CN211185991U - Iron wire autoloading winding device - Google Patents

Iron wire autoloading winding device Download PDF

Info

Publication number
CN211185991U
CN211185991U CN201922133305.0U CN201922133305U CN211185991U CN 211185991 U CN211185991 U CN 211185991U CN 201922133305 U CN201922133305 U CN 201922133305U CN 211185991 U CN211185991 U CN 211185991U
Authority
CN
China
Prior art keywords
fixed
conveying
winding
iron wire
clamping
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201922133305.0U
Other languages
Chinese (zh)
Inventor
廖胜明
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ganzhou Dongfeng Automation Equipment Co ltd
Original Assignee
Ganzhou Dongfeng Automation Equipment Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ganzhou Dongfeng Automation Equipment Co ltd filed Critical Ganzhou Dongfeng Automation Equipment Co ltd
Priority to CN201922133305.0U priority Critical patent/CN211185991U/en
Application granted granted Critical
Publication of CN211185991U publication Critical patent/CN211185991U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Abstract

The utility model relates to an emulation christmas tree equipment technical field especially relates to an iron wire autoloading winding device, contains the frame, frame up end both sides are fixed with iron wire branch material conveying mechanism and leaf transfer mechanism respectively, be fixed with winding fixture in the frame between leaf transfer mechanism and the iron wire branch material conveying mechanism, winding fixture keeps away from the frame of iron wire branch material conveying mechanism one side and is fixed with plastic line winding mechanism, winding fixture contains the centre gripping slide rail of fixing in the frame, be fixed with the grip block with centre gripping slide rail sliding connection on the centre gripping slide rail, the vertical wire winding centre gripping finger cylinder that is fixed with on the grip block, wire winding centre gripping finger cylinder output end is fixed with the centre gripping cylinder finger, leaf transfer mechanism contains the branch revolving cylinder of fixing in the frame. The wire can be automatically divided into a single wire and then wound together with the simulation leaves by the plastic wire, and the automatic production of the branches of the Christmas tree is completed.

Description

Iron wire autoloading winding device
[ 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 iron wire feeding and winding device.
[ background of the invention ]
The artificial Christmas tree is usually dressed up by using the artificial Christmas tree when the artificial Christmas tree goes 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 operated manually, the long-time operation can cause the hand to shake and become tingling and aching, and 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 iron wire feeding and winding device which can automatically feed an iron wire and simulated leaves and then automatically wind the iron wire and the simulated leaves of a christmas tree together through a plastic wire.
The invention can be realized by the following technical scheme:
the invention discloses an automatic iron wire feeding and winding device, which comprises a frame, wherein an iron wire distributing and conveying mechanism and a leaf transferring mechanism are respectively fixed on two sides of the upper end surface of the frame, a winding and clamping mechanism is fixed on the frame between the leaf transferring mechanism and the iron wire distributing and conveying mechanism, a plastic wire winding mechanism is fixed on the frame at one side of the winding and clamping mechanism, which is far away from the iron wire distributing and conveying mechanism, the winding and clamping mechanism comprises a clamping slide rail fixed on the frame, a clamping slide block connected with the clamping slide rail in a sliding manner is fixed on the clamping slide rail, a winding and clamping finger cylinder is vertically fixed on the clamping slide block, a clamping cylinder finger is fixed at the output end of the winding and clamping finger cylinder, the leaf transferring mechanism comprises a branch rotating cylinder fixed on the frame, and a branch clamping finger cylinder is fixed at the output end of the branch rotating cylinder, the branch clamping finger cylinder output end is fixed with a branch clamping finger, the iron wire distributing and conveying mechanism comprises a conveying bottom plate fixed on a frame, conveying support 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 support plates, a plurality of sliding blocks are fixed between the two conveying support plates, a gap is reserved between each sliding block and each conveying positioning plate, a conveying cylinder is fixed on the upper end surface of the conveying bottom plate, the conveying cylinder is connected with a material blocking plate below each conveying positioning plate through a piston rod, a conveying synchronous belt is fixed on the end surface of the conveying bottom plate close to the winding clamping mechanism and driven to rotate by a conveying motor, a conveying mounting plate is fixed on each conveying synchronous belt, a conveying finger cylinder is fixed on each conveying mounting plate, an iron wire clamping finger is fixed at the output end of each conveying finger cylinder, the plastic wire winding mechanism comprises two rotating support plates which are symmetrically fixed on the rack, rotating shafts which penetrate through the rotating support plates and are rotatably connected with the rotating support plates are fixed on the two rotating support plates, the rotating shafts are driven to rotate through a winding motor, and winding heads are fixed on the end faces, close to the winding clamping mechanism, of the rotating shafts. A large number of iron wires are placed on a sliding block between two conveying support plates, the iron wires move to the position of a material baffle along with the sliding block, a conveying cylinder is started, the conveying cylinder drives a magnetic absorption plate to enter the bottom of the sliding block through a piston rod, an iron wire conveying groove is formed among the magnetic absorption plate, the material baffle, the sliding block and a conveying positioning plate, only one iron wire can be contained in the iron wire conveying groove and falls into the iron wire conveying groove, the conveying cylinder is started again after the iron wires are fixed through a magnet fixed at the bottom of the iron wire conveying groove, the piston rod extends, the iron wires move to a winding clamping mechanism along with the magnetic absorption plate, a conveying motor drives a conveying mounting plate fixed on a conveying synchronous belt to move, a conveying finger cylinder fixed on the conveying mounting plate moves towards the iron wires fixed on the magnetic absorption plate, and when the conveying finger cylinder reaches the position of the iron wires, the conveying finger cylinder is started, after an iron wire clamping finger on the conveying finger cylinder clamps and fixes an iron wire, the conveying cylinder is started again, the magnetic absorption 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, one end of the iron wire stretches into the inside of the rotating shaft, the conveying finger cylinder loosens the iron wire, the other end of the iron wire is fixed above the winding clamping finger cylinder, the branch rotating cylinder is started, the branch rotating cylinder drives the branch clamping finger cylinder to rotate 180 degrees along the output shaft of the branch rotating cylinder, the branch clamping finger cylinder reaches the position close to the simulated leaves in the material box, the branch clamping finger cylinder is started, the branch clamping fingers are mutually folded to clamp the simulated leaves at the outermost side, the branch rotating cylinder is started again after the simulated leaves at the outermost side are clamped by the branch clamping finger, the branch rotating cylinder drives the branch clamping finger cylinder, the tree branch clamping finger cylinder returns to the initial position, the simulation leaves fixed on the tree branch clamping finger cylinder reach the position of the winding clamping finger cylinder, the winding clamping finger cylinder is started, after the iron wire is fixed with the simulation leaves, the tree branch clamping finger cylinder is started, the clamping cylinder fingers are separated from the simulation 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, after the plastic wire is contacted with the iron wire and the simulation leaves, the plastic wire is wound on the surface of the contact position of the iron wire and the simulation leaves, the conveying finger cylinder is driven by the conveying motor 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 simulation leaves, conveying motor and wire winding motor stop, cut the plastic wire, carry the finger cylinder to start, iron wire centre gripping finger and emulation leaf and iron wire separation, conveying motor starts, conveying motor drives and carries the finger cylinder to get back to initial position, wire winding centre gripping finger cylinder starts, the emulation leaf separation after centre gripping cylinder finger and the fixed iron wire, emulation leaf after the fixed iron wire is because self gravity, drop in the collecting box of frame below, the circulation operation, can accomplish the fixed demand of all emulation leaves and iron wire, and after 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, the emulation leaf is fixed firm with the iron wire.
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.
Compared with the prior art, the invention has the following advantages:
1. the wire can be automatically divided into a single wire and then wound together with the simulation leaves by the plastic wire, 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 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.
4. 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.
[ 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 an exploded view of the present invention;
FIG. 3 is a schematic structural view of a winding and clamping mechanism according to the present invention;
FIG. 4 is a schematic structural view of an iron wire distributing and conveying mechanism according to 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 an exploded view of the iron wire distributing and conveying mechanism of the present invention;
FIG. 7 is a schematic structural view of a plastic wire winding mechanism of the present invention;
FIG. 8 is a schematic structural view of the leaf transferring mechanism of the present invention;
FIG. 9 is a schematic structural view of a plastic wire winding mechanism of the present invention;
in the figure: 1. a frame; 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; 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 9, the invention discloses an automatic feeding and winding device for iron wires, comprising a frame 1, wherein an iron wire distributing and conveying mechanism 6 and a leaf transferring mechanism 4 are respectively fixed on two sides of the upper end surface of the frame 1, a winding and clamping mechanism 8 is fixed on the frame 1 between the leaf transferring mechanism 4 and the iron wire distributing and conveying mechanism 6, a plastic wire winding mechanism 7 is fixed on the frame 1 at one side of the winding and clamping mechanism 8 far away from the iron wire distributing and conveying mechanism 6, the winding and clamping mechanism 8 comprises a clamping slide rail 801 fixed on the frame 1, a clamping slide block 802 slidably connected with the clamping slide rail 801 is fixed on the clamping slide rail 801, a winding and clamping finger cylinder 803 is vertically fixed on the clamping slide block 802, a clamping cylinder finger 804 is fixed on the output end of the winding and clamping finger cylinder 803, the leaf transferring mechanism 4 comprises a branch rotating cylinder 401 fixed on the frame 1, a branch clamping finger cylinder 402 is fixed on the output end of the branch rotating cylinder, the output end of the branch clamping finger cylinder 402 is fixed with a branch clamping finger 403, the iron wire distributing and conveying mechanism 6 comprises a conveying bottom plate 601 fixed on the frame 1, conveying support plates 602 are symmetrically fixed on both sides above the conveying bottom plate 601, a conveying positioning plate 603 is fixed in the middle of the two conveying support plates 602, 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 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 winding clamping mechanism 8, 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, 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 rotatably connected with the rotary support plates 701 are fixed on the two rotary support plates 701, the rotary shafts 702 are driven to rotate by a winding motor 705, and winding heads 703 are fixed on the end faces, close to the winding clamping mechanism, of the rotary shafts 702. A large number of iron wires are placed on the sliding block 604 between the two conveying support plates 602, the iron wires move to the position of the material baffle plate 606 along with the sliding block 604, the conveying cylinder 605 is started, the conveying cylinder 605 drives the magnetic attraction plate 607 to enter the bottom of the sliding block 604 through the piston rod, as an iron wire conveying groove is formed among the magnetic attraction plate 607, the material baffle plate 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, after the iron wires are 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 wires move to the winding clamping mechanism 8 along with the magnetic attraction 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 wires fixed on the magnetic attraction plate 607, when the conveying finger cylinder 612 reaches the position of the iron wire, the conveying finger cylinder 612 is started, the iron wire clamping fingers 613 on the conveying finger cylinder 612 clamp and fix the iron wire, 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 to move, after one end of the iron wire is inserted 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 in the material box (not shown), the branch clamping finger cylinder 402 is started, and the clamping fingers 403 are mutually folded to clamp the simulated leaves 3 at the outermost side, after the simulation tree leaves 3 at the outermost side are clamped by the tree clamping fingers 403, the tree rotating cylinder 401 is started again, the tree rotating cylinder 401 drives the tree clamping finger cylinder 402 to rotate 180 degrees in the reverse direction, the tree clamping finger cylinder 402 returns to the initial position, the simulation tree leaves 3 fixed on the tree 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 clamping finger cylinder is started, the clamping cylinder fingers 804 are separated from the simulation tree leaves 3, the conveying finger cylinder 612 is started again, the iron wire clamping fingers 613 clamp 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 rotate along with the winding head 703, and the plastic wires contact with the iron wires and the simulation tree leaves 3, the plastic wire is wound on the surface of the contact position of the iron wire and the simulated leaves 3, the conveying motor 610 drives the conveying finger cylinder 612 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 3, after multiple layers are wound, the conveying motor 610 and the winding motor 705 are stopped, the plastic wire is cut off, the conveying finger cylinder 612 is started, the iron wire clamping finger 613 is separated from the simulated 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 finger 804 is separated from the simulated leaves 3 after the iron wire is fixed, the simulated leaves 3 after the iron wire is fixed fall into a collecting box below the rack 1 due to self gravity, the circulation operation can be completed, the fixing requirements of all the simulated leaves 3 and the iron wire can be met, and after the simulated leaves 3 are fixed, the contact position of emulation leaf 3 and iron wire has evenly twined the multilayer plastic wire, and emulation leaf 3 is fixed firmly with the iron wire.
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 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 (5)

1. The utility model provides an iron wire autoloading winding device, contains the frame, its characterized in that: an iron wire distributing and conveying mechanism and a leaf transferring mechanism are respectively fixed on two sides of the upper end face of the rack, a winding clamping mechanism is fixed on the rack between the leaf transferring mechanism and the iron wire distributing and conveying mechanism, a plastic wire winding mechanism is fixed on the rack on one side, away from the iron wire distributing and conveying mechanism, of the winding clamping mechanism, the winding clamping mechanism comprises a clamping slide rail fixed on the rack, a clamping slide block in sliding connection with the clamping slide rail is fixed on the clamping slide rail, a winding clamping finger cylinder is vertically fixed on the clamping slide block, clamping cylinder fingers are fixed at the output end of the winding clamping finger cylinder, the leaf transferring mechanism comprises a branch rotating cylinder fixed on the rack, a branch clamping finger cylinder is fixed at the output end of the branch rotating cylinder, a branch clamping finger cylinder is fixed at the output end of the branch clamping finger cylinder, the iron wire distributing and conveying mechanism comprises a conveying bottom plate fixed on a rack, conveying support plates are symmetrically fixed on two sides above the conveying bottom plate, a conveying positioning plate is fixed between the two conveying support plates, a plurality of sliding blocks are fixed between the two conveying support plates, a gap is reserved between each sliding block and each conveying positioning plate, a conveying cylinder is fixed on the upper end face of each conveying bottom plate, each conveying cylinder is connected with a material baffle plate below each conveying positioning plate through a piston rod, a conveying synchronous belt is fixed on the end face, close to a winding clamping mechanism, of each conveying bottom plate, is driven to rotate by a conveying motor, a conveying mounting plate is fixed on each conveying synchronous belt, a conveying finger cylinder is fixed on each conveying mounting plate, an iron wire clamping finger is fixed at the output end of each conveying finger cylinder, and the plastic wire winding mechanism comprises rotating support plates symmetrically fixed on the rack, and the two rotary supporting plates are fixedly provided with rotating shafts which penetrate through the rotary supporting plates and are rotationally connected with the rotary supporting plates, the rotating shafts are driven to rotate by a winding motor, and winding heads are fixed on the end surfaces, close to the winding clamping mechanisms, of the rotating shafts.
2. The automatic iron wire feeding and winding device of claim 1, which is characterized in that: the upper end face of the sliding block is obliquely arranged.
3. The automatic iron wire feeding and winding device of claim 1, which is characterized in that: 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.
4. The automatic iron wire feeding and winding device of claim 1, which is characterized in that: 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.
5. The automatic iron wire feeding and winding device of claim 1, which is characterized in that: and a plurality of wire passing holes through which plastic wires pass are arranged on the end surface of the winding wire.
CN201922133305.0U 2019-12-03 2019-12-03 Iron wire autoloading winding device Expired - Fee Related CN211185991U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922133305.0U CN211185991U (en) 2019-12-03 2019-12-03 Iron wire autoloading winding device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922133305.0U CN211185991U (en) 2019-12-03 2019-12-03 Iron wire autoloading winding device

Publications (1)

Publication Number Publication Date
CN211185991U true CN211185991U (en) 2020-08-07

Family

ID=71863074

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922133305.0U Expired - Fee Related CN211185991U (en) 2019-12-03 2019-12-03 Iron wire autoloading winding device

Country Status (1)

Country Link
CN (1) CN211185991U (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112223767A (en) * 2020-10-29 2021-01-15 深圳华圳自动化工业有限公司 Method and equipment for assembling simulated tree
CN112385923A (en) * 2020-12-09 2021-02-23 赣州东峰自动化设备有限公司 Automatic leaf taking and branch binding machine used on simulation leaves of Christmas tree
CN113040456A (en) * 2021-04-14 2021-06-29 深圳华圳自动化工业有限公司 Continuous production device for simulated trees
CN113615912A (en) * 2021-08-02 2021-11-09 深圳市金岷江智能装备有限公司 Material distribution mechanism and simulation tree production equipment

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112223767A (en) * 2020-10-29 2021-01-15 深圳华圳自动化工业有限公司 Method and equipment for assembling simulated tree
CN112223767B (en) * 2020-10-29 2021-06-11 深圳华圳自动化工业有限公司 Method and equipment for assembling simulated tree
CN112385923A (en) * 2020-12-09 2021-02-23 赣州东峰自动化设备有限公司 Automatic leaf taking and branch binding machine used on simulation leaves of Christmas tree
CN113040456A (en) * 2021-04-14 2021-06-29 深圳华圳自动化工业有限公司 Continuous production device for simulated trees
CN113615912A (en) * 2021-08-02 2021-11-09 深圳市金岷江智能装备有限公司 Material distribution mechanism and simulation tree production equipment

Similar Documents

Publication Publication Date Title
CN211185991U (en) Iron wire autoloading winding device
CN110973965B (en) Automatic feeding and winding device for simulated christmas tree leaves
CN204173425U (en) Automatic clamping and placing books manipulator
CN109412364A (en) A kind of magnetic shoe stator assembling machine for capableing of feeding in continuous material
CN110789978B (en) Pine leaf automatic leaf separating machine used on simulation Christmas tree
CN203895267U (en) Full-automatic inductive winding machine
CN104709502B (en) A kind of film pasting mechanism of full-automatic battery slice
CN209078087U (en) Solder strip traction device and string welding machine
CN112385923B (en) Automatic leaf taking and branch binding machine used on simulation leaves of Christmas tree
CN107381064B (en) Automatic arrangement device and method for bearing inner rings
CN205240895U (en) Automatic guillootine with grab material function fast
CN112366366B (en) Lithium ion battery manufacturing system
CN211185990U (en) Automatic coiling and cutting device for artificial christmas tree leaves
CN211003544U (en) Iron wire divides material equipment
CN115549410B (en) PMSM stator punching pre-compaction device
CN207250918U (en) A kind of LED light strip automatic welding machine
CN106207270B (en) Gluing device for laminating machine
CN202045049U (en) Lead-acid storage battery plate brushing machine
CN212331816U (en) Winding device for simulating production of christmas tree branches
CN212088342U (en) Automatic feeding and leaf taking device used on simulation leaves of Christmas tree
CN107932613A (en) A kind of cutting means of adhesive label
CN209313652U (en) A kind of electric motor groups installing is standby
CN106686775B (en) Toaster heating element winding machine
CN208874450U (en) A kind of motor stator winding automatic coil winding machine
CN205237172U (en) Automatic guillootine with iron sheet cuts function

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20200807

Termination date: 20211203

CF01 Termination of patent right due to non-payment of annual fee