CN210491726U - Novel tea picking machine - Google Patents

Abstract

The utility model relates to a technical field is picked to tealeaves, concretely relates to novel tealeaves picking machine, tealeaves picking machine is in including gathering the box, setting picking subassembly in the collection box still including being used for the drive pick the driver part of subassembly still be provided with on gathering the box and collect the subassembly, it includes extrusion part and first revolving axle to pick the subassembly, be provided with a plurality of extrusion arms on the first revolving axle, the extrusion arm include with the linkage segment that first revolving axle links to each other with be used for with the extrusion part cooperation is applyed the bright leaf of tealeaves and is upwards carried tensile extrusion section, it is used for making the bud stem of the bright leaf of tealeaves to be broken by the pulling force. The utility model provides a tealeaves picking machine when can breaking the bud stem, is unlikely to too big and with the bud stem fracturing again, and the fracture is the problem of maroon and too much thick liquid dissolves the problem of income aquatic when having avoided tealeaves to drink, has ensured the pleasing to the eye and the tea soup taste of tealeaves outward appearance, has also ensured the tea quality of producing of tea tree in the coming year.

Description

Novel tea picking machine

Technical Field

The utility model relates to a technical field is picked to tealeaves, concretely relates to novel tealeaves picking machine.

Background

As a natural green beverage, the tea is a long-standing cultural tradition in China, and the Chinese green tea not only has the most famous products, but also has excellent quality, unique and elegant shape, and good artistic appreciation value, and is more and more popular with people.

The tea production process mainly comprises the steps of picking, spreading and airing, water removing, rolling, drying and the like, wherein in the traditional processing mode, the steps are usually carried out manually, for example, the picking step is carried out manually in a mode of picking root by root, and the mode has high picking precision, can realize reliable grading picking and can also ensure good picking quality. But the picking speed is slow, so the tea plucking machine is not suitable for the tea plucking work of large tea gardens.

In order to increase the tea leaf picking speed and reduce the labor intensity, tea leaf pickers have been designed and widely used. However, the applicant has found that the current tea leaf picking machine still has the defects. Present tealeaves picking machine all adopts blade subassembly to follow the tea cutting off to tealeaves to this realizes the picking of tealeaves, the blade subassembly is including two blades usually, two blade relative motion realize the shearing action to tealeaves, such mode makes the fracture face that cuts off of tealeaves personally submit uneven burr-shaped, especially along with the increase of live time, the cutting edge of blade becomes dull to and two blades of tealeaves picking machine are relative not hard up, when leading to the shearing action, there is the gap between the cutting edge of two blades, these all can aggravate the burr degree of tealeaves fracture face, when serious, the cracked condition appears in tealeaves fracture section even.

For tea picking, when fresh leaves are broken, serous fluid can be separated out from the broken part, when manual picking is adopted, the picking mode is that the leaf buds are clamped by a forefinger and a thumb and are lifted upwards to be broken and separated, the broken part surface of the tea formed by the mode is smooth and flat, the area of broken wound is small, and the separated serous fluid is less, so that the broken part can be quickly dried and closed; when the fracture surface of the tea leaves is in a burr shape or the fracture section is broken, the open area of the fracture of the tea leaves is increased, the damaged tissues are increased, the precipitation amount of slurry is increased, the fracture is difficult to dry and seal quickly, the precipitation time of the slurry is further increased, the slurry collection amount at the fracture is increased, the slurry is collected at the fracture and oxidized by air due to the fact that the slurry cannot be dried quickly, the brown red appears when the tea is drunk, and part of the slurry is dissolved in water, so that the visual appreciation of drinkers is influenced, and the taste of the tea soup is also influenced; the fracture on the tea tree is difficult to quickly dry and seal due to the same reason as the fracture, and excessive precipitation of the slurry is not beneficial to the growth of the tea tree, so that the quality of finished tea of the tea tree in the next year is influenced.

Based on the technical problem, the applicant proposes a novel tea picking machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: aiming at the problems of uneven fracture surface and fragmentation of fracture section of tea leaves in the tea picking of the current tea leaf picking machine, the tea picking device capable of improving the tea picking efficiency and ensuring good smoothness of the fracture of the tea leaves so as to ensure the quality of the tea leaves is provided.

In order to realize the purpose of the utility model, the utility model provides a following technical scheme:

a tea leaf picking machine comprises a collecting box, picking components arranged in the collecting box and a driving part used for driving the picking components, wherein one end of the collecting box along the horizontal direction is an inlet end used for allowing fresh tea leaves to enter, the inlet end is open, the collecting box is also provided with a collecting component used for collecting the picked tea leaves in the collecting box,

the picking assembly comprises an extrusion part and a first rotating shaft, the extrusion part is in clearance fit with the bottom plate of the collecting box, the driving part drives the first rotating shaft to rotate, a plurality of extrusion arms are arranged on the first rotating shaft, guide grooves are arranged on the bottom plate of the collecting box corresponding to the extrusion arms, when the extrusion arms rotate into the guide grooves, the extrusion arms are in clearance fit with the guide grooves, one end of each guide groove extends towards the direction of the inlet end and penetrates through the bottom plate of the inlet end, and the other end of each guide groove extends to the lower part of the extrusion part,

the extrusion arm comprises a connecting section connected with the first rotating shaft and an extrusion section used for applying upward lifting force to the fresh tea leaves in cooperation with the extrusion component, and the lifting force is used for breaking the buds of the fresh tea leaves.

Each guide groove is provided with a plurality of extrusion arms correspondingly, and the extrusion arms corresponding to the same guide groove are radially arranged on the first rotating shaft and are uniformly distributed in the circumferential direction of the first rotating shaft.

The utility model provides a tea picking machine, when using, the first gyration axle of drive arrangement drive gyration, artifical handheld collection box walks on the tea tree treetop, the end of getting into of collection box is met to the tea tree top and is waited to adopt the leaf bud, tea bud and the tender leaf under the bud enter into the collection box, the bud stem gets into the guide way, first gyration axle with separate between the collection box bottom plate, the distance of separating guarantees not to hinder the leaf bud and get into in the collection box, under collection box removal and extrusion arm promote, the bud stem removes to receive the pressure of extrusion arm and extrusion part between extrusion arm and the extrusion part, further gyration of first gyration axle, in the process that extrusion part was crossed to this extrusion arm, leaf bud and bud stem receive the pressure of extrusion arm and extrusion part and form ascending frictional force, simultaneously, the leaf bud still receives the ascending top thrust of extrusion arm, the resultant force of these forces forms the upwards pulling force to the leaf bud promptly, before gathering, carry out the quick-witted debugging of machine earlier, the pressure size that forms between adjustment extrusion arm and the extrusion part ensures this lifting force and can break the bud stem, is unlikely to too big and with bud stem fracturing again. Compared with a tea picking machine adopting a shearing mode in a traditional structure, by adopting the tea picking machine, the tea buds are upwards pulled to break bud stems, so that the surfaces of formed fractures are smooth, fracture sections are not broken, the amount of slurry precipitated from the fractures is small, and the closed fractures can be quickly dried; furthermore, the fracture that leaves on the tea tree is level and smooth not to break, also can be closed by the thick liquid fast, avoids the tea tree thick liquid to flow too much, so, has also ensured the tea quality of producing of tea tree in the coming year.

Further, adopt the tealeaves picking machine of this application, when using, the manual work is handed gathers the box and is walked on the tea tree treetop, every guide way all corresponds and has a plurality of extrusion arms, these extrusion arms are at rotatory in-process, draw the guide way one by one, with the cooperation of extrusion part, remove towards extrusion part at this in-process stem of bud in the guide way, when extrusion arm crossed extrusion part, accomplish promptly and pick, picking speed is higher than the speed that single selection of tradition was picked far away.

On the other hand, according to the tea picking machine, the leaf buds and the leaf stems are extruded through the extrusion arms and the extrusion parts, the upward pushing force of the extrusion arms on the leaf buds is further formed, when branches without the leaf buds at the end parts enter the guide grooves and are pushed to positions between the extrusion arms and the extrusion parts, the branch stems are difficult to break due to the fact that the hardness and the strength of the branch stems are high, the upward pulling force exerted by the extrusion arms and the extrusion parts is generally not capable of breaking the branch stems, and therefore compared with a traditional shearing type tea picking machine, the tea picking machine further greatly reduces the collection amount of the branch stems, reduces the subsequent screening difficulty, improves the tea quality, further reduces the damage to tea trees, and further ensures the tea production quality of the tea trees in the next year.

As a preferable technical scheme, the first rotary shaft is arranged at the inlet end of the collection box, so that the extrusion arm firstly slides over the tea leaves in the advancing direction of the collection box from top to bottom when rotating.

A large number of tea gardens are located in mountainous areas with more rain fog, rain drops and dew are frequently found on tea trees, after the rain drops and dew enter a tea picking machine, the use reliability of the tea picking machine is affected, and picked leaf buds are soaked by water to reduce the quality of tea, so that in the scheme of the application, when picking is carried out, an extrusion arm firstly scratches tea leaves to be collected in front, rain water and dew on the tea leaves drop off, the water amount on the picked tea leaves is reduced, the subsequent process treatment difficulty is reduced, the use reliability of the tea picking machine is improved, and the quality of the tea leaves is ensured; meanwhile, for tea leaves in sunny days, the extrusion arm firstly passes through the tea leaves to be collected in front, dust and sundries on the tea leaves also fall off along with the tea leaves, and the number of foreign matters of the mechanically collected tea leaves is reduced when the machine-collected tea leaves are used; on the other hand, the front tea leaves are extruded from top to bottom by the extrusion arms, the leaf buds have good elasticity, and the old leaves and the like are pressed down, so that the leaf buds protrude out of the treetops, the leaf buds can conveniently enter the collection box, the old leaves can be further prevented from entering the guide grooves, and the influence of the old leaves on the picking work is reduced.

As a preferable technical solution, the length of the pressing arm is smaller than the distance between the first revolving shaft and the pressing member. When adopting this kind of mode, when the extrusion arm rotates to the extrusion part, be clearance fit between extrusion arm and the extrusion part, the width in this clearance is less than the bud stem of tealeaves, and then realizes that the extrusion arm cooperates with the extrusion part and applies to the bud stem with the extrusion and ascending effect of pulling.

As another preferable technical solution, the length of the pressing arm is greater than or equal to the distance between the first rotating shaft and the pressing member, and the pressing arm and/or the pressing member has elasticity, so that when the pressing arm rotates to the pressing member, the pressing arm and/or the pressing member can elastically deform to allow the pressing arm to pass over the pressing member. Adopt this kind of mode, be through the elastic deformation of extrusion arm and/or extrusion part to exert pressure to the tealeaves bud stem, through such mode, select different elastic strength's extrusion arm and/or extrusion part can realize adjusting the bud stem extrusion force, and then realize carrying the pulling force adjustment to the leaf bud, when guaranteeing that the bud stem is pulled apart, be unlikely to the bud stem again and be fractured.

Preferably, the pressing arm includes a connection section fixedly connected to the first rotating shaft and a pressing section engaged with the pressing member, and the pressing section has elasticity. In this scheme, when making the extrusion section can produce elastic deformation, can increase when it warp and the area of contact between the bud stem, increase the extrusion arm and rotate the upward frictional force of in-process to giving the bud stem, and then increase the upwards pulling force to the bud stem, ensure on the one hand that the bud stem can be pulled off, on the other hand, it is to form the same size when needs and carry the pulling force, can reduce the length of extrusion arm, reduce the pressure value that the extrusion arm was given to the bud stem promptly, so further reduction bud stem is by the cracked risk of extrusion.

As a preferred technical scheme, the end part of the extrusion section is sleeved in the end part of the connecting section, and the extrusion section is in rotary fit with the connecting section. Extrusion section and linkage segment are the gyration cooperation, and at the actual in-process of picking, the extrusion section can be according to the atress condition autogiration adjustment gesture, avoids local position application of force too big and cause the local breakage of bud stem.

As a preferred technical solution, the length of the connecting section is adjustable. In the scheme, the length of the connecting section is set to be an adjustable structure, the length adjustable structure can be in various modes, the length can be adjusted as long as the length is adjustable, for example, the connecting section can be set to be a two-section structure, one section of the connecting section is sleeved in the other section of the connecting section and is matched with the other section of the connecting section through threads, and the length can be adjusted through relative rotation of the two sections of the connecting section, through the mode, the adjustment of the lifting force of the tea leaf picking machine is realized, before the tea leaf picking machine is used, a user can perform trial picking and debugging firstly to ensure good tea leaf picking quality, on the other hand, the tea leaf picking machine is also suitable for the collection of tea leaves of different grades, for example, for the tea leaves of one bud and one leaf, the tensile strength of the bud stem is lower than that of two leaves and three leaves of one bud, therefore, the graded picking of, trial collection is carried out, the connecting section is adjusted to have a proper length, when the tea leaves entering the collection box are two leaves per bud or three leaves per bud, the lifting force applied by the squeezing arm is not enough to break the bud stem, and therefore the screening is realized, and only the fresh tea leaves of one leaf per bud are collected; on the other hand, the sizes of the tea buds and the tensile strengths of the tea buds and the tea buds of all varieties have surprisal, and the tea picking machine can be suitable for collecting tea trees of different varieties by adjusting the lengths of the connecting sections.

According to a preferable technical scheme, the extrusion section is detachably connected with the connection section, a convex rib is arranged at the end part, far away from the connecting piece, of the extrusion section, and the convex rib is positioned on one side, extruded with the extrusion part, of the extrusion section. Adopt this kind of extrusion section that has bead, when extrusion section extrusion bud stem, the leaf bud receives and draws the power time, because the existence of bead, a breach appears earlier in the bud stem of bead department, and then makes things convenient for the fracture of bud stem, and this kind of mode is particularly useful for, picks the bulk tea that the hierarchical requirement is not high to tealeaves and picks, not only picks efficiently, and the tea tree clean picking rate also improves by a wide margin moreover.

Preferably, the distance between the end parts of the adjacent squeezing arms in the squeezing arms corresponding to the same guide groove is 1 cm-3 cm. The distance between the end parts of the extrusion arms is the size, firstly, enough distance space is ensured to be reserved for entering between two extrusion arms, smooth extrusion buds and stems of the extrusion arms are ensured, meanwhile, the problem that a plurality of buds and stems enter between the same extrusion arm and an extrusion part at the same time due to overlarge distance between the extrusion arms and cannot be broken is solved, on the other hand, the extrusion arms are arranged to be multiple, under the same advancing speed, the first rotating shaft can be in a lower state, and the phenomenon that the rotating speed of the extrusion arms is too high to damage leaf buds is avoided.

Preferably, the pressing arms corresponding to adjacent guide grooves are offset in the axial direction of the first rotating shaft. Through such mode, the extrusion arm in the adjacent gyration inslot is not extruded the bud stem simultaneously, makes and can have great space by extruded bud stem, avoids the leaf bud by the problem of the extrusion damage of the extrusion arm in the adjacent guide way.

As a preferable technical scheme, the squeezing arms corresponding to adjacent guide grooves are staggered in the axial direction of the first rotating shaft, and the staggered angle is half of the included angle between the adjacent squeezing arms corresponding to the same guide groove. In this way, on the one hand, a large space can be reserved for the extruded buds and stems as described above, and on the other hand, the problems that all the extrusion arms simultaneously extrude the extrusion part to cause excessive shaking and exert excessive force on the extrusion part to cause complete vibration are avoided.

Preferably, the end of the pressing section is bent in the plane of rotation of the pressing arm, the bending direction being opposite to the direction of rotation of the pressing arm. The bending of the extrusion section has improved the extrusion in-process by a wide margin, and the area of contact of extrusion section and bud stem increases the frictional force size by a wide margin, and then increases and carry the pulling force, ensures when breaking the bud stem, does not fracture the bud stem again.

As a preferable technical scheme, the extrusion section is made of elastic rubber materials.

Preferably, the pressing part comprises a second rotating shaft and a protective cylinder sleeved outside the second rotating shaft, and the second rotating shaft can rotate around the second rotating shaft in the axial direction. The extrusion part can turn around, when the extrusion arm intercommunication bud stem extrudees the extrusion part, the extrusion part also rotates along with it, and when the bud stem fracture, the stirring of extrusion part also drives the leaf bud of being plucked down and goes upward, and such mode has further made things convenient for the fracture of leaf bud on the one hand, and on the other hand has also reduced the wearing and tearing to the leaf bud, ensures good harvesting quality.

Preferably, the casing is made of elastic rubber material. The elastic deformation of the rubber material provides more upward pulling force, and simultaneously, the deformation is generated, so that the risk of fracturing buds is reduced.

Preferably, the pile casing comprises a plurality of pile casing units, each pile casing unit corresponds to one guide groove, a gap exists between every two adjacent pile casing units, and the pile casing units can rotate around the second rotating shaft. The extrusion arm that makes different guide ways correspond protects a unit to the difference, and when each guide way is inside during extrusion bud stem, independent emergence is rotated, the adverse effect that leads to when reducing different extrusion degree.

As a preferable technical scheme, an annular recess is formed in the middle of the pile casing unit, the damaged annular groove is V-shaped or U-shaped, and the edge of the annular recess is in smooth transition connection with the side wall of the pile casing. The setting that the annular is sunken, when the extrusion bud stem, in the bud stem is absorbed in the annular groove, further increase bud stem and extrusion part area of contact, when the increase is to lifting up tensile force, when still having avoided extrusion arm and extrusion part extrusion bud stem, the bud stem takes place lateral sliding and damages.

As a preferred technical scheme, a bottom plate positioned between adjacent guide grooves is a guide plate, and one end, facing the tea leaves to be picked, of the guide plate is in a semicircular arc shape. So, when reducing the deflector and meeting tealeaves, the risk of fish tail tealeaves.

Preferably, the width of the guide groove is 3mm to 5mm, and the width of the guide plate is 10mm to 20 mm. The guide plate is set to be the width, the adjacent guide grooves are firstly ensured to be separated by enough distance, meanwhile, the guide plate also plays a role in shunting tea leaves and buds to be picked, and due to the adoption of the size distance, too many tea leaves and buds to be picked can not enter the same guide groove to affect picking work at the same time due to too large distance.

Preferably, the side wall of one end of the guide groove close to the extrusion component is outwardly expanded to form a notch with a width larger than that of the guide groove. When stem or leaf bud appear and get into collection box length overlength, lead to the extrusion arm to cross the extrusion part, provide and to promote pulling force upwards and can not break the bud stem when, these stem or leaf bud that are not broken advance the overlength by gathering the box, can follow this breach roll-off, avoid blocking to gather the box and advance, also reduce the damage to being broken the leaf bud.

As the preferred technical scheme, be provided with the discharge gate on the collection box with on the curb plate of the relative one side of access end, collect the subassembly include the inlet pipe and with the bag body of connection can be dismantled to the inlet pipe, the inlet pipe with the discharge gate links to each other. The manual hand-held collection box advances with the uniform velocity on the tea tree treetop, the leaf bud of being picked down is located the collection box, when there being certain stock, the workman raises the entering end of gathering the box, makes the collection box bottom plate incline towards the inlet pipe, will gather in the box in the leaf bud leading-in bag internal, and is further, the bag body of this application also can adopt common negative pressure suction device to replace on present tealeaves picking machine, will gather the leaf bud suction in the box in to collection device through exhaust duct.

As a preferred technical solution, one end of the feeding pipe facing the collecting box is flush with the inner wall of the collecting box.

As preferred technical scheme, the discharge gate is two, including the first discharge gate that is located the top and being located the second discharge gate of first discharge gate below, first discharge gate and second discharge gate all are provided with the collection subassembly separately still be provided with fresh leaf grading plant in the collection box, fresh leaf grading plant includes the classifying screen, be provided with a plurality of sieve meshes on the classifying screen, sieve mesh size and the fresh leaf looks adaptation of tealeaves of a bud leaf, the classifying screen slope sets up, the lower one end of classifying screen with the lower edge clearance fit of extrusion part, higher one end sets up the lower edge of first discharge gate.

In the scheme of this application, through setting up first discharge gate and second discharge gate, set up the classifying screen of slope between first discharge gate and second discharge gate, artifical handheld collection box is marchd with the certain speed on the tea tree treetop, the leaf bud that is picked down is located the classifying screen top in the collection box, when there is the leaf bud of certain stock in the collection box, the entering end of collection box is raised upward, make collection box bottom plate slope towards first discharge gate, the leaf bud rolls along the classifying screen, in this process, the less leaf bud of size falls down to collection box bottom plate from the sieve mesh of classifying screen, so realize being picked the preliminary classification that the fresh leaf of tealeaves can realize at the picking in-process, subsequent classification work has greatly made things convenient for.

Preferably, the sieve holes are long strips extending from the lower end to the higher end of the classifying screen, adjacent sieve holes are spaced, and the sieve holes are uniformly arranged along the width direction of the sieve holes. In the scheme of this application, set up the sieve mesh into rectangular form, and extend to the high-end by the classifying screen low side, the sieve mesh not only plays the hierarchical effect of screening, also play the guide effect simultaneously, avoid the fresh leaf card of tealeaves in the sieve mesh, and, compare in traditional sieve mesh, traditional sieve mesh is shape such as square hole or round hole usually, the sieve mesh of these shapes although also can play screening classification effect, but because all there is the blocking on the circumferencial direction of each sieve mesh, so when being used for the fresh leaf of tealeaves to classify, can form in fresh leaf advancing direction and block, break the fresh leaf of tealeaves easily and influence the tealeaves quality, so in this application, set up the sieve mesh into rectangular form, with this horizontal blocking that avoids tealeaves to receive, and then ensure the complete rate of fresh leaf bud.

Preferably, the width of the mesh is gradually increased from the lower part to the higher part along the mesh.

As an optimized technical scheme, the width of the smaller end of each sieve pore is 3-5 mm, and the width of the larger end of each sieve pore is 8-10 mm.

In the scheme of this application, the higher tip width of sieve mesh is the biggest, adopts this kind of mode, can further avoid fresh leaf to take place to block when marching on the classifying screen on the one hand, on the other hand, because even also there is the gap with the fresh leaf of a style bud leaf on the appearance size, so at this application, with sieve mesh width crescent on fresh leaf advancing direction, the messenger passes the fresh leaf of screen cloth can the subsection comparatively even, avoids forming in a large number at the initial section and piles up and influence the screening effect.

As a preferred technical scheme, the fresh tea leaf classifying device further comprises a pushing component, and the pushing component is used for pushing the fresh tea leaves at the lower position on the classifying screen to the higher position.

Preferably, the pushing member includes a third rotating shaft, the third rotating shaft is located above the classifying screen and perpendicular to the length direction of the screen holes, the third rotating shaft is in transmission connection with a driving device, bristles are fully distributed on the third rotating shaft, and the length of the bristles is ensured to be swept over the upper edge of the squeezing member and the lower half of the screen mesh when the third rotating shaft rotates. The rotation direction of the third rotating shaft ensures that the bristles are swept along the grading screen from low to high. In the scheme of this application, through setting up thrust unit, when thrust unit promoted the fresh leaf of tealeaves from low to high along the classifying screen, realize the screening of the fresh leaf of tealeaves promptly, compare in not setting up the thrust unit, adopt tealeaves to pile up the technical scheme who rises to gather the box a quantitative again, screening to tealeaves is more abundant, and the form that adopts the brush hair sweeps, at first the fish tail of the leaf bud of having ensured avoiding, and the brush hair sweeps on the extrusion part, the leaf bud has also been avoided piling up the inconvenience that causes follow-up picking work in extrusion part department.

As a preferred technical solution, the classifying screen includes a plurality of guide rods arranged obliquely, adjacent wire rods are spaced to form the screen holes, and the guide rods are cylindrical. The guide bar through separating the setting forms the sieve mesh, and the guide bar cross-section is circular, is the convenient selection of materials manufacturing on the one hand, and on the other hand also further guarantees that the fresh leaf of tealeaves is not by sieve mesh edge fish tail.

According to the preferable technical scheme, the classifying screen is further provided with a lower cross beam and an upper cross beam, two ends of the lower cross beam and two ends of the upper cross beam are connected with the inner wall of the collecting box, the lower cross beam is in clearance fit with the extrusion part, the upper cross beam is arranged between the first discharge port and the second discharge port, the lower end of the guide rod is arranged on the lower cross beam, and the upper end of the guide rod is arranged on the upper cross beam.

The utility model has the advantages that:

the tea leaf picking machine comprises a tea tree, a tea tree top end, a tea bud, a collecting box base plate, a first rotary shaft, a first extrusion arm, a first rotary shaft, a second extrusion arm, a second rotary shaft, a first rotary shaft, a second extrusion arm, a first rotary shaft, a second rotary shaft, a third rotary shaft, a fourth rotary shaft, a fifth rotary shaft and a fourth rotary shaft, wherein the first rotary shaft rotates around the tea tree top end, the fourth rotary shaft rotates around the first rotary shaft, the first rotary shaft drives the first rotary shaft to rotate, the first rotary shaft to enable the manual collecting box to walk on the tea tree top end, the tea bud and the fourth rotary shaft to enter the inlet end of the collecting box to face the tea tree, before gathering, carry out the quick-witted debugging of machine earlier, the pressure size that forms between adjustment extrusion arm and the extrusion part ensures this lifting force and can break the bud stem, is unlikely to too big and with bud stem fracturing again. Compared with a tea picking machine adopting a shearing mode in a traditional structure, by adopting the tea picking machine, the tea buds are upwards pulled to break bud stems, so that the surfaces of formed fractures are smooth, fracture sections are not broken, the amount of slurry precipitated from the fractures is small, and the closed fractures can be quickly dried; furthermore, the fracture that leaves on the tea tree is level and smooth not to break, also can be closed by the thick liquid fast, avoids the tea tree thick liquid to flow too much, so, has also ensured the tea quality of producing of tea tree in the coming year.

(two) adopt the tealeaves picking machine of this application, when using, the manual work is handed gathers the box and is walked on the tea tree treetop, every guide way all corresponds and has a plurality of extrusion arms, these extrusion arms are at rotatory in-process, draw the guide way one by one, with the cooperation of extrusion part, remove towards extrusion part in this in-process stem of bud in the guide way, when extrusion arm crossed extrusion part, accomplish promptly and pick, picking speed is higher than the speed that the single selection of traditional manual work was picked far away.

The tea picking machine provided by the application has the advantages that the leaf buds and the leaf stems are extruded through the extrusion arms and the extrusion parts, the upward pushing force of the extrusion arms on the leaf buds is further formed, the upward lifting resultant force is formed, when branches without the leaf buds at the end parts enter the guide grooves and are pushed to a position between the extrusion arms and the extrusion parts, the branches are difficult to break due to the fact that the hardness and the strength of the branches are high, the upward lifting force applied by the extrusion arms and the extrusion parts is generally not capable of breaking the branches, and therefore compared with a traditional shearing type tea picking machine, the tea picking machine greatly reduces the collection amount of the branches, reduces the subsequent screening difficulty, improves the tea quality, further reduces the damage to tea trees, and further ensures the tea production quality of the tea trees in the next year.

Description of the drawings:

fig. 1 is a schematic view of a tea leaf picker according to one embodiment of the present application;

fig. 2 is a schematic structural view of the tea picking machine of fig. 1 from another view after the bag body is removed;

fig. 3 is a schematic structural diagram of the tea leaf picking machine after the bag body and the top plate of the collecting box are removed;

fig. 4 is a cross-sectional view of the tea picker with the bag removed;

FIG. 5 is a schematic view of one embodiment of the pressing arms cooperating with the pressing member to press the sprouts;

FIG. 6 is a partial schematic view of a guide groove in one embodiment;

FIG. 7 is a schematic view showing the configuration of the extruding section when it is bent to be engaged with the extruding unit to extrude the sprouted stems;

FIG. 8 is a partial schematic view of the pressing arm in the presence of bending of the pressing section;

FIG. 9 is a partial structural view of the casing unit with an annular recess;

in the figure: 1-collection box, 2-drive part, 3-inlet end, 4-collection component, 5-extrusion part, 6-first rotating shaft, 7-extrusion arm, 8-guide groove, 9-bottom plate, 10-connecting section, 11-extrusion section, 12-notch, 13-convex edge, 14-second rotating shaft, 15-cylinder protection unit, 16-annular recess, 17-first outlet, 18-second outlet, 19-third rotating shaft, 20-brush hair, 21-grading sieve, 22-sieve pore, 23-lower beam, 24-upper beam and 25-guide rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments, but it should not be understood that the scope of the above subject matter is limited to the following embodiments, and all the technologies realized based on the present invention are within the scope of the present invention.

Example 1, as shown in figures 1-5:

a tea leaf picking machine comprises a collecting box 1, picking components arranged in the collecting box 1 and a driving part 2 used for driving the picking components, in the embodiment, the driving part 2 adopts a conventional small motor and is arranged outside the collecting box 1 and fixedly connected with the collecting box 1, the motor adopts a storage battery for supplying power, the motor is convenient to move in a tea garden, one end of the collecting box 1 along the horizontal direction is an entrance end 3 used for allowing fresh tea leaves to enter, the entrance end 3 is in an open shape, a collecting component 4 is further arranged on the collecting box 1, the collecting component 4 is used for collecting the tea leaves picked in the collecting box 1,

the picking assembly comprises an extrusion part 5 and a first rotary shaft 6, the extrusion part 5 is in clearance fit with a bottom plate 9 of the collection box 1, the driving part 2 drives the first rotary shaft 6 to rotate, a plurality of extrusion arms 7 are arranged on the first rotary shaft 6, guide grooves 8 are formed in the bottom plate 9 of the collection box 1 corresponding to the extrusion arms 7, when the extrusion arms 7 rotate into the guide grooves 8, the extrusion arms 7 are in clearance fit with the guide grooves 8, one ends of the guide grooves 8 extend towards the direction of the inlet end 3 and penetrate through the bottom plate 9 at the inlet end 3, and the other ends of the guide grooves 8 extend to the lower part of the extrusion part 5,

the squeezing arm 7 comprises a connecting section 10 connected with the first rotating shaft 6 and a squeezing section 11 used for cooperating with the squeezing component 5 to apply upward pulling force to the fresh tea leaves, wherein the pulling force is used for breaking the buds of the fresh tea leaves. Each guide groove 8 is correspondingly provided with a plurality of extrusion arms 7, and the extrusion arms 7 corresponding to the same guide groove 8 are radially arranged on the first rotating shaft 6 and are uniformly distributed in the circumferential direction of the first rotating shaft 6.

In the tea leaf picking machine of the embodiment, when the tea leaf picking machine is used, the driving device drives the first rotary shaft 6 to rotate, the manual hand-held collecting box 1 walks on the treetop of the tea tree, the inlet end 3 of the collecting box 1 faces to the to-be-picked leaf buds at the top end of the tea tree, the tea buds and the tender leaves under the buds enter the collecting box 1, the bud stems enter the guide groove 8, the first rotary shaft 6 is separated from the bottom plate 9 of the collecting box 1 by a distance which ensures that the leaf buds are not blocked from entering the collecting box 1, the bud stems move to a position between the extrusion arm 7 and the extrusion part 5 under the pressure of the extrusion arm 7 and the extrusion part 5 under the pushing of the extrusion arm 7, the leaf buds and the buds form upward friction force under the pressure of the extrusion arm 7 and the extrusion part 5 in the process that the extrusion arm 7 passes over the extrusion part 5 due to further rotation of the first rotary shaft 6, and meanwhile, the leaf buds are also subjected to upward pushing force exerted by the extrusion arm 7, the resultant force of the forces forms upward lifting force to the leaf buds, and before collection, mechanical debugging is carried out, the pressure formed between the extrusion arm 7 and the extrusion part 5 is adjusted, so that the lifting force can break the buds and the stems, and the buds and the stems are not fractured due to overlarge pressure. Compared with a tea picking machine adopting a shearing mode in a traditional structure, by adopting the tea picking machine of the embodiment, the leaf buds are upwards pulled to break the bud stems, so that the formed fracture surface is smooth, and the fracture section is not broken, so that the amount of slurry precipitated from the fracture is small, and the closed fracture can be quickly dried, therefore, the problem that the fracture is brownish red when tea is drunk and the problem that excessive slurry is dissolved into water are avoided, and the appearance attractiveness of the tea and the taste of tea soup are ensured; furthermore, the fracture that leaves on the tea tree is level and smooth not to break, also can be closed by the thick liquid fast, avoids the tea tree thick liquid to flow too much, so, has also ensured the tea quality of producing of tea tree in the coming year.

Further, adopt this embodiment's tealeaves picking machine, when using, the manual hand-held collection box 1 walks on the tea tree treetop, every guide way 8 all corresponds and has a plurality of squeezing arms 7, these squeezing arms 7 are at rotatory in-process, draw guide way 8 one by one, with the cooperation of extrusion part 5, the bud stem removes towards extrusion part 5 in guide way 8 at this in-process, when extrusion arm 7 crosses extrusion part 5, accomplish promptly and pick, picking speed is higher than the speed that single selection of tradition manual work was picked far away.

On the other hand, in the tea leaf picking machine of the embodiment, the leaf buds and the leaf stems are extruded by the extrusion arm 7 and the extrusion part 5, and the extrusion arm 7 pushes the leaf buds upwards to form a resultant force of upward lifting, when the branch stems without the leaf buds at the end parts enter the guide groove 8 and are pushed to a position between the extrusion arm 7 and the extrusion part 5, the branch stems are difficult to break due to the fact that the hardness and the strength of the branch stems are higher, and the upward lifting force applied by the extrusion arm 7 and the extrusion part 5 is generally not easy to break the branch stems, so that compared with a traditional shearing type tea leaf picking machine, the collection amount of the branch stems is greatly reduced, the subsequent screening difficulty is reduced, the tea leaf quality is improved, meanwhile, the damage to tea trees is further reduced, and the tea production quality of the tea trees in the coming year is further ensured.

In a preferred embodiment, in addition to the above, the first rotating shaft 6 is further disposed at the entrance end 3 of the collecting box 1, so that the pressing arm 7 slides over the tea leaves in the advancing direction of the collecting box 1 from top to bottom when rotating.

A large number of tea gardens are located in mountainous areas with more rain fog, rain drops and dew are frequently found on tea trees, after the rain drops and dew enter the tea picking machine, the use reliability of the tea picking machine is affected, and the quality of tea is reduced by soaking picked leaf buds in water; meanwhile, for tea leaves in sunny days, the squeezing arm 7 firstly scratches the tea leaves to be collected in front, dust and sundries on the tea leaves also fall off, and the number of foreign matters of the mechanically collected tea leaves is reduced when the tea leaves are used; on the other hand, the squeezing arms 7 squeeze tea leaves in front from top to bottom, leaf buds have good elasticity, old leaves and the like are pressed down, so that the leaf buds protrude out of tree tips, the leaf buds can enter the collecting box 1 conveniently, meanwhile, the old leaves are further reduced to enter the guide grooves 8, and the influence of the old leaves on picking work is reduced.

As a preferred embodiment, the length of the pressing arm 7 is smaller than the distance between the first swivel axis 6 and the pressing member 5. When adopting this kind of mode, when extrusion arm 7 rotates to extrusion part 5, be clearance fit between extrusion arm 7 and the extrusion part 5, the width in this clearance is less than the bud stem of tealeaves, and then realizes that extrusion arm 7 and extrusion part 5 cooperation apply with the extrusion to the bud stem and upwards carry the effect of drawing.

As another preferable technical solution, the length of the pressing arm 7 is greater than or equal to the distance between the first rotating shaft 6 and the pressing member 5, and the pressing arm 7 and/or the pressing member 5 have elasticity, so that when the pressing arm 7 rotates to the pressing member 5, the pressing arm 7 and/or the pressing member 5 can elastically deform to allow the pressing arm 7 to pass over the pressing member 5. Adopt this kind of mode, be through the elastic deformation of extrusion arm 7 and/or extrusion part 5 to exert pressure to the tealeaves bud stem, through such mode, select extrusion arm 7 and/or extrusion part 5 of different elastic strength can realize carrying out extrusion force adjustment to the bud stem, and then realize carrying pulling force adjustment to the leaf bud, when guaranteeing that the bud stem is pulled apart, be unlikely to the bud stem again and fractured.

As a preferred embodiment, on the basis of the above, further, the pressing arm 7 includes a connecting section 10 fixedly connected to the first rotating shaft and a pressing section 11 matched with the pressing member 5, and the pressing section 11 has elasticity. In this scheme, when making extrusion section 11 can produce elastic deformation, can increase when it warp and the area of contact between the bud stem, increase extrusion arm 7 rotates the upward frictional force of in-process application to the bud stem, and then increase the upwards pulling force to the bud stem, ensure on the one hand that the bud stem can be broken by the stretch-breaking, on the other hand, it is to form the same size pulling force when needs are, can reduce the length of extrusion arm 7, reduce the pressure value that extrusion arm 7 applyed to the bud stem promptly, so further reduction bud stem is by the cracked risk of extrusion.

In a preferred embodiment, on the basis of the above, an end of the extruding section 11 is sleeved in an end of the connecting section 10, and the extruding section 11 and the connecting section 10 are in a rotation fit. Extrusion section 11 and linkage segment 10 are the rotary fit, and in the actual picking process, extrusion section 11 can be according to the atress condition autogiration adjustment gesture, avoid local position application of force too big and cause the local breakage of bud stem.

In a preferred embodiment, based on the above, further, the length of the connecting section 10 is adjustable. In this scheme, the length of the connecting section 10 is set to be an adjustable structure, which may be in various ways as long as the length is adjustable, for example, the connecting section 10 may be set to be a two-section structure, one of which is sleeved in the other section and is in threaded fit with the other section, and the length can be adjusted by relatively rotating the two sections, by which the adjustment of the lifting force of the tea leaf picking machine is realized, before use, a user may try picking and debugging to ensure good tea leaf picking quality, and on the other hand, the method is also suitable for picking tea leaves of different grades, for example, for tea leaves of one bud and one leaf, the tensile strength of the bud and one stem is lower than that of two leaves and three leaves of one bud and one leaf, so that graded picking of tea leaves can be realized by adjusting the length of the connecting section 10, for example, when tea leaves of one bud and one leaf need to be picked, trial collection is carried out, the connecting section 10 is adjusted to have a proper length, when the tea leaves entering the collection box 1 are two leaves per bud or three leaves per bud, the lifting force applied by the squeezing arm 7 is not enough to break the bud stem, and therefore the screening is realized and only the fresh tea leaves of one leaf per bud are collected; on the other hand, the sizes of the tea buds and the tensile strengths of the tea varieties are surprisal, and the tea picking machine adopting the embodiment can also be suitable for the collection work of different varieties of tea trees by adjusting the length of the connecting section 10.

As a preferable embodiment, on the basis of the above, further, the extruding section 11 is detachably connected with the connecting section 10, a convex rib 13 is arranged at the end of the extruding section 11 far away from the connecting piece, as shown in fig. 8, the convex rib 13 is positioned at the side of the extruding section 11, which is extruded with the extruding part 5, the height of the convex rib 13 is 1mm, and the cross section is triangular. Adopt this kind of extrusion section 11 that has bead 13, when 11 extrusion buds of extrusion section, the leaf bud receives and draws power time, because the existence of bead 13, a breach appears earlier in the bud of bead 13 department, and then makes things convenient for the fracture of bud stem, and this kind of mode is particularly useful for, picks the not high bulk tea of hierarchical requirement and picks to tealeaves, not only picks efficiently, and tea tree clean picking rate also improves by a wide margin moreover.

In addition to the above, in a preferred embodiment, the distance between the end portions of the pressing arms 7 adjacent to each other in the pressing arms 7 corresponding to the same guide groove 8 is 1cm to 3 cm. The distance between the end parts of the extrusion arms 7 is the size, firstly, enough distance space is ensured to be provided for entering between the two extrusion arms 7, smooth extrusion of the extrusion arms 7 is ensured, meanwhile, the problem that a plurality of buds and stalks enter between the same extrusion arm 7 and the extrusion part 5 at the same time to cause the disconnection is solved, on the other hand, the extrusion arms 7 are provided with a plurality of extrusion arms 7, and under the same advancing speed, the rotating speed of the first rotating shaft can be in a lower state, and the phenomenon that the rotating speed of the extrusion arms 7 is too high to damage the leaf buds is avoided.

In a preferred embodiment, in addition to the above, the pressing arms 7 corresponding to the adjacent guide grooves 8 are shifted in the axial direction along the first rotating shaft 6. Through such mode, the extrusion arm 7 in the adjacent revolving groove is not extruded simultaneously to the bud stem, makes extruded bud stem can have great space, avoids the leaf bud by the extrusion arm 7 extrusion damage's in the adjacent guide way 8 problem.

In a preferred embodiment, in addition to the above, the pressing arms 7 corresponding to adjacent guide grooves 8 are shifted in the axial direction of the first rotating shaft 6 by an angle half of the angle between the adjacent pressing arms 7 corresponding to the same guide groove 8. In this way, on the one hand, a large space is available for the extruded sprouts, as described above, and on the other hand, the problems of excessive shaking caused by all the extrusion arms 7 extruding the extrusion member 5 at the same time and excessive force applied to the extrusion member 5, which are complete, are avoided.

As a preferred embodiment, on the basis of the above, further, the end of the squeezing section 11 is bent in the plane of rotation of the squeezing arm 7, as shown in fig. 7 and 8, in the direction opposite to the direction of rotation of the squeezing arm 7. The bending of the extrusion section 11 has improved the extrusion in-process by a wide margin, and the area of contact of extrusion section 11 and bud stem increases the frictional force size by a wide margin, and then increases and carries the pulling force, ensures when breaking the bud stem, does not fracture the bud stem again.

In a preferred embodiment, in addition to the above, the extruding section 11 is further made of a rubber material having elasticity.

In a preferred embodiment, based on the above, the pressing member 5 further includes a second rotating shaft 14 and a casing sleeved outside the second rotating shaft 14, and the second rotating shaft 14 can rotate around its own axis. The extrusion part 5 can rotate, when the extrusion arm 7 is communicated with the bud stem to extrude the extrusion part 5, the extrusion part 5 rotates along with the extrusion arm, when the bud stem is broken, the extrusion part 5 is turned to drive the picked leaf buds to move upwards, and by the mode, the breaking of the leaf buds is further facilitated, the abrasion to the leaf buds is reduced, and the good picking quality is ensured.

In a preferred embodiment, in addition to the above, the casing is made of a rubber material having elasticity. The elastic deformation of the rubber material provides more upward pulling force, and simultaneously, the deformation is generated, so that the risk of fracturing buds is reduced.

In a preferred embodiment, in addition to the above, the casing further includes a plurality of casing units 15, as shown in fig. 9, each of the casing units 15 corresponds to one of the guide grooves 8, a gap is provided between adjacent casing units 15, and the casing units 15 are rotatable around the second rotation shaft 14. Make the extrusion arm 7 that different guide ways 8 correspond different protect a unit 15, when each guide way 8 is inside extrudeing the bud stem, independent emergence is rotated, the adverse effect that leads to when reducing different extrusion degrees.

In a preferred embodiment, on the basis of the above, an annular recess 16 is further provided in the middle of the casing unit 15, the damaged annular groove is V-shaped or U-shaped, and the edge of the annular recess 16 is in smooth transition connection with the casing side wall. The setting of annular sunken 16, when the extrusion bud stem, the bud stem is absorbed in the annular groove, further increases bud stem and 5 area of contact of extrusion part, and when the tensile is carried to the increase, when still having avoided extrusion arm 7 and 5 extrusion parts extrusion buds stems, the bud stem takes place lateral sliding and damages.

In a preferred embodiment, in addition to the above, the bottom plate 9 between adjacent guide grooves 8 is a guide plate, and one end of the guide plate facing the tea leaves to be picked is in a semicircular arc shape. So, when reducing the deflector and meeting tealeaves, the risk of fish tail tealeaves.

In a preferred embodiment, in addition to the above, the width of the guide groove 8 is 3mm to 5mm, and the width of the guide plate is 10mm to 20 mm. Set up the deflector to this width, at first ensure adjacent guide way 8 to separate enough distance, the deflector still plays the reposition of redundant personnel effect of waiting to adopt tea leaf bud simultaneously, adopts this size distance, and not too big and make too much waiting to adopt tea leaf bud simultaneously and get into same guide way 8 and influence the work of picking again.

In a preferred embodiment, in addition to the above, a side wall of one end of the guide groove 8 near the pressing member 5 is further flared to form a notch 12 having a width larger than that of the guide groove 8, as shown in fig. 6. When the branch or the leaf bud enters the collecting box and is too long in length, the squeezing arm 7 is caused to cross the squeezing part 5, the provided upward pulling force cannot stretch the bud and the stem, the branch or the leaf bud which is not stretched can slide out of the notch 12 in the process of advancing the collecting box 1, and the damage to the stretched leaf bud is reduced while the advancing of the collecting box 1 is avoided.

As a preferred embodiment, further, a discharge port is arranged on a side plate of the side of the collecting box 1 opposite to the inlet end 3, the collecting assembly 4 comprises a feed pipe and a bag body detachably connected with the feed pipe, and the feed pipe is connected with the discharge port. The manual handheld collection box 1 advances with the uniform velocity on the tea tree treetop, the leaf bud of being picked down is located and gathers box 1, when there is certain stock, the workman raises the entering end 3 of gathering box 1, make and gather box 1 bottom plate 9 and incline towards the inlet pipe, it is internal to be about to gather the leading-in bag of leaf bud in box 1, it is further, the bag body of this embodiment also can adopt common negative pressure suction device to replace on present tealeaves picking machine, will gather the leaf bud suction in box 1 and gather in the collection device through exhaust duct.

As a preferred embodiment, on the basis of the above, further, one end of the feeding pipe facing the collecting box 1 is flush with the inner wall of the collecting box 1.

As a preferable embodiment, on the basis of the above, further, the two discharge ports include a first discharge port 17 located above and a second discharge port 18 located below the first discharge port 17, the first discharge port 17 and the second discharge port 18 are both provided with a collection assembly 4, the collection box 1 is further provided with a fresh leaf grading device, the fresh leaf grading device includes a grading sieve 21, the grading sieve 21 is provided with a plurality of sieve pores 22, the size of the sieve pores 22 is matched with that of fresh tea leaves of a bud-leaf tea, the grading sieve 21 is arranged obliquely, a lower end of the grading sieve 21 is in clearance fit with a lower edge of the squeezing component 5, and a higher end of the grading sieve is arranged at a lower edge of the first discharge port 17.

In the scheme of the embodiment, by arranging the first discharge port 17 and the second discharge port 18, the inclined classifying screen 21 is arranged between the first discharge port 17 and the second discharge port 18, the manual handheld collecting box 1 advances on the treetop of the tea tree at a certain speed, the picked leaf buds are positioned above the classifying screen 21 in the collecting box 1, when a certain amount of leaf buds exist in the collecting box 1, the inlet end 3 of the collecting box 1 is lifted, the bottom plate 9 of the collecting box 1 inclines towards the first discharge port 17, the leaf buds roll along the classifying screen 21, in the process, the leaf buds with smaller size fall down onto the bottom plate 9 of the collecting box 1 from the screen holes 22 of the classifying screen 21, so that the primary classification of the picked fresh tea leaves in the picking process is realized, and the subsequent classifying work is greatly facilitated.

In a preferred embodiment, the screen holes 22 are elongated and extend from a lower end to a higher end of the classifying screen 21, adjacent screen holes 22 are spaced apart from each other, and the screen holes 22 are uniformly arranged in a width direction of the screen holes 22. In the scheme of this embodiment, set up sieve mesh 22 to rectangular form, and extend to high-end by classifying screen 21 low end, sieve mesh 22 not only plays the hierarchical effect of screening, also play the guide effect simultaneously, avoid the fresh leaf card of tealeaves in sieve mesh 22, and, compare in traditional sieve mesh 22, traditional sieve mesh 22 is shape such as square hole or round hole usually, the sieve mesh 22 of these shapes can also play screening classification effect, but because all there is the blocking on the circumferencial direction of each sieve mesh 22, so when being used for the fresh leaf of tealeaves to classify, can form in the fresh leaf advancing direction and block, break the fresh leaf of tealeaves easily and influence the tealeaves quality, so in this embodiment, set up sieve mesh 22 to rectangular form, transverse blocking with this avoids tealeaves to receive, and then ensure the complete rate of fresh leaf bud.

Preferably, the width of the screen holes 22 is gradually increased from the lower part to the higher part along the screen holes 22.

In a preferred embodiment, the width of the smaller end of the sieve hole 22 is 3 to 5mm, and the width of the larger end is 8 to 10 mm.

In the scheme of the embodiment, the width of the higher end part of the sieve pore 22 is the largest, and by adopting the mode, on one hand, the clamping of the fresh leaves on the classifying screen 21 can be further avoided, and on the other hand, because the fresh leaves of the tea leaves with the same type, one bud and one leaf also have difference in the shape size, in the embodiment, the width of the sieve pore 22 is gradually increased in the advancing direction of the fresh leaves, so that the fresh leaves passing through the screen can be distributed uniformly, and the influence on the screening effect caused by the large accumulation of the fresh leaves at the initial section is avoided.

As a preferred embodiment, on the basis of the above, further, the fresh tea leaf classifying device further comprises a pushing member for pushing the fresh tea leaves located at a lower position on the classifying screen 21 to a higher position.

In a preferred embodiment, based on the above, the pushing member further comprises a third rotating shaft 19, the third rotating shaft 19 is located above the classifying screen 21 and is perpendicular to the length direction of the screen holes 22, the third rotating shaft 19 is in transmission connection with a driving device, the third rotating shaft 19 is full of bristles 20, and the length of the bristles 20 ensures that the bristles 20 sweep over the upper edge of the pressing member 5 and the lower half of the screen mesh when the third rotating shaft 19 rotates. The direction of rotation of the third shaft 19 ensures that the bristles 20 sweep along the sizing screen 21 from low to high. In the scheme of this embodiment, through setting up thrust unit, when thrust unit pushed the fresh leaf of tealeaves from low to high along classifying screen 21, realize the screening of the fresh leaf of tealeaves promptly, compare in not setting up the thrust unit, adopt tealeaves to pile up a certain amount and raise the technical scheme who gathers box 1 again, screening to tealeaves is more abundant, and the form that adopts brush hair 20 sweeps, the fish tail of the leaf bud of having ensured the avoidance at first, and brush hair 20 sweeps on 5 edges of extrusion part, the inconvenience that the leaf bud piled up and leads to the fact follow-up picking work in 5 departments of extrusion part has also been avoided.

Further, the classifying screen 21 includes a plurality of guide rods 25 obliquely arranged, adjacent wire rods are spaced to form the screen holes 22, and the guide rods 25 are cylindrical. The sieve holes 22 are formed by the guide rods 25 which are arranged at intervals, the cross sections of the guide rods 25 are circular, on one hand, the materials are convenient to select and manufacture, and on the other hand, the fresh tea leaves are further ensured not to be scratched by the edges of the sieve holes 22.

As a preferred embodiment, on the basis of the above, further, the classifying screen 21 further comprises a lower beam 23 and an upper beam 24, both ends of the lower beam 23 and the upper beam 24 are connected with the inner wall of the collecting box 1, the lower beam 23 is in clearance fit with the squeezing part 5, the upper beam 24 is arranged between the first discharging port 17 and the second discharging port 18, the lower end of the guide rod 25 is arranged on the lower beam 23, and the upper end of the guide rod 25 is arranged on the upper beam 24.

In a preferred embodiment, on the basis of the above, the lower cross beam 23 and the upper cross beam 24 are detachably connected with the collecting box 1.

The above embodiments are only used to illustrate the present invention and not to limit the technical solutions described in the present invention, and although the present invention has been described in detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and therefore, any modification or equivalent replacement may be made to the present invention; all the technical solutions and modifications without departing from the spirit and scope of the present invention are covered by the claims of the present invention.

Claims (7)

1. A novel tea picking machine is characterized in that: the tea leaf picking device comprises a collecting box, picking components arranged in the collecting box and a driving part used for driving the picking components, wherein one end of the collecting box in the horizontal direction is an inlet end used for fresh tea leaves to enter, the inlet end is in an open shape, the collecting components are further arranged on the collecting box and used for collecting the tea leaves picked in the collecting box, each picking component comprises an extrusion part and a first rotating shaft, the extrusion parts and a collecting box bottom plate are in clearance fit, the driving part drives a first rotating shaft to rotate, a plurality of extrusion arms are arranged on the first rotating shaft, the collecting box bottom plate corresponding to the extrusion arms is provided with guide grooves, when the extrusion arms rotate to the guide grooves, the extrusion arms and the guide grooves are in clearance fit, one ends of the guide grooves extend towards the direction of the inlet end and penetrate through the bottom plate at the inlet end, the other end of the squeezing arm extends to the lower part of the squeezing component, the squeezing arm comprises a connecting section connected with the first rotating shaft and a squeezing section used for being matched with the squeezing component to apply upward pulling force to the fresh tea leaves, and the pulling force is used for breaking the buds and stems of the fresh tea leaves; each guide groove is provided with a plurality of extrusion arms correspondingly, the extrusion arms corresponding to the same guide groove are radially arranged on the first rotating shaft and are uniformly distributed in the circumferential direction of the first rotating shaft, the first rotating shaft is arranged at the inlet end of the collection box, and the extrusion arms firstly pass through the tea leaves in the advancing direction of the collection box from top to bottom when rotating; the length of the squeezing arm is greater than or equal to the distance between the first rotating shaft and the squeezing component, the squeezing arm and/or the squeezing component has elasticity, and when the squeezing arm rotates to the squeezing component, the squeezing arm and/or the squeezing component can elastically deform to enable the squeezing arm to pass over the squeezing component.

2. The tea leaf picker according to claim 1, wherein: the extrusion arm include with first gyration axle fixed connection the linkage segment and with extrusion part matched with extrusion section, extrusion section has elasticity, the tip cover of extrusion section is established in the tip of linkage segment, extrusion section with be rotary fit between the linkage segment.

3. The tea leaf picker according to claim 2, wherein: the end of the squeezing section is bent in the plane of rotation of the squeezing arm, the direction of bending being opposite to the direction of rotation of the squeezing arm.

4. The tea leaf picking machine according to claim 3, wherein: the extrusion part comprises a second rotating shaft and a pile casing sleeved outside the second rotating shaft, the second rotating shaft can rotate around the self axial direction, the pile casing comprises a plurality of pile casing units, each pile casing unit corresponds to one guide groove, a gap exists between every two adjacent pile casing units, and the pile casing units can rotate around the second rotating shaft.

5. The tea leaf picker according to claim 4, wherein: and the side wall of one end of the guide groove, which is close to the extrusion part, is outwards expanded to form a notch with the width larger than that of the guide groove.

6. The tea leaf picker according to claim 5, wherein: gather on the box with be provided with the discharge gate on the curb plate of the relative one side of access end, collect the subassembly include the inlet pipe and with the bag body of connection can be dismantled to the inlet pipe, the inlet pipe with the discharge gate links to each other, the discharge gate is two, including the first discharge gate that is located the top and being located the second discharge gate of first discharge gate below, first discharge gate and second discharge gate all are provided with the collection subassembly separately still be provided with fresh leaf grading plant in the collection box, fresh leaf grading plant includes the classifying screen, be provided with a plurality of sieve meshes on the classifying screen, the fresh leaf looks adaptation of tealeaves sieve mesh size and a bud leaf, the classifying screen slope sets up, the lower one end of classifying screen with the lower edge clearance fit of extrusion part, higher one end setting is in the lower edge of first discharge gate.

7. The tea leaf picking machine according to claim 6, wherein: the sieve pores are in a strip shape extending from the lower end to the higher end of the classifying sieve, the adjacent sieve pores are separated, each sieve pore is uniformly arranged along the width direction of the sieve pore, the width of the sieve holes is gradually increased along the direction from the lower part to the higher part of the sieve holes, the fresh leaf grading device also comprises a pushing component, the pushing component is used for pushing the fresh tea leaves at the lower position on the classifying screen to the higher position, the pushing component comprises a third rotating shaft, the third rotating shaft is positioned above the classifying screen, and is vertical to the length direction of the sieve pores, the third rotating shaft is connected with a driving device in a transmission way, the third rotating shaft is fully distributed with bristles, the length of the bristles ensures that when the third rotating shaft rotates, the bristles sweep across the upper edge of the extrusion and the lower half of the screen, the direction of rotation of the third pivot axis ensuring that the bristles sweep along the sizing screen from low to high.

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