CN213197698U - Conveying and cutting mechanism for artificial christmas tree leaves - Google Patents

Abstract

The invention relates to the field of simulation Christmas tree equipment, in particular to a conveying and cutting mechanism for simulation Christmas tree leaves, which comprises a rack, wherein a leaf storage frame, a leaf taking assembly and a cutting assembly are respectively fixed on the rack, a leaf pocket and a tailing box are also fixed on the rack, a baffle is also fixed on the rack on one side of the leaf pocket, the leaf storage frame comprises a sealing plate fixed on the rack, a leaf frame bottom plate is fixed on the sealing plate, a plurality of leaf separating toothed plates are uniformly fixed on the leaf frame bottom plate, a leaf pushing cylinder is fixed in the sealing plate below the leaf frame bottom plate, and the leaf pushing cylinder is fixedly connected with the leaf pushing plate above the leaf frame bottom plate through a piston rod. This device only needs the workman to fix the emulation leaf that the shaping is good on storing up the leaf frame and just can accomplish automatically and become appointed length to what emulation leaf cut many emulation leaves to once only, and collect the tails, very big improvement production efficiency and reduction cost of labor.

Description

Conveying and cutting mechanism for artificial christmas tree leaves

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of simulation Christmas tree equipment, in particular to a conveying and cutting mechanism for simulation Christmas tree leaves.

[ background of the invention ]

The artificial Christmas tree is often used for decorating when a user goes through a Christmas day, and the conventional artificial Christmas tree is formed by fixing leaves and iron wires of the artificial Christmas tree at each level and inserting the iron wires on the backbone of the artificial Christmas tree. When the simulated Christmas tree leaves are produced, the simulated Christmas tree leaves are formed by extrusion molding and cooling through a molding machine, and the molded Christmas tree leaves are cut to a specified length according to production requirements, so that the existing Christmas tree leaves are low in cutting efficiency, and the productivity of the simulated Christmas tree is seriously influenced.

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

[ summary of the invention ]

The present invention is directed to overcome the above-mentioned drawbacks of the prior art, and provides a transportation cutting mechanism for cutting leaves of a simulated christmas tree, which can automatically cut a plurality of leaves of the simulated christmas tree to a predetermined length.

The invention can be realized by the following technical scheme:

the invention discloses a conveying and cutting mechanism of simulation christmas tree leaves, which comprises a rack, wherein a leaf storage rack, a leaf taking assembly and a cutting assembly are respectively fixed on the rack, a leaf pocket and a tailing box are also fixed on the rack, a baffle is also fixed on the rack on one side of the leaf pocket, the leaf storage rack comprises a sealing plate fixed on the rack, a leaf rack bottom plate is fixed on the sealing plate, a plurality of leaf separating toothed plates are uniformly fixed on the leaf rack bottom plate, a leaf pushing cylinder is fixed in the sealing plate below the leaf rack bottom plate and fixedly connected with the leaf pushing plate above the leaf rack bottom plate through a piston rod, the leaf separating toothed plate penetrates through the leaf pushing plate and is in sliding connection with the leaf pushing plate, the leaf taking assembly is fixed on the rack above the leaf storage rack and comprises a plurality of transverse sliding rails transversely fixed on the rack, and a leaf taking sliding table in sliding connection with the transverse sliding rails is fixed on the transverse sliding rails, the leaf taking sliding table is driven to move by a leaf taking transverse moving motor, a plurality of longitudinal moving sliding rails are further longitudinally fixed on the leaf taking sliding table, a longitudinal moving sliding block connected with the longitudinal moving sliding rails in a sliding manner is fixed on the longitudinal moving sliding rails, the longitudinal moving sliding block is driven to move by the longitudinal moving motor, a leaf taking air cylinder is further vertically fixed on the longitudinal moving sliding block, the leaf taking air cylinder is fixedly connected with a leaf taking mounting plate through a piston rod, a plurality of leaf taking finger air cylinders are uniformly fixed on the leaf taking mounting plate, a cutting assembly is further fixed on the rack below the leaf taking assembly, the cutting assembly comprises a cutting bottom plate fixed on the rack, a cutting support plate is fixed above the cutting bottom plate, a plurality of comb teeth are uniformly fixed on one side of the upper end face of the cutting bottom plate, a cutting portal frame is fixed on the other side of the upper end face of the cutting bottom plate, and a cutting edge mounting plate connected with, evenly be fixed with a plurality of cutters on the cutting edge mounting panel, the cutting edge mounting panel with vertical fix cut the piston rod fixed connection of cylinder on cutting the portal, cut being fixed with the blade holder that uses with aforementioned cutter cooperation between the portal of cutting the bottom plate up end, the terminal surface still is fixed with the plain leaf cylinder under the bottom plate, the plain leaf cylinder passes through piston rod fixedly connected with plain leaf push pedal.

Preferably, a blade blocking plate is vertically fixed on one side of the upper end of the blade pushing plate. When the leaves of the simulated Christmas tree to be cut are fixed, the tail ends of the leaves are contacted with the leaf blocking plate, so that the lengths of the cut leaves are ensured to be consistent.

Preferably, a transverse moving driving wheel is fixed at the output end of the leaf taking transverse moving motor, a transverse moving driven wheel is fixed on the rack, the transverse moving driven wheel is in winding connection with the transverse moving driving wheel through a transverse moving synchronous belt, and the transverse moving synchronous belt is fixedly connected with the leaf taking sliding table.

Preferably, a supporting shaft is fixed on one side of the cutting portal frame, the cutting cylinder is fixed on the other side of the cutting portal frame, the cutting cylinder is fixedly connected with a fixing shaft through a piston rod, the fixing shaft is connected with the supporting shaft through a boosting connecting plate, one end of the boosting connecting plate is rotatably connected with the fixing shaft, the other end of the boosting connecting plate is rotatably connected with the supporting shaft, a lever force plate rotatably connected with the boosting connecting plate is further fixed in the middle of the boosting connecting plate, and the bottom of the lever force plate is fixedly connected with the blade mounting plate. The blade mounting plate is fixed in the middle of the boosting connecting plate, one end of the boosting connecting plate is rotatably connected with the supporting shaft fixed on the cutting gantry, the other end of the boosting connecting plate is rotatably connected with the fixed shaft, when the cutting is carried out, the piston rod on the cutting cylinder extends, the boosting connecting plate rotates downwards around the supporting shaft to push the blade mounting plate to move downwards, and the blades are cut off by the cutter.

Preferably, the cutting bottom plate between the cutting portal is further fixed with a guide vane plate, guide vane holes penetrating through the guide vane plate are arranged in positions corresponding to the cutter holders on the guide vane plate, and the guide vane holes are of a conical structure. The guide vane holes can ensure that the leaves pass through the guide vane plate and then reach between the cutter holder and the cutter.

The working principle is as follows: fixing longer simulation leaves to be cut in a gap between adjacent leaf separating toothed plates, starting a leaf taking transverse moving motor, driving a leaf taking sliding table to reach the upper part of a leaf storage frame by the leaf taking transverse moving motor, starting a longitudinal moving motor, driving a longitudinal moving sliding block to reach a specified position by the longitudinal moving motor, starting a leaf pushing cylinder, extending a piston rod on the leaf pushing cylinder, lifting the leaf pushing plate, pushing the simulation leaves to lift to the specified position by the leaf pushing plate, starting a leaf taking finger cylinder, closing the fingers of the two leaf taking cylinders on the leaf taking finger cylinder, grabbing the simulation leaves by the fingers of the leaf taking cylinder, fixing the simulation leaves on the leaf taking finger cylinder, starting the leaf taking cylinder, extending a piston rod on the leaf taking cylinder, lifting the simulation leaves along with the leaf taking finger cylinder, starting the leaf taking transverse moving motor again, moving the leaf taking sliding table to be right above a cutting assembly, starting the leaf taking cylinder, and shortening the piston rod on the leaf taking cylinder, the simulated leaves descend along with the leaf taking finger cylinder, the leaf taking finger cylinder places the simulated leaves between the comb teeth, the longitudinal moving motor is started, the longitudinal moving motor drives the longitudinal moving slide block to move, the leaf taking finger cylinder moves along with the longitudinal moving slide block, one end of the simulated leaves extends out of a distance between the corresponding cutter holder and the corresponding cutter, the cutting cylinder is started, a piston rod on the cutting cylinder extends, the cutting edge mounting plate descends, the cutter below the cutting edge mounting plate is matched with the cutter holder to cut off the simulated christmas tree leaves, the cut simulated christmas tree leaves fall onto the leaf pocket, the cutting cylinder is started, a piston rod on the cutting cylinder is shortened, the cutter is separated from the cutter holder, the leaf taking finger cylinder is started, two leaf taking cylinders on the leaf taking finger cylinder are separated, the leaf taking cylinder is started, the piston rod on the leaf taking cylinder extends, the leaf taking finger cylinder ascends, the longitudinal moving motor is started, the longitudinal moving motor drives the longitudinal moving slide, the leaf taking cylinder is started, a piston rod on the leaf taking cylinder is shortened, the leaf taking finger cylinder descends, the leaf taking finger cylinder is started, two leaf taking cylinder fingers on the leaf taking finger cylinder are closed again, after the simulated leaves are grabbed, the longitudinal moving motor drives the longitudinal moving sliding block to move for a certain distance again, the simulated leaves extend out for a certain distance again from the corresponding cutter seat and the corresponding cutter, the simulated leaves are cut off again through the cutter, the operation is circulated, when the simulated leaves grabbed by the leaf taking finger cylinder cannot meet the requirement of one-time cutting, the piston rod on the leaf taking cylinder extends, the leaf taking finger cylinder grabs the simulated leaf tailings to ascend, the leaf taking transverse moving motor is started, the leaf taking sliding table is driven by the leaf taking transverse moving motor to move, the leaf taking finger cylinder moves right above the tailings box, the leaf taking finger cylinder is started, the leaf taking cylinder fingers on the leaf taking finger cylinder are separated, the tailings fall into the, this device only needs the workman to fix the emulation leaf that the shaping is good on storing up the leaf frame and just can accomplish automatically and become appointed length to what emulation leaf cut many emulation leaves to once only, and collect the tails, very big improvement production efficiency and reduction cost of labor.

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

this device only needs the workman to fix the emulation leaf that the shaping is good on storing up the leaf frame and just can accomplish automatically and become appointed length to what emulation leaf cut many emulation leaves to once only, and collect the tails, very big improvement production efficiency and reduction cost of labor.

[ 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 another angular configuration of the present invention;

FIG. 3 is a schematic view of the frame structure of the present invention;

FIG. 4 is a schematic view of the leaf storage rack of the present invention;

FIG. 5 is an exploded view of the leaf storage rack of the present invention;

FIG. 6 is a schematic structural view of a leaf-removing assembly of the present invention;

FIG. 7 is a schematic view of another angular configuration of the present invention;

FIG. 8 is an exploded view of the leaflet taking assembly of the present invention;

FIG. 9 is a schematic view of a cutting assembly according to the present invention;

FIG. 10 is a schematic view of another angular configuration of the cutting assembly of the present invention;

FIG. 11 is an exploded view of the cutting assembly of the present invention;

in the figure: 1. a frame; 101. a leaf pocket; 102. a baffle plate; 103. a tail material box; 2. a leaf storage rack; 201. closing the plate; 202. a leaf rack base plate; 203. a leaf separating toothed plate; 204. a leaf pushing plate; 205. a blade blocking plate; 206. a leaf pushing cylinder; 3. taking a leaf component; 301. a leaf taking sliding table; 302. a leaf taking and transverse moving motor; 303. a driving wheel is transversely moved; 304. transversely moving the driven wheel; 305. traversing a synchronous belt; 306. transversely moving the sliding rail; 307. longitudinally moving the slide rail; 308. longitudinally moving the sliding block; 309. a longitudinal movement motor; 310. a leaf taking cylinder; 311. taking a leaf mounting plate; 312. a leaf taking finger cylinder; 313. taking a finger of a leaf cylinder; 4. cutting the assembly; 401. cutting a bottom plate; 402. cutting the supporting plate; 403. comb teeth; 404. a flat blade cylinder; 405. a flat leaf push plate; 406. cutting the portal frame; 407. a tool apron; 408. a cutting cylinder; 409. a blade mounting plate; 410. a cutter; 411. a support shaft; 412. a force-increasing connecting plate; 413. a fixed shaft; 414. a lever force plate; 415. a guide vane plate;

[ 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 11, the invention discloses a conveying and cutting mechanism for simulating christmas tree leaves, which comprises a frame 1, wherein a leaf storage frame 2, a leaf taking assembly 3 and a cutting assembly 4 are respectively fixed on the frame 1, a leaf pocket 101 and a tailing box 103 are also fixed on the frame 1, a baffle plate 102 is also fixed on the frame 1 at one side of the leaf pocket 101, the leaf storage frame 2 comprises a sealing plate 201 fixed on the frame 1, a leaf frame bottom plate 202 is fixed on the sealing plate 201, a plurality of leaf separating toothed plates 203 are uniformly fixed on the leaf frame bottom plate 202, a leaf pushing cylinder 206 is fixed in the sealing plate 201 below the leaf frame bottom plate 202, the leaf pushing cylinder 206 is fixedly connected with a leaf pushing plate 204 above the leaf frame bottom plate 202 through a piston rod, the leaf separating toothed plates 203 penetrate through the leaf pushing plate 204 and are slidably connected with the leaf pushing plate 204, the leaf taking assembly 3 is fixed on the frame 1 above the leaf storage frame 2, and the leaf taking assembly 3 comprises a plurality of sliding rails 306 transversely fixed on the frame 1, a leaf taking sliding table 301 which is connected with the traverse sliding rail 306 in a sliding manner is fixed on the traverse sliding rail 306, the leaf taking sliding table 301 is driven to move by a leaf taking traverse motor 302, a plurality of longitudinal moving sliding rails 307 are also longitudinally fixed on the leaf taking sliding rail 301, a longitudinal moving sliding block 308 which is connected with the longitudinal moving sliding rails 307 in a sliding manner is fixed on the longitudinal moving sliding rail 307, the longitudinal moving sliding block 308 is driven to move by a longitudinal moving motor 309, a leaf taking air cylinder 310 is also vertically fixed on the longitudinal moving sliding block 308, the leaf taking air cylinder 310 is fixedly connected with a leaf taking mounting plate 311 through a piston rod, a plurality of leaf taking finger air cylinders 312 are uniformly fixed on the leaf taking mounting plate 311, a cutting assembly 4 is also fixed on the machine frame 1 below the leaf taking assembly 3, the cutting assembly 4 comprises a cutting bottom plate 401 fixed on the machine frame 1, a cutting support plate 402 is fixed above the cutting bottom plate 401, a plurality of comb teeth 403 are uniformly fixed on one side of the upper end face, a cutting edge mounting plate 409 which is in sliding connection with the cutting portal 406 is fixed on the cutting portal 406, a plurality of cutters 410 are uniformly fixed on the cutting edge mounting plate 409, the cutting edge mounting plate 409 is fixedly connected with a piston rod of a cutting cylinder 408 which is vertically fixed on the cutting portal 406, a cutter seat 407 which is matched with the cutters 410 is fixed between the cutting portals 406 on the upper end surface of the cutting bottom plate 401, a flat blade cylinder 404 is also fixed on the lower end surface of the cutting bottom plate 401, and the flat blade cylinder 404 is fixedly connected with a flat blade push plate 405 through a piston rod.

Wherein, a blade blocking plate 205 is vertically fixed on one side of the upper end of the blade pushing plate 204. When the leaves of the simulated christmas tree to be cut are fixed, the tail ends of the leaves are in contact with the leaf blocking plates 205, so that the lengths of the cut leaves are consistent.

The output end of the leaf taking traverse motor 302 is fixed with a traverse driving wheel 303, the rack 1 is fixed with a traverse driven wheel 304, the traverse driven wheel 304 is connected with the traverse driving wheel 303 in a winding way through a traverse synchronous belt 305, and the traverse synchronous belt 305 is fixedly connected with the leaf taking sliding table 301.

A supporting shaft 411 is fixed on one side of the cutting gantry 406, a cutting cylinder 408 is fixed on the other side of the cutting gantry 406, a fixing shaft 413 is fixedly connected to the cutting cylinder 408 through a piston rod, the fixing shaft 413 is connected with the supporting shaft 411 through a boosting connecting plate 412, one end of the boosting connecting plate 412 is rotatably connected with the fixing shaft 413, the other end of the boosting connecting plate 412 is rotatably connected with the supporting shaft 411, a lever force plate 414 rotatably connected with the boosting connecting plate 412 is further fixed in the middle of the boosting connecting plate 412, and the bottom of the lever force plate 414 is fixedly connected with a blade mounting plate 409. The blade mounting plate 409 is fixed in the middle of the force increasing connecting plate 412, one end of the force increasing connecting plate 412 is rotatably connected with the supporting shaft 411 fixed on the cutting gantry 406, the other end of the force increasing connecting plate 412 is rotatably connected with the fixing shaft 413, when in cutting, the piston rod on the cutting cylinder 408 extends, the force increasing connecting plate 412 rotates downwards around the supporting shaft 411 to push the blade mounting plate 409 to move downwards, and the blades are cut by the cutter 410, so that a labor-saving lever structure is formed, and the blades can be effectively cut by the cutter 410.

Guide vane plates 415 are further fixed on the cutting base plate 401 between the cutting portal frames 406, guide vane holes penetrating through the guide vane plates 415 are formed in the positions, corresponding to the cutter holders 407, of the guide vane plates 415, and the guide vane holes are of a conical structure. The guide vane holes can ensure that the leaves pass through the guide vane plate 415 and then reach between the cutter seat 407 and the cutter 410.

The working principle is as follows: fixing longer simulation leaves to be cut in a gap between adjacent leaf separating toothed plates 203, starting a leaf taking transverse moving motor 302, driving a leaf taking sliding table 301 to reach the upper part of a leaf storage frame 2 by the leaf taking transverse moving motor 302, starting a longitudinal moving motor 309, driving a longitudinal moving sliding block 308 to reach a designated position by the longitudinal moving motor 309, starting a leaf pushing cylinder 206, extending a piston rod on the leaf pushing cylinder 206, lifting the leaf pushing plate 204, pushing the simulation leaves to lift to the designated position by the leaf pushing plate 204, starting a leaf taking finger cylinder 312, folding two leaf taking cylinder fingers 313 on the leaf taking finger cylinder 312 mutually, grabbing the simulation leaves by the leaf taking cylinder fingers 313, fixing the simulation leaves on the leaf taking finger cylinder 312, starting the leaf taking cylinder 310, extending the piston rod on the leaf taking cylinder 310, lifting the simulation leaves along with the leaf taking finger cylinder 312, starting the leaf taking transverse moving motor 302 again, moving the leaf taking sliding table 301 to be right above a cutting component 4, the leaf taking cylinder 310 is started, the piston rod on the leaf taking cylinder 310 is shortened, the simulated leaves descend along with the leaf taking finger cylinder 312, the leaf taking finger cylinder 312 places the simulated leaves between the comb teeth 403, the longitudinal moving motor 309 is started, the longitudinal moving motor 309 drives the longitudinal moving slider 308 to move, the leaf taking finger cylinder 312 moves along with the longitudinal moving slider 308, one end of the simulated leaves extends out of a distance between the corresponding cutter holder 407 and the corresponding cutter 410, the cutting cylinder 408 is started, the piston rod on the cutting cylinder 408 is extended, the cutter edge mounting plate 409 descends, the cutter 410 below the cutter edge mounting plate 409 is matched with the cutter holder 407 to cut the simulated christmas tree leaves, the cut simulated christmas tree leaves fall onto the leaf pocket 101, the cutting cylinder 408 is started, the piston rod on the cutting cylinder 408 is shortened, the cutter 410 is separated from the cutter holder 407, the leaf taking finger cylinder 312 is started, the two leaf taking cylinder fingers 313 on the leaf taking finger cylinder 312 are separated, starting the leaf taking cylinder 310, extending a piston rod on the leaf taking cylinder 310, ascending the leaf taking finger cylinder 312, starting the longitudinal moving motor 309, driving the longitudinal moving slide block 308 to move a distance by the longitudinal moving motor 309, starting the leaf taking cylinder 310, shortening the piston rod on the leaf taking cylinder 310, descending the leaf taking finger cylinder 312, starting the leaf taking finger cylinder 312, closing two leaf taking cylinder fingers 313 on the leaf taking finger cylinder 312 again, grabbing the simulated leaves, driving the longitudinal moving slide block 308 to move a distance by the longitudinal moving motor 309 again, extending the simulated leaves out a distance from the corresponding knife holder 407 and the corresponding knife 410 again, cutting the simulated leaves by the knife 410 again, performing cycle operation, when the simulated leaves grabbed by the leaf taking finger cylinder 312 cannot meet the requirement of one-time cutting, extending the piston rod on the leaf taking cylinder 310, grabbing the simulated leaves tail material by the leaf taking finger cylinder 312, ascending the leaf taking finger cylinder 302, starting, get leaf sideslip motor 302 drive and get leaf slip table 301 and remove, get leaf finger cylinder 312 and remove directly over tails case 103, get leaf finger cylinder 312 and start, get leaf cylinder of getting on the leaf finger cylinder 312 and point 313 separately, the leaf tails drops and collects in the tails case 103, this device only needs the workman to fix the emulation leaf that the shaping is good on storing up leaf frame 2 and just can accomplish automatically and become appointed length to what the emulation leaf was cut, and disposable can cut many emulation leaves, and collect the tails, very big improvement production efficiency and reduction cost of labor.

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 a conveying of emulation christmas tree leaf cuts mechanism, includes the frame, its characterized in that: the leaf taking machine is characterized in that a leaf storage rack, a leaf taking assembly and a cutting assembly are respectively fixed on the rack, a leaf pocket and a tailing box are also fixed on the rack, a baffle is also fixed on the rack on one side of the leaf pocket, the leaf storage rack comprises a sealing plate fixed on the rack, a leaf rack bottom plate is fixed on the sealing plate, a plurality of leaf separating toothed plates are uniformly fixed on the leaf rack bottom plate, a leaf pushing cylinder is fixed in the sealing plate below the leaf rack bottom plate and fixedly connected with the leaf pushing plate above the leaf rack bottom plate through a piston rod, the leaf separating toothed plates penetrate through the leaf pushing plate and are in sliding connection with the leaf pushing plate, a leaf taking assembly is fixed on the rack above the leaf storage rack and comprises a plurality of transverse sliding rails transversely fixed on the rack, a leaf taking sliding table in sliding connection with the transverse sliding rails is fixed on the transverse sliding rails and is driven to move by a leaf taking transverse sliding motor, a plurality of longitudinal sliding rails are also longitudinally fixed on the leaf taking sliding table, a longitudinal sliding block connected with the longitudinal sliding rails in a sliding manner is fixed on the longitudinal sliding rails, the longitudinal sliding block is driven by a longitudinal moving motor to move, a leaf taking cylinder is vertically fixed on the longitudinal sliding block and is fixedly connected with a leaf taking mounting plate through a piston rod, a plurality of leaf taking finger cylinders are uniformly fixed on the leaf taking mounting plate, a cutting assembly is further fixed on the rack below the leaf taking assembly and comprises a cutting bottom plate fixed on the rack, a cutting supporting plate is fixed above the cutting bottom plate, a plurality of comb teeth are uniformly fixed on one side of the upper end face of the cutting bottom plate, a cutting portal frame is fixed on the other side of the upper end face of the cutting bottom plate, a cutting edge mounting plate connected with the cutting portal in a sliding manner is fixed on the cutting portal frame, and a plurality of cutters are uniformly fixed on the cutting edge mounting plate, the cutting edge mounting panel is fixed with the vertical piston rod fixed connection who cuts the cylinder that cuts on cutting the portal, cut being fixed with the blade holder that uses with aforementioned cutter cooperation between the portal of cutting the bottom plate up end, cut the bottom plate lower extreme and still be fixed with the plain leaf cylinder, the plain leaf cylinder passes through piston rod fixedly connected with plain leaf push pedal.

2. The conveying and cutting mechanism for artificial christmas tree leaves as claimed in claim 1, wherein: and a leaf blocking plate is vertically fixed on one side of the upper end of the leaf pushing plate.

3. The conveying and cutting mechanism for artificial christmas tree leaves as claimed in claim 1, wherein: the output end of the leaf taking transverse moving motor is fixedly provided with a transverse moving driving wheel, a transverse moving driven wheel is fixedly arranged on the rack, the transverse moving driven wheel is in winding connection with the transverse moving driving wheel through a transverse moving synchronous belt, and the transverse moving synchronous belt is fixedly connected with the leaf taking sliding table.

4. The conveying and cutting mechanism for artificial christmas tree leaves as claimed in claim 1, wherein: the cutting machine is characterized in that a supporting shaft is fixed on one side of the cutting portal frame, the cutting cylinder is fixed on the other side of the cutting portal frame, the cutting cylinder is fixedly connected with a fixing shaft through a piston rod, the fixing shaft is connected with the supporting shaft through a boosting connecting plate, one end of the boosting connecting plate is rotatably connected with the fixing shaft, the other end of the boosting connecting plate is rotatably connected with the supporting shaft, a lever force plate rotatably connected with the boosting connecting plate is further fixed in the middle of the boosting connecting plate, and the bottom of the lever force plate is fixedly connected with the blade mounting plate.

5. The conveying and cutting mechanism for artificial christmas tree leaves as claimed in claim 1, wherein: the cutting bottom plate between the cutting door frames is further fixedly provided with a guide vane plate, guide vane holes penetrating through the guide vane plate are formed in the positions, corresponding to the cutter holders, of the guide vane plate, and the guide vane holes are of a conical structure.

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