CN110699758A - Method for processing handicraft lotus root rod - Google Patents

Abstract

The invention relates to a method for guiding and conveying artware lotus root stalks, which comprises the step of primary sorting, wherein relatively straight and complete lotus root stalks of the lotus root stalks are selected as production raw materials; feeding the lotus root stalks into a feeding mechanism, gradually feeding the lotus root stalks into a hopper in the feeding mechanism, starting a pushing mechanism, enabling the lotus root stalks to slide in a channel of a guide sliding material channel one by one, and leading the lotus root stalks out of an outlet of the guide sliding material channel one by one; the pushing mechanism leads the lotus root sticks out one by one from the outlet of the guide sliding material channel, the lotus root sticks are filled in the material receiving mechanism gradually, the pushing mechanism stops acting after the material receiving mechanism is filled with the lotus root sticks, the material receiving mechanism leads out quantitative lotus root sticks into the spinning mechanism to perform spinning operation, and the method can lead out the lotus root sticks in a one-to-one mode to perform fiber spinning operation on the lotus root sticks.

Description

Method for processing handicraft lotus root rod

Technical Field

The invention relates to the technical field of artware processing, in particular to a processing method of an artware lotus root rod.

Background

The lotus root planting area in China is large, and lotus roots and lotus seeds are mainly harvested, so that a large number of lotus stems are discarded as waste, and a large amount of resources are wasted. The fibre of lotus root pole can regard as high-grade fabrics raw materials, and accessible spinning mechanism implements the winding operation of drawing to the cellosilk, and then can obtain the lotus root silk fibre of high-grade, because the lotus root pole is as special material, when actual spinning operation, needs to make the lotus root pole present the mode of one and carry out the spinning operation in leading-in spinning equipment.

Disclosure of Invention

The invention aims to provide a processing method of an artware lotus root rod, which can lead out the lotus root rod in a one-handle mode so as to carry out fiber spinning operation on the lotus root rod.

The technical scheme adopted by the invention is as follows.

The method for guiding and conveying the artware lotus root stalks comprises the following steps:

firstly, picking up the handicraft lotus root stalks from a pond, primarily sorting the lotus root stalks, and selecting the relatively straight and complete lotus root stalks of the lotus root stalks as production raw materials;

secondly, feeding the lotus root stalks into a feeding mechanism, gradually feeding the lotus root stalks into a hopper in the feeding mechanism, starting a pushing mechanism, enabling the lotus root stalks to slide in a channel of a guide sliding material channel one by one, and leading the lotus root stalks out of an outlet of the guide sliding material channel one by one;

and thirdly, leading out the lotus root rods from an outlet of the guide sliding material channel one by the pushing mechanism, gradually filling the material receiving mechanism, stopping the pushing mechanism after the material receiving mechanism is fully filled with the lotus root rods, and leading out quantitative lotus root rods to the spinning mechanism by the material receiving mechanism for spinning.

The invention also has the following features:

the guide sliding material channel is composed of a plurality of sliding rods which are arranged in a bending mode, gaps are arranged among the sliding rods, and a channel through which the lotus root stalks pass is formed among the guide sliding material channels.

The two slide bars are arranged at intervals in parallel, and a plurality of groups of the two slide bars are arranged at intervals along the length direction of an outlet of the feeding mechanism at equal intervals.

The feeding mechanism comprises a hopper, an outlet is formed in the lower portion of the hopper, the width of an inlet in the upper end of the hopper is larger than that of an outlet in the lower end of the hopper, and the two sliding rods are arranged downwards along the outlet direction of the hopper in a forward extending mode.

The pushing mechanism comprises pushing rollers arranged in the sliding rods, roller cores of the pushing rollers are horizontal and connected with the driving mechanism, material poking soft boards are arranged at intervals of the circumferential direction of the roller edges of the pushing rollers at equal intervals, and the material poking soft boards stretch into gaps between the sliding rods.

The whole material poking soft board is semicircular.

And a plurality of groups of pushing rollers are arranged at equal intervals along the width direction of the guide sliding material channel.

The slide bar contains and hopper export vertical downwards, the slide bar contains the S-shaped bending section of being connected with the export lower extreme of hopper, the both ends of S-shaped bending section are vertical arranges, the below bending position that the pushing roll is close to the S-shaped bending section arranges.

A lateral wall of hopper is provided with the opening, the opening is along a lateral wall downwardly extending, be provided with the drive roller in the opening, the roller core level of drive roller and with propelling movement roller parallel arrangement, the outer wall circumference equidistance interval of drive roller is provided with a plurality of drive soft boards, the drive soft board stretches into in the opening.

The S-shaped bending section of the slide bar is provided with a horizontal extension section.

The material driving roller is arranged beside the lower side of the horizontal extension section, the pushing roller is horizontal and arranged in parallel with the roller core of the pushing roller, the material driving rake is arranged on the material driving roller, the material driving rake is arranged in a plurality along the length direction of the pushing roller and at intervals of equal intervals in the circumferential direction, and the material driving rake extends into the horizontal extension section of the adjacent sliding rod.

The receiving mechanism comprises a receiving roller arranged at the outlet position of the horizontal extension section, and the receiving roller is horizontally arranged and a receiving clamping groove for accommodating a lotus root rod is arranged on the roller body.

Connect the both sides cell wall of material draw-in groove to be provided with the opening of dodging horizontal extension section, the tank bottom of connecing the material draw-in groove is provided with the stripper, the stripper constitutes sliding fit along connecing the material draw-in groove, and tilting mechanism drive connects the material roller to rotate and makes and connect the material draw-in groove to be in the extension end position and the decurrent position of notch of horizontal extension section.

The cell wall of connecing the material draw-in groove is provided with the slide opening, the both sides of stripper are provided with the direction slider, the direction slider slides and sets up in the slide opening.

The turnover mechanism comprises a discharging gear connected with one end of the receiving roller, the discharging gear is meshed with a discharging rack, and one end of the discharging rack is connected with a piston rod of a discharging oil cylinder.

The invention has the technical effects that: picking up the artware lotus root stalks from the pond, primarily sorting the artware lotus root stalks, and selecting the relatively straight and complete lotus root stalks of the lotus root stalks as production raw materials; feeding the lotus root stalks into a feeding mechanism, gradually feeding the lotus root stalks into a hopper in the feeding mechanism, starting a pushing mechanism, enabling the lotus root stalks to slide in a channel of a guide sliding material channel one by one, and leading the lotus root stalks out of an outlet of the guide sliding material channel one by one; pushing equipment exports the lotus root pole from the export of the smooth material passageway of direction one by one to in progressively filling receiving mechanism, after receiving mechanism connects the lotus root pole fully, pushing equipment stops the action, receiving mechanism exports the lotus root pole of ration to spinning machine and in carrying out the spinning operation, this depiler can make the lotus root pole derive with the mode of one, in order to implement the fibre spinning operation to the lotus root pole.

Drawings

FIG. 1 is a schematic plan view of an art lotus root rod separator;

FIGS. 2 and 3 are two views of the artistic lotus root rod distributor;

FIGS. 4 and 5 are schematic views of the two kinds of view angle structures of the handicraft lotus-root-bar distributor after being cut open;

fig. 6 and 7 are schematic diagrams of two viewing angle structures of the receiving mechanism.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention will now be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed. As used herein, the terms "parallel" and "perpendicular" are not limited to their strict geometric definitions, but include tolerances for machining or human error, legibility and inconsistency; the specific features of the handicraft lotus-root-rod distributor are explained in detail below:

a handicraft lotus root rod distributor comprises a feeding mechanism 10, wherein a guide sliding material channel 20 is arranged at the outlet position of the feeding mechanism 10, the guide sliding material channel 20 extends downwards in a bent mode, a pushing mechanism is arranged in the guide sliding material channel 20 and pushes a lotus root rod to slide along the guide sliding material channel 20, a material receiving mechanism 60 is arranged at the outlet of the guide sliding material channel 20 and is used for receiving the material of the lotus root rod;

with reference to fig. 1, in order to realize the single lotus root rod leading-out, firstly, the lotus root rod which is collected is led out to the feeding mechanism 10, the feeding mechanism 10 is used for storing the lotus root rod, the feeding mechanism 10 leads the lotus root rod out to the guide sliding material channel 20, the pushing mechanism is used for enabling the lotus root rod to be arranged in the guide sliding material channel 20 singly, the pushing mechanism is used for enabling the single lotus root rod which is arranged to slide along the guide sliding material channel 20, the sliding leading-out of the straw is realized, the starting time of the pushing mechanism is controlled, the lotus root rod amount led out from the guide sliding material channel 20 is controlled, the receiving mechanism 60 is used for carrying out the receiving of the quantitative lotus root rod, the received lotus root rod is led out to the spinning mechanism, the lotus root rod which is taken out is broken by the spinning mechanism, and the spinning operation is carried out.

As a preferable scheme of the present invention, the guiding material sliding channel 20 is composed of a plurality of sliding rods 21 which are arranged in a bending way, a plurality of sliding rods 21 are arranged in a gap way, and a channel through which the lotus root stalk passes is formed between the guiding material sliding channels 20;

for realizing the slip direction of lotus root pole of team for the lotus root pole can slide along the smooth material passageway 20 of direction with single row or two lotus root poles, and the smooth material passageway 20 of direction comprises slide bar 21, and the clearance between slide bar 21 constitutes the passageway, and then makes things convenient for the lotus root pole can be convenient slide from the smooth material passageway 20 of direction, and derives from the export of the smooth material passageway 20 of direction.

Furthermore, the two slide bars 21 are arranged in parallel at intervals, and a plurality of groups of the two slide bars 21 are arranged at equal intervals along the length direction of the outlet of the feeding mechanism 10;

the multiple groups of slide bars 21 are arranged at intervals along the length direction of the outlet of the feeding mechanism 10, so that the lotus root stalks can be effectively limited, can stably slide along the curved slide ways enclosed among the multiple groups of slide bars 21, and can be guided out from the outlet of the guide material sliding channel 20, and the quantitative guide and feeding operation of the lotus root stalks can be realized;

multiunit slide bar 21 interval arrangement reduces the gliding resistance of lotus root pole to ensure that the lotus root pole can slide along multiunit slide bar 21's passageway, and then realize the derivation to the lotus root pole.

When the lotus root stalks are in the soil guiding and feeding mechanism 10, the lotus root stalks can be guided and fed through the conveying belt 70, the feeding mechanism 10 comprises a hopper 11, an outlet is arranged below the hopper 11, the width of the inlet at the upper end of the hopper 11 is larger than that of the outlet at the lower end of the hopper 11, and the two sliding rods 21 are arranged downwards along the outlet direction of the hopper 11;

conveyer belt 70 sets up the feed inlet position department at hopper 11, conveyer belt 70 sets up on the balladeur train, set up vibrating motor on the balladeur train, the lotus root pole that will gather back puts back on conveyer belt 70, vibrating motor makes the lotus root pole tile along the 70 individual layers of conveyer belt, conveyer belt 70 exports the lotus root pole to the hopper 11 in, hopper 11 wholly is big, trapezoidal box body arrangement of small end, the below of hopper 11 is provided with the export, the import position to direction smooth material passageway 20 is derived from the export of hopper 11 to the straw, and make the lotus root pole derive to the passageway that the clearance between two slide bars 21 constitutes in, and then make the lotus root pole derive to two slide bars 21 in, and under push mechanism's effect, make the lotus root pole slide and derive along two slide bars 21.

Furthermore, the pushing mechanism comprises pushing rollers 41 arranged in the sliding rods 21, the roller cores of the pushing rollers 41 are horizontal and connected with the driving mechanism, material poking soft plates 411 are arranged on the roller edges of the pushing rollers 41 at equal intervals in the circumferential direction, and the material poking soft plates 411 extend into gaps between the sliding rods 21;

referring to fig. 2 to 5, after the lotus root stalks are led out from the outlet of the hopper 11 to the channel formed by the two slide bars 21, the pushing roller 41 is started to rotate, so that the material poking soft plate 411 on the pushing roller 41 extends into the gap between the slide bars 21, and the material poking soft plate 411 is in contact with the lotus root stalks in the gap between the slide bars 21, so as to drive the lotus root stalks to slide along the channel formed by the gap between the slide bars 21, and further realize effective material driving operation on the lotus root stalks;

when the lotus root sticks slide along gaps formed among the sliding rods 21, intermittent quantitative feeding of the lotus root sticks is achieved by controlling the rotation of the pushing rollers 41, so that the lotus root stick quantity led out of the lotus root sticks in the sliding rods 21 is related to the rotation time and speed of the pushing rollers 41, the lotus root sticks led out of the channels of the sliding rods 21 are constant, the lotus root sticks are led out of the outlets of the sliding rods 21 in a one-to-one mode, and one-to-one feeding operation of the lotus root sticks is achieved;

the lotus root rod is led out into the spinning mechanism, the clamping of two ends of the lotus root rod is achieved, then the lotus root rod is twisted off, then the spinning operation of the twisted-off lotus root rod is achieved through the spinning mechanism, and then the lotus root silk fiber of the lotus root rod is extracted;

the material shifting soft plate 411 is made of high-molecular elastic sheet materials, shifting of the lotus root rod can be effectively achieved through the material shifting soft plate 411, and the problem that the lotus root rod is broken due to overlarge shifting force can be avoided;

the feeding speed of the pushing roller 41 is controlled slowly, the rotating speed of the pushing roller 41 is 100-150 r/min during actual use measurement, and when the pushing roller 41 is actually used, the lotus root stalks can be effectively led out of the outlet of the hopper 11 of the feeding mechanism 10 into the sliding rod 21, and meanwhile the lotus root stalks can be effectively prevented from being broken, so that stable and reliable feeding operation of the lotus root stalks is achieved.

In order to realize effective material poking of the lotus root rod, the material poking soft plate 411 is integrally semicircular;

under natural state, dial material soft board 411 semicircular in shape, when pivoted propelling movement roller 41 rotates, when making the lotus root pole contact of dialling in material soft board 411 and the slide 21, dial material soft board 411 drive lotus root pole, thereby make the lotus root pole slide along slide bar 21, so that the lotus root pole slides along slide bar 21, in order to realize steadily dialling the material to the lotus root pole, so that the lotus root pole slides along slide bar 21.

In order to realize effective poking of the lotus root rod, the pushing rollers 41 are arranged in groups at equal intervals along the width direction of the guide sliding channel 20;

the roller cores of the adjacent pushing rollers 41 are connected into a whole through a connecting shaft, and the driving mechanism drives the connecting shafts to rotate, so that a plurality of groups of pushing rollers 41 can be linked to rotate, and the straws in the sliding rod 21 can be pushed.

Still more preferably, the slide rod 21 includes an S-shaped bent section 211 vertically downward from the outlet of the hopper 11, the slide rod 21 includes an S-shaped bent section 211 connected to the lower end of the outlet of the hopper 11, two ends of the S-shaped bent section 211 are vertically arranged, and the pushing roller 41 is arranged near the lower bent position of the S-shaped bent section 211;

the lotus root rod is led out from the outlet end of the hopper 11 to the gap of the vertical section at the upper end of the S-shaped bent section 211 of the slide rod 21, and the resistance is increased when the lotus root rod slides at the bent position of the S-shaped bent section 211, so that the lotus root rod is positioned at the bent position of the S-shaped bent section 211 and stacked, and the lotus root rod is supported by utilizing the bent position of the S-shaped bent section 211;

the pushing roller 41 is arranged at the bending position of the S-shaped bending section 211, so that the lotus root stalks are driven to the bending position of the S-shaped bending section 211, the lotus root stalks can be further led out from the gap of the lower vertical section of the S-shaped bending section 211, and the quantitative feeding operation of the lotus root stalks is realized;

in order to realize the material driving operation of the lotus root stalks led out by the conveying belt 70 into the hopper 11, an opening 111 is formed in one side wall of the hopper 11, the opening 111 extends downwards along one side wall, a driving roller 42 is arranged in the opening 111, a roller core of the driving roller 42 is horizontal and is arranged in parallel with the pushing roller 41, a plurality of driving soft boards 421 are arranged on the outer wall of the driving roller 42 at equal intervals in the circumferential direction, and the driving soft boards 421 extend into the opening 111;

after the conveyer belt 70 is led out from the outlet to the hopper 11, the lotus root stalks fall to the outlet position along the upper end of the hopper 11, and the lotus root stalks are piled up at the outlet position of the hopper 11, and when the driving roller 42 rotates, the lotus root stalks are stirred to the outlet position from the opening of the hopper 11 and are stirred from the upper end position of the slide rod 21 to realize the feeding operation of the lotus root stalks through the driving roller 42 arranged in the side wall opening 111 of the hopper 11;

the driving soft board 421 is also made of a high molecular elastic sheet material, and the driving soft board 421 can not only effectively realize shifting of the lotus root rod, but also avoid the problem that the lotus root rod is broken due to overlarge shifting force;

similarly, the rotation speed of the driving roller 42 is slow in feeding control, and when the driving roller 42 is actually used for measurement and calculation, the rotation speed of the driving roller 42 is 100-150 r/min, so that the rotation speed of the driving roller 42 is consistent with the rotation speed of the pushing roller 41, and the rotation direction is opposite to each other, when the driving roller 42 is actually used, the lotus root stalks can be effectively guided out from the outlet of the hopper 11 of the feeding mechanism 10 and can be guided into the sliding rods 21, and the lotus root stalks can be effectively prevented from being broken, so that stable and reliable feeding operation of the lotus root stalks can be realized;

the driving rollers 42 are connected into a whole through connecting rods, the connecting rod sections of the driving rollers 42 are provided with belt wheels, the connecting rod shaft ends of the pushing rollers 41 are also provided with belt wheels, and the driving rollers 42 and the pushing rollers 41 are enabled to rotate at the same speed and in opposite directions through transition belt wheels, driving motors and speed change mechanisms, so that lotus roots are led out from the outlet of the hopper 11 to the inside of the sliding rod 21 and are led out from the lotus roots.

After the lotus root rod is led out from the vertical section at the lower end of the S-shaped bent section 211 of the slide bar 21, the S-shaped bent section 211 of the slide bar 2 is provided with a horizontal extension section 212;

the horizontal extension section 212 is utilized to store the straws, so that the lotus root stalks are prevented from being randomly led out from the horizontal extension section 212;

in order to realize the derivation of lotus root stalk materials, a material driving roller 50 is arranged beside the lower part of the horizontal extension section 212, the material driving roller 50 is horizontal and is arranged in parallel with the roller core of a pushing roller 41, a plurality of material driving rakes 51 are arranged on the material driving roller 50 at equal intervals along the length direction and the circumferential direction of the pushing roller 50, and the material driving rakes 51 extend into the horizontal extension section 212 of the adjacent slide rod 21;

under the action of the pushing roller 41, the lotus root stalks are pushed into the horizontal extension sections 212, the material driving roller 50 is started to rotate, when the material driving roller 50 rotates, the material driving rake 51 drives the lotus root stalks in gaps among the horizontal extension sections 212, the lotus root stalks are driven out from the horizontal extension sections 212 in a quantitative mode, the material receiving mechanism 60 is used for carrying the quantitative lotus root stalks, and the lotus root stalks are led out to the spinning mechanism in a one-handle mode to be subjected to the next operation;

when the lotus root sticks are pushed out from the horizontal extension section 212, the material receiving mechanism 60 comprises a material receiving roller 61 arranged at the outlet position of the horizontal extension section 212, the material receiving roller 61 is horizontally arranged, and a material receiving clamping groove 62 for accommodating the lotus root sticks is arranged on the roller body;

the rotating material driving roller 50 enables the material driving rake 51 to quantitatively push the lotus root stalks in the horizontal extension section 212 into the material receiving clamping groove 62, so that the lotus root stalks are received;

the two side groove walls of the material receiving clamping groove 62 are in a splayed shape integrally, the material driving rake 51 pushes the lotus root rod on the horizontal extension end 212 into the material receiving clamping groove 62, so that the problem that the lotus root rod is broken due to the fact that the lotus root rod is abutted against the two side groove walls of the material receiving clamping groove 62 is avoided, and stable connection of the lotus root rod is achieved;

the groove walls at two sides of the material receiving clamping groove 62 are provided with openings 621 avoiding the horizontal extension section 212, the bottom of the material receiving clamping groove 62 is provided with a discharging plate 63, the discharging plate 63 forms sliding fit along the material receiving clamping groove 62, and the turnover mechanism drives the material receiving roller 61 to rotate and enables the material receiving clamping groove 62 to be located at the extension end position of the horizontal extension section 212 and the position with the downward notch;

for the realization effectively accepts the lotus root pole, avoid the lotus root pole extrusion rupture, foretell connect material draw-in groove 62 to be located to connect material roller 61 to rotate, and make connect material draw-in groove 62 to rotate to horizontal extension section 212 in, and make the draw-in groove that connects material draw-in groove 62 align with the export of leading of horizontal extension section 212, under the effect of catching up with material harrow 51, derive the lotus root pole to connect material draw-in groove 62 in, after connecing material draw-in groove 62 to fill with the lotus root pole, connect material roller 61 to rotate, make the notch that connects material draw-in groove 62 downwards, under the automation of stripper 63, derive the lotus root pole that connects in the material draw-in groove 62 to the conveying belt, and utilize the conveying belt to derive to spinning mechanism in, in order to.

More preferably, the groove wall of the material receiving slot 62 is provided with a slide hole 622, two sides of the discharging plate 63 are provided with guide sliders 631, and the guide sliders 631 are slidably disposed in the slide hole 622;

connect material roller 61 to implement the operation back of unloading to the lotus root pole, connect material roller 61 upset to make the notch slope that connects material draw-in groove 62 of material roller 61 upwards, the lotus root pole propelling movement to connect material draw-in groove 62 in the back, under the drive power of lotus root pole, make stripper 63 reset to the tank bottom position that connects material draw-in groove 62, when the realization resets stripper 63, can also realize effectively accepting the lotus root pole.

In order to realize the turnover of the material receiving roller 61, the turnover mechanism comprises a discharge gear 611 connected with one end of the material receiving roller 61, the discharge gear 611 is engaged with a discharge rack 612, and one end of the discharge rack 612 is connected with a piston rod of the discharge cylinder 613.

The method for guiding and conveying the artware lotus root stalks comprises the following steps:

firstly, picking up the handicraft lotus root stalks from a pond, primarily sorting the lotus root stalks, and selecting the relatively straight and complete lotus root stalks of the lotus root stalks as production raw materials;

secondly, feeding the lotus root stalks into a feeding mechanism 10, gradually feeding the lotus root stalks into a hopper 11 in the feeding mechanism 10, starting a pushing mechanism, enabling the lotus root stalks to slide in a channel of a guide material sliding channel 20 one by one, and leading the lotus root stalks out of an outlet of the guide material sliding channel 20 one by one;

and thirdly, leading out the lotus root sticks from the outlet of the guide sliding material channel 20 one by the pushing mechanism, gradually filling the material receiving mechanism 60, stopping the pushing mechanism after the material receiving mechanism 60 is filled with the lotus root sticks, and leading out quantitative lotus root sticks to the spinning mechanism by the material receiving mechanism 60 for spinning operation.

Claims (10)

1. The processing method of the handicraft lotus root rod is characterized in that: the processing method of the handicraft lotus root rod comprises the following steps:

firstly, picking up the handicraft lotus root stalks from a pond, primarily sorting the lotus root stalks, and selecting the relatively straight and complete lotus root stalks of the lotus root stalks as production raw materials;

secondly, feeding the lotus root rod raw materials into a feeding mechanism (10), gradually feeding the lotus root rods into a hopper (11) in the feeding mechanism (10), starting a pushing mechanism, enabling the lotus root rods to slide in a guide material sliding channel (20) one by one, and leading the lotus root rods out of an outlet of the guide material sliding channel (20) one by one;

and thirdly, the lotus root rods are led out from the outlet of the guide sliding material channel (20) one by the pushing mechanism and are gradually filled in the material receiving mechanism (60), after the material receiving mechanism (60) is fully filled with the lotus root rods, the pushing mechanism stops acting, and the material receiving mechanism (60) leads out quantitative lotus root rods to the spinning mechanism for spinning operation.

2. The method for processing the handicraft lotus root rod as claimed in claim 1, wherein: the guide sliding material channels (20) are formed by a plurality of sliding rods (21) which are arranged in a bending way, the sliding rods (21) are arranged at intervals, and channels through which lotus root stalks pass are formed among the guide sliding material channels (20); the two slide bars (21) are arranged in parallel at intervals, and a plurality of groups of the two slide bars (21) are arranged along the length direction of an outlet of the feeding mechanism (10) at equal intervals.

3. The method for processing the handicraft lotus root rod as claimed in claim 2, wherein: the feeding mechanism (10) comprises a hopper (11), an outlet is formed in the lower portion of the hopper (11), the width of an inlet in the upper end of the hopper (11) is larger than the width of an outlet in the lower end of the hopper, and the two sliding rods (21) are arranged downwards along the outlet direction of the hopper (11).

4. The method for processing the handicraft lotus root rod as claimed in claim 3, wherein: the pushing mechanism comprises a pushing roller (41) arranged in a sliding rod (21), the roller core of the pushing roller (41) is horizontal and is connected with a driving mechanism, material shifting soft boards (411) are arranged at intervals of the roller edge circumference of the pushing roller (41) at equal intervals, and the material shifting soft boards (411) stretch into gaps between the sliding rods (21).

5. The method for processing the handicraft lotus root rod as claimed in claim 4, wherein: the material poking soft board (411) is integrally semicircular; the pushing rollers (41) are arranged in multiple groups at equal intervals along the width direction of the guide sliding channel (20).

6. The method for processing the handicraft lotus root rod as claimed in claim 5, wherein: slide bar (21) contain with vertical downwards of hopper (11) export, slide bar (21) contain S shape bending segment (211) of being connected with the export lower extreme of hopper (11), the both ends of S shape bending segment (211) are vertical arranges, push roller (41) are close to the below bending position of S shape bending segment (211) and arrange.

7. The method for processing the handicraft lotus root rod as claimed in claim 6, wherein: a lateral wall of hopper (11) is provided with opening (111), opening (111) extend along a lateral wall downwardly, be provided with drive roller (42) in opening (111), the roller core level of drive roller (42) and with propelling movement roller (41) parallel arrangement, the outer wall circumference equidistance interval of drive roller (42) is provided with a plurality of drive soft boards (421), drive soft board (421) stretch into in opening (111).

8. The method for processing the handicraft lotus root rod as claimed in claim 7, wherein: the S-shaped bent section (211) of the sliding rod (21) is provided with a horizontal extension section (212); horizontal extension section (212) below side is provided with material driving roller (50), pushing roller (50) level and with pushing roller (41) roller core parallel arrangement, material driving rake (51) is provided with on material driving roller (50), material driving rake (51) is along pushing roller (50) length direction and circumference equidistance interval arrangement a plurality ofly, material driving rake (51) stretches into in horizontal extension section (212) of adjacent slide bar (21).

9. The method for processing the handicraft lotus root rod as claimed in claim 8, wherein: the material receiving mechanism (60) comprises a material receiving roller (61) arranged at the outlet position of the horizontal extension section (212), the material receiving roller (61) is horizontally arranged, and a material receiving clamping groove (62) for accommodating a lotus root rod is formed in the roller body; the groove walls on the two sides of the material receiving clamping groove (62) are provided with openings (621) avoiding the horizontal extending section (212), the bottom of the material receiving clamping groove (62) is provided with a discharging plate (63), the discharging plate (63) forms sliding fit along the material receiving clamping groove (62), the turnover mechanism drives the material receiving roller (61) to rotate, and the material receiving clamping groove (62) is located at the extending end position of the horizontal extending section (212) and the position with the downward notch; the cell wall of receiving material draw-in groove (62) is provided with slide opening (622), the both sides of stripper (63) are provided with direction slider (631), direction slider (631) slide and set up in slide opening (622).

10. The method for processing the handicraft lotus root rod as claimed in claim 9, wherein: the turnover mechanism comprises a discharge gear (611) connected with one end of the receiving roller (61), the discharge gear (611) is meshed with a discharge rack (612), and one end of the discharge rack (612) is connected with a piston rod of a discharge oil cylinder (613).

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