A kind of heat transfer Ramulus euonymi air-flow stirs selectivity and positions lossless harvesting separating trolley
Technical field
The invention belongs to Ramulus euonymi field of mechanical technique, in particular to a kind of heat transfer Ramulus euonymi air-flow to stir selectivity
Position lossless harvesting separating trolley.
Background technique
Ramulus euonymi is the branch or aliform adjunct of the tool fin of Celastraceae plant winged euonymus, can be grown on hillside, ditch
Edge, like it is warm on the sunny side environment and to soil require it is not tight, in addition to northeast, Xinjiang, Qinghai, Tibet, Guangdong and Hainan, the whole nation
There are plantation in each provinces and regions, and Ramulus euonymi whole year can adopt, and wing plumage and can be used as medicine with wing branch, have blood-breaking promoting menstruation, removing toxicity for detumescence, desinsection it
Effect.
Ramulus euonymi branch surrounding, which assumes diamond in shape, is distributed with wing plumage, Ramulus euonymi wing plumage in flat, it is slightly thick at base portion and to
Outer gradually thin, wing plumage can easily peel off common mark of break on therefore branch, and wing plumage length and the uniformity influence its economic value, wherein band wing
Branch is uniform with branch, and the complete person of upper fin plumage is preferred, and to avoid harvesting from further resulting in the damage of wing plumage, Ramulus euonymi uses people at present
Work mode is harvested without mechanical picking methods, and artificial harvesting is carried out in a manner of directly extracting branch often, harvests personnel
It needs to protrude into arm hand-held scissors or cutter between branch and progress branch harvesting is sheared or cut to branch, to keep away
Exempt from scissors or cutter in recovery process branch wing plumage is caused to damage, harvesting personnel can only hold nature peeling wing plumage on the other hand and exist
Another hand is harvested at the mark of break left on branch, peel off naturally position at the mark of break that is left on branch of wing plumage it is indefinite and
It is not of uniform size thus more demanding to reduce the harvest efficiency of harvesting personnel, while ghost to the accurate operation of harvesting personnel
It is grown nonparasitically upon another plant on fletching branch with many browses and branches and leaves edge has serration, harvesting personnel are easily sawed by branches and leaves edge when harvesting
Tooth and wing plumage, which are stabbed, to be reduced working efficiency or even causes the symptoms such as allergy and infection, therefore needs to wear when harvesting personnel's harvesting anti-
Nurse's tool operates, and the wearing of protection tool is prevent operator influences to harvest people from directly contacting Ramulus euonymi branch
Member's flexible operation degree and manipulation accuracy cause working efficiency to reduce while being easy because of hand position or the inaccurate damage of clipped position
Hurting branch wing plumage makes it fracture to destroy the integrality of wing plumage and reduce its economic value;Ramulus euonymi tree is high up to 3 meters, harvesting
Personnel are harvested when eminence branch and need to carry out operation by staircase while needing to carry container climbing staircase, hold appearance
Device easily hinders harvesting personnel's flexible operating to increase harvesting personnel weight bearing and increase the danger coefficient that harvesting personnel's eminence operates, harvesting
Personnel need hand-held scissors or cutter that progress is sheared or cut to branch while carrying container climbing staircase
Branch harvesting, the attention that this operation has greatly dispersed to harvest personnel's high-rise working increase the dangerous system that eminence harvests
Number, and the branch that climbing staircase is only capable of within the scope of can touch to harvesting personnel's arm every time harvests, therefore harvests people
Member needs ceaselessly to move up and down staircase and harvests to branch within the scope of remaining, and the process wastes time reduction of movable escalator is adopted
Branch wing plumage of inevitably damaging when rate of producing effects and movable escalator reduces its economic value;It is attached on branch after shearing or extracting harvesting
There is browse, spray and leaf on artificial removal's branch are needed before collecting fin, harvesting and browse removal are divided into
Two procedures, which individually carry out will increase the damage probability of wing plumage while increasing the labor intensity of operator, reduces labour effect
Rate, Ramulus euonymi wing plumage can easily peel off in addition, and the faint collision generated after the harvesting in handling process can all lead to part wing plumage
It falls off to influence its economic value and Ramulus euonymi branch is hard and tough, difficult fracture is not easy to separate from branch, therefore is artificial
Harvesting is separated except the technical problem high degree of browse limits Ramulus euonymi Mechanized Processing process on branch.
The rarely seen harvesting for disclosing any Ramulus euonymi of currently available technology is mechanical.
Summary of the invention
To solve above-mentioned existing problem, the present invention provides one kind easily to peel off Ramulus euonymi wing plumage for diamond shape distribution, brittleness
Air-flow dial type fixation and recognition tuning (diamond shape distribution wing plumage and nothing on branch are utilized under conditions of air-flow has same dynamic pressure
The different of the forced area of wing plumage part branch realize air-flow dial type tuning) it is that selective positioning holding reduction is improper because holding
Wing plumage breakage is caused to provide condition, can truly realize and adapt to circumferentially give birth under conditions of without any setting element
Long, irregular diamond shape distribution, the selectivity positioning of the flaky plant of brittleness stir the technical effect of tuning, while heat being passed
The conductivity of heat technical know-how passed innovatively applies to Ramulus euonymi harvesting technique field, really realizes technical know-how and Ramulus euonymi machine
The combination of tool harvesting utilizes the perfect cooperation realization branch wing plumage and browse of low-temperature airflow, atomized spray microparticle aqueous
Quick humidification solves the dry wing plumage harvesting technical problem that breakage rate is high and increases the wet of branch surface and spray leaf surface
Profit degree, while so that wetting branches and leaves is lost rapid dehydration listlessization of Free water from reverse thinking combination drying technology principle, lead to
It crosses the opposite air stream drives transport screw channel of the air stream drives hand of spiral and air stream drives reverse acting spiral channel and realizes roller
Reverse flip and using reverse flip power realize by the browse of dehydration listlessization from branch strip drag strip separation technology imitate
Fruit.
The technical solution adopted by the present invention is as follows: a kind of heat transfer Ramulus euonymi air-flow of the present invention stirs selectivity positioning nothing
Damage harvesting separating trolley, including the lossless harvesting mechanism of air-flow dial type quick humidification selectivity positioning holding, heat floating type air-flow
Driving dehydration listlessization branches and leaves regioselective strips separating mechanism, loadascreen structure and moving body mechanism, and the screening loads
Mechanism is set in moving body mechanism, the lossless harvesting mechanism of the air-flow dial type quick humidification selectivity positioning holding and heat
Floating type air stream drives dehydration listlessization branches and leaves regioselective strips separating mechanism on loadascreen structure, loadascreen structure
To the lossless harvesting mechanism of air-flow dial type quick humidification selectivity positioning holding and heat floating type air stream drives dehydration listlessization branch
Leaf regioselective strips separating mechanism and play fixed supporting role, the heat floating type air stream drives dehydration listlessization branches and leaves positioning choosing
It selects and strips separating mechanism below the lossless harvesting mechanism of air-flow dial type quick humidification selectivity positioning holding;The air-flow is dialled
The lossless harvesting mechanism of dynamic formula quick humidification selectivity positioning holding includes air-flow dial type fixation and recognition device for regulating direction, heat transfer
Wing plumage quick humidification selectivity positioning holding device, push-and-pull shearing recovering device and harvesting tuning component, the harvesting tuning group
Part is set on loadascreen structure, and the air-flow dial type fixation and recognition device for regulating direction is set on harvesting tuning component, the heat
Amount transmitting wing plumage quick humidification selectivity positioning holding device is set on air-flow dial type fixation and recognition device for regulating direction, the push-and-pull
It shears recovering device to be set on air-flow dial type fixation and recognition device for regulating direction, the heat transfer wing plumage quick humidification is selectively fixed
Position grip device is set between air-flow dial type fixation and recognition device for regulating direction and push-and-pull shearing recovering device;The heat floating type
It includes that the listless makeup of browse flash baking dehydration is set and air-flow that air stream drives dehydration listlessization branches and leaves regioselective, which strips separating mechanism,
Driving roller inverts listlessization branches and leaves catalysis separator, and the air stream drives roller inverts listlessization branches and leaves catalysis
Separator is set on loadascreen structure, and the listless makeup of browse flash baking dehydration is arranged in the reversion of air stream drives roller
On listlessization branches and leaves catalysis separator.
Further, the air-flow dial type fixation and recognition device for regulating direction includes that air-flow turns to shifting component, air-flow is stirred
Tuning air blower, harvesting drive rod and harvesting fixed support plate, the harvesting drive rod is set on harvesting tuning component, described to adopt
It receives fixed support plate to be set on harvesting drive rod, the air-flow turns to shifting component and is set on harvesting fixed support plate, the gas
Stream is stirred tuning air blower and is set on harvesting fixed support plate;It includes that driving is stirred in air-flow steering that the air-flow, which turns to shifting component,
Component, air-flow steering stir support frame and gas delivery tube, and the air-flow steering stirs support frame and is set to harvesting fixed support plate
On, the air-flow steering stirs support frame as inverted l-shaped structure setting, and the air-flow steering is stirred driving assembly and turned to set on air-flow
It stirs on support frame, described gas delivery tube one end is set to air-flow and stirs on tuning air blower, the gas delivery tube other end
It is stirred on driving assembly set on air-flow steering, air-flow stirs tuning air blower and stirs tuning air blower by air-flow as air-flow steering
Shifting component provides certain driving air-flow;It includes that air-flow turns to driving motor, air-flow is turned to and driven that driving assembly is stirred in the air-flow steering
Dynamic motor placed cavity, air-flow steering driving shaft, air-flow turn to active drive gear, air-flow turns to driven drive gear, air-flow turns
Gather directed cavity to driving fixed plate, rotary dial piece fixed plate, flow rotation sliding piece, air-flow and air-flow gathers directed cavity limit
Position part, the air-flow turn to driving fixed plate and stir on support frame set on air-flow steering, and the air-flow steering driving shaft is rotatable
It is turned in driving fixed plate set on air-flow, the air-flow turns to active drive gear and is set on air-flow steering driving shaft, the gas
Stream turns to active drive gear and is equipped with sawtooth, and the air-flow turns to driving motor placed cavity and turns to driving fixed plate set on air-flow
Lower section, the air-flow turn to driving motor and are set in air-flow steering driving motor placed cavity, the air-flow steering driving shaft and gas
Stream turns to driving motor output end and is connected, and the air-flow is gathered directed cavity locating part and turned in driving fixed plate set on air-flow, institute
Stating air-flow to gather directed cavity locating part includes that air-flow gathers directed cavity engaging slot and gear embeded slot, and the gear embeded slot is set to
Air-flow is gathered the gentle stream of directed cavity engaging slot and is turned between driving fixed plate, and the gear embeded slot diameter is gathered less than air-flow leads
To chamber engaging slot diameter, the air-flow turns to driving fixed plate overdraught and gathers at directed cavity locating part center equipped with air-flow input
Mouthful, the gas delivery tube other end is set on air-flow input port, and the air-flow gathers the rotatable engaging of directed cavity set on air-flow
To gather on directed cavity locating part, the air-flow gathers the cylindrical hollow cavity structure setting that directed cavity is upper and lower ends opening,
The air-flow gathers that directed cavity diameter gathers directed cavity engaging slot diameter equal to air-flow and air-flow gathers directed cavity locating part wall thickness
The sum of, the air-flow gathers directed cavity lower inner side wall equipped with annular protrusion, and the annular protrusion thickness is gathered equal to air-flow
The difference of directed cavity engaging slot and gear embeded slot diameter, the setting of annular protrusion and gear embeded slot are guaranteeing that air-flow gathers guiding
Air-flow is gathered during chamber can be blocked in high speed rotation again while gathering the smooth rotational slide of directed cavity locating part around air-flow
Directed cavity is gathered from air-flow to fall off on directed cavity locating part, and the air-flow turns to driven drive gear and gathers directed cavity set on air-flow
At annular protrusion on lateral wall, the air-flow turns to driven drive gear and is equipped with sawtooth, and the air-flow turns to driven sliding tooth
The gentle stream of sawtooth turns to sawtooth on active drive gear and is meshed on wheel, and the rotary dial piece fixed plate is gathered set on air-flow to be led
To chamber upper end, the rotary dial piece fixed plate is circular configuration setting, and it is along the circumferential direction uniform that the air-flow gathers directed cavity
Equipped with several airflow delivery outlets, the flow rotation sliding piece is uniformly set to air-flow and gathers on directed cavity excircle side wall, described
Flow rotation sliding piece is equipped with several groups, and the flow rotation sliding piece and airflow delivery outlet correspond interval setting and air-flow
It exports open height and is equal to flow rotation sliding piece height, the air-flow steering stirs driving assembly and is symmetrically arranged with two groups, two components
Not Wei air-flow steering stir the gentle stream of driving assembly one turn to stir driving assembly two, Ramulus euonymi branch to be harvested is placed on gas
Stream steering is stirred the steering of the gentle stream of driving assembly one and is stirred between driving assembly two, and one side air-flow stirs the output of tuning air blower
Air-flow is transmitted to air-flow through air-flow input port by gas delivery tube and gathers in directed cavity, and air-flow is exported by airflow delivery outlet and passed through
The effect that air-flow is gathered is realized in the adjacent two flow rotations sliding piece effect in airflow delivery outlet two sides, and on the other hand, air-flow, which turns to, to be driven
Dynamic motor drives the rotation of air-flow steering driving shaft, and air-flow steering driving shaft drives air-flow to turn to the rotation of active drive gear, air-flow
It turns to active drive gear band and takes offence and flow steering driven drive gear rotation, air-flow turns to driven drive gear and air-flow is driven to gather
Directed cavity rotation, air-flow gather directed cavity and drive the rotation of flow rotation sliding piece, and flow rotation sliding piece makes during rotating
Output gas flow flowing, air-flow stir tuning air blower output gas flow and gather reinforcement and flowing, Ramulus euonymi under above-mentioned comprehensive function
Branch surrounding diamond shape wing plumage stirs rotation under airflow function, at wing plumage forced area greatly under the toggle action of air-flow to
Side deflection, power that branch was subject to because forced area is small at aptery plumage stir is smaller to be maintained at air-flow steering and stirs driving assembly one
Gentle stream steering is stirred between driving assembly two;The heat transfer wing plumage quick humidification selectivity positioning holding device includes low
Wet body circulation component, atomizing spray wetted components and heat transfer selectivity positioning holding device, the heat transfer selection
Property positioning holding device be set to hold harvesting fixed support plate on, cryogenic gas recirculation assembly one end be set to loadascreen
On structure, the cryogenic gas recirculation assembly other end is set on heat transfer selectivity positioning holding device, the atomizing spray
Wetted components one end is set on loadascreen structure, and it is selectively fixed that the atomizing spray wetted components other end is set to heat transfer
On the grip device of position;The heat transfer selectivity positioning holding device includes holding driving assembly and selective positioning holding group
Part, the gripping driving assembly include holding driving motor, holding driving motor placed cavity, hold driving driving shaft, hold and drive
Dynamic bias turntable holds drive rod, clamping driving spur rack, clamping piece driving driven gear, clamping piece driving driven shaft and holds
Driving enclosing protection body is held, the gripping driving enclosing protection body, which is set to, to be held on harvesting fixed support plate, the gripping harvesting
Fixed support plate lower wall is equipped with push-and-pull driving plate and slides limiting slot, and the push-and-pull driving plate sliding limiting slot is T-shaped structure
Setting, the gripping driving driving shaft are rotatably arranged on gripping driving enclosing protection body, and the gripping drives eccentric turntable to set
In holding on driving driving shaft, the gripping drive rod Eccentric-hinge is arranged in gripping and drives on eccentric turntable, the clamping driving
Spur rack, which is hingedly set to, to be held on drive rod, is equipped with spur rack sliding groove, the clamping in the gripping driving enclosing protection body
Driving spur rack is slidably set in spur rack sliding groove, and the clamping driving spur rack is equipped with incomplete sawtooth, the folder
Gripping member driving driven shaft is rotatably arranged on gripping driving enclosing protection body, and the clamping piece driving driven gear is set to clamping piece
It drives on driven shaft, the clamping piece driving driven gear is equipped with sawtooth, sawtooth and clamping on the clamping driving spur rack
Sawtooth is meshed on part driving driven gear, and the clamping piece driving driven shaft includes clamping piece driving driven shaft one and clamping piece
Driven shaft two is driven, the clamping piece driving driven gear includes clamping piece driving driven gear one and clamping piece driving driven tooth
Wheel two, the clamping piece driving driven gear one and clamping piece driving driven gear two are symmetrically set in clamping driving spur rack two
Side, the gripping driving motor placed cavity, which is set to, to be held on driving enclosing protection body lateral wall, and the gripping driving motor is set to
It holds in driving motor placed cavity, the gripping driving driving shaft, which runs through to hold driving enclosing protection body bottom wall and hold, drives electricity
Machine output end is connected, and the selectivity positioning holding component includes clamping piece drive rod, clamping piece catch bar, clamping driving limit
Bar grips part and heat transfer clamping piece, and the clamping piece drive rod is set on clamping piece driving driven shaft and is set to and holds
It holds on driving enclosing protection body lateral wall, the clamping piece catch bar is hingedly set on clamping piece drive rod, the clamping driving
Gag lever post one end is hingedly set on gripping driving enclosing protection body lateral wall, and the clamping driving gag lever post other end is hingedly set to
In the middle part of clamping piece catch bar, clamping driving gag lever post can prevent clamping piece catch bar from arbitrarily shaking, described to grip part hinge
It is arranged on clamping driving gag lever post, the heat transfer clamping piece is set to and grips on part, the heat transfer clamping piece
For the setting of hollow triangular prism structure, the heat transfer clamping piece is provided with ice cube, and the heat transfer clamping piece is with respect to incline
In concave arc structure setting, the incline of the heat transfer clamping piece concave arc structure setting is sprayed equipped with cryogenic gas
Mouthful, cryogenic gas jet port opposing sidewalls are equipped with cryogenic gas air inlet on the heat transfer clamping piece, and the heat passes
Clamping piece side wall is passed equipped with atomized spray part fixed frame, the clamping piece drive rod includes clamping piece drive rod one and clamping piece
Drive rod two, the clamping piece catch bar include clamping piece catch bar one and clamping piece catch bar two, the clamping driving limit
Bar includes clamping driving gag lever post one and clamping driving gag lever post two, and the part that grips includes gripping part one and clamping
Fixing piece two, the heat transfer clamping piece include heat transfer clamping piece one and heat transfer clamping piece two, and the heat passes
It passs clamping piece one and heat transfer clamping piece two and is set along driving enclosing protection body axisymmetrical, the clamping piece drive rod one is held
In on clamping piece driving driven shaft one and set on holding on driving enclosing protection body lateral wall, the clamping piece catch bar one is hinged
On clamping piece drive rod one, the clamping driving one one end of gag lever post is hingedly set to gripping driving enclosing protection body lateral wall
On, clamping driving one other end of gag lever post is hingedly set in the middle part of clamping piece catch bar, and the part one that grips is set to folder
On gripping member catch bar one, the heat transfer clamping piece one is set to and grips on part one, and the clamping piece drive rod two is set to
Clamping piece drives on driven shaft two and is set to and holds on driving enclosing protection body lateral wall, and the clamping piece catch bar two is hingedly set
In on clamping piece drive rod two, the clamping driving two one end of gag lever post is hingedly set to gripping driving enclosing protection body lateral wall
On, clamping driving two other end of gag lever post is hingedly set in the middle part of clamping piece catch bar, and the part two that grips is set to folder
On gripping member catch bar two, the heat transfer clamping piece two is set to and grips on part two;The atomizing spray wetted components packet
Water tank, atomizing processor, atomizing spray dispatch tube, position of splitter, atomization shunting dispatch tube and atomized spray part, the water tank is included to set
In on loadascreen structure, the atomizing processor is set on water tank, and the atomizing spray dispatch tube is set on atomizing processor,
The position of splitter is set on atomizing spray dispatch tube, and the atomization shunts dispatch tube one end and is set in position of splitter, the atomization spray
It penetrates part engaging to be set on atomized spray part fixed frame, the atomization shunts the dispatch tube other end and is set on atomized spray part, described
Atomizing processor will form microparticle aqueous after the liquid water process in water tank, and be exported by atomizing spray dispatch tube, through shunting
Part effect, which is divided into two routings atomization and shunts dispatch tube and be sent to two atomized spray parts, ejects in heat transfer clamping piece
Hydrone particle is formed on the Ramulus euonymi branch clamped between one and heat transfer clamping piece two;The cryogenic gas recirculation assembly
Including cryogenic gas circulating box, cryogenic freezing drop-leg, air pump, gas inlet pipe, gas cooling delivery pipe, refrigerator,
Cold plate in case, cooling pipe, cryogenic gas efferent duct and refrigerator fixed plate in case, the cryogenic gas circulating box are set to screening
On loader mechanism, the refrigerator fixed plate is set on cryogenic gas circulating box bottom wall, and the refrigerator is fixed set on refrigerator
On plate, cold plate is set on cryogenic gas circulating box side wall in the case, and cooling pipe is uniformly arranged to be set in case and be made in the case
On cold plate, cooling pipe one end is connected to through cryogenic gas circulating box side wall with outside air in the case, cooling pipe in the case
The other end is set on refrigerator, and the cryogenic gas efferent duct is set on refrigerator, and the cryogenic gas efferent duct is equipped with low
Warm gas delivery port, the cryogenic gas delivery outlet are set in cryogenic gas circulation, and the air pump is set to cryogenic gas circulating box
On side wall, the gas inlet pipe is set on air pump and is connected to outside air, and the gas cooling delivery pipe is set on air pump,
The gas cooling delivery pipe is set in cryogenic gas circulating box, and the cryogenic freezing drop-leg is recycled through cryogenic gas
Case side wall is set to gas drop and conveys on warm pipe, and the cryogenic freezing drop-leg is set to cryogenic gas around harvesting tuning component
On air inlet, ambient atmosphere cooling pipe along case enters cryogenic gas circulating box, in refrigerator and case under the action of cold plate,
Atmosphere is reduced to cryogenic gas and so that gas in cryogenic gas circulating box is guaranteed that low temperature, air pump will via the output of cryogenic gas delivery outlet
Ambient atmosphere is input in gas cooling pipe, and cold service temperature reduces to form cryogenic freezing in cryogenic gas circulation box body
Gas, and export through cryogenic freezing drop-leg to cryogenic gas air inlet and cooperate heat transfer clamping piece one and heat transfer
The intracorporal ice cube of two chamber of clamping piece ejects cryogenic gas by cryogenic gas jet port, and Ramulus euonymi branch is stirred in flow rotation
Wing plumage is rotated because forced area is big to two sides under the action of piece, under conditions of without any setting element, since flow rotation is dialled
The airflow function heat transfer clamping piece one and heat transfer clamping piece two of movable plate hold aptery plumage part on branch, because of terrible arrow
There are temperature differences for pinnule item and cryogenic gas, and the atomized water particle of atomized spray part injection is to Ramulus euonymi branch upper fin plumage and spray
Heat transfer, heat transfer clamping occur for the cryogenic gas and Ramulus euonymi branch of cryogenic gas jet port injection while leaf soaks
On the one hand branch upper fin plumage and browse quick humidification between part one and heat transfer clamping piece two increase the tough of brittleness wing plumage
Property reduce wing plumage a possibility that being destroyed, moisture increases to dry listlessization and providing condition in the browse on another aspect branch.
Further, push-and-pull shearing recovering device include push-and-pull shearing driving assembly, flexible shearing driving assembly and
Branch shearing harvesting component, the push-and-pull shearing driving assembly, which is set to, to be held on harvesting fixed support plate, and the flexible shearing is driven
Dynamic component is set on push-and-pull shearing driving assembly, and the branch shearing harvesting component is set on flexible shearing driving assembly, described
Push-and-pull shearing driving assembly includes push-and-pull driving fixed plate, push-and-pull driving motor, push-and-pull driving motor placed cavity, push-and-pull driving master
Moving axis, active drive straight-tooth gear member push the incomplete spur rack of driving, the incomplete spur rack of driving and push-and-pull driving are pulled to support
Plate, the push-and-pull driving dead plate upper end, which is set to, to be held on harvesting fixed support plate, and the push-and-pull driving support plate is set to push-and-pull
Fixed plate lower end is driven, push-and-pull driving support plate two sides are symmetrically arranged with spur rack push-and-pull sliding groove, the push-and-pull driving master
Moving axis is rotatably arranged in push-and-pull driving support plate, and the active drive straight-tooth gear member is set on push-and-pull driving driving shaft, described
Active drive straight-tooth gear member excircle is equipped with part sawtooth, and the promotion drives incomplete spur rack to be slidably set to spur rack
It pushes and pulls in sliding groove, the pulling drives incomplete spur rack to be slidably set in other side spur rack push-and-pull sliding groove, described
Pushing to drive incomplete spur rack and pull drives incomplete spur rack to be equipped with sawtooth, pushes to drive and saw on incomplete spur rack
The tooth number of teeth is equal with the incomplete spur rack sawtooth number of teeth of driving is pulled and is equal to the number of teeth of sawtooth in active drive straight-tooth gear member, institute
Incomplete spur rack can be driven with promotion respectively and pull the incomplete spur rack of driving by stating sawtooth in active drive straight-tooth gear member
Upper sawtooth is meshed, and the promotion, which drives incomplete spur rack and pulls, drives incomplete spur rack to be symmetrical arranged, the push-and-pull
Driving motor placed cavity is set to below push-and-pull driving support plate, and the push-and-pull driving motor is set to push-and-pull driving motor placed cavity
Interior, the push-and-pull driving driving shaft is connected through push-and-pull driving support plate with push-and-pull driving motor output end, when active drive is straight
When gear member sawtooth and promotion drive the engagement of incomplete spur rack, as the driving of active drive straight-tooth gear member rotation forces is incomplete
Spur rack slides in and out along spur rack push-and-pull sliding groove, when active drive straight-tooth gear member sawtooth and pulls the incomplete spur rack of driving
When engagement, incomplete spur rack is driven inwardly to slide along spur rack push-and-pull sliding groove as active drive straight-tooth gear member rotates to pull
It is dynamic, drive incomplete spur rack and pulling to drive push-and-pull of the incomplete spur rack to flexible shearing driving assembly to realize and push
Driving effect;The flexible shearing driving assembly includes push-and-pull driving plate, the fixed support chamber of shearing harvesting, shearing harvesting driving electricity
Machine, shearing driving driving shaft, shearing driving driven shaft, shearing active drive gear, shearing driven drive gear, fan-shaped sliding tooth
Wheel, shearing driving spur rack and straight-tooth bar slide locating part, and the push-and-pull driving plate, which is set to push, drives incomplete spur rack
It is driven on incomplete spur rack with pulling, pushes to drive incomplete spur rack and pull that incomplete spur rack being driven to drive push-and-pull
Plate plays driving effect, and the push-and-pull driving plate upper end is T-shaped structure setting, the push-and-pull driving plate upper end and push-and-pull driving plate
Limiting slot engaging is slided, the push-and-pull driving plate upper end is slidably set in push-and-pull driving plate sliding limiting slot, and the shearing is adopted
It receives fixed support chamber and is set to push-and-pull driving plate lower end, the shearing driving driving shaft is rotatably arranged the fixed support chamber of shearing harvesting
On upper wall, the shearing active drive gear is set on shearing driving driving shaft, and the shearing active drive gear is equipped with saw
Tooth, the shearing driving driven shaft are rotatably arranged on the fixed support chamber upper wall of shearing harvesting, the shearing driven drive gear
On shearing driving driven shaft, the shearing driven drive gear is equipped with sawtooth, saws on the shearing active drive gear
Sawtooth is meshed on tooth and shearing driven drive gear, and the shearing driven drive gear includes shearing one He of driven drive gear
Driven drive gear two is sheared, the shearing driven drive gear one and shearing driven drive gear two are symmetrically set in shearing actively
Gear two sides are driven, the straight-tooth bar sliding locating part is set on the fixed support chamber of shearing harvesting, the straight-tooth bar sliding
Locating part is equipped with spur rack and limits sliding groove, and the shearing driving spur rack is slidably set in spur rack limit sliding groove,
The shearing driving spur rack is equipped with the incomplete sawtooth in part, and the fan-shaped driving gear is set on shearing driving driven shaft,
The fan-shaped driving gear is set to above shearing driven drive gear, the fan-shaped driving fan-shaped structure setting of gear, described
Sector driving gear is equipped with sawtooth, and the sector drives sawtooth and shearing on gear that sawtooth on spur rack is driven to be meshed, institute
Stating fan-shaped driving gear includes that sector drives gear one and fan-shaped driving gear two, and the sector drives gear one and fan-shaped driving
Gear two is symmetrically set in shearing driving spur rack two sides, and the shearing harvesting driving motor is set to the fixed support chamber of shearing harvesting
Interior, the shearing driving driving shaft is connected with shearing harvesting driving motor output end, and shearing active drive gear rotation, which drives, cuts
Driven drive gear rotation is cut, shearing driven drive gear drives fan-shaped driving gear rotation, sector driving gear one and sector
Driving two rotation forces of gear shearing driving spur rack does reciprocating sliding campaign;The branch shearing harvesting component includes that shearing pushes away
Dynamic driving plate, cutting member fixed guide plate, push-pull rod articulated shaft, cutting member push-pull rod and shearing harvesting part, the cutting member are solid
Determine guide plate to be set on the fixed support chamber lateral wall of shearing harvesting, the shearing pushes driving plate to be set to shearing driving spur rack
On, shearing driving spur rack pushes driving plate to play driving effect shearing, and the shearing pushes driving plate slidably to run through and is set to
In cutting member fixed guide plate, the shearing harvesting part is hingedly set on cutting member fixed guide plate, on the shearing harvesting part
Equipped with blade, the shearing harvesting part includes shearing harvesting part one and shearing harvesting part two, and the shearing harvests part one and shearing
Harvesting part two is symmetrically set on cutting member fixed guide plate, and the push-pull rod articulated shaft is set to shearing and pushes in driving plate, described
Cutting member push-pull rod one end is hingedly set on push-pull rod articulated shaft, and the cutting member push-pull rod other end is hingedly set to shearing harvesting
In the middle part of part, the cutting member push-pull rod includes cutting member push-pull rod one and cutting member push-pull rod two, the cutting member push-pull rod one
Hinged to be set on shearing harvesting part one, the cutting member push-pull rod two is hingedly set on shearing harvesting part two, is on the one hand pushed and is driven
Moving incomplete spur rack and pulling drives incomplete spur rack to play push-and-pull driving effect to shearing harvesting part, and on the other hand shearing is driven
Dynamic spur rack plays flexible driving effect to shearing harvesting part, and shearing harvesting part is under the collective effect of above-mentioned driving by heat transfer
The branch that clamping piece one and heat transfer clamping piece two are held jointly carries out shearing harvesting by lower part.
Further, the listless makeup of the browse flash baking dehydration, which is set, carries downslide component and diamond shape including diamond shape branch
Branch heats listlessization component, and the diamond shape branch heating listlessization component is set to air stream drives roller and inverts listlessization branches and leaves regioselective
Property separator on, diamond shape branch carrying downslide component is set on diamond shape branch heating listlessization component, the diamond shape branch
Heating listlessization component includes drying and warning heating enclosing body, heating member fixed plate, drying and warning heating member and drying air blower, institute
It states drying and warning heating enclosing body to be set on air stream drives roller reversion listlessization branches and leaves catalysis separator, the drying
Heating heating enclosing body is arranged in cylindrical hollow cavity body structure closed at both ends, and the heating member fixed plate is set to drying and warning
It heats between enclosing body upper wall and bottom wall, heating member fixed plate cross section is arranged in cirque structure, and the heating member is solid
Fixed board diameter is less than drying and warning and heats enclosing body diameter, sets between the heating member fixed plate and drying and warning heating enclosing body
There is drying air-flow flow cavity, drying box cavity is equipped in the heating member fixed plate, the drying air blower is set to drying air-flow
On flow cavity upper wall, the drying air blower and drying air-flow flow cavity junction are equipped with drying air-flow blast orifice, dry air blast
Machine accelerates recycle heat flowing in drying air-flow flow cavity and drying box cavity, is uniformly provided with heating in the heating member fixed plate
Part fixing groove, the drying and warning heating member are set in heating member fixing groove, are symmetrically arranged with clamping in the heating member fixed plate
Fastener sliding groove, the clamping fastener sliding groove include clamping fastener sliding groove one and clamping fastener sliding groove two,
The clamping fastener sliding groove height is equal with heating member fixed plate height;The diamond shape branch carrying downslide component includes branch
Slip pipe under slip pipe, infundibulate branch supporting and diamond shape branch precise positioning under item is accepted, the branch are accepted lower slip pipe and are set to
Drying and warning heats on enclosing body upper wall, and the branch is accepted lower slip pipe and is arranged in the circular cylindrical cavity structure of both ends open, institute
It states infundibulate branch supporting to accept on lower slip pipe set on branch, the infundibulate branch supporting is diamond shaped in cross section
Funnel-shaped structure setting, the infundibulate branch supporting of diamond structure setting and the wing plumage of Ramulus euonymi branch circumference diamond shape growth are suitable
Injury-free with wing plumage during guaranteeing branch downslide, slip pipe is accepted set on infundibulate branch under the diamond shape branch precise positioning
Part lower end, slip pipe is in inverted round stage structure setting, slip pipe under the diamond shape branch precise positioning under the diamond shape branch precise positioning
The interior diamond shape branch that is equipped with is accurately positioned sliding channel, and it is straight greater than lower end that the diamond shape branch is accurately positioned sliding channel upper end diameter
Diameter, the diamond shape branch are accurately positioned sliding channel lower end diameter and are greater than Ramulus euonymi branch diameter, and the diamond shape branch is accurately fixed
Position sliding channel cross section is that diamond structure setting is adapted to the wing plumage that diamond shape on Ramulus euonymi branch is distributed.
Further, the air stream drives roller reversion listlessization branches and leaves catalysis separator includes catalysis
Branch two-way clamping transfer assembly, air stream drives roller browse strip separation assembly, branch nibbling shear component, wing pinnule leaf
Transmission is accepted component, branches and leaves regioselective separation enclosing part and infundibulate browse supporting, the infundibulate browse and is accepted
Part is set on loadascreen structure, and the branches and leaves regioselective separation enclosing part is set on infundibulate browse supporting, described
The transmission of wing pinnule leaf accepts component and is set on infundibulate browse supporting and separates enclosing part two-phase through branches and leaves regioselective
To side wall, the catalysis branch two-way clamping transfer assembly, air stream drives roller browse strip separation assembly and branch
Bar nibbling shear component is set in branches and leaves regioselective separation enclosing part, and the branch nibbling shear component is set to wing pinnule leaf biography
It send and accepts on component, the air stream drives roller browse strips separation assembly on branch nibbling shear component, described fixed
The selective branch two-way clamping transfer assembly in position is set on branches and leaves regioselective separation enclosing part side wall and is set to air stream drives roller
Cylinder browse strips between separation assembly;The branches and leaves regioselective separation enclosing part is that the hollow cavity structure of upper end closed is set
It sets, the branches and leaves regioselective separation enclosing part diameter is equal with drying and warning heating enclosing body diameter, and the drying and warning adds
Hot enclosing body is set on branches and leaves regioselective separation enclosing part, is symmetrically arranged on the branches and leaves regioselective separation enclosing part upper wall
Fastener sliding through hole is clamped, the clamping fastener sliding through hole is connected to clamping fastener sliding groove, the clamping engaging
Part sliding through hole includes clamping fastener sliding through hole one and clamping fastener sliding through hole two, the air stream drives roller spray
It includes roller overturning blower, roller overturning driving air supply tube, the separation support of air stream drives branches and leaves that leaf, which strips separation assembly,
Plate, branches and leaves strip separation assembly support rod and air-flow driving roller component, and the branches and leaves strip separation assembly support rod set on branch
Leaf regioselective separates in enclosing part two lateral walls, and the air stream drives branches and leaves separation support plate is set to branches and leaves and strips separation group
On part support rod, branches and leaves strip separation assembly support rod and play fixed supporting role to air stream drives branches and leaves separation support plate, described
Air stream drives branches and leaves separate support plate as cirque structure setting, turn in the air stream drives branches and leaves separation support plate equipped with roller
Turn air stream transportation chamber, the roller overturning blower is set on loadascreen structure, the roller overturning driving air supply tube
One end is set in roller overturning blower, and the roller overturning driving air supply tube other end is separated through air stream drives branches and leaves
Support plate is intracavitary set on roller overturning air stream transportation, and the air stream drives roller component is set to air stream drives branches and leaves and separates support plate
On, the air stream drives roller component is equipped with several groups along air stream drives branches and leaves separation support plate circumferencial direction, and the air-flow drives
Conveyer belt sliding groove is symmetrically arranged between dynamic roller component, the conveyer belt sliding groove is connected to clamping fastener sliding through hole,
The conveyer belt sliding groove includes conveyer belt sliding groove one and conveyer belt sliding groove two, the air stream drives roller component and transmission
Band sliding groove inner circle circumferential direction is equipped with branch and clamps sliding channel, the air stream drives roller component and the separation of branches and leaves regioselective
Browse sliding cavity is equipped between enclosing part, the air stream drives roller component includes that air stream drives air inlet pipe, air stream drives go out
Tracheae, L shape air stream drives transmission tube, L shape air stream drives efferent duct and air stream drives branches and leaves separation overturning roller, the air-flow drive
Dynamic air inlet pipe and air stream drives escape pipe uniform intervals are set in air stream drives branches and leaves separation support plate, the air stream drives air inlet
Pipe lower end is connected to through air stream drives branches and leaves separation support plate with roller overturning air stream transportation chamber, on the air stream drives escape pipe
Several certain driving air-flow delivery outlets are uniformly provided with, the L shape air stream drives transmission tube is set in air stream drives air inlet pipe and and air-flow
Air inlet pipe connection is driven, the air stream drives air inlet pipe is equipped with several groups L shape air stream drives transmission tube, and the L shape air-flow drives
Dynamic efferent duct is set on air stream drives escape pipe and is connected to air stream drives escape pipe, if the air stream drives escape pipe is equipped with
Dry group L shape air stream drives efferent duct, the L shape air stream drives transmission tube and L shape air stream drives efferent duct are symmetrical arranged, the gas
Stream driving branches and leaves separation overturning roller one end is rotatably arranged on L shape air stream drives transmission tube, the air stream drives branches and leaves separation
The overturning roller other end is rotatably arranged on L shape air stream drives efferent duct, it is preferable that the air stream drives branches and leaves separate twist rollers
Cylinder surface uses rubber material, and air stream drives branches and leaves separation overturning roller surface can be with deformation occurs and in external force when external force squeezes
It restores to the original state when disappearance, the air stream drives branches and leaves separation overturning roller includes positive overturning roller and reverse flip roller, institute
It states positive overturning roller and reverse flip roller is arranged in a one-to-one correspondence, between the forward direction is overturn between roller and reverse flip roller
Gap is less than spray leaf thickness on branch, is equipped with air-flow at the positive overturning roller center and rotates in the forward direction chamber, the air-flow is positive
Rotating drum both ends are connected to L shape air stream drives transmission tube and L shape air stream drives efferent duct respectively, and the air-flow rotates in the forward direction intracavitary
Equipped with air stream drives transport screw channel, air-flow is equipped at reverse flip roller center and reversely rotates chamber, the air-flow is anti-
Air stream drives reverse acting spiral channel is equipped with into rotating drum, the air-flow reversely rotates chamber both ends and passes respectively with L shape air stream drives
Dynamic pipe and the connection of L shape air stream drives efferent duct, air stream drives transport screw channel and air stream drives reverse acting spiral channel are
Helical structure setting, the spiral rotating direction phase in air stream drives transport screw channel and air stream drives reverse acting spiral channel
Instead, when being passed through air-flow in the same direction in positive overturning roller and reverse flip roller, because of air stream drives transport screw channel and air-flow
Drive the spiral rotating in reverse acting spiral channel contrary so that air flow direction is spiral-shaped contrary, forward direction overturning roller and
Reverse flip roller reverse flip, the browse during forward direction overturning roller and reverse flip roller reverse flip on branch
Between the positive overturning roller of insertion and reverse flip roller, and under the action of forward direction overturning roller and reverse flip roller by from
Strip is dragged on branch.
Further, the catalysis branch two-way clamping transfer assembly include clamping engaging transmission driving motor,
Clamping engaging transmission driving motor placed cavity, driving conveyer belt, active drive driven rod, driven driving driven rod, clamping piece pass
Band, clamping fastener and clamping snubber elastomeric part are sent, the active drive driven rod and driven driving driven rod are rotatably arranged
Branches and leaves regioselective separates on enclosing part inner sidewall, and the driven driving driven rod is set to above active drive driven rod, described
Clamping piece conveyer belt is rotatably arranged on active drive driven rod and driven driving driven rod, the clamping engaging transmission driving electricity
Machine placed cavity is set on branches and leaves regioselective separation enclosing part inner sidewall, and the clamping engaging transmission driving motor is set to retaining wedge
It closes in transmission driving motor placed cavity, the driving transmission belt is rotatably arranged active drive driven rod and clamping engaging transmission is driven
On dynamic motor output shaft, the clamping snubber elastomeric part is set on clamping piece conveyer belt, and clamping snubber elastomeric is in extraneous faint pressure
Under power can deformation occurs, the clamping snubber elastomeric part be equipped with several groups, the clamping fastener be set to clamp snubber elastomeric
On part, the one end of the clamping fastener far from clamping snubber elastomeric part is in concave arc shape structure setting, holds terrible arrow for engaging
Pinnule item, the catalysis branch two-way clamping transfer assembly are symmetrically arranged with two groups, and two groups are respectively catalysis branch
Two-way clamping transfer assembly one and catalysis branch two-way clamping transfer assembly two, the catalysis branch is two-way
It clamps transfer assembly one to be slidably set in conveyer belt sliding groove one, the catalysis branch two-way clamping transfer assembly two
It is slidably set in conveyer belt sliding groove two, the clamping fastener on the catalysis branch two-way clamping transfer assembly one
It is arranged in a one-to-one correspondence with the clamping fastener on catalysis branch two-way clamping transfer assembly two, the clamping piece conveyer belt
Sandwich fastener part can slide respectively to be clamped in sliding channel and browse sliding cavity set on branch, under the branch clamping
Sliding channel radius is greater than clamping fastener part length, and the browse sliding cavity width is greater than clamping fastener part length, dehydration
Ramulus euonymi branch after listlessization processing is two-way through position selectivity branch two-way clamping transfer assembly one and catalysis branch
Clamping fastener part on clamping transfer assembly two carries out engaging clamping by two-way, and defeated from top to bottom with clamping piece conveyer belt
It send, during conveying from top to bottom, the reverse flip of positive overturning roller and reverse flip roller through reverse flip is made
It is separated with browse overhanging on branch is stripped.
Further, the branch nibbling shear component includes drive part by part motor, drive part by part motor placed cavity, segmentation
Shearing driving driving gear, nibbling shear transmission gear, nibbling shear drive driven internal gear, cutting member driving gear, segmentation
Shearing driving driving shaft, nibbling shear transmission shaft, nibbling shear drive shaft, nibbling shear part, nibbling shear fastening plate, infundibulate
Saddle and branch are segmented enclosing part under branch, and the branch segmentation enclosing part is set to the transmission of wing pinnule leaf and accepts on component, wing plumage
Branches and leaves transmission accepts component and play fixed supporting role to branch segmentation enclosing part, and the branch segmentation enclosing part is cylindrical, hollow
Cavity body structure setting, the branch segmentation enclosing part are equipped with clamping fastener and overturn tuning slot, the clamping fastener overturning
Tuning slot includes that clamping fastener overturning tuning slot one and clamping fastener overturn tuning slot two, the clamping fastener sliding groove
One, conveyer belt sliding groove one is connected with clamping fastener overturning tuning slot one, the clamping fastener sliding groove two, conveyer belt
Sliding groove two is connected with clamping fastener overturning tuning slot two, and saddle is set on air stream drives branches and leaves point under the infundibulate branch
From in support plate, saddle center is connected to branch clamping sliding channel under the infundibulate branch, the nibbling shear fastening plate
On saddle under infundibulate branch, the nibbling shear fastening plate includes cutting member support plate and actuator support plate, described
Cutting member support plate is arranged in cirque structure, and the cutting member support plate is set to the driving under infundibulate branch on saddle
Part support plate is set in cutting member support plate, and the nibbling shear driving driving shaft and nibbling shear transmission shaft are rotatably arranged drive
On members plate, the nibbling shear driving driving gear is set on nibbling shear driving driving shaft, and the nibbling shear is driven
Dynamic driving gear is equipped with sawtooth, and the nibbling shear transmission gear is set on nibbling shear transmission shaft, and the nibbling shear passes
Moving gear is equipped with sawtooth, and sawtooth is mutually nibbled with sawtooth on nibbling shear transmission gear on the nibbling shear driving driving gear
It closes, the nibbling shear drives driven internal gear is swingable to be set on nibbling shear fastening plate, and the nibbling shear driving is driven
Internal gear excircle is equipped with incomplete sawtooth, and the nibbling shear drives driven internal gear inner periphery to be equipped with sawtooth, described
Nibbling shear drives on driven internal gear excircle that sawtooth is meshed on sawtooth and nibbling shear transmission gear, the drive part by part
Motor placed cavity is set on branch segmentation enclosing part inner sidewall, and the drive part by part motor is set to drive part by part motor placed cavity
Interior, the nibbling shear driving driving shaft is connected with drive part by part motor output end, and the nibbling shear drive shaft is rotatable to be set
In in cutting member support plate, the cutting member driving gear is set in nibbling shear drive shaft, on the cutting member driving gear
Equipped with sawtooth, sawtooth and nibbling shear drive sawtooth on driven internal gear inner periphery to be meshed on the cutting member driving gear,
The nibbling shear drive shaft is uniformly provided with several groups along cutting member support plate circumferencial direction, and the nibbling shear part is set to segmentation
It shears in drive shaft, the nibbling shear part is equipped with blade, the nibbling shear part along cutting member support plate inner circle circumferential direction
It is corresponded with nibbling shear drive shaft and quantity is equal, be connected to form branch nibbling shear at the nibbling shear part upper knife edge
Downslide mouth, the branch nibbling shear downslide mouth diameter is equal with circular ring shape diameter at cutting member support plate center, drive part by part
Motor drives nibbling shear driving driving gear rotation, and nibbling shear drives driving gear to drive the rotation of nibbling shear transmission gear
Turn, nibbling shear transmission gear drives nibbling shear that driven internal gear is driven to swing, and nibbling shear drives driven internal gear
Cutting member driving gear rotation is driven, cutting member drives gear band to move the rotation of nibbling shear part, opposite between nibbling shear part
It moves and nibbling shear is carried out to the branch in branch nibbling shear downslide mouth.
Further, it includes wing plumage transmission driving motor, wing plumage transmission driving electricity that component is accepted in the wing pinnule leaf transmission
Machine placed cavity, wing plumage transmission driving driving shaft, wing plumage transmission driving driven shaft, conveyer belt fixing support rack, transmission driving motor
Support frame, conveyer belt surrounding baffle, wing plumage conveyer belt and the anti-fall lid of browse, the conveyer belt fixing support rack are set to screening and load
In mechanism, the wing plumage transmission driving driving shaft and wing plumage transmission driving driven shaft are rotatably arranged conveyer belt fixing support rack
On, described wing plumage conveyer belt one end is rotatably arranged on wing plumage transmission driving driving shaft, and the wing plumage conveyer belt other end can revolve
Turn to be set on wing plumage transmission driving driven shaft, the conveyer belt surrounding baffle is symmetrically set in wing plumage conveyor belt two sides, the browse
It is anti-fall to be covered on conveyer belt surrounding baffle, the anti-fall lid longitudinal section structure setting triangular in shape of browse, the anti-fall lid of browse
Intermediate altitude is greater than height on both sides, and the anti-fall lid of browse is for preventing positive overturning roller and reverse flip roller from separating
Guarantee that the browse that falls in can cover landing and get off from browse is anti-fall while browse is fallen on wing plumage conveyer belt, institute
It states transmission driving motor support frame to be set on loadascreen structure, the wing plumage transmission driving motor placed cavity is set to transmission driving
On motor support frame, the wing plumage transmission driving motor is set in wing plumage transmission driving motor placed cavity, and the wing plumage transmission is driven
Dynamic driving shaft sequentially passes through conveyer belt surrounding baffle and conveyer belt fixing support rack and is connected with wing plumage transmission driving motor output end.
Further, the loadascreen structure includes wing plumage loading box, browse loading box and browse grinding device,
The wing plumage loading box and browse loading box are set in moving body mechanism, and the wing plumage loading box discharges equipped with wing plumage
Door, the wing plumage discharge door are equipped with wing plumage discharging handle, and the browse loading box is equipped with browse discharge door, described tender
Branches and leaves discharge door is equipped with browse discharging handle, the lossless harvester of the air-flow dial type quick humidification selectivity positioning holding
Structure is set in wing plumage loading box, and the heat floating type air stream drives dehydration listlessization branches and leaves regioselective strips separating mechanism and is set to
In browse loading box, the wing pinnule leaf transmission is accepted component one end and is set in wing plumage loading box, the wing pinnule leaf transmission
It accepts the component other end to be set in browse loading box, the wing plumage loading box is equipped with wing plumage feed inlet, the wing plumage transmission
Band output end is set to above wing plumage feed inlet, and the browse loading box upper wall is equipped with browse downslide mouth, and the infundibulate is tender
Branches and leaves supporting is set on browse downslide mouth, and the browse grinding device is set in browse loading box, the browse
Grinding device includes crushing driving motor, crushing driving driving wheel, crush driving driven gear one, crush driving driven gear
Two, it crushes and drives driving shaft, crushing driving driven shaft one, crushing driving driven shaft two, crushing that transmission belt, browse is driven to crush
Transfer roller one, browse crush transfer roller two and crush enclosing protector, and the crushing enclosing protector is set in browse loading box
On side wall, the crushing driving driving shaft, which is rotatably arranged, to be crushed on enclosing protector, and the crushing driving driving wheel is set to powder
On broken driving driving shaft, the crushing driving driven shaft one and crushing driving driven shaft two are rotatably arranged and crush enclosing protector
On, crushing driving transmission belt one end is rotatably arranged on crushing driving driving wheel, and the crushing drives the transmission belt other end
It is rotatably arranged on crushing driving driven shaft one, the crushing driving driven gear one, which is set to, to be crushed on driving driven shaft one, institute
It states crushing driving driven gear one and is equipped with sawtooth, the crushing driving driven gear two, which is set to, to be crushed on driving driven shaft two,
The crushing driving driven gear two is equipped with sawtooth, sawtooth and crushing driving driven tooth on the crushing driving driven gear one
Sawtooth is meshed on wheel two, and the crushing driving motor, which is set to, to be crushed on enclosing protector, the crushing driving driving shaft and powder
Broken driving motor output end is connected, and the browse crushes transfer roller one and is set on crushing driving driven shaft one, the browse powder
Broken transfer roller two, which is set to, to be crushed on driving driven shaft two, and the browse crushes transfer roller one and browse crushing two surface of transfer roller is uniform
Equipped with pulverizing cutter blade, the browse crushes transfer roller one and browse crushes distance between transfer roller two and is less than spray leaf thickness, tender
Branches and leaves fall to browse from infundibulate browse supporting and crush between transfer roller one and browse crushing transfer roller two, browse powder
Broken transfer roller one and browse crush the reversed relative motion of transfer roller two by browse crush transfer roller one and browse crush transfer roller two it
Between browse crushed.
Further, the harvesting tuning component includes harvesting tuning bar, universal joint and harvesting push-and-pull drive rod, and described ten thousand
It is set on loadascreen structure to section, the harvesting tuning bar is set on universal joint, and harvesting tuning bar structure in T shape is set
It sets, the harvesting push-and-pull drive rod is hingedly set on loadascreen structure, and harvesting push-and-pull drive rod upper end is set to harvesting and adjusts
In the middle part of to bar;The moving body mechanism includes car body support plate, wheel, steering wheel and safety seat, and the wheel is set to vehicle
Below body support plate, the safety seat is set in car body support plate, and the steering wheel is set in car body support plate and is set to peace
In front of full seat, the steering wheel is equipped with lifting key, holds key, pretreatment key, harvesting key, separation key and shifting
Dynamic key, lifting key are electrically connected with harvesting push-and-pull drive rod, are held key and are electrically connected with driving motor is held, and key is pre-processed
Tuning air blower is stirred with air-flow, air-flow turns to driving motor, air pump and atomizing processor and is electrically connected, harvesting key and push-and-pull drive
Dynamic motor and shearing harvesting driving motor electrical connection, separation key and drying air blower, drying and warning heating member, roller overturning are driven
Dynamic air blower, clamping engaging transmission driving motor, drive part by part motor, wing plumage transmit driving motor and crush driving motor and be electrically connected
It connects, mobile key is electrically connected with wheel.
What the present invention obtained using the above structure has the beneficial effect that: heat transfer Ramulus euonymi air-flow of the present invention stirs selection
Property positions high, easy to operate, without manually harvesting, realizing Ramulus euonymi pick and process the machinery of lossless harvesting separating trolley practicability
Change, solve the problems, such as harvesting personnel recovery process easily by sawtooth on branches and leaves stab caused by it is ineffective, harvest personnel
The position that air-flow dial type quickly moistens the lossless harvesting mechanism of selective positioning holding can be adjusted by control harvesting tuning bar
It is adapted to it from the branch of different growth positions, is distributed wing plumage using diamond shape on branch under conditions of air-flow has same dynamic pressure
Branch wing plumage is carried out stirring tuning with the difference of the forced area of aptery plumage part branch, in the condition without any setting element
Lower realization adapts to circumferentially to grow, tuning is stirred in the distribution of irregular diamond shape, the selectivity positioning of the flaky plant of brittleness
Technical effect provides condition for selectivity positioning holding, solves in recovery process because holding improper gripping complete wing plumage position
Cause the technical problem of wing plumage breakage;Meanwhile by the perfect cooperation of low-temperature airflow, atomized spray microparticle aqueous to harvesting branch
Upper fin plumage and browse are sprayed, and the conductivity of heat technical know-how of heat transfer is innovatively applied to Ramulus euonymi harvesting technique
Field makes wing plumage and browse quick humidification using heat transfer, and dry wing plumage is made while increasing browse moisture content
It is wet, the breakage rate of dry wing plumage when harvesting is reduced, solves the technical problem of wing plumage breakage in transfer process after harvesting, from
Reverse thinking is set out makes wetting branches and leaves lose rapid dehydration listlessization of Free water in conjunction with drying technology principle, and passes through air stream drives spiral shell
Revolve reverse flip and benefit that roller is realized in contrary air stream drives transport screw channel and air stream drives reverse acting spiral channel
It realizes the browse of dehydration listlessization that from branch, strip is dragged with reverse flip power and strips the technical effect of separation, solve delimbing
Browse damages the technical problem of wing plumage simultaneously on item, completes the low percentage of damage of Ramulus euonymi wing plumage, the harvesting of low loss late and spray
The integration of leaf separation realizes the low damage of Ramulus euonymi wing plumage, the quick nondestructive pick and process mechanization of high-precision, zero fault rate
The recoverable of processing and resource greatly reduces cost of labor, and integral device practicability is high, easy to operate, picking is imitated
Rate is high, labor intensity is small, environmental protection and public nuisance free.
Detailed description of the invention
Fig. 1 is the whole knot that a kind of heat transfer Ramulus euonymi air-flow of the present invention stirs the lossless harvesting separating trolley of selectivity positioning
Structure schematic diagram;
Fig. 2 is the partial enlarged view of the part A of Fig. 1;
Fig. 3 is the structural schematic diagram of the lossless harvesting mechanism of air-flow dial type quick humidification selectivity positioning holding of the present invention;
Fig. 4 stirs the air-flow group of the lossless harvesting separating trolley of selectivity positioning for a kind of heat transfer Ramulus euonymi air-flow of the present invention
Dynamic formula fixation and recognition device for regulating direction, heat transfer wing plumage quick humidification selectivity positioning holding device and push-and-pull shearing recovering device
Structural schematic diagram;
Fig. 5 is that air-flow of the present invention turns to the structural schematic diagram for stirring driving assembly;
Fig. 6 is the structural schematic diagram that air-flow of the present invention gathers directed cavity locating part;
Fig. 7 is the structural schematic diagram that air-flow of the present invention gathers directed cavity;
Fig. 8 is the structural schematic diagram of heat transfer wing plumage quick humidification selectivity positioning holding device of the present invention;
Fig. 9 is the schematic diagram of internal structure of heat transfer wing plumage quick humidification selectivity positioning holding device of the present invention;
Figure 10 is the low temperature that a kind of heat transfer Ramulus euonymi air-flow of the present invention stirs the lossless harvesting separating trolley of selectivity positioning
Gas recirculation assembly perspective view;
Figure 11 is the structural schematic diagram of the flexible shearing driving assembly of the present invention and branch shearing harvesting component;
Figure 12 is the structural schematic diagram of the flexible shearing driving assembly of the present invention;
Figure 13, which is that browse flash baking dehydration of the present invention is listless, disguises the structural schematic diagram set;
Figure 14 is the structural schematic diagram that air stream drives roller of the present invention inverts listlessization branches and leaves catalysis separator;
Figure 15 is the structural schematic diagram of air stream drives roller component of the present invention;
Figure 16 is the cross-sectional view of L shape air stream drives transmission tube of the present invention and L shape air stream drives efferent duct;
Figure 17 is the cross-sectional view of air stream drives roller component of the present invention;
Figure 18 is the structural schematic diagram of catalysis branch two-way clamping transfer assembly of the present invention;
Figure 19 is the structural schematic diagram of branch nibbling shear component of the present invention;
Figure 20 is the schematic diagram of internal structure of branch nibbling shear component of the present invention;
Figure 21 is that component structure diagram is accepted in the transmission of wing pinnule leaf;
Figure 22 is the structure that heat floating type air stream drives dehydration listlessization branches and leaves regioselective of the present invention strips separating mechanism
Schematic diagram;
Figure 23 is the structural schematic diagram of browse grinding device of the present invention;
Figure 24 is the schematic diagram of internal structure of browse grinding device of the present invention;
Figure 25 is that heat floating type air stream drives dehydration listlessization branches and leaves regioselective of the present invention strips separating mechanism and screening
The structural schematic diagram of loader mechanism.
Wherein, 1, the lossless harvesting mechanism of air-flow dial type quick humidification selectivity positioning holding, 2, heat floating type air-flow
Driving dehydration listlessization branches and leaves regioselective strips separating mechanism, 3, loadascreen structure, 4, moving body mechanism, and 5, air-flow stirs
Formula fixation and recognition device for regulating direction, 6, heat transfer wing plumage quick humidification selectivity positioning holding device, 7, push-and-pull shearing harvesting dress
Set, 8, harvesting tuning component, 9, browse flash baking dehydration it is listless makeup set, 10, air stream drives roller reversion listlessization branches and leaves determine
Position Selective Separation device, 11, air-flow turn to shifting component, 12, air-flow stir tuning air blower, 13, harvesting drive rod, 14,
Harvest fixed support plate, 15, air-flow steering stir driving assembly, 16, air-flow steering stir support frame, 17, gas delivery tube,
18, air-flow turns to driving motor, 19, air-flow steering driving motor placed cavity, 20, air-flow steering driving shaft, 21, air-flow steering master
Dynamic driving gear, 22, air-flow steering driven drive gear, 23, air-flow steering driving fixed plate, 24, rotary dial piece fixed plate,
25, flow rotation sliding piece, 26, air-flow gather directed cavity, 27, air-flow gather directed cavity locating part, 28, air-flow gather directed cavity
Engaging slot, 29, gear embeded slot, 30, air-flow input port, 31, annular protrusion, 32, airflow delivery outlet, 33, air-flow steering stir
Driving assembly one, 34, air-flow, which turn to, stirs driving assembly two, 35, cryogenic gas recirculation assembly, 36, atomizing spray wetted components,
37, heat transfer selectivity positioning holding device, 38, gripping driving assembly, 39, selective positioning holding component, 40, gripping drive
Dynamic motor, 41, hold driving motor placed cavity, 42, hold driving driving shaft, 43, hold and drive eccentric turntable, 44, hold and drive
Lever, 45, clamping driving spur rack, 46, clamping piece driving driven gear, 47, clamping piece driving driven shaft, 48, gripping driving
Enclosing protection body, 49 push-and-pull driving plates slide limiting slot, 50, spur rack sliding groove, 51, clamping piece driving driven shaft one, 52, folder
Gripping member drives driven shaft two, and 53 clamping pieces drive driven gear one, 54, clamping piece driving driven gear two, 55, clamping piece driving
Bar, 56, clamping piece catch bar, 57, clamping driving gag lever post, 58, grip part, 59, heat transfer clamping piece, 60, gas
Jet port, 61, cryogenic gas air inlet, 62, atomized spray part fixed frame, 63, water tank, 64, atomizing processor, 65, atomization spray
Drench dispatch tube, 66, position of splitter, 67, atomization shunting dispatch tube, 68, atomized spray part, 69, cryogenic gas circulating box, 70, low temperature
Frozen gas isocon, 71, air pump, 72, gas inlet pipe, 73, gas cooling delivery pipe, 74, refrigerator, 75, the interior refrigeration of case
Plate, 76, cooling pipe in case, 77, cryogenic gas efferent duct, 78 refrigerator fixed plates, 79, cryogenic gas delivery outlet, 80, push-and-pull cuts
Cut driving assembly, 81, flexible shearing driving assembly, 82, branch shearing harvesting component, 83, push-and-pull driving fixed plate, 84, push-and-pull
Driving motor, 85, push-and-pull driving motor placed cavity, 86, push-and-pull driving driving shaft, 87, active drive straight-tooth gear member, 88, promotion
Drive incomplete spur rack, 89, pull and drive incomplete spur rack, 90, push-and-pull driving support plate, 91, spur rack push-and-pull sliding
Slot, 92, push-and-pull driving plate, 93, the fixed support chamber of shearing harvesting, 94, shearing harvesting driving motor, 95, shearing driving driving shaft,
96, shearing driving driven shaft, 97, shearing active drive gear, 98, shearing driven drive gear, 99, fan-shaped driving gear,
100, shearing driving spur rack, 101, straight-tooth bar slide locating part, 102, shearing driven drive gear one, 103, shearing it is driven
Drive gear two, 104, spur rack limit sliding groove, 105, fan-shaped driving gear one, 106, fan-shaped driving gear two, 107, cut
Cut promotion driving plate, 108, cutting member fixed guide plate, 109, push-pull rod articulated shaft, 110, cutting member push-pull rod, 111 shearings adopt
Addressee, 112, shearing harvesting part one, 113, shearing harvesting part two, 114, cutting member push-pull rod one, 115, cutting member push-pull rod two,
116, diamond shape branch carrying downslide component, 117, diamond shape branch heating listlessization component, 118, drying and warning heating enclosing body, 119,
Heating member fixed plate, 120, drying and warning heating member, 121, drying air blower, 122, drying air-flow flow cavity, 123, drying box
Inner cavity, 124, drying air-flow blast orifice, 125, heating member fixing groove, 126, clamping fastener sliding groove, 127, clamping fastener
Sliding groove one, 128, clamping fastener sliding groove two, 129, the lower slip pipe of branch undertaking, 130, infundibulate branch supporting, 131,
Slip pipe under diamond shape branch precise positioning, 132, diamond shape branch accurate positioning sliding channel, 133, catalysis branch two-way grip
Hold transfer assembly, 134, air stream drives roller browse strip separation assembly, 135, branch nibbling shear component, 136, wing pinnule
Component, 137, branches and leaves regioselective separation enclosing part, 138 infundibulate browse supportings, 139, clamping engaging are accepted in leaf transmission
Part sliding through hole, 140, clamping fastener sliding through hole one, 141, clamping fastener sliding through hole two, 142, roller overturning driving
Air blower, 143, roller overturning driving air supply tube, 144, air stream drives branches and leaves separate support plate, 145, branches and leaves strip separation assembly
Support rod, 146, air stream drives roller component, 147, roller overturning air stream transportation chamber, 148, branch clamping sliding channel, 149,
Browse sliding cavity, 150, air stream drives air inlet pipe, 151, air stream drives escape pipe, 152, L shape air stream drives transmission tube, 153,
L shape air stream drives efferent duct, 154, air stream drives branches and leaves separation overturning roller, 155, positive overturning roller, 156, reverse flip
Roller, 157, air-flow rotate in the forward direction chamber, 158, air stream drives transport screw channel, 159, air-flow reversely rotate chamber, 160, air-flow
Driving reverse acting spiral channel, 161, conveyer belt sliding groove, 162, conveyer belt sliding groove one, 163, conveyer belt sliding groove two, 164,
Clamping engaging transmission driving motor, 165, clamping engaging transmission driving motor placed cavity, 166, driving conveyer belt, 167, actively drive
Dynamic driven rod, 168, driven driving driven rod, 169, clamping piece conveyer belt, 170, clamping fastener, 171, clamping snubber elastomeric
Part, 172, catalysis branch two-way clamping transfer assembly one, 173, catalysis branch two-way clamping transfer assembly two,
174, clamping piece drive rod one, 175, clamping piece drive rod two, 176, clamping piece catch bar one, 177, clamping piece catch bar two,
178, clamping driving gag lever post one, 179, clamping driving gag lever post two, 180, grip part one, 181, grip part two,
182, heat transfer clamping piece one, 183, heat transfer clamping piece two, 184, drive part by part motor, 185, drive part by part motor puts
Set chamber, 186, nibbling shear driving driving gear, 187, nibbling shear transmission gear, 188, the driven internal tooth of nibbling shear driving
Wheel, 189, cutting member driving gear, 190, nibbling shear driving driving shaft, 191, nibbling shear transmission shaft, 192, nibbling shear
Drive shaft, 193, nibbling shear part, 194, nibbling shear fastening plate, 195, saddle under infundibulate branch, 196, branch segmentation encloses
Block piece, 197, clamping fastener overturning tuning slot, 198, clamping fastener overturning tuning slot one, 199, clamping fastener overturning tune
To slot two, 200, cutting member support plate, 201, actuator support plate, 202, branch nibbling shear downslide mouth, 203, the transmission of wing plumage
Driving motor, 204, wing plumage transmit driving motor placed cavity, 205, wing plumage transmission driving driving shaft, 206, wing plumage transmission driving from
Moving axis, 207, conveyer belt fixing support rack, 208, transmission driving motor support frame, 209, conveyer belt surrounding baffle, 210, wing plumage biography
Send band, 211, the anti-fall lid of browse, 212, wing plumage loading box, 213, browse loading box, 214, browse grinding device, 215,
Wing plumage feed inlet, 216, browse downslide mouth, 217, crushing driving motor, 218, crushing driving driving wheel, 219, crushing driving
Driven gear one, 220, crush driving driven gear two, 221, crush driving driving shaft, 222, crush driving driven shaft one,
223, crushing drives driven shaft two, 224, crushing driving transmission belt, 225, browse crushing transfer roller one, 226, browse crushing turn
Roller two, 227 crushes enclosing protector, 228, harvesting tuning bar, 229, universal joint, 230 harvesting push-and-pull drive rods, 231, car body
Support plate, 232, wheel, 233, steering wheel, 234, safety seat, 235, lifting key, 236, gripping key, 237, pretreatment
Key, 238, harvesting key, 239, separation key, 240, mobile key, 241, wing plumage discharge door, 242, wing plumage discharging handle,
243, browse discharge door, 244, browse discharging handle.
Specific embodiment
Below with reference to specific implementation, the technical solution of the patent is explained in further detail, technology of the present invention
The part that feature or connection relationship are not described in detail is the prior art of use.
Below in conjunction with attached drawing, the present invention is described in further details.
As shown in Fig. 1-2 5, a kind of heat transfer Ramulus euonymi air-flow of the present invention stirs selectivity and positions lossless harvesting separation
Vehicle, including the lossless harvesting mechanism 1 of air-flow dial type quick humidification selectivity positioning holding, heat floating type air stream drives dehydration are listless
Change branches and leaves regioselective and strip separating mechanism 2, loadascreen structure 3 and moving body mechanism 4, the loadascreen structure 3 is set
In in moving body mechanism 4, the lossless harvesting mechanism 1 of the air-flow dial type quick humidification selectivity positioning holding and heat float
Formula air stream drives dehydration listlessization branches and leaves regioselective strips separating mechanism 2 on loadascreen structure 3, the heat floating type
Air stream drives dehydration listlessization branches and leaves regioselective strips separating mechanism 2 set on air-flow dial type quick humidification selectivity positioning holding
Lossless 1 lower section of harvesting mechanism;The lossless harvesting mechanism 1 of air-flow dial type quick humidification selectivity positioning holding is dialled including air-flow
Dynamic formula fixation and recognition device for regulating direction 5, heat transfer wing plumage quick humidification selectivity positioning holding device 6, push-and-pull shearing harvesting dress
7 and harvesting tuning component 8 are set, the harvesting tuning component 8 is set on loadascreen structure 3, and the air-flow dial type positioning is known
Other device for regulating direction 5 is set on harvesting tuning component 8, and the heat transfer wing plumage quick humidification selectivity positioning holding device 6 is set
In on air-flow dial type fixation and recognition device for regulating direction 5, the push-and-pull shearing recovering device 7 is set to air-flow dial type fixation and recognition tune
To on device 5, the heat transfer wing plumage quick humidification selectivity positioning holding device 6 is set to air-flow dial type fixation and recognition tune
To between device 5 and push-and-pull shearing recovering device 7;The heat floating type air stream drives dehydration listlessization branches and leaves regioselective strips
Separating mechanism 2 includes that 9 and air-flow driving roller reversion listlessization branches and leaves catalysis are set in the listless makeup of browse flash baking dehydration
Separator 10, the air stream drives roller reversion listlessization branches and leaves catalysis separator 10 are set to loadascreen structure 3
On, the listless makeup of browse flash baking dehydration sets 9 and is set to the reversion listlessization branches and leaves catalysis separation of air stream drives roller
On device 10;The air-flow dial type fixation and recognition device for regulating direction 5 includes that air-flow turns to shifting component 11, air-flow stirs tuning drum
Blower 12, harvesting drive rod 13 and harvesting fixed support plate 14, the harvesting drive rod 13 are set on harvesting tuning component 8, institute
It states harvesting fixed support plate 14 to be set on harvesting drive rod 13, the air-flow turns to shifting component 11 and is set to harvesting fixed support plate
On 14, the air-flow is stirred tuning air blower 12 and is set on harvesting fixed support plate 14, and the air-flow turns to shifting component 11 and wraps
Include that driving assembly 15 is stirred in air-flow steering, support frame 16 and gas delivery tube 17 are stirred in air-flow steering, the air-flow steering is stirred
Support frame 16 is set on harvesting fixed support plate 14, and the air-flow steering stirs support frame 16 as inverted l-shaped structure setting, the gas
Stream steering is stirred driving assembly 15 and is stirred on support frame 16 set on air-flow steering, and described 17 one end of gas delivery tube is dialled set on air-flow
On dynamic tuning air blower 12,17 other end of gas delivery tube is set to air-flow steering and stirs on driving assembly 15;The air-flow
It includes that air-flow turns to driving motor 18, air-flow turns to driving motor placed cavity 19, air-flow is turned to and driven that driving assembly 15 is stirred in steering
Moving axis 20, air-flow turn to active drive gear 21, air-flow turns to driven drive gear 22, air-flow turns to driving fixed plate 23, rotation
Transfer movable plate fixed plate 24, flow rotation sliding piece 25, air-flow gathers directed cavity 26 and air-flow gathers directed cavity locating part 27, institute
It states air-flow steering driving fixed plate 23 to stir on support frame 16 set on air-flow steering, the air-flow steering driving shaft 20 is rotatable to be set
It is turned in driving fixed plate 23 in air-flow, the air-flow turns to active drive gear 21 and is set on air-flow steering driving shaft 20, institute
It states air-flow and turns to driving motor placed cavity 19 set on 23 lower section of air-flow steering driving fixed plate, the air-flow turns to driving motor 18
It is turned in driving motor placed cavity 19 set on air-flow, the air-flow steering driving shaft 20 turns to 18 output end of driving motor with air-flow
It is connected, the air-flow is gathered directed cavity locating part 27 and turned in driving fixed plate 23 set on air-flow, and the air-flow gathers directed cavity
Locating part 27 includes that air-flow gathers directed cavity engaging slot 28 and gear embeded slot 29, and the gear embeded slot 29 is gathered set on air-flow
The gentle stream of directed cavity engaging slot 28 turns between driving fixed plate 23, and 29 diameter of gear embeded slot is less than air-flow and gathers guiding
28 diameter of chamber engaging slot, the air-flow turn to driving 23 overdraught of fixed plate and gather at 27 center of directed cavity locating part equipped with air-flow
Input port 30,17 other end of gas delivery tube are set on air-flow input port 30, and it is rotatable that the air-flow gathers directed cavity 26
Engaging is set to air-flow and gathers on directed cavity locating part 27, and the air-flow is gathered in the cylinder that directed cavity 26 is upper and lower ends opening
Cavity body structure setting, the air-flow gather 26 lower inner side wall of directed cavity equipped with annular protrusion 31, the air-flow turn to from
Dynamic driving gear 22 is set to air-flow and gathers at 26 annular protrusion 31 of directed cavity on lateral wall, and the rotary dial piece fixed plate 24 is set
Gather 26 upper end of directed cavity in air-flow, the rotary dial piece fixed plate 24 is circular configuration setting, and the air-flow gathers guiding
Chamber 26 is along the circumferential direction equipped with airflow delivery outlet 32, and the flow rotation sliding piece 25 is uniformly set to air-flow and gathers outside directed cavity 26
On circumferential side wall, the flow rotation sliding piece 25 and airflow delivery outlet 32 correspond interval setting and airflow delivery outlet 32 is high
Degree is equal to 25 height of flow rotation sliding piece, and the air-flow steering stirs driving assembly 15 and is symmetrically arranged with two groups, and two groups are respectively
Air-flow steering stirs the steering of the gentle stream of driving assembly 1 and stirs driving assembly 2 34;The heat transfer wing plumage quick humidification choosing
Selecting property positioning holding device 6 includes that cryogenic gas recirculation assembly 35, atomizing spray wetted components 36 and heat transfer are selectively fixed
Position grip device 37, the heat transfer selectivity positioning holding device 37, which is set to, to be held on harvesting fixed support plate 14, described
35 one end of cryogenic gas recirculation assembly is set on loadascreen structure 3, and 35 other end of cryogenic gas recirculation assembly is set to heat
Amount is transmitted on selective positioning holding device 37, and described 36 one end of atomizing spray wetted components is set on loadascreen structure 3, institute
36 other end of atomizing spray wetted components is stated on heat transfer selectivity positioning holding device 37;The heat transfer selection
Property positioning holding device 37 include holding driving assembly 38 and selective positioning holding component 39, the packet of grippings driving assembly 38
Gripping driving motor 40 is included, driving motor placed cavity 41 is held, holds driving driving shaft 42, hold the eccentric turntable 43 of driving, hold
It holds drive rod 44, clamping driving spur rack 45, clamping piece driving driven gear 46, clamping piece driving driven shaft 47 and holds driving
Enclosing protection body 48, the gripping driving enclosing protection body 48, which is set to, to be held on harvesting fixed support plate 14, the gripping harvesting
14 lower wall of fixed support plate is equipped with push-and-pull driving plate and slides limiting slot 49, and the push-and-pull driving plate sliding limiting slot 49 is T word
Shape structure setting, the gripping driving driving shaft 42 are rotatably arranged on gripping driving enclosing protection body 48, the gripping driving
Eccentric turntable 43, which is set to, to be held on driving driving shaft 42, and 44 Eccentric-hinge of gripping drive rod is arranged in gripping and drives eccentric turntable
On 43, the clamping driving spur rack 45, which is hingedly set to, to be held on drive rod 44, is set in the gripping driving enclosing protection body 48
There is spur rack sliding groove 50, the clamping driving spur rack 45 is slidably set in spur rack sliding groove 50, and the clamping piece drives
Dynamic driven shaft 47 is rotatably arranged on gripping driving enclosing protection body 48, and the clamping piece driving driven gear 46 is set to clamping piece
It drives on driven shaft 47, the clamping piece driving driven shaft 47 includes that clamping piece driving driven shaft 1 and clamping piece driving are driven
Axis 2 52, the clamping piece driving driven gear 46 include that clamping piece driving driven gear 1 and clamping piece drive driven gear
2 54, the clamping piece driving driven gear 1 and clamping piece driving driven gear 2 54 are symmetrically set in clamping driving spur rack
45 two sides, the gripping driving motor placed cavity 41, which is set to, to be held on driving 48 lateral wall of enclosing protection body, the gripping driving
Motor 40, which is set to, to be held in driving motor placed cavity 41, and the gripping driving driving shaft 42 is through gripping driving enclosing protection body 48
Bottom wall is connected with 40 output end of driving motor is held, and the selectivity positioning holding component 39 includes clamping piece drive rod 55, folder
Gripping member catch bar 56, grips part 58 and heat transfer clamping piece 59, the clamping piece drive rod at clamping driving gag lever post 57
55 are set on clamping piece driving driven shaft 47 and are set on gripping driving 48 lateral wall of enclosing protection body, the clamping piece catch bar
56 are hingedly set on clamping piece drive rod 55, and the clamping driving 57 one end of gag lever post is hingedly set to gripping driving enclosing protection body
On 48 lateral walls, clamping driving 57 other end of gag lever post is hingedly set to 56 middle part of clamping piece catch bar, described to grip
Part 58 is hingedly set on clamping driving gag lever post 57, and the heat transfer clamping piece 59 is set to and grips on part 58, the heat
Amount transmitting clamping piece 59 is the setting of hollow triangular prism structure, and the heat transfer clamping piece 59 is provided with ice cube, and the heat passes
Clamping piece 59 is passed with respect to incline in concave arc structure setting, the side of the 59 concave arc structure setting of heat transfer clamping piece
Rib is equipped with cryogenic gas jet port 60, and 60 opposing sidewalls of cryogenic gas jet port are equipped on the heat transfer clamping piece 59
Cryogenic gas air inlet 61,59 side wall of heat transfer clamping piece are equipped with atomized spray part fixed frame 62, the atomization spray
Drenching wetted components 36 includes water tank 63, atomizing processor 64, atomizing spray dispatch tube 65, position of splitter 66, atomization shunting dispatch tube
67 and atomized spray part 68, the water tank 63 is set on loadascreen structure 3, and the atomizing processor 64 is set on water tank 63,
The atomizing spray dispatch tube 65 is set on atomizing processor 64, and the position of splitter 66 is set on atomizing spray dispatch tube 65, institute
It states atomization and shunts 67 one end of dispatch tube in position of splitter 66, the engaging of atomized spray part 68 is set to atomized spray part fixed frame
On 62, the atomization shunts 67 other end of dispatch tube and is set on atomized spray part 68;The cryogenic gas recirculation assembly 35 includes
Cryogenic gas circulating box 69, cryogenic freezing drop-leg 70, air pump 71, gas inlet pipe 72, gas cooling delivery pipe 73, system
Cold plate 75 in cooler 74, case, cooling pipe 76, cryogenic gas efferent duct 77 and refrigerator fixed plate 78 in case, the low temperature gas
Body circulation case 69 is set on loadascreen structure 3, and the refrigerator fixed plate 78 is set on 69 bottom wall of cryogenic gas circulating box, institute
Refrigerator 74 is stated in refrigerator fixed plate 78, cold plate 75 is set on 69 side wall of cryogenic gas circulating box in the case, institute
Stating cooling pipe 76 in case, uniformly arrangement is set in case on cold plate 75, and 76 one end of cooling pipe is recycled through cryogenic gas in the case
69 side wall of case is connected to outside air, and 76 other end of cooling pipe is set on refrigerator 74 in the case, the cryogenic gas output
Pipe 77 is set on refrigerator 74, and the cryogenic gas efferent duct 77 is equipped with cryogenic gas delivery outlet 79, and the cryogenic gas is defeated
Outlet 79 be set to cryogenic gas circulating box 69 in, the air pump 71 be set to 69 side wall of cryogenic gas circulating box on, the gas into
Tracheae 72 is set on air pump 71 and is connected to outside air, and the gas cooling delivery pipe 73 is set on air pump 71, the gas
The delivery pipe 73 that cools down is set in cryogenic gas circulating box 69, and the cryogenic freezing drop-leg 70 runs through cryogenic gas circulating box
69 side walls are set in gas cooling delivery pipe 73, and the cryogenic freezing drop-leg 70 is set to low around harvesting tuning component 8
On warm gas inlet 61.
The push-and-pull shearing recovering device 7 includes push-and-pull shearing driving assembly 80, flexible shearing driving assembly 81 and branch
Shearing harvesting component 82, the push-and-pull shearing driving assembly 80, which is set to, to be held on harvesting fixed support plate 14, the flexible shearing
Driving assembly 81 is set on push-and-pull shearing driving assembly 80, and the branch shearing harvesting component 82 is set to flexible shearing driving assembly
On 81, the push-and-pull shearing driving assembly 80 includes that push-and-pull drives fixed plate 83, push-and-pull driving motor 84, push-and-pull driving motor to put
Chamber 85 is set, push-and-pull driving driving shaft 86, active drive straight-tooth gear member 87, the incomplete spur rack 88 of driving is pushed, pulls driving not
Complete spur rack 89 and push-and-pull driving support plate 90, the push-and-pull driving 83 upper end of fixed plate, which is set to, holds harvesting fixed support plate
On 14, the push-and-pull driving support plate 90 is set to push-and-pull driving 83 lower end of fixed plate, and the push-and-pull drives 90 two sides pair of support plate
Claim to be equipped with spur rack push-and-pull sliding groove 91, the push-and-pull driving driving shaft 86 is rotatably arranged in push-and-pull driving support plate 90, institute
It states active drive straight-tooth gear member 87 to be set on push-and-pull driving driving shaft 86, the promotion drives incomplete spur rack 88 slidably to set
In in spur rack push-and-pull sliding groove 91, the pulling drives incomplete spur rack 89 to be slidably set to the push-and-pull of other side spur rack and slides
In dynamic slot 91, the promotion, which drives incomplete spur rack 88 and pulls, drives incomplete spur rack 89 to be symmetrical arranged, the push-and-pull
Driving motor placed cavity 85 is set to 90 lower section of push-and-pull driving support plate, and the push-and-pull driving motor 84 is set to push-and-pull driving motor and puts
It sets in chamber 85, the push-and-pull driving driving shaft 86 is connected through push-and-pull driving support plate 90 with push-and-pull 84 output end of driving motor;
The flexible shearing driving assembly 81 includes push-and-pull driving plate 92, the fixed support chamber 93 of shearing harvesting, shearing harvesting driving motor
94, shearing driving driving shaft 95, shearing driving driven shaft 96, shearing active drive gear 97, shearing driven drive gear 98, fan
Shape drives gear 99, shearing driving spur rack 100 and straight-tooth bar to slide locating part 101, and the push-and-pull driving plate 92 is set to and pushes away
The dynamic incomplete spur rack 88 of driving drives on incomplete spur rack 89 with pulling, and 92 upper end of push-and-pull driving plate is T-shaped knot
Structure setting, 92 upper end of push-and-pull driving plate and push-and-pull driving plate sliding limiting slot 49 engage, 92 upper end of push-and-pull driving plate
It is slidably set in push-and-pull driving plate sliding limiting slot 49, the fixed support chamber 93 of shearing harvesting is set under push-and-pull driving plate 92
End, the shearing driving driving shaft 95 are rotatably arranged on fixed support 93 upper wall of chamber of shearing harvesting, the shearing active drive
Gear 97 is set on shearing driving driving shaft 95, and the shearing driving driven shaft 96 is rotatably arranged the fixed support chamber of shearing harvesting
On 93 upper walls, the shearing driven drive gear 98 is set on shearing driving driven shaft 96, the shearing driven drive gear 98
Including shearing driven drive gear 1 and shearing driven drive gear 2 103, one 102 He of shearing driven drive gear
Shearing driven drive gear 2 103 is symmetrically set in shearing 97 two sides of active drive gear, and the straight-tooth bar slides locating part 101
It is harvested on fixed support chamber 93 set on shearing, the straight-tooth bar sliding locating part 101 is equipped with spur rack and limits sliding groove
104, the shearing driving spur rack 100 is slidably set in spur rack limit sliding groove 104, and the shearing drives spur rack
100 are equipped with the incomplete sawtooth in part, and the fan-shaped driving gear 99 is set on shearing driving driven shaft 96, the fan-shaped driving
Gear 99, which is set to, shears 98 top of driven drive gear, the fan-shaped driving fan-shaped structure setting of gear 99, the fan-shaped drive
Moving gear 99 includes that sector drives gear 1 and fan-shaped driving gear 2 106, and the sector drives gear 1 and sector
Driving gear 2 106 is symmetrically set in shearing driving 100 two sides of spur rack, and the shearing harvesting driving motor 94 is set to shearing harvesting
In fixed support chamber 93, the shearing driving driving shaft 95 is connected with shearing harvesting 94 output end of driving motor;The branch is cut
Cutting harvesting component 82 includes that shearing pushes driving plate 107, cutting member fixed guide plate 108, push-pull rod articulated shaft 109, cutting member
Push-pull rod 110 and shearing harvesting part 111, the cutting member fixed guide plate 108 are set to fixed 93 outside of support chamber of shearing harvesting
On wall, the shearing pushes driving plate 107 to be set on shearing driving spur rack 100, and the shearing pushes driving plate 107 slidably
Through being set in cutting member fixed guide plate 108, the shearing harvesting part 111 is hingedly set on cutting member fixed guide plate 108,
The shearing harvesting part 111 is equipped with blade, and the shearing harvesting part 111 includes shearing harvesting part 1 and shearing harvesting part
2 113, the shearing harvesting part 1 and shearing harvesting part 2 113 are symmetrically set on cutting member fixed guide plate 108, described
Push-pull rod articulated shaft 109 is set to shearing and pushes in driving plate 107, and described 110 one end of cutting member push-pull rod is hingedly set to push-pull rod
On articulated shaft 109,110 other end of cutting member push-pull rod is hingedly set to 111 middle part of shearing harvesting part, the cutting member push-and-pull
Bar 110 includes cutting member push-pull rod 1 and cutting member push-pull rod 2 115, and the cutting member push-pull rod 1, which is hingedly set to, to be cut
It cuts on harvesting part 1, the cutting member push-pull rod 2 115 is hingedly set on shearing harvesting part 2 113.
It includes diamond shape branch carrying downslide component 116 and diamond shape branch that the listless makeup of browse flash baking dehydration, which sets 9,
Listlessization component 117 is heated, the diamond shape branch heating listlessization component 117 is set to the reversion listlessization branches and leaves positioning choosing of air stream drives roller
On selecting property separator 10, the diamond shape branch carrying downslide component 116 is set on diamond shape branch heating listlessization component 117, institute
Diamond shape branch heating listlessization component 117 is stated to add including drying and warning heating enclosing body 118, heating member fixed plate 119, drying and warning
Warmware 120 and drying air blower 121, the drying and warning heating enclosing body 118 are set to air stream drives roller and invert listlessization branches and leaves
On catalysis separator 10, the drying and warning heating enclosing body 118 is in cylindrical hollow cavity knot closed at both ends
Structure setting, the heating member fixed plate 119 are set between drying and warning heating 118 upper wall of enclosing body and bottom wall, the heating member
119 cross section of fixed plate is arranged in cirque structure, and 119 diameter of heating member fixed plate is less than drying and warning and heats enclosing body
118 diameters are equipped with drying air-flow flow cavity 122 between the heating member fixed plate 119 and drying and warning heating enclosing body 118,
Drying box cavity 123 is equipped in the heating member fixed plate 119, the drying air blower 121 is set to drying air-flow flow cavity 122
On upper wall, the drying air blower 121 and drying 122 junction of air-flow flow cavity are equipped with drying air-flow blast orifice 124, described to add
Heating member fixing groove 125 is uniformly provided in warmware fixed plate 119, the drying and warning heating member 120 is set to heating member fixing groove
In 125, clamping fastener sliding groove 126, the clamping fastener sliding groove are symmetrically arranged in the heating member fixed plate 119
126 include clamping fastener sliding groove 1 and clamping fastener sliding groove 2 128, and the clamping fastener sliding groove 126 is high
Degree is equal with 119 height of heating member fixed plate;Diamond shape branch carrying downslide component 116 include branch accept lower slip pipe 129,
Slip pipe 131 under infundibulate branch supporting 130 and diamond shape branch precise positioning, the branch accept lower slip pipe 129 and are set to drying
On heating heating 118 upper wall of enclosing body, the branch is accepted lower slip pipe 129 and is arranged in the circular cylindrical cavity structure of both ends open,
The infundibulate branch supporting 130 is set to branch and accepts on lower slip pipe 129, and the infundibulate branch supporting 130 is in transversal
Face is that the funnel-shaped structure of diamond shaped is arranged, and slip pipe 131 is set to infundibulate branch supporting under the diamond shape branch precise positioning
130 lower ends, slip pipe 131 is in inverted round stage structure setting under the diamond shape branch precise positioning, under the diamond shape branch precise positioning
It is equipped with diamond shape branch in slip pipe 131 and is accurately positioned sliding channel 132, the diamond shape branch is accurately positioned 132 upper end of sliding channel
Diameter is greater than lower end diameter, and the diamond shape branch is accurately positioned 132 lower end diameter of sliding channel and is greater than Ramulus euonymi branch diameter.
The air stream drives roller reversion listlessization branches and leaves catalysis separator 10 includes that catalysis branch is double
Separation assembly 134, branch nibbling shear component 135, wing plumage are stripped to clamping transfer assembly 133, air stream drives roller browse
Component 136, branches and leaves regioselective separation enclosing part 137 and infundibulate browse supporting 138, the funnel are accepted in branches and leaves transmission
Shape browse supporting 138 is set on loadascreen structure 3, and the branches and leaves regioselective separation enclosing part 137 is set to infundibulate
On browse supporting 138, the wing pinnule leaf transmission accepts component 136 and is set on infundibulate browse supporting 138 and passes through
Wear branches and leaves regioselective separation 137 two opposite side walls of enclosing part, the catalysis branch two-way clamping transfer assembly 133,
Air stream drives roller browse strips separation assembly 134 and branch nibbling shear component 135 is set to the separation of branches and leaves regioselective and encloses
In block piece 137, the branch nibbling shear component 135 is set to the transmission of wing pinnule leaf and accepts on component 136, the air stream drives roller
Cylinder browse strips separation assembly 134 on branch nibbling shear component 135, and the catalysis branch two-way clamping passes
Sending component 133, which is set on branches and leaves regioselective separation 137 side wall of enclosing part and is set to air stream drives roller browse, strips separation
Between component 134;The branches and leaves regioselective separation enclosing part 137 is the hollow cavity structure setting of upper end closed, the branch
Leaf regioselective separation 137 diameter of enclosing part is equal with drying and warning heating 118 diameter of enclosing body, and the drying and warning heating is enclosed
Block body 118 is set on branches and leaves regioselective separation enclosing part 137, right on branches and leaves regioselective separation 137 upper wall of enclosing part
Claim to be equipped with clamping fastener sliding through hole 139, the clamping fastener sliding through hole 139 and clamping fastener sliding groove 126 connect
Logical, the clamping fastener sliding through hole 139 includes clamping fastener sliding through hole 1 and clamping fastener sliding through hole two
141, it includes roller overturning blower 142, roller overturning drive that the air stream drives roller browse, which strips separation assembly 134,
Dynamic air supply tube 143, air stream drives branches and leaves separation support plate 144, branches and leaves strip separation assembly support rod 145 and air-flow driving roller
Component 146, the branches and leaves strip separation assembly support rod 145 and separate 137 two lateral walls of enclosing part set on branches and leaves regioselective
On, the air stream drives branches and leaves separation support plate 144 is set to branches and leaves and strips on separation assembly support rod 145, the air stream drives
Branches and leaves separate support plate 144 as cirque structure setting, are equipped with roller in the air stream drives branches and leaves separation support plate 144 and overturn
Air stream transportation chamber 147, the roller overturning blower 142 are set on loadascreen structure 3, and the roller overturning driving is sent
143 one end of air hose is set in roller overturning blower 142, and roller overturning driving 143 other end of air supply tube runs through gas
Stream driving branches and leaves separation support plate 144 is set in roller overturning air stream transportation chamber 147, and the air stream drives roller component 146 is set
In in air stream drives branches and leaves separation support plate 144, the air stream drives roller component 146 separates support plate along air stream drives branches and leaves
144 circumferencial directions are equipped with several groups, are symmetrically arranged with conveyer belt sliding groove 161 between the air stream drives roller component 146, described
Conveyer belt sliding groove 161 is connected to clamping fastener sliding through hole 139, and the conveyer belt sliding groove 161 is slided including conveyer belt
Slot 1 and conveyer belt sliding groove 2 163,161 inner circle circumferential direction of the air stream drives roller component 146 and conveyer belt sliding groove
Equipped with branch clamp sliding channel 148, the air stream drives roller component 146 and branches and leaves regioselective separation enclosing part 137 it
Between be equipped with browse sliding cavity 149, the air stream drives roller component 146 includes that air stream drives air inlet pipe 150, air stream drives go out
Tracheae 151, L shape air stream drives transmission tube 152, L shape air stream drives efferent duct 153 and air stream drives branches and leaves separation overturning roller
154, the air stream drives air inlet pipe 150 and 151 uniform intervals of air stream drives escape pipe are set to the separation support of air stream drives branches and leaves
On plate 144,150 lower end of air stream drives air inlet pipe overturns air-flow through air stream drives branches and leaves separation support plate 144 and roller
Transmission cavity 147 is connected to, and is uniformly provided with several certain driving air-flow delivery outlets 32, the L shape air-flow on the air stream drives escape pipe 151
Driving transmission tube 152 is set in air stream drives air inlet pipe 150 and is connected to air stream drives air inlet pipe 150, the air stream drives into
Tracheae 150 is equipped with several groups L shape air stream drives transmission tube 152, and the L shape air stream drives efferent duct 153 is set to air stream drives
It is connected on escape pipe 151 and with air stream drives escape pipe 151, the air stream drives escape pipe 151 is equipped with several groups L shape air-flow
Efferent duct 153 is driven, the L shape air stream drives transmission tube 152 and L shape air stream drives efferent duct 153 are symmetrical arranged, the air-flow
Driving branches and leaves separation overturning 154 one end of roller is rotatably arranged on L shape air stream drives transmission tube 152, the air stream drives branches and leaves
Separation overturning 154 other end of roller is rotatably arranged on L shape air stream drives efferent duct 153, and the air stream drives branches and leaves separation is turned over
Transfer roller cylinder 154 includes positive overturning roller 155 and reverse flip roller 156, and the forward direction overturns roller 155 and reverse flip roller
Cylinder 156 is arranged in a one-to-one correspondence, and gap is less than spray on branch between the positive overturning roller 155 and reverse flip roller 156
Leaf thickness, positive overturn rotate in the forward direction chamber 157 equipped with air-flow at 155 center of roller, and the air-flow rotates in the forward direction 157 liang of chamber
End is connected to L shape air stream drives transmission tube 152 and L shape air stream drives efferent duct 153 respectively, and the air-flow rotates in the forward direction chamber 157
It is interior to be equipped with air stream drives transport screw channel 158, air-flow, which is equipped with, at 156 center of reverse flip roller reversely rotates chamber 159,
The air-flow reversely rotates and is equipped with air stream drives reverse acting spiral channel 160 in chamber 159, and the air-flow reversely rotates 159 both ends of chamber
It is connected to respectively with L shape air stream drives transmission tube 152 and L shape air stream drives efferent duct 153, air stream drives transport screw channel
158 and air stream drives reverse acting spiral channel 160 be helical structure setting, air stream drives transport screw channel 158 and air-flow
Drive the spiral rotating in reverse acting spiral channel 160 contrary.
The catalysis branch two-way clamping transfer assembly 133 includes clamping engaging transmission driving motor 164, clamping
Engaging transmission driving motor placed cavity 165, driving conveyer belt 166, active drive driven rod 167, driven driving driven rod 168,
Clamping piece conveyer belt 169, clamping fastener 170 and clamping snubber elastomeric part 171, the active drive driven rod 167 and driven
Driving driven rod 168 is rotatably arranged on branches and leaves regioselective separation 137 inner sidewall of enclosing part, the driven driving driven rod
168 are set to 167 top of active drive driven rod, and the clamping piece conveyer belt 169 is rotatably arranged 167 He of active drive driven rod
On driven driving driven rod 168, the clamping engaging transmission driving motor placed cavity 165 is set to branches and leaves regioselective and separates enclosing
On 137 inner sidewall of part, the clamping engaging transmission driving motor 164 is set in clamping engaging transmission driving motor placed cavity 165,
The driving transmission belt 166 is rotatably arranged active drive driven rod 167 and clamping engaging transmission 164 output shaft of driving motor
On, the clamping snubber elastomeric part 171 is set on clamping piece conveyer belt 169, and the clamping fastener 170 is set to clamping buffering elastic
Property part 171 on, it is described clamping fastener 170 far from clamping snubber elastomeric part 171 one end be in concave arc shape structure setting, it is described fixed
The selective branch two-way clamping transfer assembly 133 in position is symmetrically arranged with two groups, and two groups are respectively catalysis branch two-way clamping
Transfer assembly 1 and catalysis branch two-way clamping transfer assembly 2 173, the catalysis branch two-way clamping
Transfer assembly 1 is slidably set in conveyer belt sliding groove 1, the catalysis branch two-way clamping transfer assembly
2 173 are slidably set in conveyer belt sliding groove 2 163, on the catalysis branch two-way clamping transfer assembly 1
Clamping fastener 170 and catalysis branch two-way clamping transfer assembly 2 173 on clamping fastener 170 correspond
Setting, the 169 sandwich fastener part 170 of clamping piece conveyer belt can slide respectively clamps sliding channel 148 set on branch
In browse sliding cavity 149, branch clamping 148 radius of sliding channel is greater than clamping 170 length of fastener part, described tender
149 width of branches and leaves sliding cavity is greater than clamping 170 length of fastener part.
The clamping piece drive rod 55 includes clamping piece drive rod 1 and clamping piece drive rod 2 175, the clamping piece
Catch bar 56 includes clamping piece catch bar 1 and clamping piece catch bar 2 177, and the clamping driving gag lever post 57 includes clamping
Gag lever post 1 and clamping driving gag lever post 2 179 are driven, the part 58 that grips includes gripping part 1 and folder
Fixing piece 2 181 is held, the heat transfer clamping piece 59 includes heat transfer clamping piece 1 and heat transfer clamping piece two
183, the heat transfer clamping piece 1 and heat transfer clamping piece 2 183 are along gripping driving 48 axis pair of enclosing protection body
Claim;The clamping piece drive rod 1, which is set on clamping piece driving driven shaft 1 and is set to, holds driving enclosing protection body 48
On lateral wall, the clamping piece catch bar 1 is hingedly set on clamping piece drive rod 1, and the clamping drives gag lever post
One 178 one end are hingedly set on gripping driving 48 lateral wall of enclosing protection body, clamping driving one 178 other end of the gag lever post hinge
It is arranged in 56 middle part of clamping piece catch bar, the part 1 that grips is on clamping piece catch bar 1, the heat
Transmitting clamping piece 1, which is set to, to be gripped on part 1, and it is driven that the clamping piece drive rod 2 175 is set to clamping piece driving
It on axis 2 52 and is set on gripping driving 48 lateral wall of enclosing protection body, the clamping piece catch bar 2 177 is hingedly set to clamping
On part drive rod 2 175, the clamping driving 2 179 one end of gag lever post is hingedly set to gripping driving 48 lateral wall of enclosing protection body
On, clamping driving 2 179 other end of gag lever post is hingedly set to 56 middle part of clamping piece catch bar, described to grip part two
181 are set on clamping piece catch bar 2 177, and the heat transfer clamping piece 2 183 is set to and grips on part 2 181.
The branch nibbling shear component 135 includes drive part by part motor 184, drive part by part motor placed cavity 185, segmentation
Shearing driving driving gear 186, nibbling shear transmission gear 187, nibbling shear drive driven internal gear 188, cutting member driving
Gear 189, nibbling shear drive driving shaft 190, nibbling shear transmission shaft 191, nibbling shear drive shaft 192, nibbling shear part
193, saddle 195 and branch are segmented enclosing part 196 under nibbling shear fastening plate 194, infundibulate branch, and the branch is segmented enclosing
Part 196 is set to the transmission of wing pinnule leaf and accepts on component 136, and the branch segmentation enclosing part 196 is cylindrical hollow cavity structure
Setting, the branch segmentation enclosing part 196 are equipped with clamping fastener and overturn tuning slot 197, and the clamping fastener overturning is adjusted
It include that clamping fastener overturning tuning slot 1 and clamping fastener overturn tuning slot 2 199, the clamping piece card to slot 197
Component sliding groove 1, conveyer belt sliding groove 1 are connected with clamping fastener overturning tuning slot 1, the retaining wedge
Component sliding groove 2 128, conveyer belt sliding groove 2 163 are connected with clamping fastener overturning tuning slot 2 199, the infundibulate
Saddle 195 is set in air stream drives branches and leaves separation support plate 144 under branch, 195 center of saddle and branch under the infundibulate branch
Item clamps sliding channel 148 and is connected to, and the nibbling shear fastening plate 194 is set to the segmentation under infundibulate branch on saddle 195
Shearing fastening plate 194 includes cutting member support plate 200 and actuator support plate 201, and the cutting member support plate 200 is in circular ring shape
Structure setting, the cutting member support plate 200 are set under infundibulate branch on saddle 195, and the actuator support plate 201 is set to
In cutting member support plate 200, the nibbling shear driving driving shaft 190 and nibbling shear transmission shaft 191 are rotatably arranged driving
In part support plate 201, the nibbling shear driving driving gear 186 is set on nibbling shear driving driving shaft 190, the segmentation
It shears transmission gear 187 to be set on nibbling shear transmission shaft 191, the nibbling shear drives driven internal gear 188 is swingable to set
In on nibbling shear fastening plate 194, the drive part by part motor placed cavity 185 is set on branch segmentation 196 inner sidewall of enclosing part,
The drive part by part motor 184 is set in drive part by part motor placed cavity 185, and the nibbling shear drives driving shaft 190 and divides
Section 184 output end of driving motor is connected, and the nibbling shear drive shaft 192 is rotatably arranged in cutting member support plate 200, described
Nibbling shear drive shaft 192 is uniformly provided with several groups along 200 circumferencial direction of cutting member support plate, and the cutting member drives gear
189 are set in nibbling shear drive shaft 192, and the nibbling shear part 193 is set in nibbling shear drive shaft 192, the segmentation
Cutting member 193 is equipped with blade along 200 inner circle circumferential direction of cutting member support plate, and the nibbling shear part 193 and nibbling shear are driven
Moving axis 192 corresponds and quantity is equal, and branch nibbling shear downslide mouth is connected to form at 193 upper knife edge of nibbling shear part
202,202 diameter of branch nibbling shear downslide mouth is equal with circular ring shape diameter at 200 center of cutting member support plate.
It includes that wing plumage transmits driving motor 203, wing plumage transmission driving motor is put that component 136 is accepted in the wing pinnule leaf transmission
Set chamber 204, wing plumage transmission driving driving shaft 205, wing plumage transmission driving driven shaft 206, conveyer belt fixing support rack 207, transmission
Driving motor support frame 208, conveyer belt surrounding baffle 209, wing plumage conveyer belt 210 and the anti-fall lid 211 of browse, the conveyer belt are solid
Support frame 207 is determined on loadascreen structure 3, the wing plumage transmission driving driving shaft 205 and wing plumage transmission driving driven shaft
206 are rotatably arranged on conveyer belt fixing support rack 207, and described 210 one end of wing plumage conveyer belt is rotatably arranged the transmission of wing plumage and drives
On dynamic driving shaft 205,210 other end of wing plumage conveyer belt is rotatably arranged on wing plumage transmission driving driven shaft 206, the biography
Band surrounding baffle 209 is sent to be symmetrically set in 210 two sides of wing plumage conveyer belt, the anti-fall lid 211 of browse is set to conveyer belt surrounding baffle 209
On, anti-fall 211 longitudinal section of the lid structure setting triangular in shape of browse, anti-fall 211 intermediate altitude of lid of browse is greater than
Height on both sides, the transmission driving motor support frame 208 are set on loadascreen structure 3, and the wing plumage transmission driving motor is put
It sets chamber 204 to be set on transmission driving motor support frame 208, the wing plumage transmission driving motor 203 is set to wing plumage transmission driving electricity
In machine placed cavity 204, the wing plumage transmission driving driving shaft 205 sequentially passes through conveyer belt surrounding baffle 209 and the fixed branch of conveyer belt
Support 207 is connected with wing plumage transmission 203 output end of driving motor.
The loadascreen structure 3 includes wing plumage loading box 212, browse loading box 213 and browse grinding device
214, the wing plumage loading box 212 and browse loading box 213 are set in moving body mechanism 4, in the wing plumage loading box 212
Equipped with wing plumage discharge door 241, the wing plumage discharge door 241 is equipped with wing plumage discharging handle 242, the browse loading box 213
It is equipped with browse discharge door 243, the browse discharge door 243 is equipped with browse discharging handle 244, and the air-flow is stirred
The lossless harvesting mechanism 1 of formula quick humidification selectivity positioning holding is set in wing plumage loading box 212, and the heat floating type air-flow drives
Dynamic filtration listlessization branches and leaves regioselective strips separating mechanism 2 in browse loading box 213, and the wing pinnule leaf transmission is accepted
136 one end of component is set in wing plumage loading box 212, and the wing pinnule leaf transmission is accepted 136 other end of component and filled set on browse
It carries on case 213, the wing plumage loading box 212 is equipped with wing plumage feed inlet 215, and 210 output end of wing plumage conveyer belt is set to wing
215 top of plumage feed inlet, 213 upper wall of browse loading box are equipped with browse downslide mouth 216, and the infundibulate browse is held
Fitting 138 is set on browse downslide mouth 216, and the browse grinding device 214 is set in browse loading box 213, described
Browse grinding device 214 include crush driving motor 217, crush driving driving wheel 218, crush driving driven gear 1,
Driving driven gear 2 220 is crushed, driving driving shaft 221 is crushed, crushes driving driven shaft 1, crushes driving driven shaft two
223, driving transmission belt 224 is crushed, browse crushes transfer roller 1, browse crushes transfer roller 2 226 and crushes enclosing protector
227, the crushing enclosing protector 227 is set on 213 inner sidewall of browse loading box, and the crushing driving driving shaft 221 can
Rotation, which is set to, to crush on enclosing protector 227, and the crushing driving driving wheel 218, which is set to, to be crushed on driving driving shaft 221, described
It crushes driving driven shaft 1 and crushing driving driven shaft 2 223 is rotatably arranged and crushes on enclosing protector 227, the powder
Broken 224 one end of driving transmission belt is rotatably arranged on crushing driving driving wheel 218, and the crushing drives 224 other end of transmission belt
It is rotatably arranged on crushing driving driven shaft 1, the crushing driving driven gear 1, which is set to, crushes driving driven shaft one
On 222, the crushing driving driven gear 2 220, which is set to, to be crushed on driving driven shaft 2 223, the crushing driving motor 217
Set on crushing on enclosing protector 227, the crushing driving driving shaft 221 is connected with 217 output end of driving motor is crushed, described
Browse crushes transfer roller 1 and is set on crushing driving driven shaft 1, and the browse crushing transfer roller 2 226, which is set to, to be crushed
It drives on driven shaft 2 223, the browse crushes transfer roller 1 and browse crushes 2 226 surface of transfer roller and is uniformly provided with powder
Broken blade, the browse crushes transfer roller 1 and browse crushes distance between transfer roller 2 226 and is less than spray leaf thickness.
The harvesting tuning component 8 includes that harvesting tuning bar 228, universal joint 229 and harvesting push and pull drive rod 230, described
Universal joint 229 is set on loadascreen structure 3, and the harvesting tuning bar 228 is set on universal joint 229, the harvesting tuning bar
228 structure settings in T shape, the harvesting push-and-pull drive rod 230 are hingedly set on loadascreen structure 3, the harvesting push-and-pull
230 upper end of drive rod is set to 228 middle part of harvesting tuning bar;The moving body mechanism 4 includes car body support plate 231, wheel
232, steering wheel 233 and safety seat 234, the wheel 232 are set to 231 lower section of car body support plate, and the safety seat 234 is set
In in car body support plate 231, the steering wheel 233 is set in car body support plate 231 and is set to 234 front of safety seat, described
Steering wheel 233 is equipped with lifting key 235, holds key 236, pretreatment key 237, harvesting key 238, separation key 239
With mobile key 240, lifting key 235 is electrically connected with harvesting push-and-pull drive rod 230, is held key 236 and is held driving motor
40 electrical connections, pretreatment key 237 and air-flow stir tuning air blower 12, air-flow steering driving motor 18, air pump 71 and atomization
Processor 64 is electrically connected, and harvesting key 238 is electrically connected with push-and-pull driving motor 84 and shearing harvesting driving motor 94, separates key
239 engage transmission driving electricity with drying air blower 121, drying and warning heating member 120, roller overturning blower 142, clamping
Machine 164, drive part by part motor 184, wing plumage transmission driving motor 203 and crushing driving motor 217 are electrically connected, mobile key 240
It is electrically connected with wheel 232.
When specifically used, operator is sitting on safety seat 234, is held steering wheel 233, is pressed mobile key 240, will
Moving body mechanism 4 is moved at Ramulus euonymi plant to be harvested, and presses lifting key 235, and harvesting push-and-pull drive rod 230 pushes
Harvesting tuning bar 228 is adjusted to suitable harvesting height, and adjustment harvesting 228 position of tuning bar is placed in Ramulus euonymi branch to be harvested
Between heat transfer clamping piece 1 and heat transfer clamping piece 2 183, pretreatment key 237 is pressed, air-flow stirs tuning drum
Blower 12, air-flow turn to driving motor 18, air pump 71, atomizing processor 64 and gripping driving motor 40 and start simultaneously at work, gas
Stream stirs the bulging air-flow of tuning air blower 12 and is transmitted to air-flow input port 30 through gas delivery tube 17, gathers directed cavity 26 through air-flow
It is exported after gathering by airflow delivery outlet 32, air-flow between flow rotation sliding piece 25 through exporting, while air-flow turns to driving electricity
Machine 18 drives air-flow steering driving shaft 20 to rotate, and air-flow steering driving shaft 20 drives air-flow to turn to the rotation of active drive gear 21,
Air-flow turns to active drive gear 21 and air-flow is driven to turn to the rotation of driven drive gear 22, and air-flow turns to 22 band of driven drive gear
Stream of taking offence gathers the rotation of directed cavity 26, and air-flow gathers directed cavity 26 and drives the rotation of flow rotation sliding piece 25 to realize air-flow
Accelerate rotational flow, Ramulus euonymi branch upper fin plumage face product is larger, and wing plumage is pushed to side, gas under the action of air-flow is gathered in flowing
Ambient atmosphere is input in gas cooling pipe by pump 71, the cryogenic freezing working gas temperature in 69 cabinet of cryogenic gas circulating box
Reduction forms cryogenic freezing gas, and through the output of cryogenic freezing drop-leg 70 to cryogenic gas air inlet 61, cryogenic gas
Through heat transfer clamping piece 1 and the intracorporal ice cube of 2 183 chamber of heat transfer clamping piece temperature is reduced again and by low temperature gas
Body jet port 60 ejects, while cryogenic gas significantly delays heat transfer clamping piece 1 and heat transfer clamping piece two
The intracorporal ice melting rate of 183 chambers, atomizing processor 64 by the water mist in water tank 63 turn to microparticle aqueous and via mist
Change spray dispatch tube 65 and atomization shunts dispatch tube 67 and ejected by atomized spray part 68, through cryogenic gas and atomized particles moisture
The collective effect of son is pressed to Ramulus euonymi surface quick humidification and holds key 236, holds driving motor 40 and drives gripping driving master
Moving axis 42 rotates, and holds driving driving shaft 42 and drives gripping that eccentric turntable 43 is driven to rotate, and holds the eccentric turntable 43 of driving and drives
It holds drive rod 44 and does fan shape moving, when original state, hold drive rod 44 and go to gripping and drive eccentric turntable 43 close to clamping
Drive 45 one end of spur rack, clamping driving spur rack 45 drives eccentric turntable 43 to be driven with holding apart from farthest apart from holding
Eccentric turntable 43 rotates, and holds drive rod 44 and is driven on eccentric turntable 43 close to clamping driving 45 one end of spur rack from holding to holding
The eccentric turntable 43 of driving is held far from clamping driving 45 one end of spur rack rotation, drive rod 44 is held and drives clamping driving spur rack 45
To driving eccentric 43 direction of turntable mobile close to holding, clamping driving spur rack 45 drives clamping piece to drive driven gear 46 to leaning on
Nearly clamping drives the movement of 45 direction of spur rack, and clamping piece drives driven gear 46 that clamping piece drive rod 55 is driven to drive to close to gripping
Dynamic 48 direction of enclosing protection body is mobile, and clamping piece drive rod 55 pushes clamping piece catch bar 56 to close to gripping driving enclosing protection
48 direction of body is mobile, and the drive of clamping piece catch bar 1 grips part 1 and transports to close 2 181 direction of part that grips
It is dynamic, it grips part 1 and drives heat transfer clamping piece 1 to, folder mobile close to 2 183 direction of heat transfer clamping piece
The drive of gripping member catch bar 2 177 grips part 2 181 to moving close to gripping one 180 direction of part, grips part two
181 drive heat transfer clamping piece 2 183 to mobile, the heat transfer clamping piece one close to one 182 direction of heat transfer clamping piece
182 and 2 183 relative motion of heat transfer clamping piece Ramulus euonymi branch therebetween is held, in flow rotation sliding piece 25
Under the action of aptery plumage part branch be placed between heat transfer clamping piece 1 and heat transfer clamping piece 2 183, wing plumage portion
Point rotation is avoided to side because of heat transfer clamping piece 1 and 2 193 grip position of heat transfer clamping piece is improper makes
At the damage of wing plumage, press and hold key 236, heat transfer clamping piece 1 and heat transfer clamping piece 2 183 keep holding
Branch state soaks wing plumage and browse to certain in cryogenic gas and atomized spray microparticle aqueous effect a period of time
After degree, the toughness of one side brittleness wing plumage increases to a certain degree because quickly moistening to have, the browse on another aspect branch
Middle moisture, which increases, provides condition for drying listlessization, presses harvesting key 238, push-and-pull driving motor 84 and shearing harvesting driving motor
94 start simultaneously at work, and push-and-pull driving motor 84 drives push-and-pull driving driving shaft 86 to rotate, and push-and-pull driving driving shaft 86 drives master
Dynamic driving straight-tooth gear member 87 rotates, and sawtooth and promotion drive sawtooth on incomplete spur rack 88 to nibble in active drive straight-tooth gear member 87
Driving to push when conjunction, while active drive straight-tooth gear member 87 rotates drives incomplete spur rack 88 to push and pull sliding groove along spur rack
91, to far from push-and-pull driving 83 direction of fixed plate movement, push and incomplete spur rack 88 are driven to push push-and-pull driving plate 92 along push-and-pull
Driving plate is slided limiting slot 49 and is slided to close to branch direction, while shearing harvesting driving motor 94 and driving shearing driving driving shaft
95 rotations, shearing driving driving shaft 95 drive shearing active drive gear 97 to rotate, and shearing active drive gear 97 drives shearing
Driven drive gear 98 rotates, and shearing driven drive gear 98 drives fan-shaped driving gear 99 to rotate, sector driving 99 band of gear
Dynamic driving spur rack 100 of shearing moves back and forth, sawtooth and sawtooth on shearing driving spur rack 100 on sector driving gear 1
Shearing driving spur rack 100 is driven to move when engagement to far from push-and-pull 92 direction of driving plate, the shearing driving promotion of spur rack 100 is cut
It cuts and pushes driving plate 107 to close to the movement of branch direction, shearing pushes driving plate 107 to slide in cutting member fixed guide plate 108
During branch direction, cutting member push-pull rod 1 is to close to the movement of the direction of cutting member push-pull rod 2 115, shearing
Part push-pull rod 1 drives shearing harvesting part 1 to mobile, the cutting member push-pull rod two close to shearing harvesting 2 113 direction of part
115 is mobile to the direction close to cutting member push-pull rod 1, and cutting member push-pull rod 2 115 drives shearing harvesting part 2 113 to leaning on
Nearly harvesting one 112 direction of part of shearing is mobile, will during shearing harvesting part 1 and shearing harvesting part 2 113 are adjacent to each other
Branch is shear off from plant, band when sawtooth and shearing drive engagement on spur rack 100 on sector driving gear 2 106
Dynamic shearing driving spur rack 100 is moved to close to push-and-pull 92 direction of driving plate, and shearing driving spur rack 100 pulls shearing to push and drives
For movable plate 107 to far from the movement of branch direction, shearing pushes driving plate 107 to slide away from branch in cutting member fixed guide plate 108
During direction, cutting member push-pull rod 1 is mobile to the direction far from cutting member push-pull rod 2 115, cutting member push-pull rod
One 114 drive shearing harvesting parts 1 to mobile far from shearing harvesting 2 113 direction of part, and cutting member push-pull rod 2 115 is to separate
The direction of cutting member push-pull rod 1 is mobile, and cutting member push-pull rod 2 115 drives shearing harvesting part 2 113 to adopt to far from shearing
One 112 direction of addressee is mobile, and as active drive straight-tooth gear member 87 rotates, sawtooth and pulling are driven in active drive straight-tooth gear member 87
It is driven when moving engagement on incomplete spur rack 89, while active drive straight-tooth gear member 87 rotates and pulls driving not exclusively straight
Rack gear 89 pushes and pulls sliding groove 91 along spur rack and moves to close to push-and-pull driving 83 direction of fixed plate, pulls and drives incomplete spur rack
89, which drive push-and-pull driving plate 92 to slide limiting slot 49 along push-and-pull driving plate, slides homing to far from branch direction, under harvesting
Branch is clamped by heat transfer clamping piece 1 and heat transfer clamping piece 2 183, presses lifting key 235, adjustment harvesting
Branch under harvesting is placed in above diamond shape branch sliding channel by the height of tuning bar 228 and direction, presses separation key 239,
Dry air blower 121, drying and warning heating member 120, roller overturning blower 142, clamping engaging transmission driving motor
164, drive part by part motor 184, wing plumage transmission driving motor 203 and crushing driving motor 217 start simultaneously at work, rise in drying
Under the collective effect of warm heating member 120 and drying air blower 121, drying box cavity 123 keeps high-temperature heating state and High Temperature Gas
Body is in flow regime, and thermal current rises the branch to the wetting above infundibulate branch supporting 130 along diamond shape branch sliding channel
Drying is dried in item and wing plumage, presses again when listlessization state occurs in browse dehydration and holds key 236, holds drive rod
44 drive eccentric turntable 43 close to clamping far from clamping driving 45 one end of spur rack on the eccentric turntable 43 of driving from holding to gripping
The rotation of 45 one end of spur rack is driven, gripping drive rod 44 drives clamping driving spur rack 45 to drive eccentric turntable 43 to far from gripping
Direction is mobile, and clamping driving spur rack 45 drives clamping piece that driven gear 46 is driven to transport to far from clamping driving 45 direction of spur rack
Dynamic, clamping piece drives driven gear 46 to drive clamping piece drive rod 55 mobile to separate driving 48 direction of enclosing protection body that holds,
Clamping piece drive rod 55 pushes clamping piece catch bar 56 to driving 48 direction of enclosing protection body is mobile, and clamping piece pushes far from holding
The drive of bar 1 grips part 1 to move far from gripping 2 181 direction of part, grip part 1 drive it is hot
For amount transmitting clamping piece 1 to far from the movement of 2 183 direction of heat transfer clamping piece, clamping piece catch bar 2 177 drives clamping
Fixing piece 2 181 grips the drive heat transfer clamping piece two of part 2 181 to move far from gripping one 180 direction of part
183 to far from the movement of one 182 direction of heat transfer clamping piece, heat transfer clamping piece 1 and heat transfer clamping piece 2 183
Back movement unclamps the gripping to branch therebetween, and the branch of dehydration listlessization is along infundibulate branch supporting 130 and diamond shape branch
It is accurately positioned sliding channel 132 to fall, branch is clamped the clamping of fastener 170 and can adjust by clamping snubber elastomeric part 171
Size between clamping fastener 170 is allowed to be adapted to different size of branch, and clamping engaging transmission driving motor 164 passes through drive
The dynamic transmission of conveyer belt 166 drives active drive driven rod 167 to rotate, and active drive driven rod 167 drives clamping piece conveyer belt 169
Rotation, clamping piece conveyer belt 169 drive driven driving driven rod 168 to rotate, and folder is driven while clamping piece conveyer belt 169 rotates
The component 170 that holds rotation, while roller overturning blower 142 overturns driving air supply tube 143 by roller and overturns to roller
Air blast in air stream transportation chamber 147, air-flow input along air stream drives air inlet pipe 150 and distinguish via L shape air stream drives dispatch tube 152
Chamber 157 is rotated in the forward direction into air-flow and air-flow reversely rotates chamber 159, and air-flow rotates in the forward direction 157 interior air-flow of chamber driving transport screw
Channel 158 reversely rotates 159 interior air-flow of chamber with air-flow and drives the spiral rotating in reverse acting spiral channel 160 contrary so that air-flow
Spiral-shaped flow direction is on the contrary, the opposite air-flow of flow inversion pushes positive overturning roller 155 and reverse flip roller 156 anti-
To overturning, the listlessization browse during forward direction overturning roller 155 and 156 reverse flip of reverse flip roller on branch is embedded in
Between forward direction overturning roller 155 and reverse flip roller 156, and it is reversed in forward direction overturning roller 155 and reverse flip roller 156
Strip is dragged from branch under the action of overturning, and strip drags the browse that gets off, and along browse sliding cavity 149 to fall to browse anti-
It falls on lid 211, because anti-fall 211 intermediate altitude of lid of browse is higher than two sides, browse glides along the anti-fall lid 211 of browse
To infundibulate browse supporting 138, while the branch with wing plumage after browse is removed in clamping fastener 170
Snap-in function under and clamping piece conveyer belt 169 transmission effect under be transferred under infundibulate branch in saddle 195, segmentation drive
Dynamic motor 184 drives nibbling shear driving driving gear 186 to rotate, and nibbling shear drives driving gear 186 to drive nibbling shear
Transmission gear 187 rotates, and nibbling shear transmission gear 187 drives nibbling shear that driven internal gear 188 is driven to swing, and is segmented
Shearing drives driven internal gear 188 that cutting member driving gear 189 is driven to rotate, and cutting member drives gear 189 to drive nibbling shear
Part 193 rotates, and the relative motion between nibbling shear part 193 carries out segmentation to the branch in branch nibbling shear downslide mouth and cuts
It cuts, the branch after nibbling shear is sent in wing plumage loading box 212 through wing plumage conveyer belt 210, and browse is along infundibulate spray
Leaf supporting 138 is snapped down to browse and crushes between transfer roller 1 and browse crushing transfer roller 2 226, crushes driving motor 217
It drives and crushes the driving rotation of driving wheel 218, crushing driving driving wheel 218 drives the drive of transmission belt 224 to crush driving by crushing
Driven shaft 1 rotates, and crushes driving driven shaft 1 and crushing driving driven gear 1 is driven to rotate, it is driven to crush driving
Gear 1, which drives to crush, drives driven gear 2 220 to rotate, and crushes driving driven gear 1 and crushing driving driven tooth
Take turns 2 222 drive respectively browse crush transfer roller 1 and browse crush transfer roller 2 226 reversely rotate branches and leaves between into
Row crushes recycling, and work terminates to close respective keys, pulls wing plumage discharging handle 242 to open wing plumage discharge door 241 and takes out wing plumage,
Pulling browse discharging handle 244 opens browse discharge door 243 and takes out browse, uses next time and repeats aforesaid operations.
Actual operating process is very simple and easy, only includes that operator's holding steering wheel 233 presses mobile key
240 drive moving body mechanism 4 to plant to be harvested, and press lifting key 235, the holding harvesting adjustment of tuning bar 228 is adopted
Angle is received, then successively holds key 236, press pretreatment key 237, harvesting key 238 and separation key 239, equipment is voluntarily
The aptery plumage part of Ramulus euonymi branch is carried out holding harvesting and realizes the separation of branch upper fin plumage and browse, after finishing
Close respective keys.The equipment solves the problems, such as that Ramulus euonymi wing plumage brittleness is easily peeled off and is not easy to harvest, and is harvesting
It is realized under conditions of being preferably minimized wing plumage percentage of damage and loss late in journey and effectively strips separation with browse on branch, gram
The technical problem that traditional artificial harvesting is easily wounded by stabbing, working efficiency is low and the broken cataphoretic failure rate of wing plumage is high has been taken, nothing is realized
To the technical effect of the selective positioning holding harvesting of wing plumage under conditions of setting element, and browse is divided from branch in real time
It is recycled from crushing, it is simple and easy, it is time saving and energy saving, it is low in cost, have extensive market popularization value.
The present invention and its embodiments have been described above, this description is no restricted, shown in the drawings
Only one of embodiments of the present invention, actual structure is not limited to this.All in all if the ordinary skill of this field
Personnel are enlightened by it, without departing from the spirit of the invention, are not inventively designed and the technical solution phase
As frame mode and embodiment, be within the scope of protection of the invention.