CN110973965A - Automatic feeding and winding device for simulated christmas tree leaves - Google Patents

Abstract

The invention relates to the technical field of simulation Christmas tree equipment, in particular to an automatic feeding and winding device for simulation Christmas tree leaves, which comprises a rack, wherein a leaf conveying mechanism and an iron wire distributing and conveying mechanism are respectively fixed on two sides of the upper end surface of the rack, a plastic wire winding mechanism is fixed on the rack between the leaf conveying mechanism and the iron wire distributing and conveying mechanism, a leaf transferring mechanism is fixed on the rack between the plastic wire winding mechanism and the leaf conveying mechanism, a winding and clamping mechanism is fixed on the rack between the plastic wire winding mechanism and the iron wire distributing and conveying mechanism, a plastic wire cutting mechanism is also fixed on the rack on one side of the plastic wire winding mechanism, the leaf conveying mechanism comprises a leaf feeding bottom plate fixed on the rack, and a leaf feeding baffle is fixed on one side of the leaf feeding bottom plate. The artificial tree can be automatically wound together by the plastic wire after the artificial leaves and the iron wires are divided into single parts, and the automatic production of the branches of the Christmas tree is completed.

Description

Automatic feeding and winding device for simulated christmas tree leaves

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of simulation Christmas tree equipment, in particular to an automatic feeding and winding device for simulation Christmas tree leaves.

[ background of the invention ]

The artificial Christmas tree is usually dressed up by using an artificial Christmas tree when the artificial Christmas tree passes through the Christmas day, the artificial Christmas tree is usually assembled by a plurality of artificial Christmas branches, the existing artificial Christmas branches are formed by winding artificial Christmas tree leaves on an iron wire through plastic wires and are manually operated, and the long-time operation can cause the hand to shake and become tingling and aching. And the plastic wire can not be wound tightly by manually winding the plastic wire, and the plastic wire needs to be manually cut off after being wound, so that the working efficiency is very low.

The invention is provided for overcoming the defects of the prior art.

[ summary of the invention ]

The invention aims to overcome the defects of the prior art and provides an automatic feeding and winding device for the simulated christmas tree leaves, which can automatically feed an iron wire and the simulated tree leaves and then automatically wind the iron wire and the simulated christmas tree leaves together through a plastic wire.

The invention can be realized by the following technical scheme:

the invention discloses an automatic feeding and winding device for simulated christmas tree leaves, which comprises a frame, wherein a leaf conveying mechanism and an iron wire distributing and conveying mechanism are respectively fixed on two sides of the upper end surface of the frame, a plastic wire winding mechanism is fixed on the frame between the leaf conveying mechanism and the iron wire distributing and conveying mechanism, a leaf transferring mechanism is fixed on the frame between the plastic wire winding mechanism and the leaf conveying mechanism, a winding and clamping mechanism is fixed on the frame between the plastic wire winding mechanism and the iron wire distributing and conveying mechanism, a plastic wire cutting mechanism is also fixed on the frame on one side of the plastic wire winding mechanism, the leaf conveying mechanism comprises a leaf feeding bottom plate fixed on the frame, a leaf feeding baffle is fixed on one side of the leaf feeding bottom plate, a leaf feeding supporting plate is fixed on the other side of the leaf feeding bottom plate, and a leaf moving device is fixed on the leaf feeding supporting plate, the leaf moving device comprises a guide synchronous belt fixed on a leaf feeding supporting plate, the guide synchronous belt is driven by a guide motor to run, a guide mounting plate is fixed on the guide synchronous belt, a leaf feeding push plate is fixed on the left side of the guide mounting plate, a plurality of leaf feeding push rods are vertically fixed on the lower end face of the leaf feeding push plate, a leaf positioning mechanism is further fixed on one side of the guide mounting plate, the leaf transferring mechanism comprises a branch rotating cylinder fixed on a frame, a branch clamping finger cylinder is fixed at the output end of the branch rotating cylinder, a clamping branch finger is fixed at the output end of the branch clamping finger cylinder, an iron wire distribution conveying mechanism comprises a conveying bottom plate fixed on the frame, conveying supporting plates are symmetrically fixed on the two sides above the conveying bottom plate, a conveying positioning plate is fixed in the middle of the two conveying supporting plates, and a plurality of sliding blocks are further fixed between the two conveying supporting plates, leave the clearance between smooth material piece and the transport locating plate, the transport bottom plate up end still is fixed with the transport cylinder, the transport cylinder is connected with the striker plate of transport locating plate below through the piston rod, be fixed with the transport hold-in range on the end surface that the transport bottom plate is close to leaf conveying mechanism, the transport hold-in range is rotated by conveying motor drive, be fixed with the transport mounting panel on the transport hold-in range, be fixed with the transport finger cylinder on the transport mounting panel, transport finger cylinder output end is fixed with iron wire centre gripping finger, plastics line winding mechanism contains the symmetry and fixes swivel support plate in the frame, two be fixed with the rotation axis that passes swivel support plate and be connected with the swivel support plate rotation on the swivel support plate, the rotation axis passes through the drive of winding motor and rotates, the rotation axis is fixed with the winding head on being, the plastic wire cutting mechanism comprises a cutting moving cylinder fixed on the rack, a cutting connecting plate is fixed at the output end of the cutting moving cylinder, a cutting rotating cylinder is fixed on the cutting connecting plate, a cutting finger cylinder is fixed at the output end of the cutting rotating cylinder, and a finger clamp is fixed at the conveying end of the cutting finger cylinder. Starting a guide motor, driving a guide synchronous belt to rotate by a guide mounting plate on the guide synchronous belt, driving a leaf feeding push plate to move to one side far away from a leaf positioning mechanism, placing a plurality of simulated leaves on a leaf feeding bottom plate, starting the guide motor again, driving the guide synchronous belt to rotate by the guide motor, driving a leaf feeding push rod below the leaf feeding push plate by the leaf feeding push plate fixed on the guide synchronous belt to push the simulated leaves to move to the leaf positioning mechanism, when the simulated leaves are pushed to the position of the leaf positioning mechanism, starting a positioning cylinder, driving a positioning block to move towards the simulated leaves by a piston rod on the positioning cylinder, pushing the simulated leaves to the position of a leaf feeding baffle plate after the positioning block is contacted with the simulated leaves, placing a large number of iron wires on a sliding block between two conveying support plates, moving the iron wires to the position of a baffle plate along with the sliding block, starting a conveying cylinder, driving a magnetic suction plate to enter the bottom of the sliding, because an iron wire conveying groove is formed among the magnetic attraction plate, the material baffle plate, the sliding material block and the conveying positioning plate, and only one iron wire can be accommodated in the iron wire conveying groove and falls into the iron wire conveying groove, after the iron wire is fixed by a magnet fixed at the bottom of the iron wire conveying groove, the conveying cylinder is started again, the piston rod extends, the iron wire moves to the leaf conveying mechanism along with the magnetic attraction plate, the conveying motor drives the conveying mounting plate fixed on the conveying synchronous belt to move, the conveying finger cylinder fixed on the conveying mounting plate moves to the iron wire fixed on the magnetic attraction plate, when the conveying finger cylinder reaches the position of the iron wire, the conveying finger cylinder is started, after the iron wire is clamped and fixed by the iron wire clamping fingers on the conveying finger cylinder, the conveying cylinder is started again, the magnetic attraction plate is separated from the iron wire, the conveying finger cylinder continues to move along with the conveying synchronous belt, the conveying finger cylinder clamps the iron wire to move, after one end of an iron wire is stretched into the rotating shaft, a finger conveying cylinder loosens the iron wire, the other end of the iron wire is fixed above a wire winding clamping finger cylinder, a branch rotating cylinder is started, the branch rotating cylinder drives a branch clamping finger cylinder to rotate 180 degrees along an output shaft of the branch rotating cylinder, the branch clamping finger cylinder reaches a position, close to an artificial leaf, on a leaf conveying bottom plate, the branch clamping finger cylinder is started, clamping branch fingers are mutually folded to clamp the artificial leaf on the outermost side, the branch rotating cylinder is started again after the artificial leaf on the outermost side is clamped by the clamping branch fingers, the branch rotating cylinder drives the branch clamping finger cylinder to rotate 180 degrees in the reverse direction, the branch clamping finger cylinder returns to the initial position, the artificial leaf fixed on the branch clamping finger cylinder reaches the position of the wire winding clamping finger cylinder, the wire winding clamping finger cylinder is started, the iron wire and the, the branch clamping finger cylinder is started, branch clamping fingers are separated from the simulated leaves, the conveying finger cylinder is started again, the iron wire clamping fingers clamp the fixed leaves and the iron wire, the winding motor is started, the rotating shaft rotates, the winding head fixed on the rotating shaft rotates along with the rotating shaft, the plastic wire penetrating through the winding head rotates along with the winding head, the plastic wire is wound on the surface of the contact position of the iron wire and the simulated leaves after contacting with the iron wire and the simulated leaves, the conveying motor drives the conveying finger cylinder to move back and forth, the plastic wire can be uniformly wound on the surface of the contact position of the iron wire and the simulated leaves, after multiple layers of winding, the conveying motor and the winding motor are stopped, the cutting moving cylinder is started, the cutting moving cylinder piston rod pushes the cutting rotating cylinder fixed on the cutting connecting plate to move, and the cutting moving cylinder stops after reaching the designated position, starting a cutting rotary cylinder, enabling a cutting finger cylinder fixed on the cutting rotary cylinder to rotate 180 degrees along with an output shaft of the cutting rotary cylinder, enabling a finger clamp of the cutting finger cylinder to reach a contact position of a plastic wire, an iron wire and simulation leaves, starting the cutting finger cylinder, cutting the plastic wire by the finger clamp on the cutting finger cylinder, starting the cutting finger cylinder, enabling the finger clamps on the cutting finger cylinder to be mutually separated, starting the cutting rotary cylinder, driving the cutting rotary cylinder to drive the cutting finger cylinder to return to an initial position, starting a cutting movable cylinder, driving the cutting rotary cylinder to return to the initial position, starting a conveying finger cylinder, separating iron wire clamping fingers from the simulation leaves and the iron wire, starting a conveying motor, driving the conveying finger cylinder to return to the initial position, starting a winding clamping finger cylinder, separating the clamping cylinder fingers from the simulation leaves after the iron wire is fixed, the emulation leaf behind the fixed iron wire is because self gravity, in the collecting box of frame below drops, the fixed demand of all emulation leaves and iron wire can be accomplished in the circulation operation to the fixed back of emulation leaf and iron wire, the even winding of contact position of emulation leaf and iron wire has the multilayer plastic wire, and the emulation leaf is fixed firmly with the iron wire.

Preferably, leaf positioning mechanism contains the location cylinder of fixing in the frame, the location cylinder passes through the left locating piece of piston rod fixed connection location cylinder.

Preferably, the upper end face of the sliding block is obliquely arranged. The iron wire conveying groove can be guided into with the iron wire to the slope of smooth material piece up end.

Preferably, the conveying cylinder is connected with a magnetic attraction plate through a piston rod, the magnetic attraction plate is fixedly connected with a material baffle plate below the conveying positioning plate, and a plurality of magnets are further fixed at the contact positions of the upper end surface of the magnetic attraction plate and the material baffle plate. Through the attraction of magnet to the iron wire, can effectively fix the iron wire on the board that attracts magnetism.

Preferably, a driven fluted disc is fixed on the rotating shaft, a winding motor is fixed on the rack, a driving fluted disc is fixed on the winding motor through a rotating shaft, and the driving fluted disc is connected with the driven fluted disc through a winding synchronous belt.

Preferably, a plurality of wire passing holes through which the plastic wires pass are formed in the end surface of the winding wire. The plastic wire passes through the wire passing hole and then contacts with the iron wire and the simulation leaves, so that the plastic wire can be ensured to rotate along with the winding head.

Preferably, the winding clamping mechanism comprises a clamping slide rail fixed on the rack, a clamping slide block connected with the clamping slide rail in a sliding manner is fixed on the clamping slide rail, a winding clamping finger cylinder is vertically fixed on the clamping slide block, and a clamping cylinder finger is fixed at the output end of the winding clamping finger cylinder. When fixing iron wire and emulation leaf through the plastic wire, carry the finger cylinder with iron wire and emulation leaf centre gripping fixed back, carry the finger cylinder back-and-forth movement by the drive of conveying motor, wire winding centre gripping finger cylinder fixes the iron wire and the centre gripping of emulation leaf back, and wire winding centre gripping finger cylinder slides around the centre gripping slide rail.

Compared with the prior art, the invention has the following advantages:

1. the artificial tree can be automatically wound together by the plastic wire after the artificial leaves and the iron wires are divided into single parts, and the automatic production of the branches of the Christmas tree is completed.

2. After the emulation leaf is fixed with the iron wire, the even winding of contact position of emulation leaf and iron wire has the multilayer plastic wire, and the emulation leaf is fixed firm with the iron wire, can effectively wind the plastic wire tightly.

3. The artificial tree leaves can be conveyed to the position of the plastic wire winding mechanism after being divided into single parts through the leaf conveying mechanism and the leaf transferring mechanism, manual separation and carrying are not needed, and the production efficiency of the Christmas tree branches is greatly improved and the labor cost is reduced.

4. The iron wire can be automatically separated into a single piece through the iron wire separating and conveying mechanism and then conveyed to the position of the plastic wire winding mechanism, manual separation and carrying are not needed, and therefore the production efficiency of the Christmas tree branches is greatly improved, and the labor cost is reduced.

5. The plastic wire winding mechanism can automatically wind the iron wire and the simulation leaves without manual winding, thereby greatly improving the production efficiency of the Christmas tree branches and reducing the labor cost.

6. The plastic wire cutting mechanism can separate the plastic wire from the simulation leaves with the fixed iron wire, the plastic wire does not need to be cut off manually, and therefore production efficiency of the Christmas tree branches is greatly improved, and labor cost is reduced.

[ description of the drawings ]

The following detailed description of embodiments of the invention is provided in conjunction with the appended drawings, in which:

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

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is an exploded view of the present invention;

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

FIG. 5 is a schematic structural view of an iron wire distributing and conveying mechanism according to the present invention;

FIG. 6 is a schematic structural view of an iron wire distributing and conveying mechanism according to the present invention;

FIG. 7 is an exploded view of the iron wire distributing and conveying mechanism of the present invention;

FIG. 8 is an enlarged view taken at A in FIG. 2;

FIG. 9 is a schematic structural view of the leaf conveying mechanism of the present invention;

FIG. 10 is a schematic view of the leaf moving device according to the present invention;

FIG. 11 is a schematic structural view of a plastic wire cutting mechanism according to the present invention;

FIG. 12 is a schematic view of the winding clamping mechanism of the present invention;

FIG. 13 is a schematic structural view of the leaf transferring mechanism of the present invention;

in the figure: 1. a frame; 2. a leaf conveying mechanism; 212. a leaf feeding supporting plate; 218. a leaf feeding bottom plate; 219. a leaf feeding baffle; 220. a material guide synchronous belt; 221. a material guiding mounting plate; 222. a material guiding motor; 223. a leaf feeding push plate; 224. a leaf feeding push rod; 225. positioning the air cylinder; 226. positioning blocks; 3. simulating leaves; 4. a leaf transfer mechanism; 401. a branch rotating cylinder; 402. a branch clamping finger cylinder; 403. clamping the fingers of the tree branches; 5. a plastic wire cutting mechanism; 501. cutting off the movable cylinder; 502. cutting off the rotary cylinder; 503. cutting off the connecting plate; 504. cutting off the finger cylinder; 505. finger clamps; 6. an iron wire distributing and conveying mechanism; 601. a conveying bottom plate; 602. conveying the supporting plate; 603. conveying a positioning plate; 604. a sliding material block; 605. a conveying cylinder; 606. a striker plate; 607. a magnetic attraction plate; 608. a magnet; 609. conveying a synchronous belt; 610. a conveying motor; 611. conveying the mounting plate; 612. a finger conveying cylinder; 613. clamping fingers by using iron wires; 7. a plastic wire winding mechanism; 701. rotating the support plate; 702. a rotating shaft; 703. a winding head; 704. a wire passing hole; 705. a winding motor; 706. a driving fluted disc; 707. a driven fluted disc; 708. winding a synchronous belt; 8. winding and clamping mechanisms; 801. clamping the slide rail; 802. clamping the sliding block; 803. a winding clamping finger cylinder; 804. clamping the cylinder fingers;

[ detailed description ] embodiments

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

as shown in fig. 1 to 13, the invention discloses an automatic feeding and winding device for artificial christmas tree leaves, comprising a frame 1, a leaf conveying mechanism 2 and an iron wire separating and conveying mechanism 6 are respectively fixed on two sides of the upper end surface of the frame 1, a plastic wire winding mechanism 7 is fixed on the frame 1 between the leaf conveying mechanism 2 and the iron wire separating and conveying mechanism 6, a leaf transferring mechanism 4 is fixed on the frame 1 between the plastic wire winding mechanism 7 and the leaf conveying mechanism 2, a winding and clamping mechanism 8 is fixed on the frame 1 between the plastic wire winding mechanism 7 and the iron wire separating and conveying mechanism 6, a plastic wire cutting mechanism 5 is fixed on the frame 1 on one side of the plastic wire winding mechanism 7, the leaf conveying mechanism 2 comprises a leaf feeding bottom plate 218 fixed on the frame 1, a leaf feeding baffle 219 is fixed on one side of the leaf feeding bottom plate 218, a leaf feeding support plate 212 is fixed on the other side of the leaf feeding bottom plate 218, a leaf moving device is fixed on the leaf feeding supporting plate 212 and comprises a guide synchronous belt 220 fixed on the leaf feeding supporting plate 212, the guide synchronous belt 220 is driven by a guide motor 222 to run, a guide mounting plate 221 is fixed on the guide synchronous belt 220, a leaf feeding push plate 223 is fixed on the left side of the guide mounting plate 221, a plurality of leaf feeding push rods 224 are vertically fixed on the lower end face of the leaf feeding push plate 223, a leaf positioning mechanism is also fixed on one side of the guide mounting plate 221, the leaf transferring mechanism 4 comprises a branch rotating cylinder 401 fixed on the frame 1, a branch clamping finger cylinder 402 is fixed at the output end of the branch rotating cylinder 401, a branch clamping finger 403 is fixed at the output end of the branch clamping finger cylinder 402, an iron wire distributing and conveying mechanism 6 comprises a conveying bottom plate 601 fixed on the frame 1, conveying supporting plates 602 are symmetrically fixed on two sides above the conveying bottom plate 601, a conveying positioning plate 603 is fixed between the two conveying, a plurality of sliding blocks 604 are fixed between the two conveying support plates 602, a gap is left between the sliding blocks 604 and the conveying positioning plate 603, a conveying cylinder 605 is fixed on the upper end surface of the conveying bottom plate 601, the conveying cylinder 605 is connected with a material baffle plate 606 below the conveying positioning plate 603 through a piston rod, a conveying synchronous belt 609 is fixed on the end surface of the conveying bottom plate 601 close to the leaf conveying mechanism 2, the conveying synchronous belt 609 is driven to rotate by a conveying motor 610, a conveying mounting plate 611 is fixed on the conveying synchronous belt 609, a conveying finger cylinder 612 is fixed on the conveying mounting plate 611, an iron wire clamping finger 613 is fixed at the output end of the conveying finger cylinder 612, the plastic wire winding mechanism 7 comprises rotary support plates 701 symmetrically fixed on the frame 1, rotary shafts 702 penetrating through the rotary support plates 701 and rotationally connected with the rotary support plates 701 are fixed on the two rotary support plates 701, the rotary shafts 702, a winding head 703 is fixed to the end face of the rotary shaft 702 close to the leaf conveying mechanism 2, the plastic wire cutting mechanism 5 includes a cutting moving cylinder 501 fixed to the frame 1, a cutting connecting plate 503 is fixed to the output end of the cutting moving cylinder 501, a cutting rotary cylinder 502 is fixed to the cutting connecting plate 503, a cutting finger cylinder 504 is fixed to the output end of the cutting rotary cylinder 502, and a finger clamp 505 is fixed to the conveying end of the cutting finger cylinder 504. Starting the material guiding motor 222, driving the material guiding synchronous belt 220 to rotate by the material guiding motor 222, driving the leaf feeding push plate 223 to move to one side far away from the leaf positioning mechanism by the material guiding installation plate 221 on the material guiding synchronous belt 220, placing a plurality of simulated leaves 3 on the leaf feeding bottom plate 218, starting the material guiding motor 222 again, driving the material guiding synchronous belt 220 to rotate by the material guiding motor 222, driving the leaf feeding push plate 223 fixed on the material guiding synchronous belt 220 to drive the leaf feeding push rod 224 below the leaf feeding push plate 223 to push the simulated leaves 3 to move towards the leaf positioning mechanism, when the simulated leaves 3 are pushed to the position of the leaf positioning mechanism, starting the positioning cylinder 225, driving the positioning block 226 to move towards the simulated leaves 3 by the piston rod on the positioning cylinder 225, pushing the simulated leaves 3 to the position of the leaf feeding baffle 219 after the positioning block 226 is contacted with the simulated leaves 3, placing a large number of iron wires on the sliding block, the iron wire moves to the position of the material baffle 606 along with the sliding block 604, the conveying cylinder 605 is started, the conveying cylinder 605 drives the magnetic absorption plate 607 to enter the bottom of the sliding block 604 through the piston rod, as the iron wire conveying groove is formed among the magnetic absorption plate 607, the material baffle 606, the sliding block 604 and the conveying positioning plate 603, and only one iron wire can be contained in the iron wire conveying groove and fall into the iron wire conveying groove, the iron wire falls into the iron wire conveying groove, after the iron wire is fixed through the magnet 608 fixed at the bottom of the iron wire conveying groove, the conveying cylinder 605 is started again, the piston rod extends, the iron wire moves to the leaf conveying mechanism 2 along with the magnetic absorption plate 607, the conveying motor 610 drives the conveying mounting plate 611 fixed on the conveying synchronous belt 609 to move, the conveying finger cylinder 612 fixed on the conveying mounting plate 611 moves to the iron wire fixed on the magnetic absorption plate 607, when the conveying finger cylinder 612 reaches the position of the iron wire, the conveying finger cylinder 612 is started, after the iron wire is clamped and fixed by the iron wire clamping fingers 613 on the conveying finger cylinder 612, the conveying cylinder 605 is started again, the magnetic absorption plate 607 is separated from the iron wire, the conveying finger cylinder 612 continues to move along with the conveying synchronous belt 609, the conveying finger cylinder 612 clamps the iron wire and moves, after one end of the iron wire extends into the rotating shaft 702, the conveying finger cylinder 612 releases the iron wire, the other end of the iron wire is fixed above the winding clamping finger cylinder 803, the branch rotating cylinder 401 is started, the branch rotating cylinder 401 drives the branch clamping finger cylinder 402 to rotate 180 degrees along the output shaft of the branch rotating cylinder 401, the branch clamping finger cylinder 402 reaches the position, close to the simulated leaves 3, on the leaf conveying bottom plate 218, the branch clamping finger cylinder 402 is started, the clamping branch fingers 403 are mutually folded to clamp the simulated leaves 3 on the outermost side, the simulated leaves 3 on the outermost side are clamped by the clamping, the tree branch rotating cylinder 401 is started again, the tree branch rotating cylinder 401 drives the tree branch clamping finger cylinder 402 to rotate 180 degrees in the reverse direction, the tree branch clamping finger cylinder 402 returns to the initial position, the simulation tree leaves 3 fixed on the tree branch clamping finger cylinder 402 reach the position of the winding clamping finger cylinder 803, the winding clamping finger cylinder 803 is started, after the iron wires and the simulation tree leaves 3 are fixed, the tree branch clamping finger cylinder 402 is started, the tree branch clamping fingers 403 are separated from the simulation tree leaves 3, the conveying finger cylinder 612 is started again, the iron wire clamping fingers 613 clamps 505 take the fixed tree leaves and the iron wires, the winding motor 705 is started, the rotating shaft 702 rotates, the winding head 703 fixed on the rotating shaft 702 rotates along with the rotating shaft 702, the plastic wires penetrating through the winding head 703 rotate along with the winding head 703, the plastic wires are wound on the surfaces of the contact positions of the iron wires and the simulation tree leaves 3 after being contacted with the, the conveying motor 610 drives the conveying finger cylinder 612 to move back and forth, plastic wires can be uniformly wound on the surface of the contact position of the iron wires and the simulated leaves 3, after multiple layers are wound, the conveying motor 610 and the winding motor 705 are stopped, the cutting moving cylinder 501 is started, the piston rod of the cutting moving cylinder 501 pushes the cutting rotating cylinder 502 fixed on the cutting connecting plate 503 to move, the cutting moving cylinder 501 stops after the cutting rotating cylinder 502 reaches the designated position, the cutting rotating cylinder 502 is started, the cutting finger cylinder 504 fixed on the cutting rotating cylinder 502 rotates 180 degrees along with the output shaft of the cutting rotating cylinder 502, the finger clamp 505 of the cutting finger cylinder 504 reaches the contact position of the plastic wires and the iron wires and the simulated leaves 3, the cutting finger cylinder 504 is started, the finger clamp 505 on the cutting finger cylinder 504 cuts the plastic wires, the cutting finger cylinder 504 is started again, the finger clamps 505 on the cutting finger cylinder 504 are separated from each other, the cutting rotary cylinder 502 is started, the cutting rotary cylinder 502 drives the cutting finger cylinder 504 to return to the initial position, the cutting moving cylinder 501 is started, the cutting moving cylinder 501 drives the cutting rotary cylinder 502 to return to the initial position, the conveying finger cylinder 612 is started, the iron wire clamping fingers 613 are separated from the simulation leaves 3 and the iron wire, the conveying motor 610 is started, the conveying motor 610 drives the conveying finger cylinder 612 to return to the initial position, the winding clamping finger cylinder 803 is started, the clamping cylinder fingers 804 are separated from the simulation leaves 3 after the iron wire is fixed, the simulation leaves 3 after the iron wire is fixed fall into a collecting box below the rack 1 due to self gravity, the circulation operation is carried out, and the fixing requirements of all the simulation leaves 3 and the iron wire can be completed, and emulation leaf 3 is fixed back with the iron wire, and the even winding of contact position of emulation leaf 3 and iron wire has the multilayer plastic wire, and emulation leaf 3 is fixed firmly with the iron wire.

The leaf positioning mechanism comprises a positioning cylinder 225 fixed on the frame 1, and the positioning cylinder 225 is fixedly connected with a positioning block 226 on the left side of the positioning cylinder 225 through a piston rod.

Wherein, the upper end face of the sliding block 604 is obliquely arranged. The upper end face of the slider block 604 is inclined to guide the iron wire into the wire conveying groove.

Wherein, the conveying cylinder 605 is connected with a magnetic absorption plate 607 through a piston rod, the magnetic absorption plate 607 is fixedly connected with a material baffle 606 below the conveying positioning plate 603, and a plurality of magnets 608 are further fixed at the contact position of the upper end surface of the magnetic absorption plate 607 and the material baffle 606. The iron wire can be effectively fixed to the magnetic attraction plate 607 by attracting the iron wire by the magnet 608.

A driven fluted disc 707 is fixed on the rotating shaft 702, a winding motor 705 is fixed on the frame 1, a driving fluted disc 706 is fixed on the winding motor 705 through a rotating shaft, and the driving fluted disc 706 is connected with the driven fluted disc 707 through a winding synchronous belt 708.

The end face of the winding head 703 is provided with a plurality of wire passing holes 704 through which plastic wires pass. After passing through the wire passing hole 704, the plastic wire is in contact with the iron wire and the simulated leaves 3, so that the plastic wire can be ensured to rotate along with the wire winding head 703.

The winding clamping mechanism 8 includes a clamping slide rail 801 fixed on the rack 1, a clamping slide block 802 fixed on the clamping slide rail 801 and slidably connected to the clamping slide rail 801, a winding clamping finger cylinder 803 vertically fixed on the clamping slide block 802, and a clamping cylinder finger 804 fixed at an output end of the winding clamping finger cylinder 803. When fixing iron wire and emulation leaf 3 through the plastic wire, carry finger cylinder 612 with iron wire and emulation leaf 3 centre gripping fixed back, carry finger cylinder 612 back-and-forth movement by conveying motor 610 drive, after wire winding centre gripping finger cylinder 803 is fixed iron wire and emulation leaf 3 centre gripping, wire winding centre gripping finger cylinder 803 slides around centre gripping slide rail 801.

The above description is only a preferred embodiment of the present invention, and it should be noted that a person skilled in the art can make various changes, modifications, substitutions and alterations to the embodiments without departing from the technical principles of the present invention, and such changes, modifications, substitutions and alterations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a emulation christmas tree leaf autoloading coiling mechanism, contains the frame, its characterized in that: the utility model discloses a leaf feeding machine, including frame, leaf conveying mechanism, plastic wire winding mechanism, leaf conveying mechanism, plastic wire cutting mechanism, leaf conveying baffle, leaf conveying bottom plate, leaf conveying supporting plate, leaf conveying device, leaf conveying synchronous belt, leaf conveying mechanism, leaf conveying baffle, leaf conveying supporting plate, leaf conveying mechanism, leaf conveying synchronous belt, leaf conveying mechanism, the guide synchronous belt is driven to run by a guide motor, a guide mounting plate is fixed on the guide synchronous belt, a leaf feeding push plate is fixed on the left side of the guide mounting plate, a plurality of leaf feeding push rods are vertically fixed on the lower end face of the leaf feeding push plate, a leaf positioning mechanism is further fixed on one side of the guide mounting plate, the leaf transferring mechanism comprises a branch rotating cylinder fixed on a rack, a branch clamping finger cylinder is fixed at the output end of the branch rotating cylinder, a clamping branch finger is fixed at the output end of the branch clamping finger cylinder, the iron wire distribution conveying mechanism comprises a conveying bottom plate fixed on the rack, conveying supporting plates are symmetrically fixed on two sides above the conveying bottom plate, a conveying positioning plate is fixed in the middle of the two conveying supporting plates, a plurality of sliding blocks are further fixed between the two conveying supporting plates, and gaps are reserved between the sliding blocks and the conveying positioning plate, the conveying bottom plate up end still is fixed with the conveying cylinder, the conveying cylinder is connected with the striker plate of conveying locating plate below through the piston rod, be fixed with the conveying hold-in range on the conveying bottom plate is close to leaf conveying mechanism's the terminal surface, the conveying hold-in range is rotated by conveying motor drive, be fixed with the transport mounting panel on the conveying hold-in range, be fixed with the conveying finger cylinder on the transport mounting panel, conveying finger cylinder output end is fixed with iron wire centre gripping finger, plastics line winding mechanism contains the symmetry and fixes the swivel support plate in the frame, two be fixed with the rotation axis that passes the swivel support plate and be connected with the swivel support plate rotation in the swivel support plate, the rotation axis passes through wire winding motor drive and rotates, be fixed with the wire winding head on the terminal surface that the rotation axis is close to leaf conveying mechanism, plastics line shutdown, the cutting device is characterized in that a cutting connecting plate is fixed to the output end of the cutting moving cylinder, a cutting rotating cylinder is fixed to the cutting connecting plate, a cutting finger cylinder is fixed to the output end of the cutting rotating cylinder, and a finger clamp is fixed to the conveying end of the cutting finger cylinder.

2. The automatic feeding and winding device for the simulated christmas tree leaves as claimed in claim 1, wherein: leaf positioning mechanism contains fixes the location cylinder in the frame, the location cylinder passes through the left locating piece of piston rod fixed connection location cylinder.

3. The automatic feeding and winding device for the simulated christmas tree leaves as claimed in claim 1, wherein: the upper end face of the sliding block is obliquely arranged.

4. The automatic feeding and winding device for the simulated christmas tree leaves as claimed in claim 1, wherein: the conveying cylinder is connected with a magnetic attraction plate through a piston rod, the magnetic attraction plate is fixedly connected with a material baffle plate below the conveying positioning plate, and a plurality of magnets are further fixed at the contact positions of the upper end surface of the magnetic attraction plate and the material baffle plate.

5. The automatic feeding and winding device for the simulated christmas tree leaves as claimed in claim 1, wherein: the winding machine is characterized in that a driven fluted disc is fixed on the rotating shaft, a winding motor is fixed on the frame, a driving fluted disc is fixed on the winding motor through a rotating shaft, and the driving fluted disc is connected with the driven fluted disc through a winding synchronous belt.

6. The automatic feeding and winding device for the simulated christmas tree leaves as claimed in claim 1, wherein: and a plurality of wire passing holes through which plastic wires pass are arranged on the end surface of the winding wire.

7. The automatic feeding and winding device for the simulated christmas tree leaves as claimed in claim 1, wherein: the winding clamping mechanism comprises a clamping slide rail fixed on the rack, a clamping slide block connected with the clamping slide rail in a sliding mode is fixed on the clamping slide rail, a winding clamping finger cylinder is vertically fixed on the clamping slide block, and a clamping cylinder finger is fixed at the output end of the winding clamping finger cylinder.

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