CN211185990U - Automatic coiling and cutting device for artificial christmas tree leaves - Google Patents

Abstract

The utility model relates to the technical field of simulation Christmas tree equipment, in particular to an automatic winding and cutting device for simulation Christmas tree leaves, which comprises a frame, a plastic wire winding mechanism is fixed on the frame, a winding and clamping mechanism is fixed on the frame in front of the plastic wire winding mechanism, a plastic wire cutting mechanism is also fixed on the frame at one side of the plastic wire winding mechanism, the plastic wire winding mechanism comprises rotary supporting plates which are symmetrically fixed on the frame, rotary shafts which penetrate through the rotary supporting plates and are rotationally connected with the rotary supporting plates are fixed on the two rotary supporting plates, the winding clamping mechanism comprises a clamping slide rail fixed on the rack, and a clamping slide block slidably connected with the clamping slide rail is fixed on the clamping slide rail. The artificial leaves and the iron wires can be wound together by the plastic wires through the device, and the automatic production of the branches of the Christmas tree is completed.

Description

Automatic coiling and cutting device for artificial 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 winding and cutting 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 winding and cutting device for the simulated christmas tree leaves.

The invention can be realized by the following technical scheme:

the invention discloses an automatic winding and cutting device for simulated christmas tree leaves, which comprises a rack, wherein a plastic wire winding mechanism is fixed on the rack, a winding and clamping mechanism is fixed on the rack in front of the plastic wire winding mechanism, a plastic wire cutting mechanism is also fixed on the rack on one side of the plastic wire winding mechanism, the plastic wire winding mechanism comprises rotary supporting plates symmetrically fixed on the rack, rotary shafts penetrating through the rotary supporting plates and rotatably connected with the rotary supporting plates are fixed on the two rotary supporting plates, the rotary shafts are driven to rotate through a winding motor, winding heads are fixed on the end surfaces of the rotary shafts close to the winding and clamping mechanism, the winding and clamping mechanism comprises clamping slide rails fixed on the rack, clamping slide blocks slidably connected with the clamping slide rails are fixed on the clamping slide rails, and winding and clamping finger cylinders are vertically fixed on the clamping slide blocks, the winding centre gripping finger cylinder output end is fixed with centre gripping cylinder finger, plastics line shutdown mechanism contains the removal cylinder that cuts off of fixing in the frame, it is fixed with the connecting plate to cut off the removal cylinder output, it cuts off the revolving cylinder to be fixed with on the connecting plate to cut off, it is fixed with the finger cylinder to cut off the revolving cylinder output, it is fixed with the finger clamp to cut off finger cylinder delivery end. One end of an iron wire is stretched into a rotating shaft, the other end of the iron wire is placed above a winding clamping finger cylinder, simulated leaves are also placed on the winding clamping finger cylinder, the winding clamping finger cylinder is started, after the iron wire and the simulated leaves are fixed, a winding motor is started, the rotating shaft rotates, a winding head fixed on the rotating shaft rotates along with the rotating shaft, a 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 plastic wire can be uniformly wound on the surface of the contact position of the iron wire and the simulated leaves by pushing the winding clamping finger cylinder to move back and forth, after a plurality of layers are wound, the winding motor stops, a cutting moving cylinder is started, a piston rod of the cutting moving cylinder pushes the cutting rotating cylinder fixed on a cutting connecting plate to move, and the cutting rotating, the cutting and moving cylinder stops, the cutting and rotating cylinder starts, the cutting finger cylinder fixed on the cutting and rotating cylinder rotates 180 degrees along with the output shaft of the cutting and rotating cylinder, a finger clamp of the cutting finger cylinder reaches the contact position of a plastic wire, an iron wire and simulation leaves, the cutting finger cylinder starts, the finger clamp on the cutting finger cylinder cuts the plastic wire, the cutting finger cylinder starts, the finger clamp on the cutting finger cylinder separates from each other, the cutting and rotating cylinder starts, the cutting and rotating cylinder drives the cutting finger cylinder to return to the initial position, the cutting and moving cylinder starts, the cutting and moving cylinder drives the initial position of the cutting and rotating cylinder, the winding and clamping finger cylinder starts, the fingers of the clamping cylinder separate from the simulation leaves after the iron wire is fixed, the simulation leaves after the iron wire is fixed fall into a collecting box below the rack due to self gravity, the circular operation can complete the fixing requirements of all the simulation leaves and the iron, and after the simulation leaves are fixed with the iron wires, the contact positions of the simulation leaves and the iron wires are uniformly wound with multiple layers of plastic wires, and the simulation leaves are firmly fixed with the iron wires.

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 artificial leaves and the iron wires can be wound together by the plastic wires through the device, 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 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.

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

FIG. 4 is a schematic structural view of a winding and clamping mechanism of the present invention;

FIG. 5 is a schematic structural view of a plastic wire cutting mechanism according to the present invention;

in the figure: 1. a frame; 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; 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 5, the present invention discloses an automatic winding and cutting device for a simulated christmas tree leaf, comprising a frame 1, a plastic wire winding mechanism 7 fixed on the frame 1, a winding and clamping mechanism 8 fixed on the frame 1 in front of the plastic wire winding mechanism 7, a plastic wire cutting mechanism 5 fixed on the frame 1 at one side of the plastic wire winding mechanism 7, the plastic wire winding mechanism 7 comprising rotary support plates 701 symmetrically fixed on the frame 1, rotary shafts 702 fixed on the two rotary support plates 701 and passing through the rotary support plates 701 and rotatably connected with the rotary support plates 701, the rotary shafts 702 being driven to rotate by a winding motor 705, winding heads fixed on the end surfaces of the rotary shafts 702 near the winding and clamping mechanism 8, the winding and clamping mechanism 8 comprising clamping slide rails 703 fixed on the frame 1, clamping slide blocks 802 slidably connected with the clamping slide rails 801 fixed on the clamping slide rails 801, a winding clamping finger cylinder 803 is vertically fixed on the clamping sliding block 802, a clamping cylinder finger 804 is fixed at the output end of the winding clamping finger cylinder 803, the plastic wire cutting mechanism 5 comprises a cutting moving cylinder 501 fixed on the frame 1, a cutting connecting plate 503 is fixed at the output end of the cutting moving cylinder 501, a cutting rotary cylinder 502 is fixed on the cutting connecting plate 503, a cutting finger cylinder 504 is fixed at the output end of the cutting rotary cylinder 502, and a finger clamp 505 is fixed at the conveying end of the cutting finger cylinder 504. One end of an iron wire is extended into the rotating shaft 702, the other end of the iron wire is placed above the winding clamping finger cylinder 803, the simulated leaves are also placed on the winding clamping finger cylinder 803, the winding clamping finger cylinder 803 is started, after the iron wire and the simulated leaves are fixed, 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 wire penetrating through the winding head 703 rotates along with the winding head 703, after the plastic wire is contacted with the iron wire and the simulated leaves, the plastic wire is wound on the surface of the contact position of the iron wire and the simulated leaves, and the plastic wire can be uniformly wound on the surface of the contact position of the iron wire and the simulated leaves by pushing the winding clamping finger cylinder 803 to move back and forth, after a plurality of layers are wound, the winding motor 705 is stopped, the cutting moving cylinder 501 is started, the piston rod of the cutting moving cylinder 501 pushes the cutting rotating, after the cutting rotary cylinder 502 reaches a designated position, the cutting movable cylinder 501 is stopped, the cutting rotary cylinder 502 is started, the cutting finger cylinder 504 fixed on the cutting rotary cylinder 502 rotates 180 degrees along with the output shaft of the cutting rotary cylinder 502, a finger clamp 505 of the cutting finger cylinder 504 reaches the contact position of a plastic wire, an iron wire and simulated leaves, the cutting finger cylinder 504 is started, the plastic wire is cut by the finger clamp 505 on the cutting finger cylinder 504, the cutting finger cylinder 504 is started, the finger clamp 505 on the cutting finger cylinder 504 is mutually separated, 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 movable cylinder 501 is started, the cutting movable cylinder 501 drives the cutting rotary cylinder 502 to be at the initial position, the winding clamping finger cylinder 803 is started, the clamping cylinder fingers 804 are separated from the simulated leaves after the iron wire is fixed, and the simulated leaves after the iron wire is fixed are due to self gravity, in dropping the collecting box of frame 1 below, the fixed demand of all emulation leaves and iron wire can be accomplished in the circulation operation to the fixed back of emulation leaves and iron wire, the even winding of contact position of emulation leaves and iron wire has the multilayer plastic wire, and the emulation leaves is fixed firm with the iron wire.

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, 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 (3)

1. The utility model provides an automatic cutting device that winds of emulation christmas tree leaf, contains the frame, its characterized in that: the plastic wire winding mechanism is fixed on the frame, the winding and clamping mechanism is fixed on the frame in front of the plastic wire winding mechanism, the plastic wire cutting mechanism is also fixed on the frame at one side of the plastic wire winding mechanism, the plastic wire winding mechanism comprises rotary supporting plates symmetrically fixed on the frame, two rotary supporting plates are fixed with rotary shafts which penetrate through the rotary supporting plates and are rotationally connected with the rotary supporting plates, the rotary shafts are driven to rotate through a winding motor, winding heads are fixed on the end surfaces, close to the winding and clamping mechanism, of the rotary shafts, the winding and clamping mechanism comprises clamping slide rails fixed on the frame, clamping slide blocks which are in sliding connection with the clamping slide rails are fixed on the clamping slide rails, winding and clamping finger cylinders are vertically fixed on the clamping slide blocks, and clamping cylinder fingers are fixed at the output ends of the winding and clamping finger cylinders, 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.

2. The apparatus as claimed in claim 1, wherein the simulated christmas tree leaves are wound and cut automatically, and the apparatus further comprises: 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.

3. The apparatus as claimed in claim 1, wherein the simulated christmas tree leaves are wound and cut automatically, and the apparatus further comprises: and a plurality of wire passing holes through which plastic wires pass are arranged on the end surface of the winding wire.

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