CN114156080B - Multi-strand coil wire arranging carrier - Google Patents

Abstract

The invention relates to the technical field of coil wire arrangement, in particular to a multi-strand coil wire arrangement carrier. According to the invention, after the coil on the wire arranging station is positioned through the first cover plate mechanism, the outgoing wire is led out from the second cover plate mechanism, and the outgoing wire is clamped on the clamping channel by the clamping block under the action of the clamping spring to finish the wire arranging operation, so that the precision and stability of multi-strand wire arranging can be improved, the workload of workers can be reduced, the wire arranging efficiency can be effectively improved, the labor cost and the production cost can be saved, the coil on the wire arranging station can be effectively fixed by the first cover plate mechanism, the damage and copper exposure of a coil product can be avoided, the wire arranging precision can be improved, and the product yield can be improved.

Description

Multi-strand coil wire arranging carrier

Technical Field

The invention relates to the technical field of coil wire arrangement, in particular to a multi-strand coil wire arrangement carrier.

Background

The existing multi-strand coil is thick in general wire diameter, relatively large in wire arrangement difficulty, difficult to locate by using a coil outgoing line, difficult to achieve locating when facing products with high precision requirements, and meanwhile, the multi-strand coil is generally an enameled wire, an enameled layer of each single wire is quite thin, and a manual single coil is adopted for wire end arrangement, so that the efficiency is low, a large amount of manpower is consumed, damage and copper exposure of products are easily caused, the product quality is also affected to a certain extent, and poor products are easily caused.

Disclosure of Invention

The invention aims to solve the technical problem of providing the multi-strand wire arranging carrier which can improve the precision and stability of multi-strand wire arranging, reduce the workload of workers and avoid damage and copper exposure of coil products.

In order to solve the technical problems, the technical scheme adopted by the invention for solving the technical problems is as follows:

The utility model provides a stranded wire coil reason line carrier, includes carrier body, reason line frame, first apron mechanism and second apron mechanism, the carrier body sets up on the carrier bottom plate, reason line frame one end with the carrier body articulates, be provided with a plurality of reason line stations on the carrier body, be provided with a plurality of reason line mechanisms on the reason line frame, reason line mechanism with reason line station one-to-one sets up, first apron mechanism, second apron mechanism respectively with the both sides of carrier body are articulated, position the coil on the reason line station through first apron mechanism, reason line mechanism accomplishes the reason line operation to the coil lead-out wire after the second apron mechanism is fixed again;

The wire arranging mechanism comprises a clamping frame and a clamping block, wherein a guide rod is arranged on the clamping frame, the guide rod penetrates through the clamping block, a clamping channel is formed between the clamping block and the clamping frame, a spring is sleeved on the guide rod, one end of the clamping spring is abutted to the clamping block, the other end of the clamping spring is abutted to the clamping frame, and the clamping block clamps the outgoing wire on the clamping channel under the action of the clamping spring.

Further, a wire arranging rod is arranged on the wire arranging frame, a wire arranging groove is arranged on the wire arranging rod, the wire arranging groove is of a U-shaped structure, a V-shaped structure or a semicircular machine structure, and the wire arranging groove and the clamping channel are oppositely arranged.

Further, the first cover plate mechanism comprises a first cover plate, a first positioning groove is formed in the first cover plate, a pressing block matched with the coil is arranged on the first positioning groove, and a first pressing rod is arranged on the first positioning groove.

Further, the second cover plate mechanism comprises a second cover plate, a second positioning groove is formed in the second cover plate, a second pressing rod is arranged on the second positioning groove, and a groove convenient for the outgoing line to pass through is formed in the second pressing rod.

Further, the wire arranging station comprises a carrier plate, a fixing block is arranged on the carrier plate, an arc-shaped locating surface matched with the coil is arranged on the fixing block, a second through hole is formed in the carrier plate, a second push block is arranged on the second through hole in a penetrating mode, a first through hole is formed in one side of the carrier plate, a first push block is arranged on the first through hole in a penetrating mode, the first push block is arranged opposite to the fixing block, the first push block is in driving connection with the second push block, the coil is located on the inner side of the coil through the second push block, and the first push block pushes the coil to the locating surface of the fixing block.

Further, the fixed block is provided with a mounting groove, and a magnet is arranged in the mounting groove.

Further, the first push block is arranged on the first slide block, the first slide block is arranged in a first slide groove on the carrier plate in a sliding manner, the first slide block is in driving connection with the driving component, a first spring is arranged on the first slide block, the free end of the first spring is connected with the first slide groove, the second push block is arranged on the second slide block, the second slide block is arranged in a second slide groove on the carrier plate in a sliding manner, a second spring is arranged on the second slide block, the free end of the second spring is connected with the second slide groove, a first guide inclined surface is arranged on the first slide block, the second slide block is in butt joint with the first guide inclined surface, and the driving component drives the first slide block to move along the first slide groove so as to drive the second slide block to reciprocate along the second slide groove.

Further, be provided with the third spout on the carrier board, the third spout is gone up to slide and is equipped with the push rod, push rod one end is provided with the third spring, the third spring free end with third spout is connected, the push rod other end and cam butt, the cam sets up first apron mechanism and the articulated department of carrier body, the second direction inclined plane has been seted up on the push rod, first slider with second direction inclined plane butt, open and close through first apron mechanism and drive the push rod and follow third spout motion so as to drive first slider along first spout reciprocating motion.

Further, still include clamping jaw mechanism, a mounting groove has been seted up on the carrier board, clamping jaw mechanism sets up in the mounting groove, clamping jaw mechanism includes the movable block, wear to be equipped with the guide arm on the movable block, the cover is equipped with the fifth spring on the guide arm, fifth spring one end with carrier board butt, the other end with the movable block butt, be provided with wire clamping jaw on the movable block, the movable block moves along the guide arm and drives wire clamping jaw and fix a position the coil on the carrier board.

Further, the clamping jaw mechanism further comprises a lifting block, a lifting groove is formed in the moving block, a limiting rod is arranged in the lifting groove, a waist-shaped groove is formed in the lifting block, the limiting rod penetrates through the waist-shaped groove, the wire arranging clamping jaw is connected with the lifting block, and a fourth spring is arranged between the lifting block and the moving block.

The invention has the beneficial effects that:

According to the invention, after the coil on the wire arranging station is positioned through the first cover plate mechanism, the outgoing wire is led out from the second cover plate mechanism, and the outgoing wire is clamped on the clamping channel by the clamping block under the action of the clamping spring to finish the wire arranging operation, so that the precision and stability of multi-strand wire arranging can be improved, the workload of workers can be reduced, the wire arranging efficiency can be effectively improved, the labor cost and the production cost can be saved, the coil on the wire arranging station can be effectively fixed by the first cover plate mechanism, the damage and copper exposure of a coil product can be avoided, the wire arranging precision can be improved, and the product yield can be improved.

Drawings

Fig. 1 is a schematic diagram of a multi-strand coil wire management carrier according to the present invention.

Fig. 2 is a schematic view of a fully opened structure of the carrier according to the present invention.

Fig. 3 is a schematic view of the jaw mechanism of the present invention.

Fig. 4 is a cross-sectional view of the jaw mechanism of the present invention.

Fig. 5 is a schematic view of the drive components of the present invention.

FIG. 6 is a schematic view of a first slider and a second slider of the present invention.

Fig. 7 is a schematic view of the second cover mechanism of the present invention in a closed state.

Fig. 8 is a schematic view of the first cover mechanism of the present invention in a closed state.

Fig. 9 is a schematic view showing the first cover mechanism and the second cover mechanism of the present invention in a closed state.

The reference numerals in the figures illustrate: 1. a wire arranging frame; 11. a clamping block; 12. a spring; 13. a wire arranging rod; 14. wire arranging grooves; 2. a carrier base plate; 21. a support frame; 3. a first cover plate mechanism; 31. a first cover plate; 32. a first positioning groove; 33. briquetting; 34. a first compression bar; 4. a second cover plate mechanism; 41. a second cover plate; 42. a second positioning groove; 43. a second compression bar; 5. a carrier body; 51. a carrier plate; 52. a fixed block; 53. a first push block; 54. a second push block; 55. a magnet; 56. a first slider; 561. a first chute; 562. a first spring; 563. a first guiding inclined surface; 57. a second slider; 571. a second spring; 572. a second chute; 573. a guide protrusion; 574. a second guiding inclined surface; 6. wire arranging clamping jaws; 61. a moving block; 62. a guide rod; 63. a fifth spring; 64. a lifting block; 65. a limit rod; 66. a fourth spring; 7. a cam; 71. a push rod; 72. a rotating shaft; 73. a third spring; 74. and a third chute.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the invention and practice it.

Referring to fig. 1-9, a multi-strand wire coil arranging carrier comprises a carrier body 5, a wire arranging frame 1, a first cover plate mechanism 3 and a second cover plate mechanism 4, wherein the carrier body 5is arranged on a carrier bottom plate 2, a plurality of supporting frames 21 are arranged on the carrier bottom plate 2, the supporting frames 21 are used for supporting the wire arranging frame 1 and the first cover plate mechanism 3, one end of the wire arranging frame 1 is hinged with the carrier body 5, a plurality of wire arranging stations are arranged on the carrier body 5, a plurality of wire arranging mechanisms are arranged on the wire arranging frame 1, the wire arranging mechanisms are arranged in one-to-one correspondence with the wire arranging stations, the first cover plate mechanism 3 and the second cover plate mechanism 4 are respectively hinged with two sides of the carrier body 5, after the coils on the wire arranging stations are positioned through the first cover plate mechanism 3, the wire arranging mechanisms finish wire arranging operation on coil outgoing lines after the second cover plate mechanism 4 is fixed;

The wire arranging mechanism comprises a clamping frame and a clamping block 11, wherein a guide rod is arranged on the clamping frame, the guide rod penetrates through the clamping block 11, a clamping channel is formed between the clamping block 11 and the clamping frame, a spring 12 is sleeved on the guide rod, one end of the clamping spring 12 is abutted to the clamping block 11, the other end of the clamping spring is abutted to the clamping frame, and the clamping block 11 clamps the outgoing wires on the clamping channel under the action of the clamping spring 12.

The invention is suitable for multi-strand wire coil, which is formed by twisting tens of small wires, wherein the single wire is only 0.04-0.07mm, so that the damage is easy to occur, such as watch coil (0.06 mm wire diameter), the existing common coil can be positioned by directly attaching the coil to the protective film, and the wire end (outgoing wire) of the coil can be fixed by the protective film; or the single-wire coil is easy to control the precision in wire arrangement, and no scratch is generated in the process of folding wires.

According to the invention, after the coil on the wire arranging station is positioned through the first cover plate mechanism 3, the outgoing wire is led out from the second cover plate mechanism 4, and the outgoing wire is clamped on the clamping channel by the clamping block 11 under the action of the clamping spring 12 to finish the wire arranging operation, so that the precision and stability of multi-strand wire arranging can be improved, the workload of workers is reduced, the wire arranging efficiency is effectively improved, meanwhile, the labor cost and the production cost are saved, the coil on the wire arranging station can be effectively fixed by the first cover plate mechanism 3, the damage and copper exposure of a coil product are avoided, the wire arranging precision is improved, and the product yield is improved.

The wire management frame 1 is provided with a wire management rod 13, the wire management rod 13 is provided with a wire management groove 14, the wire management groove 14 is of a U-shaped structure, a V-shaped structure or a semicircular machine structure, and the wire management groove 14 is arranged opposite to the clamping channel.

Specifically, lead-out wires are guided through the wire arranging groove 14, the wire arranging groove 14 and the clamping channel are arranged oppositely, so that the clamping of the lead-out wires can be more conveniently realized, the lead-out wires of the coil can be effectively fixed, and the damage of the lead-out wires is less.

The first cover plate mechanism 3 comprises a first cover plate 31, a first positioning groove 32 is formed in the first cover plate 31, a pressing block 33 matched with the coil is arranged on the first positioning groove 32, and a first pressing rod 34 is arranged on the first positioning groove 32.

Specifically, the pressing block 33 on the first positioning groove 32 can compress and position the coil product on the carrier plate 51, so that the position of the coil product is ensured, the positioning precision of the coil is improved, and the wire arrangement effect is improved.

The second cover plate mechanism 4 comprises a second cover plate 41, a second positioning groove 42 is formed in the second cover plate 41, a second pressing rod 43 is arranged on the second positioning groove 42, and a groove convenient for the outgoing line to pass through is formed in the second pressing rod 43.

Specifically, the grooving can lead out the outgoing line leaning on the wire arranging clamping jaw 6 to the wire arranging groove 14, positions the outgoing line, avoids the breakage and copper exposure of the outgoing line caused by the fact that the outgoing line is not positioned, and ensures the product quality.

The wire arranging station comprises a carrier plate 51, a fixing block 52 is arranged on the carrier plate 51, an arc-shaped locating surface matched with a coil is arranged on the fixing block 52, a second through hole is formed in the carrier plate 51, a second push block 54 is arranged on the second through hole in a penetrating mode, a first through hole is formed in one side of the carrier plate 51, a first push block 53 is arranged on the first through hole in a penetrating mode, the first push block 53 is arranged opposite to the fixing block 52, the first push block 53 is in driving connection with the second push block 54, the coil is located on the inner side of the coil through the second push block 54, and the first push block 53 pushes the coil to the locating surface of the fixing block 52.

Specifically, through the inboard location of second ejector pad 54 to the coil, first ejector pad 53 pushes away the coil to the locating surface of fixed block 52 on, and when first ejector pad 53 and fixed block 52 carried out the centre gripping location to the coil product, second ejector pad 54 can provide the support to the coil product inboard, effectively avoids the condition that the displacement or the coil takes place to warp to appear in the present product, promotes the precision and the stability of stranded wire coil reason line, promotes the product yield.

The first push block 53 and the second push block 54 can solve the problem of wire arrangement work of multi-size coils, reduce the occurrence of the situation that the work cannot be completed due to inconsistent inner diameter of the coils and the size of the wire arrangement frame 1, and prevent the occurrence of the situation that the coils fall off or are extruded and deformed.

The positioning accuracy of coil products can be better guaranteed through the positioning of the first push block 53 and the second push block 54, better positioning of the products can be guaranteed when operators are in wire arrangement, so that risks in wire arrangement are reduced, in addition, the outgoing lines are guided by the wire arrangement clamping jaw and the second cover plate, machining quality is guaranteed, and meanwhile damage in wire arrangement is reduced.

The fixed block 52 is provided with a mounting groove, and a magnet 55 is arranged in the mounting groove.

Specifically, the magnet is arranged in the mounting groove, so that the magnet can be used for adsorbing products, and the magnet is aligned for preliminary positioning, so that the positioning precision of coil products is further ensured.

The first push block 53 is arranged on the first slide block 56, the first slide block 56 is slidably arranged in a first chute 561 on the carrier plate 51, the first slide block 56 is in driving connection with a driving component, a first spring 562 is arranged on the first slide block 56, the free end of the first spring 562 is connected with the first chute 561, the second push block 54 is arranged on the second slide block 57, the second slide block 57 is slidably arranged in a second chute 572 on the carrier plate 51, a second spring 571 is arranged on the second slide block 57, the free end of the second spring 571 is connected with the second chute 572, a first guiding inclined plane 563 is arranged on the first slide block 56, a guiding protrusion 573 on the second slide block 57 is in butt joint with the first guiding inclined plane 563, and the driving component drives the first slide block 56 to move along the first chute 561 so as to drive the second slide block 57 to reciprocate along the second chute 572.

Specifically, the first sliding block 56 is driven by the driving component to move along the first sliding groove 561 so as to drive the second sliding block 57 to reciprocate along the second sliding groove 572, so that the first sliding block 56 drives the first sliding block 53 to drive the second sliding block 54 to be linked, and when the first sliding block 53 and the fixed block 52 clamp and position coil products, the second sliding block 54 synchronously provides support.

The carrier plate 51 is provided with a third chute 74, the third chute 74 is provided with a push rod 71 in a sliding manner, one end of the push rod 71 is provided with a third spring 73, the free end of the third spring 73 is connected with the third chute 74, the other end of the push rod 71 is abutted to a cam 7, the cam 7 is arranged at the hinge joint of the first cover plate mechanism 3 and the carrier body 5, the push rod 71 is provided with a second guide inclined plane 574, the first slider 56 is abutted to the second guide inclined plane 574, and the push rod 71 is driven to move along the third chute 74 by opening and closing the first cover plate mechanism 3 so as to drive the first slider 56 to reciprocate along the first chute 561.

Specifically, the hinge joint of the first cover plate mechanism 3 and the carrier body 5, the carrier body 5 is provided with a rotating shaft 72, the cam 7 is sleeved on the rotating shaft 72, the first cover plate mechanism 3 is connected with the cam 7, the first cover plate mechanism 3 drives the cam 7 to rotate along the rotating shaft 72, and meanwhile, the side surface of the cam 7 is abutted to the push rod 71, so that the first cover plate mechanism 3 is opened and closed to drive the push rod 71 to move, and linkage between the first push block 53 and the second push block 54 is realized.

When in use, when the first cover plate 31 is covered on the carrier body 5, the first cover plate 31 drives the cam 7 to rotate along the rotating shaft 72, the side surface of the cam 7 is abutted against the push rod 71 to realize that the push rod 71 moves towards the rotating shaft 72 side in the third sliding groove 74, the first sliding block 56 is driven to move along the second guiding inclined surface 574, so that the first sliding block 56 moves towards the push rod 71, the first sliding block 56 drives the first sliding block 53 to push the coil to the positioning surface of the fixed block 52 under the action of the first spring 562, and meanwhile, the second sliding block 57 moves along the first guiding inclined surface 563, so that the second sliding block 57 moves away from the first sliding block 56, and the second sliding block 57 drives the second sliding block 54 to synchronously position the inner side of the coil;

Conversely, when the first cover plate 31 is in the open state on the carrier body 5, the first cover plate 31 drives the cam 7 to rotate along the rotating shaft 72, the side surface of the cam 7 is abutted against the push rod 71 to enable the push rod 71 to move in the third sliding groove 74 towards the side far away from the rotating shaft 72, the first slider 56 is driven to move along the second guiding inclined surface 574 to enable the first slider 56 to move towards the direction far away from the push rod 71, the first slider 56 drives the first push block 53 to be separated from the fixed block 52, meanwhile, the second slider 57 moves along the first guiding inclined surface 563 to enable the second slider 57 to move towards the first slider 56 under the acting force of the second spring 571, and the second slider 57 drives the second push block 54 to be far away from the inner side of the coil product and not to be in contact with the inner side of the coil product.

Specifically, the push rod 71 of the linkage structure is combined with the opening and closing of the first cover plate mechanism 3, when the first cover plate 31 is covered, the first push block 53 and the second push block 54 can rapidly position coil products on the carrier plate 51, positioning time is shortened, working efficiency is improved, the mechanical linkage structure is adopted, structural use stability is good, wire arrangement precision is improved, the coil products which are positioned are pressed and positioned through the pressing block 33 on the first cover plate 31, machining precision is further improved, and damage to the surfaces of the products is avoided.

Still include clamping jaw mechanism, a mounting groove has been seted up on the carrier plate 51, clamping jaw mechanism sets up in the mounting groove, clamping jaw mechanism includes movable block 61, wear to be equipped with guide arm 62 on the movable block 61, the cover is equipped with fifth spring 63 on the guide arm 62, fifth spring 63 one end with carrier plate 51 butt, the other end with movable block 61 butt, be provided with reason fastener claw 6 on the movable block 61, movable block 61 removes along guide arm 62 and drives reason fastener claw 6 and fix a position the coil on the carrier plate 51.

The coil on the carrier plate 51 is compressed and positioned by the wire arranging clamp claws 6 driven by the moving block 61 along the guide rod 62, and the outgoing line of the coil product is provided with a side, so that the positioning of the outgoing line is completed, the coil is effectively fixed, and the damage of the coil is reduced.

The clamping jaw mechanism further comprises a lifting block 64, a lifting groove is formed in the moving block 61, a limiting rod 65 is arranged in the lifting groove, a waist-shaped groove is formed in the lifting block 64, the limiting rod 65 penetrates through the waist-shaped groove, the wire arranging clamp claws 6 are connected with the lifting block 64, and a fourth spring 66 is arranged between the lifting block 64 and the moving block 61.

Specifically, the clamping jaw mechanism can drive the wire-arranging clamp claw 6 to move along the two directions of the guide rod 62 and the waist-shaped groove, namely, the moving block 61 moves along the guide rod 62 towards the coil product, meanwhile, the lifting block 64 moves upwards along the lifting groove, so that the wire-arranging clamp claw 6 is slightly higher than the top of the coil product, and can be pressed on the coil product under the action of the fourth spring 66, when the wire-arranging clamp claw 6 moves to the upper side of the coil product under the drive of the moving block 61, namely, the side surface of the coil product is contacted with the wire-arranging clamp claw 6, the lifting block 64 drives the wire-arranging clamp claw 6 to move downwards, and the wire-arranging clamp claw 6 is pressed on the top surface of the coil product under the action of the fourth spring 66, so that the coil on the carrier plate 51 is pressed and positioned.

The coil can be effectively fixed by positioning the side face and the top face of the coil product through the wire arranging clamp claw 6, the damage of the coil is reduced, the wire arranging clamp claw 6 provides side protection for the outgoing wire of the coil product, the damage and copper exposure of the coil product are effectively avoided while the wire arranging precision is improved, and the product yield is greatly improved.

The wire arranging clamping jaw, the slotting on the second compression bar and the contact surface of the wire arranging groove and the outgoing line are of arc angle structures, the contact surfaces are polished, paint removal on the surfaces caused by pulling the outgoing line is avoided, the radius of the arc angle is larger than or equal to 0.6mm, the larger the radius of the arc angle is, the better the larger the radius of the arc angle is, the larger the area of the pressed wire head is, and the paint surface falling can be avoided.

The use process

When the coil is arranged, the first cover plate 31, the second cover plate 41 and the coil arranging frame 1 are opened, the coil product is placed on the carrier plate 51, the inner ring of the coil product is abutted against the arc-shaped positioning surface, then the first cover plate 31 is covered, the pressing block 33 is pressed on the top surface of the coil product, as the first cover plate 31, the first pushing block 53 and the second pushing block 54 are provided with a linkage mechanism, the first cover plate 31 drives the cam 7 to rotate along the rotating shaft 72, the side surface of the cam 7 is abutted against the pushing rod 71 to realize that the pushing rod 71 moves towards the rotating shaft 72 side in the third sliding groove 74, the first sliding block 56 is driven to move along the second guiding inclined surface 574 to enable the first sliding block 56 to move towards the pushing rod 71, the first sliding block 56 is driven by the first sliding block 53 to push the coil to the positioning surface of the fixed block 52, meanwhile, the second sliding block 57 is driven by the second sliding block 57 to synchronously position the inner side of the second pushing block 54 along the direction of the first guiding inclined surface 563, and accordingly the first cover plate 3 is driven to move on the inner side of the second pushing block 54 to realize that the pushing rod 71 is driven to move on the first sliding block 53 and the second pushing block 54; so when the first cover plate 31 is covered, the first push block 53 and the second push block 54 will automatically push the coil product onto the carrier plate 51 for positioning;

After the coil product is positioned through the first push block 53 and the second push block 54, the clamping jaw mechanism is driven by an external mechanism to drive the wire arranging clamp claw 6 to compress and position the coil on the carrier plate 51, the coil arranging clamp makes the outgoing wire of the coil only pull open to lean on the wire arranging clamp claw 6, then the second cover plate 41 and the wire arranging frame 1 are covered, the outgoing wire sequentially passes through the slotting on the second compression bar 43 and the wire arranging groove 14 on the wire arranging rod 13, and finally the outgoing wire is clamped on the clamping channel by the clamping block 11 under the action of the clamping spring 12, so that the wire arranging can be completed, the coil can be effectively positioned in a wire arranging mode, the wire arranging precision is improved, the wire arranging clamp claw 6 cannot damage the product, and the product yield is greatly improved.

The above-described embodiments are merely preferred embodiments for fully explaining the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutions and modifications will occur to those skilled in the art based on the present invention, and are intended to be within the scope of the present invention. The protection scope of the invention is subject to the claims.

Claims (7)

1. The utility model provides a stranded wire coil reason line carrier, its characterized in that includes carrier body, reason line frame, first apron mechanism and second apron mechanism, the carrier body sets up on the carrier bottom plate, reason line frame one end with the carrier body articulates, be provided with a plurality of reason line stations on the carrier body, be provided with a plurality of reason line mechanisms on the reason line frame, reason line mechanism with reason line station one-to-one sets up, first apron mechanism, second apron mechanism respectively with the both sides of carrier body articulates, fixes a position the coil on the reason line station through first apron mechanism, and reason line mechanism accomplishes reason line operation to the coil lead-out wire after the second apron mechanism is fixed again;

The wire arranging mechanism comprises a clamping frame and a clamping block, wherein a guide rod is arranged on the clamping frame, the guide rod penetrates through the clamping block, a clamping channel is formed between the clamping block and the clamping frame, a spring is sleeved on the guide rod, one end of the clamping spring is abutted to the clamping block, the other end of the clamping spring is abutted to the clamping frame, and the clamping block clamps the outgoing wire on the clamping channel under the action of the clamping spring;

The wire arranging station comprises a carrier plate, wherein a fixing block is arranged on the carrier plate, an arc-shaped locating surface matched with a coil is arranged on the fixing block, a second through hole is formed in the carrier plate, a second push block is arranged on the second through hole in a penetrating mode, a first through hole is formed in one side of the carrier plate, a first push block is arranged on the first through hole in a penetrating mode, the first push block is arranged opposite to the fixing block, the first push block is in driving connection with the second push block, the inner side of the coil is located through the second push block, and the first push block pushes the coil to the locating surface of the fixing block;

the first pushing block is arranged on the first sliding block, the first sliding block is arranged in a first sliding groove on the carrier plate in a sliding way, the first sliding block is in driving connection with the driving component, a first spring is arranged on the first sliding block, the free end of the first spring is connected with the first sliding groove, the second pushing block is arranged on the second sliding block, the second sliding block is arranged in a second sliding groove on the carrier plate in a sliding way, a second spring is arranged on the second sliding block, the free end of the second spring is connected with the second sliding groove, a first guide inclined plane is arranged on the first sliding block, the second sliding block is in butt joint with the first guide inclined plane, and the driving component drives the first sliding block to move along the first sliding groove so as to drive the second sliding block to reciprocate along the second sliding groove;

The carrier plate is provided with a third chute, the third chute is upwards provided with a push rod in a sliding mode, one end of the push rod is provided with a third spring, the free end of the third spring is connected with the third chute, the other end of the push rod is in butt joint with a cam, the cam is arranged at the hinge joint of the first cover plate mechanism and the carrier body, a second guide inclined plane is formed in the push rod, the first slider is in butt joint with the second guide inclined plane, and the push rod is driven to move along the third chute through opening and closing of the first cover plate mechanism so as to drive the first slider to reciprocate along the first chute.

2. The multi-strand coil wire management carrier of claim 1, wherein a wire management rod is arranged on the wire management frame, a wire management groove is arranged on the wire management rod, the wire management groove is of a U-shaped structure, a V-shaped structure or a semicircular structure, and the wire management groove is arranged opposite to the clamping channel.

3. The multiple-strand coil wire management carrier of claim 1, wherein the first cover mechanism comprises a first cover plate, a first positioning groove is formed in the first cover plate, a pressing block matched with the coil is arranged on the first positioning groove, and a first pressing rod is arranged on the first positioning groove.

4. The multi-strand coil wire management carrier of claim 1, wherein the second cover mechanism comprises a second cover plate, a second positioning groove is formed in the second cover plate, a second pressing rod is arranged on the second positioning groove, and a slot for facilitating the passing of the outgoing wire is formed in the second pressing rod.

5. The multiple-strand coil wire management carrier of claim 1, wherein the mounting block is provided with a mounting slot, and wherein the mounting slot is provided with a magnet.

6. The multi-strand coil wire arranging carrier of claim 1, further comprising a clamping jaw mechanism, wherein a mounting groove is formed in the carrier plate, the clamping jaw mechanism is arranged in the mounting groove, the clamping jaw mechanism comprises a moving block, a guide rod is arranged on the moving block in a penetrating mode, a fifth spring is sleeved on the guide rod, one end of the fifth spring is abutted to the carrier plate, the other end of the fifth spring is abutted to the moving block, a wire arranging clamping jaw is arranged on the moving block, and the moving block moves along the guide rod to drive the wire arranging clamping jaw to position coils on the carrier plate.

7. The multi-strand coil wire management carrier of claim 6, wherein the clamping jaw mechanism further comprises a lifting block, a lifting groove is formed in the moving block, a limiting rod is arranged in the lifting groove, a waist-shaped groove is formed in the lifting block, the limiting rod is arranged in the waist-shaped groove in a penetrating mode, the wire management clamping jaw is connected with the lifting block, and a fourth spring is arranged between the lifting block and the moving block.