CN213696490U - Iron core material loading winding device that uses on emulation leaf of christmas tree - Google Patents

Abstract

The utility model relates to a emulation christmas tree field especially relates to an iron core material loading winding device that uses on christmas tree emulation leaf, which comprises a frame, be fixed with plastics line wind-up device, iron core separator, iron core conveyor, leaf fixing device and butt fusion device in the frame respectively, plastics line wind-up device is including fixing the winding bottom plate in the frame, the vertical winding bearing frame that is fixed with of winding bottom plate up end bilateral symmetry, two be fixed with the rotation axis on the winding bearing frame, the rotation axis passes through bearing I of fixing on the rotation axis and fixes on two winding bearing frames, the rotation axis is rotated by the drive of winding motor, rotation axis one end is fixed with the wire winding head, the inside wire winding center pin that still is provided with of rotation axis. The device realizes the automatic production of the simulation Christmas branches, greatly improves the production efficiency of the simulation Christmas tree branches and reduces the labor cost of the simulation Christmas tree branches.

Description

Iron core material loading winding device that uses on emulation leaf of christmas tree

[ technical field ] A method for producing a semiconductor device

The utility model relates to a emulation christmas tree field especially relates to an iron core material loading winding device that uses on christmas tree emulation leaf.

[ background of the invention ]

The artificial Christmas tree is characterized in that a simulation Christmas tree is often used for decorating when a Christmas is over, the simulation Christmas tree is usually formed by assembling a plurality of simulation Christmas pine leaves, the existing simulation Christmas tree is formed by fixing simulation Christmas branches of all levels on a Christmas tree backbone, the installation positions of the simulation Christmas branches are conveniently distinguished, meanwhile, a layer of color marking pipe is fixed on the simulation Christmas tree branches, the simulation Christmas tree branches are formed by winding and fixing a large number of simulation Christmas tree leaves, the layer of color marking pipe and one end of an iron core through plastic wires, the simulation Christmas tree leaves are overlapped and fixed on the iron core, the other end of the iron core is inserted on the Christmas tree backbone to form the simulation Christmas tree, but the plastic wires are required to be wound manually during production at present, time and labor are wasted, and the efficiency is low.

The utility model discloses it is not enough to solve prior art and research and propose.

[ Utility model ] content

The utility model aims at overcoming above-mentioned prior art's shortcoming, providing a iron core material loading winding device who uses on christmas tree emulation leaf, can fall into single with the iron core to through the plastic line with emulation branch and emulation leaf and iron core intertwine.

The utility model discloses can realize through following technical scheme:

the utility model discloses an iron core feeding and winding device used on artificial leaves of Christmas trees, which comprises a frame, wherein a plastic wire winding device, an iron core separating device, an iron core conveying device, a leaf fixing device and a welding device are respectively fixed on the frame, the plastic wire winding device comprises a winding bottom plate fixed on the frame, winding bearing seats are vertically fixed on the upper end surface of the winding bottom plate in a bilateral symmetry manner, two winding bearing seats are fixed on the winding bearing seats, a rotating shaft is fixed on the two winding bearing seats through a bearing I fixed on the rotating shaft, the rotating shaft is driven by a winding motor to rotate, one end of the rotating shaft is fixed with a winding head, a winding central shaft is also arranged in the rotating shaft, the winding central shaft is fixed in the rotating shaft through a plurality of bearings II, the iron core separating device comprises a separating support plate symmetrically fixed on the frame, a plurality of sliding plates are fixed between the two separation supporting plates, two separation bearing seats are fixed at the bottoms of the sliding plates, a cylindrical magnetic-attracting rotating wheel is arranged between the separation bearing seats, a magnetic-attracting groove is formed in the magnetic-attracting rotating wheel, a magnet is fixed in the magnetic-attracting groove, the magnetic-attracting rotating wheel is fixed on the separation bearing seats through rotating wheel shafts at two ends of the magnetic-attracting rotating wheel, a separation gear is further fixed on one rotating wheel shaft, a separation air cylinder is fixed on the frame, the separation air cylinder is fixedly connected with a separation rack which is mutually meshed with the separation gear through a piston rod, a pushing air cylinder is fixed on the frame below the magnetic-attracting rotating wheel, the pushing air cylinder is fixedly connected with a magnetic-attracting seat which is matched with the magnetic-attracting rotating wheel through a piston rod, and the iron core conveying device comprises an iron core guide rail fixed on the frame, the iron core clamping device is characterized in that an iron core sliding block connected with the iron core guide rail in a sliding mode is further fixed on the iron core guide rail, an iron core belt is further fixed on the iron core guide rail, the iron core belt is driven by an iron core motor to rotate, the iron core sliding block and the iron core belt are fixed to each other, an iron core finger cylinder is further fixed on the iron core sliding block, the leaf fixing device comprises a guide vane plate, a U-shaped positioning groove is formed in the guide vane plate, a guide vane cylinder is further fixed on the guide vane plate, guide vanes are fixed through piston rods, a guide vane connecting rod is further fixed on the guide vane plate, an iron core clamp is fixed on the iron core sliding block, and the iron core clamp is fixed with a clamping block matched with the guide vane connecting rod for.

Preferably, the butt fusion device contains the butt fusion cylinder of fixing in the frame, the butt fusion cylinder is fixed with the butt fusion slip table through the piston rod, be fixed with the transducer on the butt fusion slip table, the transducer output is fixed with welder, still be fixed with fixed cylinder on the butt fusion slip table, fixed cylinder is fixed with the line ball piece through the piston rod, still be provided with the terminal line head that uses with the line ball piece cooperation on the butt fusion slip table.

Preferably, a driving wheel is fixed at the output end of the winding motor, a driven wheel is fixed on the rotating shaft, and the driven wheel is in winding connection with the driving wheel through a synchronous belt.

Preferably, a tidying cylinder is further fixed above the sliding plate, and a tidying rod is fixed on the tidying cylinder through a piston rod. Through the extension of piston rod on the arrangement cylinder, the arrangement pole promotes the iron core on the sliding plate and removes, can effectively avoid the iron core to pile up and lead to the unable normal gliding of iron core.

Preferably, a support slide rail is further fixed on the frame, a support slide block slidably connected with the support slide rail is fixed on the support slide rail, and the guide vane plate and the support slide block are fixed to each other. The guide vane plate is supported and limited by the supporting slide block and the supporting slide rail.

Preferably, threading grooves through which plastic threads pass are fixed on the upper side and the lower side of the rotating shaft, threading grooves connected with the threading grooves are arranged in positions, corresponding to the threading grooves, of the winding heads, and threading holes through which the plastic threads pass are formed in positions, corresponding to the threading grooves, of the tail ends of the winding heads. After fixing the plastic wire coil, the plastic wire sequentially passes through the threading groove on the rotating shaft and the threading groove on the winding head and then passes out from the threading hole on the winding head, when the rotating shaft rotates, the plastic wire coil rotates along with the rotating shaft, and the plastic wire coil also can rotate, after the plastic wire contacts with the iron core, the iron core is fixed with the simulation tree branch and the pine needle, and the plastic wire can be uniformly wound on the contact position of the iron core and the simulation tree branch and the pine needle.

The working principle is as follows: a large number of iron cores are placed on a sliding plate between separating support plates, the iron cores automatically slide to the position of a magnetic absorption rotating wheel, a separating cylinder is started, a piston rod on the separating cylinder extends, the magnetic absorption rotating wheel rotates, a magnetic absorption groove on the magnetic absorption rotating wheel reaches the lowest part of the iron core, only one iron core can be accommodated in the magnetic absorption groove and transversely fixed, the iron core slides into the magnetic absorption groove and is attracted by a magnet and then fixed, the separating cylinder is started, a piston rod on the separating cylinder is shortened, the magnetic absorption rotating wheel rotates, the iron core rotates to a magnetic absorption seat, a pushing cylinder is started, a piston rod on the pushing cylinder extends, the iron core extends out of the bottom of an iron core separating device along with the magnetic absorption seat, an iron core motor is started, an iron core sliding block moves, after an iron core finger cylinder on the iron core sliding block reaches one end of the iron core fixed on the magnetic absorption seat, the iron core finger, the piston rod on the pushing cylinder is shortened, the magnetic suction seat returns to the initial position, the iron core motor is started again, the iron core grabbed by the iron core finger cylinder moves along with the iron core slide block, the tail end of the iron core penetrates through the position of the positioning groove on the guide vane plate and then extends into the winding central shaft, the iron core reaches the designated position and then places the simulation tree branches and the pine leaves in the positioning groove of the guide vane plate, the guide vane cylinder is started, the piston rod on the guide vane cylinder extends, the lifting simulation tree branches and the pine leaves on the guide vane are fixed on the guide vane plate, the winding motor is started, the winding motor drives the rotating shaft to rotate, the plastic wire passing through the rotating shaft rotates along with the rotating shaft, the tail end of the plastic wire extends out of the winding head position, due to the rotation of the rotating shaft, the plastic wire rotates along with the rotating shaft, the plastic wire uniformly, an iron core clamping cylinder is provided with an upper piston rod, a guide vane connecting rod is fixed with an iron core sliding block after the guide vane connecting rod is extruded by a clamping block, an iron core motor is started, the iron core motor drives an iron core belt to rotate, the iron core sliding block moves back and forth on an iron core guide rail, an iron core, a simulation branch and a pine leaf fixed on a guide vane plate move back and forth, a plastic wire is uniformly wound at the contact position of the iron core, the simulation branch and the pine leaf, the plastic wire is cut off after the iron core, the simulation branch and the pine leaf are completely fixed, the tail end of the plastic wire wound on the iron core, the simulation branch and the pine leaf is placed at a top wire head position, a fixed cylinder is started, a piston rod on the fixed cylinder is extended, the tail end of the plastic wire is fixed between a wire pressing block and the top wire head, a welding cylinder is started, a piston rod on the welding, with the mutual butt fusion of winding plastic line on plastic line end and the emulation branch, the butt fusion is accomplished the back, fixed cylinder starts, line ball piece and the separation of terminal of apical thread, the butt fusion cylinder starts, initial position is got back to the butt fusion slip table, the stator cylinder starts, the piston rod shortens on the stator cylinder, it descends to lead the blade, the cylinder start is got to the iron core clamp, clamp splice and stator connecting rod separation, the iron core motor starts, iron core motor drive iron core slider removes initial position, the iron core points the cylinder start, two cylinders point on the iron core points the separation on the cylinder, the iron core of the good plastic line of winding that snatchs on the iron core points the cylinder is collected by the collection device of below after falling owing.

Compared with the prior art, the utility model has the advantages that:

can fall into the iron core singly through this device to twine emulation branch, pine leaf and iron core together through the plastic wire, it is fixed after the terminal butt fusion of plastic wire through ultrasonic welding gun after the winding, realize the automated production of emulation christmas branch, very big improvement the production efficiency of emulation christmas tree branch and reduced the cost of labor of emulation christmas tree branch.

[ description of the drawings ]

The following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a schematic view showing the structure of a plastic wire winding apparatus;

FIG. 4 is an exploded view of the plastic wire wrapping device;

FIG. 5 is a schematic view of a fusion apparatus;

fig. 6 is a schematic structural diagram of the positions of the iron core separating device and the iron core conveying device;

fig. 7 is another angle structure diagram of the position of the iron core separating device and the iron core conveying device;

fig. 8 is an exploded view of the core separation and transport device positions;

in the figure: 1. a frame; 7. a plastic wire winding device; 701. winding the bottom plate; 702. winding the bearing seat; 703. a bearing I; 704. a rotating shaft; 705. a winding head; 706. a driven wheel; 707. a synchronous belt; 708. a driving wheel; 709. a winding motor; 710. winding a central shaft; 711. a bearing II; 8. an iron core separating device; 801. separating the support plate; 802. a material sliding plate; 803. separating the bearing seat; 804. a rotating wheel shaft; 805. a magnetic attraction rotating wheel; 806. separating the cylinder; 807. separating the gear; 808. separating the rack; 809. a push cylinder; 810. a magnetic attraction seat; 811. arranging an air cylinder; 812. arranging the rods; 9. an iron core conveying device; 901. an iron core guide rail; 902. an iron core motor; 903. an iron core slider; 904. an iron core finger cylinder; 905. an iron core clamping cylinder; 906. a clamping block; 907. a guide vane connecting rod; 908. an iron core belt; 10. a welding device; 101. welding the air cylinder; 102. welding the sliding table; 103. a transducer; 104. fixing the air cylinder; 105. a line pressing block; 106. a thread-ejecting head; 107. a welding gun; 11. a leaf fixing device; 111. a vane cylinder; 112. a guide vane; 113. a guide vane plate; 114. positioning a groove; 115. supporting the slide rail; 116. a support slide block;

[ detailed description ] embodiments

The following detailed description of embodiments of the present invention is made with reference to the accompanying drawings:

as shown in fig. 1 to 8, the utility model discloses an iron core feeding and winding device used on artificial leaves of christmas tree, comprising a frame 1, wherein a plastic wire winding device 7, an iron core separating device 8, an iron core conveying device 9, a leaf fixing device 11 and a welding device 10 are respectively fixed on the frame 1, the plastic wire winding device 7 comprises a winding bottom plate 701 fixed on the frame 1, winding bearing seats 702 are vertically fixed on the upper end surface of the winding bottom plate 701 symmetrically, rotating shafts 704 are fixed on the two winding bearing seats 702, the rotating shafts 704 are fixed on the two winding bearing seats 702 through bearings i 703 fixed on the rotating shafts 704, the rotating shafts 704 are driven to rotate by a winding motor 709, a winding head 705 is fixed at one end of the rotating shafts 704, a winding center shaft 710 is further arranged inside the rotating shafts 704, the winding center shaft 710 is fixed inside the rotating shafts through a plurality of bearings ii 711, the iron core separating device 8 comprises separating support plates 801 symmetrically fixed on the frame 1, a plurality of sliding plates 802 are fixed between the two separating support plates 801, two separating bearing seats 803 are fixed at the bottoms of the sliding plates 802, a cylindrical magnetic attraction rotating wheel 805 is arranged between the separating bearing seats 803, a magnetic attraction groove is arranged on the magnetic attraction rotating wheel 805, a magnet is fixed in the magnetic attraction groove, the magnetic attraction rotating wheel 805 is fixed on the separating bearing seats 803 through rotating wheel shafts 804 at two ends of the magnetic attraction rotating wheel 805, a separating gear 807 is also fixed on one rotating wheel shaft 804, a separating cylinder 806 is fixed on the frame 1, the separating cylinder 806 is fixedly connected with a separating rack 808 meshed with the separating gear 807 through a piston rod, a pushing cylinder 809 is fixed on the frame 1 below the magnetic attraction rotating wheel 805, the pushing cylinder 809 is fixedly connected with a magnetic attraction seat 810 matched with the magnetic attraction rotating wheel 805 through a piston rod, the iron core conveying device 9 comprises an iron core guide rail 901 fixed on the frame 1 below the iron, an iron core sliding block 903 which is in sliding connection with the iron core guide rail 901 is further fixed on the iron core guide rail 901, an iron core belt 908 is further fixed on the iron core guide rail 901, the iron core belt 908 is driven to rotate by an iron core motor 902, the iron core sliding block 903 and one side of the iron core belt 908 are mutually fixed, an iron core finger cylinder 904 is further fixed on the iron core sliding block 903, the leaf fixing device 11 comprises a guide vane plate 113, a U-shaped positioning groove 114 is formed in the guide vane plate 113, a guide vane cylinder 111 is further fixed on the guide vane plate 113, a guide vane 112 is fixed on the guide vane cylinder 111 through a piston rod, a guide vane connecting rod 907 is further fixed on the guide vane plate 113, an iron core clamping cylinder 905 is fixed on the iron core sliding block 903, and a clamping block 906 matched with the guide.

Wherein, welding device 10 contains the butt fusion cylinder 101 of fixing on frame 1, and butt fusion cylinder 101 is fixed with butt fusion slip table 102 through the piston rod, is fixed with transducer 103 on the butt fusion slip table 102, and transducer 103 output is fixed with welder 107, still is fixed with fixed cylinder 104 on butt fusion slip table 102, and fixed cylinder 104 is fixed with line ball piece 105 through the piston rod, still is provided with the terminal 106 of the roof line that uses with line ball piece 105 cooperation on the butt fusion slip table 102.

A driving wheel 708 is fixed at the output end of the winding motor 709, a driven wheel 706 is fixed on the rotating shaft 704, and the driven wheel 706 is connected with the driving wheel 708 in a winding manner through a synchronous belt 707.

A sorting cylinder 811 is further fixed above the material sliding plate 802, and a sorting rod 812 is fixed on the sorting cylinder 811 through a piston rod. Through the extension of piston rod on arrangement cylinder 811, arrangement pole 812 promotes the iron core removal on the sliding plate 802, can effectively avoid the iron core to pile up the phenomenon emergence that leads to the unable normal gliding of iron core.

Wherein, still be fixed with support slide rail 115 on the frame 1, be fixed with on the support slide rail 115 with support slide block 116 that support slide rail 115 sliding connection, guide vane 113 is fixed with support slide block 116 each other. The guide vane plate 113 is supported and limited by the support slide block 116 and the support slide rail 115.

Wherein, the upper and lower both sides of rotation axis 704 are all fixed with the threading groove that the plastics line passed, and the line groove of crossing that is connected with the threading groove all is equipped with on the first 705 of winding with the threading groove corresponding position, and the terminal of first 705 of winding is equipped with the through wires hole that the plastics line passed with crossing the corresponding position of line groove. After the plastic wire coil is fixed, the plastic wire sequentially passes through the threading grooves in the rotating shaft 704 and the threading grooves in the winding head 705 and then passes through the threading holes in the winding head 705, when the rotating shaft 704 rotates, the plastic wire coil rotates along with the rotating shaft 704, the plastic wire coil can also rotate, after the plastic wire is contacted with the iron core, the iron core is fixed with the simulation tree branches and the pine leaves, and the plastic wire can be uniformly wound at the contact positions of the iron core and the simulation tree branches and the pine leaves.

The working principle is as follows: a large number of iron cores are placed on a material sliding plate 802 between separating supporting plates 801, the iron cores automatically slide to the position of a magnetic absorption rotating wheel 805, a separating air cylinder 806 is started, a piston rod on the separating air cylinder 806 extends, the magnetic absorption rotating wheel 805 rotates, a magnetic absorption groove on the magnetic absorption rotating wheel 805 reaches the lowest part of the iron core, only one iron core can be accommodated in the magnetic absorption groove and transversely fixed, the iron core slides to the magnetic absorption groove and is attracted by a magnet and then fixed, the separating air cylinder 806 is started, a piston rod on the separating air cylinder 806 is shortened, the magnetic absorption rotating wheel 805 rotates, the iron core rotates to a magnetic absorption seat 810 along with the magnetic absorption rotating wheel 805, a pushing air cylinder 809 is started, a piston rod on the pushing air cylinder 809 extends, the iron core extends out of the bottom of an iron core separating device 8 along with a magnetic absorption seat 810, an iron core motor 902 is started, an iron core sliding block 903 moves, an iron core finger air cylinder 904 on the iron, after two cylinder fingers on the iron core finger cylinder 904 are mutually folded, the iron core is grabbed, the piston rod on the pushing cylinder 809 is shortened, the magnetic absorbing seat 810 returns to the initial position, the iron core motor 902 is started again, the iron core grabbed by the iron core finger cylinder 904 moves along with the iron core sliding block 903, the tail end of the iron core penetrates through the positioning groove 114 on the guide vane plate 113 and then extends into the winding central shaft 710, after the iron core reaches the designated position, the artificial tree branches and pine leaves are placed in the positioning groove 114 of the guide vane plate 113, the guide vane cylinder 111 is started, the piston rod on the guide vane cylinder 111 extends, the guide vane 112 ascends and descends the artificial tree branches and pine leaves to be fixed on the guide vane plate 113, the winding motor 709 is started, the winding motor 709 drives the rotating shaft 704 to rotate, the plastic wire passing through the rotating shaft 704 rotates along with the rotating shaft 704, the tail end of the plastic wire extends out, after the plastic wire is contacted with the iron core and the simulation tree branch, the plastic wire is uniformly wound at the contact position of the iron core, the simulation tree branch and the pine leaf, the iron core clamping cylinder 905 is started, the piston rod on the iron core clamping cylinder 905 is extended, the guide vane connecting rod 907 is fixed with the iron core sliding block 903 after the clamping block 906 presses the guide vane connecting rod 907, the iron core motor 902 is started, the iron core belt 908 is driven by the iron core motor 902 to rotate, the iron core sliding block 903 moves back and forth on the iron core guide rail 901, the iron core, the simulation tree branch and the pine leaf fixed on the guide vane plate 113 move back and forth, the plastic wire is uniformly wound at the contact position of the iron core, the simulation tree branch and the pine leaf, the plastic wire is cut after the iron core, the simulation tree branch and the pine leaf are completely fixed, the tail end of the plastic wire wound on the iron core, the simulation tree branch and the pine leaf is placed at, the welding cylinder 101 is started, a piston rod on the welding cylinder 101 extends, the welding sliding table 102 moves, the transducer 103 on the welding sliding table 102 moves close to a simulated branch, after a welding gun 107 is contacted with a plastic wire wound on the simulated branch, the tail end of the plastic wire is welded with the plastic wire wound on the simulated branch, after welding is completed, the fixed cylinder 104 is started, the wire pressing block 105 is separated from the top wire head 106, the welding cylinder 101 is started, the welding sliding table 102 returns to the initial position, the guide vane cylinder 111 is started, the piston rod on the guide vane cylinder 111 is shortened, the guide vane 112 descends, the iron core clamping cylinder 905 is started, the clamping block 906 is separated from the guide vane connecting rod 907, the iron core motor 902 is started, the iron core slider 903 is driven by the iron core motor 902 to move to the initial position, the iron core finger cylinder 904 is started, two cylinder fingers on the iron core finger cylinder 904 are separated, an iron core wound with the plastic wire, and (5) circulating operation.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many changes, modifications, substitutions and variations can be made to the embodiments without departing from the technical principles of the present invention, and these changes, modifications, substitutions and variations should also be considered as the protection scope of the present invention.

Claims (6)

1. The utility model provides an iron core material loading winding device that uses on simulation of christmas tree leaf, includes the frame, its characterized in that: the plastic wire winding device comprises a winding bottom plate fixed on the frame, winding bearing seats are vertically and symmetrically fixed on two sides of the upper end face of the winding bottom plate, two rotating shafts are fixed on the winding bearing seats, the rotating shafts are fixed on the two winding bearing seats through bearings I fixed on the rotating shafts, the rotating shafts are driven to rotate by a winding motor, winding heads are fixed at one ends of the rotating shafts, winding center shafts are further arranged in the rotating shafts, the winding center shafts are fixed in the rotating shafts through a plurality of bearings II, the iron core separating device comprises separating support plates symmetrically fixed on the frame, a plurality of sliding plates are fixed between the two separating support plates, two separating bearing seats are fixed at the bottoms of the sliding plates, a cylindrical magnetic absorption rotating wheel is arranged between the separation bearing seats, a magnetic absorption groove is arranged on the magnetic absorption rotating wheel, a magnet is fixed in the magnetic absorption groove, the magnetic absorption rotating wheel is fixed on the separation bearing seats through rotating wheel shafts at two ends of the magnetic absorption rotating wheel, a separation gear is further fixed on one rotating wheel shaft, a separation air cylinder is fixed on the rack, the separation air cylinder is fixedly connected with a separation rack meshed with the separation gear through a piston rod, a pushing air cylinder is fixed on the rack below the magnetic absorption rotating wheel, the pushing air cylinder is fixedly connected with a magnetic absorption seat matched with the magnetic absorption rotating wheel through a piston rod, the iron core conveying device comprises an iron core guide rail fixed on the rack below the iron core separation device, an iron core sliding block connected with the iron core guide rail in a sliding manner is further fixed on the iron core guide rail, and an iron core belt is further fixed on the iron core guide rail, the iron core belt is rotated by iron core motor drive, iron core slider and aforementioned iron core belt reciprocal anchorage, the cylinder is pointed to the iron core still being fixed with on the iron core slider, leaf fixing device contains the guide vane board, be provided with U type constant head tank on the guide vane board, still be fixed with the stator cylinder on the guide vane board, the stator cylinder is fixed with the guide vane through the piston rod, still be fixed with the stator connecting rod on the guide vane board, it gets the cylinder to be fixed with the iron core clamp on the iron core slider, the cylinder is got to the iron core clamp is fixed with the clamp splice that uses with aforementioned stator connecting rod cooperation through the piston rod.

2. The iron core material loading winding device that uses on christmas tree emulation leaf of claim 1, characterized in that: the butt fusion device contains the butt fusion cylinder of fixing in the frame, the butt fusion cylinder is fixed with the butt fusion slip table through the piston rod, be fixed with the transducer on the butt fusion slip table, the transducer output is fixed with welder, still be fixed with fixed cylinder on the butt fusion slip table, fixed cylinder is fixed with the line ball piece through the piston rod, still be provided with the terminal used with the line ball piece cooperation on the butt fusion slip table.

3. The iron core material loading winding device that uses on christmas tree emulation leaf of claim 1, characterized in that: the wire winding head is provided with a wire passing groove connected with the wire passing groove, and the tail end of the wire winding head is provided with a wire passing hole through which a plastic wire passes at a position corresponding to the wire passing groove.

4. The iron core material loading winding device that uses on christmas tree emulation leaf of claim 1, characterized in that: the winding motor output is fixed with the action wheel, be fixed with from the driving wheel on the rotation axis, from the driving wheel through hold-in range and aforementioned action wheel wraparound.

5. The iron core material loading winding device that uses on christmas tree emulation leaf of claim 1, characterized in that: and a tidying cylinder is further fixed above the sliding plate, and a tidying rod is fixed on the tidying cylinder through a piston rod.

6. The iron core material loading winding device that uses on christmas tree emulation leaf of claim 1, characterized in that: the support sliding rail is fixed on the support sliding rail, a support sliding block connected with the support sliding rail in a sliding mode is fixed on the support sliding rail, and the guide vane plate and the support sliding block are fixed mutually.

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