CN212331816U - Winding device for simulating production of christmas tree branches - Google Patents

Abstract

The utility model relates to the technical field of simulation Christmas tree production equipment, in particular to a winding device for producing simulation Christmas tree branches, which comprises a frame, the frame is respectively fixed with a movable rotating mechanism, a plastic wire winding mechanism and a feeding pipe which is arranged between the movable rotating mechanism and the plastic wire winding mechanism, the plastic wire winding mechanism comprises a mounting plate fixed on the frame, a plurality of bearing seats II are fixed above the mounting plate, a rotating shaft which penetrates through the bearing seat II and is rotationally connected with the bearing seat II is fixed on the bearing seat II, the rotating shaft is driven by a winding motor to rotate, a horn-shaped winding head is fixed at one end of the rotating shaft close to the movable rotating mechanism, the wire winding head and the rotating shaft are assembled to form a fixing hole, the movable rotating mechanism comprises a fixing plate fixed on the rack, and a rack is fixed on the lower end face of the fixing plate. Can be automatically with emulation leaf and tubular metal resonator reciprocal anchorage through this device.

Description

Winding device for simulating production of christmas tree branches

[ technical field ] A method for producing a semiconductor device

The utility model relates to a emulation christmas tree production facility technical field especially relates to a wind for production of emulation christmas tree branch.

[ background of the invention ]

The artificial Christmas tree is usually dressed up by using an artificial Christmas tree when the artificial Christmas tree goes through the Christmas day, the artificial Christmas tree is usually formed by assembling a plurality of artificial Christmas branches, the existing artificial Christmas tree is formed by fixing the artificial Christmas tree branches with different sizes at each level on the Christmas tree backbone, the artificial Christmas tree branches are formed by winding and fixing a large number of artificial Christmas tree leaves and one end of a metal pipe through plastic wires, green rattan hidden plastic wires are wound at the positions of the plastic wires, the artificial Christmas tree leaves are overlapped and fixed on the metal pipe, and then the other end of the metal pipe is inserted on the Christmas tree backbone to form the artificial Christmas tree.

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 the shortcoming of above-mentioned prior art, providing a wind for production of emulation christmas tree branch, can twine plastic wire and rattan on tubular metal resonator and emulation leaf automatically.

The utility model discloses can realize through following technical scheme:

the utility model discloses a winding device for production of simulation christmas tree branches, which comprises a frame, wherein a movable rotating mechanism, a plastic wire winding mechanism and a feeding pipe are respectively fixed on the frame, the feeding pipe is arranged between the movable rotating mechanism and the plastic wire winding mechanism, the plastic wire winding mechanism comprises a mounting plate fixed on the frame, a plurality of bearing seats II are fixed above the mounting plate, a rotating shaft which passes through the bearing seats II and is rotationally connected with the bearing seats II is fixed on the bearing seats II, the rotating shaft is driven to rotate by a winding motor, a horn-shaped winding head is fixed at one end of the rotating shaft close to the movable rotating mechanism, a fixed hole is formed after the winding head and the rotating shaft are assembled, the movable rotating mechanism comprises a fixed plate fixed on the frame, a rack is fixed on the lower end surface of the fixed plate, a plurality of slide rails are fixed on the fixed plate, be fixed with on the slide rail with slide rail sliding connection's slip table, be fixed with the moving motor on the slip table, the moving motor output is fixed with the gear with aforementioned rack intermeshing, still be fixed with a plurality of bearing frame I on the slip table, be fixed with on the bearing frame I pass bearing frame I and rotate the back shaft of being connected with bearing frame I, be fixed with the big band pulley that encircles the back shaft setting on the back shaft, still be fixed with the rotating electrical machines on the slip table, the rotating electrical machines output is fixed with the miniband pulley, the miniband pulley passes through rotatory hold-in range and aforementioned big band pulley round-robin, the one end that is close to the wire winding head on the back shaft still is fixed with the finger cylinder. The metal tube is placed in a rotating shaft, one end of the metal tube extends out of a winding head, a moving motor is started, the moving motor drives a gear to rotate, due to the meshing of a gear and a rack, when the gear rotates, a sliding table moves on a sliding rail, a moving motor stops after a finger cylinder moves to a specified position along with the sliding table, the finger cylinder starts, two cylinder fingers on the finger cylinder are folded, after the metal tube is grabbed by the cylinder fingers, the metal tube and the finger cylinder are fixed with each other, a winding motor starts, a plastic wire fixed on the rotating shaft rotates along with the rotating shaft, the starting end of the plastic wire is wound on the metal tube after the plastic wire is contacted with the rotating shaft, the winding motor stops, an artificial rattan penetrates through a feeding tube and then is contacted with the metal tube, the rotating motor starts to drive a supporting shaft to rotate, a finger cylinder fixed on the supporting shaft rotates along with the supporting, the initial end of the rattan is uniformly wound on the metal tube, the simulation tree leaves are fixed on the metal tube between the rattan and the metal tube, the winding motor and the rotating motor are started simultaneously, the simulation tree leaves rotate along with the metal tube and rotate with the metal tube through the rotating shaft, the plastic wire is uniformly wound at the contact position of the simulation tree leaves and the metal tube, the simulation tree leaves are uniformly wound at the contact position of the simulation tree leaves and the metal tube through the rotation of the metal tube, after the simulation tree leaves are fixed, the winding motor and the rotating motor are stopped for cycle operation, the simulation tree leaves and the metal tube are fixed with each other again, after the cycle is repeated, the moving motor is started, the sliding table moves a distance away from the rotating shaft, the simulation tree leaves and the metal tube are fixed again, the moving motor is started again for multiple cycles, after multiple layers of simulation tree leaves are fixed on the metal tube in, the metal tube is taken off from the finger cylinder, the simulation rattan and the plastic wire are cut off, the simulation leaves can be automatically fixed on the metal tube in an overlapped mode through the device, the simulation rattan can be automatically wound on the plastic wire in an even mode, manual winding is not needed, manpower is greatly saved, and production efficiency is improved.

Preferably, a material box is further fixed on the frame. The metal tube is placed in the material box for convenient use.

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. Fix two plastic drum on the rotation axis, wear out the through wires hole on passing through the winding head after passing the plastic line along the through wires groove, when the rotation axis rotated, the plastic drum followed the rotation axis and rotated together to the plastic drum also can the rotation, after plastic line and tubular metal resonator and emulation leaf contact, the plastic line was taken out from the plastic drum gradually, and the even winding of plastic line was with tubular metal resonator and emulation leaf contact position reciprocal anchorage with tubular metal resonator and emulation leaf.

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

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

1. the utility model discloses a with the even winding of plastics line on tubular metal resonator and emulation leaf to can hide the plastics line with the even winding of emulation rattan on the plastics line, need not artifical winding, very big reduction the cost of labor and improved the production efficiency of emulation christmas tree branch.

2. Progressively drive the slip table through the traveling motor and remove, finger cylinder progressively pulls out the tubular metal resonator from the rotation axis to will simulate leaf and tubular metal resonator reciprocal anchorage gradually, realized that the emulation leaf overlaps to be fixed on the tubular metal resonator, realized the automated production of emulation christmas tree branch, very big reduction the cost of labor.

[ 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 structural view of the plastic wire winding mechanism of the present invention;

fig. 4 is a second angle structure diagram of the plastic wire winding mechanism of the present invention;

fig. 5 is a schematic structural view of the moving and rotating mechanism of the present invention;

fig. 6 is a schematic view of a second angular structure of the movable rotating mechanism of the present invention;

in the figure: 1. a frame; 2. a moving rotating mechanism; 201. a slide rail; 202. a rack; 203. a sliding table; 204. a moving motor; 205. a gear; 206. a bearing seat I; 207. a support shaft; 208. a rotating electric machine; 209. a small belt pulley; 210. rotating the synchronous belt; 211. a finger cylinder; 212. a cylinder finger; 213. a fixing plate; 3. a plastic wire winding mechanism; 301. mounting a plate; 302. a bearing seat II; 303. a rotating shaft; 304. a winding motor; 305. a driving wheel; 306. a driven wheel; 307. winding a synchronous belt; 308. a winding head; 309. threading holes; 310. a fixing hole; 311. a threading slot; 312. a wire passing groove; 4. a magazine; 5. a feed pipe;

[ 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 6, the utility model discloses a winding device for the production of the simulated christmas tree branches, which comprises a frame 1, wherein a movable rotating mechanism 2, a plastic wire winding mechanism 3 and a feeding pipe 5 are respectively fixed on the frame 1, the feeding pipe 5 is arranged between the movable rotating mechanism 2 and the plastic wire winding mechanism 3, the plastic wire winding mechanism 3 comprises a mounting plate 301 fixed on the frame 1, a plurality of bearing seats ii 302 are fixed above the mounting plate 301, a rotating shaft 303 passing through the bearing seats ii 302 and rotationally connected with the bearing seats ii 302 is fixed on the bearing seats ii 302, the rotating shaft 303 is driven by a winding motor 304 to rotate, a horn-shaped winding head 308 is fixed on one end of the rotating shaft 303 close to the movable rotating mechanism 2, a fixing hole 310 for placing a metal pipe is formed after the winding head 308 is assembled with the rotating shaft, the movable rotating mechanism 2 comprises a fixing plate 213 fixed on the frame 1, the lower terminal surface of fixed plate 213 is fixed with rack 202, be fixed with many slide rails 201 on the fixed plate 213, be fixed with on the slide rail 201 with slide rail 201 sliding connection's slip table 203, be fixed with mobile motor 204 on the slip table 203, mobile motor 204 output is fixed with the gear 205 with rack 202 intermeshing, still be fixed with a plurality of bearing frames I206 on the slip table 203, be fixed with on the bearing frame I206 and pass bearing frame I206 and rotate the back shaft 207 of being connected with bearing frame I206, be fixed with the big band pulley that encircles the setting of back shaft 207 on the back shaft 207, still be fixed with rotating electrical machines 208 on the slip table 203, the output of rotating electrical machines 208 is fixed with little band pulley 209, little band pulley 209 passes through rotatory hold-in range 210 and big band pulley lap joint, the one end that is close to wire winding head 308 on the back. The metal tube is placed in a fixing hole 310 of a rotating shaft 303, one end of the metal tube extends out of a winding head 308, a moving motor 204 is started, the moving motor 204 drives a gear 205 to rotate, the gear 205 is meshed with a rack 202, when the gear 205 rotates, a sliding table 203 moves on a sliding rail 201, a finger cylinder 211 moves along with the sliding table 203 to a specified position, then the moving motor 204 stops, the finger cylinder 211 starts, two cylinder fingers 212 on the finger cylinder 211 are folded, the metal tube and the finger cylinder 211 are fixed with each other after the metal tube is grabbed by the cylinder fingers 212, a winding motor 304 starts, a plastic wire fixed on the rotating shaft 303 rotates along with the rotating shaft 303, the starting end of the plastic wire is wound on the metal tube after the plastic wire contacts with the rotating shaft 303, the winding motor 304 stops, the simulation rattan penetrates through a feeding tube 5 and then contacts with the metal tube, the rotating motor 208 starts, the finger cylinder 211 fixed on the supporting shaft 207 rotates along with the supporting shaft 207, the metal pipe fixed on the finger cylinder 211 rotates along with the finger cylinder 211, the initial end of the rattan is uniformly wound on the metal pipe, the simulation tree leaf is fixed on the metal pipe between the rattan and the metal pipe, the winding motor 304 and the rotating motor 208 are started simultaneously, the simulation tree leaf rotates along with the metal pipe and rotates relative to the metal pipe through the rotating shaft 303, the plastic wire is uniformly wound on the contact position of the simulation tree leaf and the metal pipe, the simulation tree leaf is uniformly wound on the contact position of the simulation tree leaf and the metal pipe through the rotation of the metal pipe, after the simulation tree leaf is fixed, the winding motor 304 and the rotating motor 208 are stopped, the operation is circulated, the simulation tree leaf and the metal pipe are fixed with each other again, after the circulation is repeated, the moving motor 204 is started, the sliding table 203 moves away from the rotating shaft 303 for a distance, the movable motor 204 is started again, the circulation is many times, after the metal tube is overlapped and fixed with the multi-layer simulation leaves, the metal tube is separated from the rotating shaft 303, the metal tube is taken down from the finger cylinder 211, the simulation rattan and the plastic wire are cut off, the simulation leaves can be automatically overlapped and fixed on the metal tube through the device, the simulation rattan can be automatically and uniformly wound on the plastic wire, manual winding is not needed, the manpower is greatly saved, and the production efficiency is improved.

Wherein, a material box 4 is also fixed on the frame 1. The metal tube is placed in the material box 4 for convenient use.

Wherein, both sides are all fixed with the threading groove 311 that the plastics line passed on the rotation axis 303, and the position that corresponds with threading groove 311 all is equipped with wire passing groove 312 connected with threading groove 311 on the winding head 308, and the terminal of winding head 308 corresponds with wire passing groove 312 and is equipped with threading hole 309 that the plastics line passed. Fix two plastic wire coils on rotation axis 303, wear out through threading hole 309 on the first 308 of winding after passing plastic wire along threading groove 311, when rotation axis 303 rotated, the plastic wire coil rotated along rotation axis 303 to the plastic wire coil also can the rotation, and after plastic wire contacted with tubular metal resonator and emulation leaf, the plastic wire was taken out from the plastic wire coil gradually, and the even winding of plastic wire was with tubular metal resonator and emulation leaf contact position with tubular metal resonator and emulation leaf reciprocal anchorage.

A driven wheel 306 is fixed on the rotating shaft 303, a driving wheel 305 is fixed at the output end of the winding motor 304, and the driving wheel 305 is connected with the driven wheel 306 through a winding synchronous belt 307.

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 (4)

1. The utility model provides a wind for production of emulation christmas tree branch, includes the frame, its characterized in that: the plastic wire winding machine is characterized in that a movable rotating mechanism, a plastic wire winding mechanism and a feeding pipe are respectively fixed on the rack, the feeding pipe is arranged between the movable rotating mechanism and the plastic wire winding mechanism, the plastic wire winding mechanism comprises a mounting plate fixed on the rack, a plurality of bearing seats II are fixed above the mounting plate, a rotating shaft which penetrates through the bearing seats II and is rotationally connected with the bearing seats II is fixed on the bearing seats II, the rotating shaft is driven to rotate by a winding motor, a horn-shaped winding head is fixed at one end, close to the movable rotating mechanism, of the rotating shaft, a fixing hole is formed after the winding head and the rotating shaft are assembled, the movable rotating mechanism comprises a fixing plate fixed on the rack, a rack is fixed on the lower end face of the fixing plate, a plurality of sliding rails are fixed on the fixing plate, a sliding table which is slidably connected with the, the utility model discloses a wire winding machine, including slip table, bearing frame I, rotatory hold-in range I, the slip table is fixed with the gear that is fixed with aforementioned rack intermeshing on the moving motor output, still be fixed with a plurality of bearing frames I on the slip table, be fixed with on the bearing frame I and pass bearing frame I and rotate the back shaft of being connected, be fixed with the big band pulley that sets up around the back shaft on the back shaft, still be fixed with the rotating electrical machines on the slip table, the rotating electrical machines output is fixed with the miniascape, the miniascape passes through rotatory hold-in range and aforementioned big band pulley round-robin.

2. The winding apparatus for simulating the production of christmas tree branches as claimed in claim 1, wherein: and a material box is also fixed on the frame.

3. The winding apparatus for simulating the production of christmas tree branches as claimed in claim 1, wherein: 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 winding apparatus for simulating the production of christmas tree branches as claimed in claim 1, wherein: the rotating shaft is fixedly provided with a driven wheel, the output end of the winding motor is fixedly provided with a driving wheel, and the driving wheel is connected with the driven wheel through a winding synchronous belt.

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