CN116705497A - Copper wire foreign matter isolation equipment for winding of three-dimensional wound core transformer winding - Google Patents

Abstract

The invention discloses copper wire foreign matter isolation equipment for winding of a three-dimensional iron core winding transformer, which comprises an isolation box, wherein an inlet is formed in the right side of the isolation box, guide rollers are arranged on the upper side and the lower side of the inlet, a foreign matter removing mechanism, a cleaning mechanism, a drying mechanism and a winding mechanism are sequentially arranged in the isolation box from right to left, an opening and closing door is arranged on the left side of the isolation box, and a transparent observation window is arranged at the front end of the isolation box. The beneficial effects of the invention are as follows: according to the invention, the guide roller, the foreign matter removing mechanism, the cleaning mechanism and the drying mechanism are arranged at the inlet, the foreign matters on the copper wire are removed and isolated through multiple layers, and the impurities on the copper wire are treated at the same time, so that the cleaning effect of the surface of the copper wire is improved, the foreign matters and the impurities can be effectively prevented from carrying out winding work along with the copper wire, the winding efficiency can be improved through the winding mechanism, and the wound copper wire is more compact.

Description

Copper wire foreign matter isolation equipment for winding of three-dimensional wound core transformer winding

Technical Field

The invention belongs to the technical field of copper wire foreign matter isolation, and particularly relates to copper wire foreign matter isolation equipment for winding of a three-dimensional iron core winding transformer.

Background

Copper wire is a metallic material which has good conductivity and is used for manufacturing wires, cables, brushes and the like in large quantities; the heat conductivity is good, and the heat conducting material is commonly used for manufacturing magnetic instruments and meters which need to be protected from magnetic interference, such as compasses, aviation meters and the like; the plastic is excellent, and the hot-pressing and cold-pressing pressure processing are easy, and the copper material such as pipes, bars, wires, strips, belts, plates, foils and the like can be manufactured;

the publication number is: CN113161143B discloses a winding isolation device, and in particular relates to a copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding. The invention aims to solve the technical problem of providing copper wire foreign matter isolation equipment for winding of a three-dimensional wound core transformer winding, which can effectively prevent foreign matter from being isolated and can not loosen and disorder a finished product after winding. In order to solve the technical problems, the invention provides copper wire foreign matter isolation equipment for winding of a three-dimensional wound core transformer, which comprises: the frame body is connected with a first mounting frame; the first supporting frame is connected to the first installation frame; a first mounting plate connected to the output shaft of the servo motor; the second supporting frame is connected to the first mounting frame; a servo motor mounted on the second support frame;

however, the above patent only isolates the foreign matters on the surface of the copper wire through the isolating mechanism, the effect of isolating the foreign matters is poor, and the foreign matters attached to the copper wire cannot be treated, so that the foreign matters and the foreign matters can perform winding work along with the copper wire, the winding efficiency is low, the wound copper wire is not compact enough, the subsequent use of the copper wire is affected,

disclosure of Invention

In view of the above-mentioned problems with the background art, the present invention has as its object: aims to provide copper wire foreign matter isolation equipment for winding of a three-dimensional wound core transformer winding.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

the utility model provides a copper line foreign matter isolation equipment for three-dimensional iron core transformer winding wire winding, includes the insulation box, the right side of insulation box is equipped with the entry, the upper and lower both sides of entry are equipped with the guide roll, the inside of insulation box is equipped with foreign matter removal mechanism, wiper mechanism, drying mechanism and wire winding mechanism from right side to left side in proper order, the left side of insulation box is equipped with the switch door, the front end of insulation box is equipped with transparent observation window.

Further limited, the foreign matter removing mechanism comprises a supporting frame arranged at the upper side and the lower side of the inside of the isolation box, a rotating rod is arranged on the supporting frame, and a brush sleeve is sleeved on the surface of the rotating rod. The structural design can clean the foreign matters on the copper wire.

Further limited, the cleaning mechanism comprises a cleaning box, guide rollers are arranged on two sides of the top of the cleaning box, lower press rollers are arranged on two sides of the inside of the cleaning box, a supporting seat is arranged between the lower press rollers on two sides of the cleaning box, and a cleaning scraping plate is arranged on the top of the supporting seat. The impurity on the copper line can be cleaned and isolated by the structural design.

Further defined, the drying mechanism includes an air drying assembly mounted on an upper side of the isolation box and a wiping assembly mounted on a lower side of the isolation box. Such structural design is convenient for carry out quick air-dry and clean.

Further limited, the air-drying assembly comprises a fan installed at the isolation box, the output end of the fan is connected with a filter box, the filter box is installed in the isolation box, the output end of the filter box is connected with a splitter plate, the output end of the splitter plate is provided with a plurality of air nozzles, connecting columns are installed on two sides of the top of the splitter plate, hanging plates are installed on the tops of the connecting columns, locking columns are installed on two sides of the top of the hanging plates, the top of each locking column is installed at the bottom of the inner side of the isolation box in a locking mode, and cleaning rollers are installed on two sides of the bottom of the hanging plates. Such structural design is convenient for air-dry the copper line.

Further defined, the wiping component comprises a supporting underframe arranged at the bottom of the inner side of the isolation box, the top of the supporting underframe is provided with a supporting plate, the top of the supporting plate is provided with a fixing frame, two sides of the top of the fixing frame are provided with sponge wiping blocks, and two sides of the top of the supporting plate are provided with lower cleaning rollers. Such structural design is convenient for clean the desiccation to the copper line.

Further limited, the wire winding mechanism is including installing the base in the inboard bottom of isolation box, the reinforcement seat is installed to base top both sides, wherein one side the motor is installed to the reinforcement seat, the power take off end of motor is connected with the pinion, the pinion meshing is connected with the gear wheel, install first bearing in the gear wheel, first bearing is connected with the lock seat, the lock seat is installed on the reinforcement seat, first rotatory splint are installed in the outside of gear wheel, the opposite side install the second bearing in the reinforcement seat, the second bearing is connected with the rotation axis, the rotation axis is connected with the jam plate, the jam plate is connected with the rotatory splint of second. Such structural design is convenient for carry out wire winding work.

Further defined, the side of the reinforcing seat on which the motor is mounted is provided with a wire clamping fixing block. Such structural design is convenient for fix the end of a thread of copper line.

Further limited, first electric putter is installed to one side of base, first electric putter's power take off end is connected with the cutter, the inboard of isolation case is equipped with the cutter holder in corresponding cutter department, the cutter holder is connected with the second electric putter, the inboard top at the isolation case is installed to the second electric putter. Such structural design is convenient for cut the copper line that the wire winding is accomplished.

Further limited, the fixing base is installed to inside both sides of base, both sides be equipped with the mount pad between the fixing base, the guide bar is installed to the both sides of mount pad, the opposite side of guide bar is installed on the fixing base, the fly leaf is installed in articulated bottom of mount pad, the both sides of fly leaf are articulated to have the push rod, both sides the opposite side of push rod is connected with articulated seat, articulated seat is connected with the sliding seat, both sides the sliding seat slidable mounting is on the guide bar, the mount pad is installed the third electric putter, the power take off end of third electric putter is connected with the sliding seat of one side, consolidate seat fixed mounting is on the sliding seat, the base is equipped with the spread groove in corresponding reinforcement seat department, consolidate seat slidable mounting is in the spread groove, the organ cover is installed to one side of spread groove, the opposite side of organ cover is installed on the reinforcement seat. The structure design is convenient for adjust the distance between the reinforcing seats at two sides so as to use the winding tools with different lengths for winding.

The beneficial effects of the invention are as follows: according to the invention, the guide roller, the foreign matter removing mechanism, the cleaning mechanism and the drying mechanism are arranged at the inlet, the foreign matters on the copper wire are removed and isolated through multiple layers, and the impurities on the copper wire are treated at the same time, so that the cleaning effect of the surface of the copper wire is improved, the foreign matters and the impurities can be effectively prevented from carrying out winding work along with the copper wire, the winding efficiency can be improved through the winding mechanism, and the wound copper wire is more compact.

Drawings

The invention can be further illustrated by means of non-limiting examples given in the accompanying drawings;

fig. 1 is a schematic structural diagram of a copper wire foreign matter isolation device for winding a winding of a three-dimensional wound core transformer according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a transverse cross-sectional structure of a copper wire foreign matter isolation device for winding a winding of a three-dimensional wound core transformer according to an embodiment of the present invention;

fig. 3 is a schematic cross-sectional structure of a winding mechanism of a copper wire foreign matter isolation device for winding a winding of a three-dimensional wound core transformer according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a connection structure of a sliding seat of a copper wire foreign matter isolation device for winding a winding of a three-dimensional wound core transformer according to an embodiment of the present invention;

the main reference numerals are as follows:

the partition box 1, the inlet 2, the guide roller 3, the foreign matter removal mechanism 4, the cleaning mechanism 5, the drying mechanism 6, the winding mechanism 7, the switch door 8, the transparent observation window 9, the support frame 10, the rotating rod 11, the brush holder 12, the cleaning box 13, the guide roller 14, the lower pressing roller 15, the support base 16, the cleaning blade 17, the air drying unit 19, the wiping unit 20, the blower 21, the filter box 22, the splitter plate 23, the air nozzle 24, the connecting post 25, the hanger plate 26, the lock post 27, the upper cleaning roller 28, the support chassis 29, the support plate 30, the fixing frame 31, the sponge wiping block 32, the lower cleaning roller 33, the base 34, the reinforcing base 35, the motor 36, the pinion 37, the large gear 38, the first bearing 39, the lock base 40, the first rotating clamping plate 41, the second bearing 42, the rotating shaft 43, the lock plate 44, the second rotating clamping plate 45, the wire fixing block 46, the first electric push rod 47, the cutter 48, the cutter base 49, the second electric push rod 50, the fixing base 51, the mounting base 52, the guide rod 53, the movable plate 54, the push rod 55, the hinge base 56, the sliding base 57, the sliding base 58, the third electric push rod 58, and the air cover 59.

Detailed Description

In order that those skilled in the art will better understand the present invention, the following technical scheme of the present invention will be further described with reference to the accompanying drawings and examples.

Embodiment 1, as shown in fig. 1 and 2, a copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding, wherein an inlet 2 is arranged on the right side of an isolation box 1, guide rollers 3 are arranged on the upper side and the lower side of the inlet 2, a foreign matter removal mechanism 4, a cleaning mechanism 5, a drying mechanism 6 and a winding mechanism 7 are sequentially arranged inside the isolation box 1 from right to left, a switch door 8 is arranged on the left side of the isolation box 1, and a transparent observation window 9 is arranged at the front end of the isolation box 1.

In this embodiment, when using, pass the end of a thread of copper line from entry 2 to pass foreign matter removal mechanism 4, wiper mechanism 5 and drying mechanism 6 in proper order and fix on wire winding mechanism 7, then start wire winding mechanism 7 and carry out wire winding work, thereby make the copper line remove, when passing entry 2, the copper line keeps apart copper line surface big foreign matter impurity when playing the direction conveying effect through guide roll 3, later further get rid of copper line surface foreign matter through foreign matter removal mechanism 4, wash copper line surface impurity through wiper mechanism 5 again, the copper line after wasing carries out drying process through drying mechanism 6, finally even winding is on wire winding mechanism 7, improve wire winding efficiency, make the copper line after the wire winding compacter.

In embodiment 2, as shown in fig. 2, the foreign matter removing mechanism 4 is added with the following structure on the basis of embodiment 1, and comprises a supporting frame 10 installed at the upper side and the lower side of the inside of the isolation box 1, a rotating rod 11 is installed on the supporting frame 10, and a brush sleeve 12 is sleeved on the surface of the rotating rod 11.

In this embodiment, when the copper wire passes through the brush sleeves 12 on the upper and lower sides during use, the rotating brush sleeves 12 clean the residual foreign matters of the copper wire, so that the foreign matters and the copper wire are separated, and the copper wire enters the cleaning mechanism 5.

Embodiment 3, as shown in fig. 2, this embodiment is added with the following structure on the basis of embodiment 1, the cleaning mechanism 5 includes a cleaning tank 13, guide rollers 14 are provided on both sides of the top of the cleaning tank 13, lower press rollers 15 are provided on both sides of the inside of the cleaning tank 13, a supporting seat 16 is provided between the lower press rollers 15 on both sides of the cleaning tank 13, and a cleaning scraper 17 is mounted on the top of the supporting seat 16.

In this embodiment, the copper wire enters the cleaning tank 13 under the action of the guide roller 14, passes through the lower side of the lower press roller 15, and moves on the upper side of the cleaning scraper 17, so that the copper wire can pass through the cleaning scraper 17 in a straight and taut manner, the cleaning scraper 17 can clean impurities on the surface of the copper wire, prevent the impurities from adhering to the copper wire, and then is input into the drying mechanism 6 through the guide roller 14 on the other side.

Embodiment 4 as shown in fig. 2, the following structure is added to the embodiment 1, and the drying mechanism 6 includes an air drying assembly 19 and a wiping assembly 20, wherein the air drying assembly 19 is mounted on the upper side of the isolation box 1, and the wiping assembly 20 is mounted on the lower side of the isolation box 1.

In this embodiment, when the copper wire passes through the drying mechanism 6, the copper wire is subjected to rapid air drying operation through the air drying assembly 19, and the copper wire is wiped clean through the wiping assembly 20, so that subsequent winding work is facilitated.

Embodiment 5, as shown in fig. 2, this embodiment adds the following structure on the basis of embodiment 4, air-dry subassembly 19 includes installing the fan 21 at isolation box 1, the output of fan 21 is connected with filter box 22, filter box 22 installs in isolation box 1, the output of filter box 22 is connected with splitter plate 23, the output of splitter plate 23 is equipped with a plurality of tuyere 24, spliced pole 25 is installed to the top both sides of splitter plate 23, hanger plate 26 is installed at the top of spliced pole 25, lock post 27 is installed to the top both sides of hanger plate 26, the top locking of lock post 27 is installed in the inboard bottom of isolation box 1, upper cleaning roller 28 is installed to the bottom both sides of hanger plate 26.

In this embodiment, when in use, external air is pumped into the filter box 22 by the fan 21, dust and impurities in the air are filtered by the filter box 22 and conveyed to the splitter plate 23, and finally sprayed out from the air nozzle 24 to blow on the copper wire, so as to air-dry the copper wire, and the upper cleaning rollers 28 on two sides synchronously clean the copper wire to prevent foreign matters from remaining on the copper wire.

Embodiment 6 as shown in fig. 2, the structure of the wiping assembly 20 is added on the basis of embodiment 4, and the wiping assembly 20 comprises a supporting underframe 29 arranged at the bottom of the inner side of the isolation box 1, a supporting plate 30 is arranged at the top of the supporting underframe 29, a fixing frame 31 is arranged at the top of the supporting plate 30, sponge wiping blocks 32 are arranged at two sides of the top of the fixing frame 31, and a lower cleaning roller 33 is arranged at two sides of the top of the supporting plate 30.

In this embodiment, when the copper wire is air-dried, the sponge wiping block 32 simultaneously wipes the copper wire, and cooperates with the lower cleaning roller 33 to clean the copper wire in the end, thereby preventing foreign matters from remaining on the copper wire.

In embodiment 7, as shown in fig. 3, the following structure is added to the base of embodiment 1, the winding mechanism 7 includes a base 34 installed at the bottom of the inner side of the isolation box 1, reinforcing seats 35 are installed at two sides of the top of the base 34, a motor 36 is installed on one side of the reinforcing seats 35, a pinion 37 is connected to a power output end of the motor 36, a large gear 38 is meshed with the pinion 37, a first bearing 39 is installed in the large gear 38, the first bearing 39 is connected with a lock seat 40, the lock seat 40 is installed on the reinforcing seat 35, a first rotating clamping plate 41 is installed on the outer side of the large gear 38, a second bearing 42 is installed in the other side of the reinforcing seat 35, a rotating shaft 43 is connected with a rotating shaft 43, the rotating shaft 43 is connected with a locking plate 44, and the locking plate 44 is connected with a second rotating clamping plate 45.

In this embodiment, when in use, the winding tool is fixed between the first rotating clamping plate 41 and the second rotating clamping plate 45, and then the motor 36 is started, so that the motor 36 drives the pinion 37, the pinion 37 drives the bull gear 38, the bull gear 38 rotates along the first bearing 39 to drive the first rotating clamping plate 41 to rotate, the first rotating clamping plate 41 drives the winding tool, the other side of the winding tool drives the second rotating clamping plate 45, the second rotating clamping plate 45 drives the locking plate 44, and the locking plate 44 drives the rotating shaft 43 to rotate smoothly along the second bearing 42, so as to start winding work.

In embodiment 8, as shown in fig. 2, the following structure is added to the embodiment 7, and a wire clamping fixing block 46 is attached to the side of the reinforcing seat 35 on the side where the motor 36 is attached.

In this embodiment, before winding, the wire end of the copper wire is clamped on the wire clamping fixing block 46, so that the copper wire is more compact during winding, and the winding efficiency is improved.

In embodiment 9, as shown in fig. 2, the following structure is added on the basis of embodiment 7, a first electric push rod 47 is installed on one side of the base 34, a cutter 48 is connected to the power output end of the first electric push rod 47, a cutter seat 49 is provided on the inner side of the isolation box 1 corresponding to the cutter 48, a second electric push rod 50 is connected to the cutter seat 49, and the second electric push rod 50 is installed on the inner top of the isolation box 1.

In this embodiment, after winding is completed, the first electric push rod 47 and the second electric push rod 50 are synchronously played, the first electric push rod 47 pushes the cutter 48, the second electric push rod 50 pushes the cutter seat 49, the cutter 48 and the cutter seat 49 are enabled to contact copper wires and cut the copper wires, the copper wires after winding is conveniently taken out, and then winding work is continued after a new winding tool is installed.

In embodiment 10, as shown in fig. 3 and 4, the following structure is added on the basis of embodiment 7, the fixing base 51 is installed on two sides of the interior of the base 34, the installation seat 52 is provided between the fixing base 51 on two sides, the guide rods 53 are installed on two sides of the installation seat 52, the other side of the guide rods 53 is installed on the fixing base 51, the movable plate 54 is hinged at the bottom of the installation seat 52, the push rods 55 are hinged at two sides of the movable plate 54, the other side of the push rods 55 is connected with the hinging seat 56, the hinging seat 56 is connected with the sliding seat 57, the sliding seat 57 on two sides is slidably installed on the guide rods 53, the installation seat 52 is provided with the third electric push rod 58, the power output end of the third electric push rod 58 is connected with the sliding seat 57 on one side, the reinforcing seat 35 is fixedly installed on the sliding seat 57, the base 34 is provided with a guide groove at the position corresponding to the reinforcing seat 35, the reinforcing seat 35 is slidably installed in the guide groove, one side of the guide groove is provided with the organ cover 59, and the other side of the organ cover 59 is installed on the reinforcing seat 35.

In this embodiment, by starting the third electric push rod 58, the third electric push rod 58 pushes the sliding seat 57 on one side to slide along the guide rod 53, the sliding seat 57 drives the hinge seat 56, the hinge seat 56 drives the push rod 55, the push rod 55 pulls the movable plate 54 to rotate on the mounting seat 52, further the other side of the movable plate 54 pushes the push rod 55, the push rod 55 pushes the hinge seat 56 on the other side, the hinge seat 56 on the other side pushes the sliding seat 57 to slide along the guide rod 53, so that the sliding seats 57 on both sides synchronously move, the sliding seat 57 drives the reinforcing seat 35 to move and adjust in the guide groove, and then the distance between the first rotary clamping plate 41 and the second rotary clamping plate 45 is adjusted, so that winding tools with different lengths can be conveniently mounted for use, and the clamping effect on the winding tools can be realized through the movable first rotary clamping plate 41 and the second rotary clamping plate 45.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims of this invention, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the invention disclosed herein.

Claims (10)

1. Copper wire foreign matter isolation equipment for winding of three-dimensional iron core transformer winding is characterized in that: including insulation box (1), the right side of insulation box (1) is equipped with entry (2), the upper and lower both sides of entry (2) are equipped with guide roll (3), the inside of insulation box (1) is equipped with foreign matter removal mechanism (4), wiper mechanism (5), drying mechanism (6) and wire winding mechanism (7) from the right side to the left side in proper order, the left side of insulation box (1) is equipped with switch door (8), the front end of insulation box (1) is equipped with transparent observation window (9).

2. The copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding of claim 1, wherein: the foreign matter removing mechanism (4) comprises a supporting frame (10) arranged on the upper side and the lower side of the inside of the isolation box (1), a rotating rod (11) is arranged on the supporting frame (10), and a brush sleeve (12) is sleeved on the surface of the rotating rod (11).

3. The copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding of claim 2, wherein: the cleaning mechanism (5) comprises a cleaning box (13), guide rollers (14) are arranged on two sides of the top of the cleaning box (13), lower press rollers (15) are arranged on two sides of the inside of the cleaning box (13), supporting seats (16) are arranged between the lower press rollers (15) on two sides of the cleaning box (13), and cleaning scraping plates (17) are arranged on the top of the supporting seats (16).

4. A copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding according to claim 3, wherein: the drying mechanism (6) comprises an air drying assembly (19) and a wiping assembly (20), wherein the air drying assembly (19) is arranged on the upper side of the isolation box (1), and the wiping assembly (20) is arranged on the lower side of the isolation box (1).

5. The copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding of claim 4, wherein: the utility model provides an air-dry subassembly (19) is including installing fan (21) at baffle box (1), the output of fan (21) is connected with filter box (22), filter box (22) are installed in baffle box (1), the output of filter box (22) is connected with flow distribution plate (23), the output of flow distribution plate (23) is equipped with a plurality of tuyere (24), spliced pole (25) are installed to the top both sides of flow distribution plate (23), hanger plate (26) are installed at the top of spliced pole (25), lock post (27) are installed at the top both sides of hanger plate (26), the inboard bottom at baffle box (1) is installed in the top locking of lock post (27), cleaning roller (28) are installed to the bottom both sides of hanger plate (26).

6. The copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding of claim 5, wherein: the cleaning component (20) comprises a supporting underframe (29) arranged at the bottom of the inner side of the isolation box (1), a supporting plate (30) is arranged at the top of the supporting underframe (29), a fixing frame (31) is arranged at the top of the supporting plate (30), sponge cleaning blocks (32) are arranged on two sides of the top of the fixing frame (31), and a lower cleaning roller (33) is arranged on two sides of the top of the supporting plate (30).

7. The copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding of claim 6, wherein: the winding mechanism (7) comprises a base (34) arranged at the bottom of the inner side of the isolation box (1), reinforcing seats (35) are arranged on two sides of the top of the base (34), a motor (36) is arranged on one side of the reinforcing seats (35), a pinion (37) is connected to a power output end of the motor (36), the pinion (37) is meshed with a large gear (38), a first bearing (39) is arranged in the large gear (38), a lock seat (40) is connected to the first bearing (39), the lock seat (40) is arranged on the reinforcing seats (35), a first rotary clamping plate (41) is arranged on the outer side of the large gear (38), a second bearing (42) is arranged in the reinforcing seats (35), a rotary shaft (43) is connected to the second bearing (42), and a lock plate (44) is connected to the rotary shaft (43).

8. The copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding of claim 7, wherein: a wire clamping fixing block (46) is arranged on the side face of the reinforcing seat (35) on one side of which the motor (36) is arranged.

9. The copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding of claim 8, wherein: the utility model discloses a motor-driven device for the isolation box, including base (34), power take off, isolation box (1), first electric putter (47) are installed to one side of base (34), the power take off of first electric putter (47) is connected with cutter (48), the inboard of isolation box (1) is equipped with cutter holder (49) in corresponding cutter (48) department, cutter holder (49) are connected with second electric putter (50), the inboard top at isolation box (1) is installed to second electric putter (50).

10. The copper wire foreign matter isolation device for winding of a three-dimensional wound core transformer winding of claim 9, wherein: fixing base (51) are installed to inside both sides of base (34), both sides be equipped with mount pad (52) between fixing base (51), guide bar (53) are installed to the both sides of mount pad (52), guide bar (53) are installed on fixing base (51) to the opposite side, fly leaf (54) are installed in articulated bottom of mount pad (52), the both sides of fly leaf (54) are articulated have push rod (55), both sides the opposite side of push rod (55) is connected with articulated seat (56), articulated seat (56) are connected with sliding seat (57), both sides sliding seat (57) slidable mounting is on guide bar (53), third electric putter (58) are installed to mount pad (52), the power take off end and one side sliding seat (57) of third electric putter (58) are connected, reinforcing seat (35) fixed mounting is on sliding seat (57), base (34) are equipped with the guide way in corresponding reinforcing seat (35) department, reinforcing seat (35) slidable mounting is in the guide way, reinforcing organ (59) are installed on one side of guide way (59).