 to slide in the adjusting frame 61, so that the tensioning degree of a coil copper wire can be adjusted, and the winding of the iron core frame 41 is more tight when the coil is wound;

the worker adjusts the rotation direction and rotation speed of the brake motor 213 through the controller 231, and drives the connecting rod 123 to press down by stepping on the pressing plate 121, at the same time, the spring 124 is pressed, and at this time, the connecting rod 123 drives the metal moving contact 126 to contact the metal stationary contact 128, so that the brake motor 213 operates to drive the fixing member 43 to rotate, then the fixed sleeve 43 drives the transmission square rod 42 and the iron core frame 41 to rotate, and simultaneously the external PLC monitors that the brake motor 213 operates and then controls the driving motor 51 to rotate in the positive and negative directions, the driving motor 51 drives the screw rod 52 to push the wire roller mechanism 7 to slide in the sliding bin 54 in a reciprocating manner through the threaded through hole B76, at the moment, the iron core frame 41 rotates and starts to wind a copper wire coil, the diameter of the iron core section of the iron core frame 41 is continuously increased due to the winding of the copper wire coil, the iron core inside the iron core frame 41 extrudes the roller 34 through the coil, and the roller 34 continuously compresses and compacts the copper wire coil;

when the copper wire on the wire roller 75 is pulled out from the wire roller 75, the short shafts at the two ends of the wire roller 75 are clamped at the concave part at the bottom end of the limiting groove B78 and are supported by the ball 77 to rotate, so that the wire roller 75 continuously rotates, and the copper wire is conveniently rotated out of the wire roller 75 and wound;

after the coil is wound on the iron core frame 41, the force of stepping on the pressing plate 121 is released, the spring 124 is reset, the pressing plate 121 is pushed to the original position to reset, the connecting rod 123 is driven to lift, the metal movable contact 126 and the metal fixed contact 128 are separated, the power supply of the brake motor 213 is disconnected, the driving motor 51 is controlled to stop running through an external PLC, then the copper wire is cut off to be clamped on the iron core frame 41, the pull rod 429 is pulled outwards, the pull rod 429 slides in one end of the transmission square rod 42 through the sliding block 4291, the pull rod 429 pulls the bottom of the other end of the arc pressing block 421 through the pull ring 428 and the steel wire 427 to press the spring C423 to enter the square through groove 422, the other end of the iron core frame 41 is not clamped by the arc pressing block 421, the pressure of the spring B46 disappears, the iron core frame 41 is pushed out of the transmission square rod 42 to be convenient for taking out the iron core frame 41, the spring C423 is reset to eject the arc-shaped pressing block 421, and then the other iron core frame 41 is replaced to continue winding the coil.

In conclusion; compared with the existing small-sized single-phase transformer winding equipment, the coil winding equipment for producing the transformer can prevent a winding iron core from easily sliding out of a transmission winding transmission rod; moreover, the coils wound on the iron core can be compacted and compressed in time, so that the coils on the iron core are wound more tightly; meanwhile, a worker does not need to leave a hand to control the on and off of the power supply, so that the worker can conveniently and timely cut off the copper wire when the winding is finished; finally, an object storage area is provided, and tools and equipment maintenance tools which are commonly used for winding can be placed in the object storage area.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a coil spooling equipment is used in transformer production which characterized in that: the wire winding machine comprises a workbench (1), a power area (2), a wire pressing mechanism (3), a wire winding mechanism (4), a driving platform (5), a tensioning regulator (6) and a wire roller mechanism (7), wherein the power area (2) is arranged on one side of the top of the workbench (1), the wire pressing mechanism (3) is arranged on one side of the power area (2), the wire winding mechanism (4) is arranged on one side of the power area (2) and is adjacent to the wire pressing mechanism (3), the driving platform (5) is arranged on the other side of the top of the workbench (1), the wire roller mechanism (7) is connected to one end of the driving platform (5) in a sliding manner, and the tensioning regulator (6) is arranged on the top of one end of the wire roller mechanism (7); a bottom bin (11) is arranged at the bottom of the workbench (1), and a control switch (12) is arranged at the bottom of the bottom bin (11); the power area (2) comprises a braking bin (21), a drawing basin (22) and a temporary storage bin (23), the temporary storage bin (23) is arranged at one end of the braking bin (21), and the drawing basin (22) is arranged on one side of the braking bin (21); a controller (231) is arranged at the outer side of the temporary storage bin (23); the wire pressing mechanism (3) comprises a connecting plate (31), a wire pressing frame (32), an adjusting frame (33) and a roller (34), the wire pressing frame (32) is connected to one end of the connecting plate (31) in a sliding mode, the adjusting frame (33) is connected to one end of the wire pressing frame (32), and the roller (34) is installed at the other end of the wire pressing frame (32) through a bearing; the winding mechanism (4) comprises a core frame (41), a transmission square rod (42), a fixing sleeve (43), a limiting sliding groove A (44), a limiting sleeve (45) and a spring B (46), wherein the core frame (41) is nested at one end of the transmission square rod (42), the fixing sleeve (43) is connected to one end of the limiting sleeve (45), the spring B (46) is nested at the outer side of the transmission square rod (42), one end of the spring B (46) is connected to the inner side of the limiting sleeve (45), and the limiting sliding groove A (44) is arranged on two sides of the inner part of the transmission square rod (42); the driving platform (5) consists of a driving motor (51), a screw rod (52), a T-shaped groove (53) and a sliding bin (54), the driving motor (51) is installed at one end of the sliding bin (54), the T-shaped groove (53) is formed in the bottom of the sliding bin (54), one end of the screw rod (52) is connected to the other end of the sliding bin (54) through a bearing, and the other end of the screw rod (52) penetrates through the side wall of one end of the sliding bin (54) through the bearing and is connected to one end of an output shaft of the driving motor (51); the tensioning adjuster (6) is composed of an adjusting frame (61), a butterfly screw A (62), an adjusting box (63), side through holes (64) and threaded through holes A (65), the threaded through holes A (65) are formed in one end of the adjusting frame (61), the side through holes (64) are formed in two sides of the adjusting frame (61), the adjusting box (63) is connected inside the adjusting frame (61) in a sliding mode, one end of the butterfly screw A (62) penetrates through the threaded through holes A (65), and the penetrating portion of the butterfly screw A is connected to one end of the adjusting box (63) through a bearing; line roller mechanism (7) comprises base (71), T shape slider (72), screw thread through-hole B (76), protection casing (73), end panel (74), line roller (75), ball (77) and spacing groove B (78), base (71) are located protection casing (73) bottom, protection casing (73) both ends are located in end panel (74), screw thread through-hole B (76) are seted up in base (71) middle part, base (71) bottom is located in T shape slider (72), spacing groove B (78) are seted up in end panel (74) inboardly, ball (77) are installed in spacing groove B (78) bottom.

2. The coil winding device for transformer production according to claim 1, wherein: the control switch (12) is composed of a pressure plate (121), a base plate (122), a connecting rod (123), a spring (124), a supporting cylinder (125), a metal moving contact (126), an insulating contact block (127) and a metal static contact (128), one end of the pressure plate (121) is hinged to one end of the base plate (122), the connecting rod (123) is connected to the bottom of the other end of the pressure plate (121), the spring (124) is nested on the outer side of the connecting rod (123), the bottom of the spring (124) is connected to the top of the supporting cylinder (125), the insulating contact block (127) is arranged at the bottom of the supporting cylinder (125), the metal static contact (128) is arranged at the top of the insulating contact block (127), and the metal moving contact (126) is arranged at the bottom of the connecting rod (123.

3. The coil winding device for transformer production according to claim 1, wherein: braking storehouse (21) comprises interior storehouse (211), instrument storehouse (212) and brake motor (213), instrument storehouse (212) are located interior storehouse (211) bottom, brake motor (213) are installed inside interior storehouse (211).

4. The coil winding device for transformer production according to claim 1, wherein: limiting grooves (312) are formed in two sides of an opening in one end of the connecting plate (31), and threaded through holes (311) are formed in one end of the connecting plate (31) in an opening mode.

5. The coil winding device for transformer production according to claim 1, wherein: a limiting groove A (321) is formed in the side of one end of the wire pressing frame (32); the adjusting frame (33) is composed of a butterfly screw rod (331), a push plate (332), a contraction stay bar (333) and side rails (334), one end of the butterfly screw rod (331) is connected to one side of the push plate (332) through a bearing, the two ends of the push plate (332) are provided with the side rails (334), and one end of the contraction stay bar (333) is connected to the other side of the push plate (332).

6. The coil winding device for transformer production according to claim 5, wherein: shrink vaulting pole (333) comprise outer loop bar (3331), spring A (3332), spacing spout (3333), interior pole (3334) and stopper (3335), interior pole (3334) one end is passed through spring A (3332) connect in outer loop bar (3331) is inside, and interior pole (3334) and outer loop bar (3331) sliding connection, the inside both sides of outer loop bar (3331) are seted up in spacing spout (3333), interior pole (3334) one end both sides are located in stopper (3335).

7. The coil winding device for transformer production according to claim 1, wherein: the transmission square rod (42) mainly comprises an arc pressing block (421), a square through groove (422), a spring C (423), a supporting frame (424), a through hole A (425), a pulley (426), a steel wire (427), a pull ring (428) and a pull rod (429), wherein the square through groove (422) is arranged on the side wall of the other two sides of the transmission square rod (42), one end of the arc pressing block (421) is hinged to one end of the square through groove (422), the supporting frame (424) is arranged at the bottom of the square through groove (422), the through hole A (425) is arranged at one end of the supporting frame (424), the pulley (426) is arranged on the side wall of the through hole A (425), two ends of the spring C (423) are respectively connected to the bottom of the other end of the arc pressing block (421) and the top of the through hole A (425), one end of the steel wire (427) is connected to the bottom of the other end of the pull ring (421), and the other end, the pull ring (428) is arranged at one end of the pull rod (429), sliding blocks (4291) are arranged on two sides of one end of the pull rod (429), and the pull rod (429) is connected to the inside of one end of the transmission square rod (42) in a sliding mode through the sliding blocks (4291).

8. The coil winding device for transformer production according to claim 1, wherein: the top and the bottom of the adjusting frame (61) are provided with limiting sliding grooves B (611).

9. The coil winding device for transformer production according to claim 1, wherein: adjusting box (63) one end top and bottom are equipped with spacing slide rail (632), and adjusting box (63) internally mounted has six sets of pulley A (631).

10. The coil winding device for transformer production according to claim 1, wherein: the fixing sleeve (43) is composed of a supporting sleeve (431) and a connecting shaft (432), and the supporting sleeve (431) is nested at the middle position outside the connecting shaft (432) through a bearing.

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