阅读说明：本技术 一种连续式低温稳定频率蔬菜杀菌装置 (Continuous low-temperature stable-frequency vegetable sterilization device ) 是由 孔德毅 于 2021-01-13 设计创作，主要内容包括：本发明公开了一种连续式低温稳定频率蔬菜杀菌装置,包括活动环,其特征在于：所述活动环的内部均匀设置有检测机构,所述检测机构的输出端管路连接有回收装置,所述回收装置的输出端管路连接有混合机构,所述混合机构的输出端与检测机构管路连接,所述检测机构包括剂量罐,所述剂量罐的内底面卡接有液压缸,所述液压缸的底部卡接有弹性管,所述活动环的底部均匀焊接有弹簧,所述弹簧分别包裹活动环,所述弹性管的另一端焊接有触发座,所述弹簧的另一端与触发座焊接,所述触发座的内部铰接有触发球,所述液压缸的顶端卡槽连接有柔性管,所述柔性管的另一端卡接有旋转座,本发明,具有针对性和涂抹式的特点。(The invention discloses a continuous low-temperature stable-frequency vegetable sterilization device, which comprises a movable ring and is characterized in that: the detection device comprises a movable ring, a detection mechanism, a recovery device, a mixing mechanism, a detection mechanism, a dosage tank, an elastic tube, springs, a trigger seat, a flexible tube and a rotary seat, wherein the detection mechanism is uniformly arranged in the movable ring, the output end of the detection mechanism is connected with the recovery device through a pipeline, the output end of the mixing mechanism is connected with the detection mechanism through a pipeline, the detection mechanism comprises the dosage tank, the hydraulic cylinder is clamped on the inner bottom surface of the dosage tank, the elastic tube is clamped at the bottom of the hydraulic cylinder, the springs are uniformly welded at the bottom of the movable ring and respectively wrap the movable ring, the trigger seat is welded at the other end of the elastic tube, the other end of the spring is welded with the trigger seat, the trigger seat is internally hinged with the trigger ball, a clamping groove at the top end of.)

1. The utility model provides a continuous type low temperature stable frequency vegetables sterilizing equipment, includes activity ring (1), its characterized in that: the inside of activity ring (1) evenly is provided with detection mechanism (2), the output end tube coupling of detection mechanism (2) has recovery unit, recovery unit's output end tube coupling has mixing mechanism (4), the output and the detection mechanism (2) tube coupling of mixing mechanism (4).

2. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 1, wherein: detection mechanism (2) are including dosage jar (21), the interior bottom joint of dosage jar (21) has pneumatic cylinder (22), the bottom joint of pneumatic cylinder (22) has elastic pipe (23), the even welding in bottom of activity ring (1) has the spring, the spring wraps up activity ring (1) respectively, the other end welding of elastic pipe (23) has trigger seat (24), the other end and the welding of trigger seat (24) of spring, the inside articulated of trigger seat (24) has trigger ball (25).

3. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 2, wherein: the top draw-in groove of pneumatic cylinder (22) is connected with metal hose (26), the other end joint of metal hose (26) has roating seat (27), the bottom and pneumatic cylinder (22) sliding connection of roating seat (27), the top welding of roating seat (27) has volume modulation jar (28), the interior bottom welding of volume modulation jar (28) has the pivot, the even welding in side of pivot has the elastic rod, the one end welding of elastic rod has worker's type frame (281), the side and the volume modulation jar (28) sliding connection of worker's type frame (281).

4. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 3, wherein: the output end pipe connection of dosage jar (21) has regulation and control valve (5), the inside of regulation and control valve (5) evenly is provided with tension membrane (51), the side of tension membrane (51) connects gradually and forms the extension chamber, the inside sliding connection in extension chamber has double-end jar (511), the inside of double-end jar (511) is provided with the working chamber, the inner wall sliding connection of working chamber has two piston rods (512), the one end welding of piston rod (512) has the guide push pedal, the inner wall of double-end jar (511) evenly is provided with the pressure valve, the output of pressure valve is connected with the working chamber pipe way respectively, the input and the double-end jar (511) input end pipe connection of pressure valve.

5. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 3, wherein: the both ends of tension membrane (51) and regulation and control valve (5) inner wall form the water accuse chamber, one side welding of regulation and control valve (5) has fender ring (52), keep off ring (52) and be provided with a plurality of matching boards, and matching board end to end connection, the concave side welding of matching board has slide bar (53), the one end sliding connection of slide bar (53) has sleeve (54), the bottom welding of sleeve (54) has the dead lever, the both ends and the side block of regulation and control valve (5) of dead lever.

6. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 5, wherein: recovery unit includes track (31), the top sliding connection of track (31) has cutting dish (32), the inside of cutting dish (32) is provided with eccentric wheel (33), U type groove has evenly been seted up to the terminal surface of eccentric wheel (33), the side sliding connection in U type groove has circular blade (34), the side and the cutting dish (32) output transition fit of circular blade (34), the input of track (31) respectively with elastic tube (23) tube coupling.

7. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 6, wherein: the welding of the top of cutting dish (32) has knockout drum (35), the inner wall joint of knockout drum (35) has filter (36), the even joint of inner wall of knockout drum (35) has the liquid accuse pipe, the one end welding of liquid accuse pipe has solid ball (37), solid ball (37) are located filter (36) top.

8. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 7, wherein: the side of knockout drum (35) articulates there is rake (38), the output and the cutting dish (32) output of knockout drum (35) are led to and are connected, the output pipe connection in extension chamber has the check valve, the output and the liquid accuse pipe coupling of check valve, the one end and the articulated pipe connection of rake (38) of liquid accuse pipe.

9. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 8, wherein: mixing mechanism (4) includes the casing, the inside of casing is provided with the support, the side bearing of support is connected with telescopic link (41), the other end of telescopic link (41) articulates there is extrusion wheel (42), the inside of casing is provided with infiltration bag (43), the side and the infiltration bag (43) of extrusion wheel (42) contact, the input and knockout drum (35) tube coupling of infiltration bag (43), the output and the volume of transferring jar (28) tube coupling of casing.

10. The continuous type low-temperature stable-frequency vegetable sterilization device according to claim 9, wherein: trigger seat (24) and trigger and form the crescent moon chamber between ball (25), the input and the extension chamber road connection in crescent moon chamber, the inner wall sliding connection who triggers ball (25) has rotatory jar, the even block in side of rotatory jar has hydraulic pressure loop bar (251), the one end welding of hydraulic pressure loop bar (251) has arc stopper (252), the inside of triggering ball (25) evenly is provided with the movable groove, the inside of triggering ball (25) is provided with the circular recess, the one end and the circular recess of movable groove link up, the side and the movable groove sliding connection of arc stopper (252).

Technical Field

The invention relates to the technical field of sterilization equipment, in particular to a continuous low-temperature stable-frequency vegetable sterilization device.

Background

During the growth process of vegetables, various diseases can occur, such as downy mildew, gray mold, powdery mildew, blight, viral diseases, bacterial angular leaf spot, soft rot, root rot, black leaf spot, damping off, bakanae disease and the like, so that pesticides for preventing and treating bacterial diseases, fungal diseases and viral diseases of the vegetables are selected, and the pesticide series is generally called as vegetable bactericides.

Chlorophyll is the main pigment of plants for photosynthesis, and is a lipid-containing pigment family located in the thylakoid membrane. Chlorophyll absorbs most of red and violet light but reflects green light, so chlorophyll appears green, which plays a central role in light absorption for photosynthesis. Chlorophyll is a magnesium porphyrin compound, including chlorophyll a, b, c, d, f, and chlorophyll, bacteriochlorophyll, etc. Chlorophyll is not very stable and can be decomposed by light, acid, alkali, oxygen, oxidizing agents, etc. Under acidic conditions, chlorophyll molecules easily lose magnesium in the porphyrin ring to become pheophytin. Chlorophyll has many uses such as hemopoiesis, vitamin supply, detoxification, disease resistance, etc.

The existing vegetable sterilization adopts spray sterilization, so that over-sterilization of part of vegetables and under-sterilization of part of vegetables are easily caused, and the practicability is poor; meanwhile, the sterilization of the existing vegetables needs to manually adjust the sterilization dose according to the maturity of the vegetables, and the method is time-consuming and labor-consuming. Therefore, it is necessary to design a continuous type low-temperature stable-frequency vegetable sterilization device which is targeted and applied.

Disclosure of Invention

The invention aims to provide a continuous low-temperature stable-frequency vegetable sterilization device to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a continuous type low temperature stable frequency vegetables sterilizing equipment, includes the activity ring, its characterized in that: the inside of activity ring evenly is provided with detection mechanism, detection mechanism's output end tube coupling has recovery unit, recovery unit's output end tube coupling has mixing mechanism, mixing mechanism's output and detection mechanism tube coupling.

According to the technical scheme, detection mechanism includes the dosage jar, the interior bottom surface joint of dosage jar has the pneumatic cylinder, the bottom joint of pneumatic cylinder has the elasticity pipe, the even welding of bottom of activity ring has the spring, the spring wraps up the activity ring respectively, the other end welding of elasticity pipe has the trigger seat, the other end and the trigger seat welding of spring, the inside of trigger seat articulates there is the trigger ball.

According to the technical scheme, the top draw-in groove of pneumatic cylinder is connected with the flexible tube, the other end joint of flexible tube has the roating seat, the bottom and the pneumatic cylinder sliding connection of roating seat, the top welding of roating seat has the regulation jar, the interior bottom welding of regulation jar has the pivot, the even welding in side of pivot has the elastic rod, the one end welding of elastic rod has the worker type frame, the side and the regulation jar sliding connection of worker type frame.

According to the technical scheme, the output end pipe connection of dosage jar has the regulation and control valve, the inside of regulation and control valve evenly is provided with the tension membrane, the side of tension membrane connects gradually and forms the extension chamber, the inside sliding connection in extension chamber has the double-end jar, the inside of double-end jar is provided with the working chamber, the inner wall sliding connection in working chamber has two piston rods, the one end welding of piston rod has the guide push board, the inner wall of double-end jar evenly is provided with the pressure valve, the output of pressure valve respectively with the working chamber pipe connection, the input and the double-end jar input end pipe connection of pressure valve.

According to the technical scheme, the two ends of the tension film and the inner wall of the regulating valve form the water control cavity, a retaining ring is welded on one side of the regulating valve and provided with a plurality of matching plates which are connected end to end, a sliding rod is welded on the concave side of each matching plate, a sleeve is connected to one end of the sliding rod in a sliding mode, a fixing rod is welded at the bottom end of the sleeve, and the two ends of the fixing rod are clamped with the side face of the regulating valve.

According to the technical scheme, the recovery device comprises a rail, the top of the rail is connected with a cutting disc in a sliding mode, an eccentric wheel is arranged inside the cutting disc, a U-shaped groove is formed in the end face of the eccentric wheel evenly, a circular blade is connected to the side face of the U-shaped groove in a sliding mode, the side face of the circular blade is in transition fit with the output end of the cutting disc, and the input end of the rail is connected with an elastic pipe through a pipeline respectively.

According to the technical scheme, the top welding of cutting dish has the knockout drum, the inner wall joint of knockout drum has the filter, the even joint of inner wall of knockout drum has the liquid accuse pipe, the one end welding of liquid accuse pipe has solid ball, solid ball is located the filter top.

According to the technical scheme, the side face of the separating tank is hinged with the rake, the output end of the separating tank is connected with the output end of the cutting disc in a serial mode, the output end pipeline of the expansion cavity is connected with the one-way valve, the output end of the one-way valve is connected with the hydraulic control pipe pipeline, and one end of the hydraulic control pipe is connected with the pipeline at the hinged position of the rake.

According to the technical scheme, the mixing mechanism comprises a shell, a support is arranged inside the shell, a telescopic rod is connected to a side surface bearing of the support, an extrusion wheel is hinged to the other end of the telescopic rod, a permeation bag is arranged inside the shell, the side surface of the extrusion wheel is in contact with the permeation bag, the input end of the permeation bag is connected with a separation tank pipeline, and the output end of the shell is connected with a volume adjusting tank pipeline.

According to the technical scheme, trigger the seat and trigger and form the crescent moon chamber between the ball, the input and the extension chamber pipe connection in crescent moon chamber, the inner wall sliding connection who triggers the ball has rotatory jar, the even block in side of rotatory jar has the hydraulic pressure loop bar, the one end welding of hydraulic pressure loop bar has the arc stopper, the inside of triggering the ball evenly is provided with the movable groove, the inside of triggering the ball is provided with the circular recess, the one end and the circular recess of movable groove link up, the side and the movable groove sliding connection of arc stopper.

Compared with the prior art, the invention has the following beneficial effects: the blade is pushed by the trigger ball to rotate and move simultaneously, the bactericide in the crescent cavity extrudes the arc-shaped plug, the arc-shaped plug extrudes the hydraulic sleeve rod, the bactericide is stored in a space formed by the movable groove and the arc-shaped plug, the bactericide is taken out to sterilize the blade along with the rotation of the trigger ball, when the trigger ball is damaged by the damaged blade, the viscosity of the joint of the trigger seat and the trigger ball is increased, the trigger ball cannot rotate, the rotary cylinder rotates and moves downwards, the outer arc-shaped plug moves outwards, the crescent cavity liquid is refluxed to the expansion cavity after being saturated, when the aged and healthy blade is encountered, the outer arc-shaped plug is pushed back by the blade after being moved outwards, the rotary cylinder pushes the inner arc-shaped plug to move upwards, the crescent cavity liquid is refluxed to the expansion cavity in stages, the targeted smearing type sterilization is realized through the steps, the influence on the blades with different degrees of maturity is avoided, and the aged and damaged states.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall architecture system of the present invention;

FIG. 2 is a schematic view of the detection mechanism of the present invention;

FIG. 3 is a schematic top view of the dosage tank structure of the present invention;

FIG. 4 is a schematic view of the interior of the trigger ball structure of the present invention;

FIG. 5 is a schematic view of the interior of the regulating valve structure of the present invention;

in the figure: 1. a movable ring; 2. a detection mechanism; 21. a dosage tank; 22. a hydraulic cylinder; 23. an elastic tube; 24. a trigger base; 25. a trigger ball; 251. a hydraulic loop bar; 252. an arc-shaped plug; 26. a flexible tube; 27. a rotating base; 28. a metering tank; 281. a jig frame; 31. a track; 32. cutting the disc; 33. an eccentric wheel; 34. a circular blade; 35. a separation tank; 36. a filter plate; 37. a solid sphere; 38. harrowing; 4. a mixing mechanism; 41. a telescopic rod; 42. an extrusion wheel; 43. a permeation capsule; 5. a regulating valve; 51. a tensile film; 511. a double-ended cylinder; 512. a piston rod; 52. a baffle ring; 53. a slide bar; 54. a sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides a continuous type low temperature stable frequency vegetables sterilizing equipment, includes activity ring 1, its characterized in that: the detection mechanisms 2 are uniformly arranged inside the movable ring 1, the output end pipeline of the detection mechanism 2 is connected with a recovery device, the output end pipeline of the recovery device is connected with a mixing mechanism 4, and the output end of the mixing mechanism 4 is connected with the detection mechanism 2 through a pipeline; a plurality of activity rings 1 carry out work to every trunk vegetables respectively, and detection mechanism 2 judges the maturity of vegetable leaf and the pertinence disinfects, and recovery unit cuts the vegetable leaf of ageing or rotten and retrieves, and mixing mechanism 4 squeezes chlorophyll and mixes with the germicide with the healthy vegetable leaf of ageing of retrieving, strengthens the dynamics of disinfecting indirectly.

The detection mechanism 2 comprises a dosage tank 21, a hydraulic cylinder 22 is clamped on the inner bottom surface of the dosage tank 21, an elastic pipe 23 is clamped on the bottom of the hydraulic cylinder 22, springs are uniformly welded on the bottom of the movable ring 1, the springs wrap the movable ring 1 respectively, a trigger seat 24 is welded on the other end of the elastic pipe 23, the other end of each spring is welded with the trigger seat 24, and a trigger ball 25 is hinged inside the trigger seat 24; the control end of the spring is opened, the hydraulic cylinder 22 fills water into the elastic tube 23 and stretches, the trigger seat 24 is pushed to move downwards, the trigger ball 25 contacts and extrudes the vegetable leaves, the aged vegetable leaves cannot push the trigger seat 24 to extrude the elastic tube 23 through the trigger ball 25, the reverse thrust of the mature vegetable leaves is greater than that of the young vegetable leaves, the trigger seat 24 moves upwards, the spring is matched with the trigger seat 24 to push the elastic tube 23, the water in the elastic tube 23 returns to the hydraulic cylinder 22, and through the steps, the aging detection of the vegetable leaves is realized.

A flexible pipe 26 is connected to a clamping groove at the top end of the hydraulic cylinder 22, a rotating base 27 is clamped at the other end of the flexible pipe 26, the bottom of the rotating base 27 is connected with the hydraulic cylinder 22 in a sliding mode, a metering tank 28 is welded to the top of the rotating base 27, a rotating shaft is welded to the inner bottom surface of the metering tank 28, elastic rods are uniformly welded to the side surfaces of the rotating shaft, an I-shaped frame 281 is welded to one end of each elastic rod, and the side surface of the I-shaped frame 281 is connected with the metering tank 28 in; the water in the hydraulic cylinder 22 is squeezed to enter the flexible pipe 26, the flexible pipe 26 is rapidly deformed by flushing water, the rotating seat 27 is pulled to rotate in the straightening process of the flexible pipe 26, the rotating shaft rotates along with the rotating shaft, the I-shaped frame 281 moves outwards under the centrifugal force, the adjusting tank 28 is opened, the bactericide in the adjusting tank 28 enters the dosage tank 21, the I-shaped frame 281 cannot move due to aged blades, the I-shaped frame 281 plate positioned on the outer layer is in contact with the adjusting tank 28, the two plates of the I-shaped frame 281 can be symmetrically positioned on the inner side and the outer side of the adjusting tank 28 respectively due to young blades, the inner plate of the I-shaped frame 281 is close to the pipe wall of the adjusting tank 28 due to mature blades, the bactericide outflow is reduced, and through the steps, the amount of the bactericide is adjusted according to the aging of the blades, so that the bactericide is reasonably used.

The output end pipeline of the dosage pot 21 is connected with a regulating valve 5, a tension film 51 is uniformly arranged inside the regulating valve 5, the side surfaces of the tension film 51 are sequentially connected to form an expansion cavity, a double-head cylinder 511 is slidably connected inside the expansion cavity, a working cavity is arranged inside the double-head cylinder 511, the inner wall of the working cavity is slidably connected with two piston rods 512, one end of each piston rod 512 is welded with a guide plate, pressure valves are uniformly arranged on the inner wall of the double-head cylinder 511, the output ends of the pressure valves are respectively connected with the working cavity pipeline, and the input ends of the pressure valves are connected with the input end pipeline of the double-head cylinder 511; the bactericide is introduced into the regulating valve 5 by the dosage pot 21, enters the double-end cylinder 511 of the expansion cavity and is pushed to move downwards, meanwhile, the bactericide enters the working cavity of the double-end cylinder 511 and pushes the two sides of the piston rod 512 to move, the guide push plate pushes the tension film 51 to expand towards the two sides, the capacity of the expansion cavity is increased, when aged blades or decayed blades cause backflow of the crescent cavity, the double-end cylinder 511 moves upwards for a certain distance, when mature or young healthy blades cause backflow of the crescent cavity, the double-end cylinder 511 moves upwards to the top end, the inlet of the working cavity is clamped with the input end of the expansion cavity, the bactericide only enters the working cavity, the pressure valve is controlled to be opened, the bactericide reversely pushes the piston rod 512 through the pressure valve to extrude the bactericide to flow back into the dosage pot 21, when the piston rod 512 is coincided to close the inlet of the working cavity, through the steps, the regulating valve 5 regulates and controls by, and giving judgment for later operation.

A crescent cavity is formed between the trigger seat 24 and the trigger ball 25, the input end of the crescent cavity is connected with the expanded cavity pipeline, the inner wall of the trigger ball 25 is connected with a rotary cylinder in a sliding manner, the side surface of the rotary cylinder is uniformly clamped with a hydraulic loop bar 251, one end of the hydraulic loop bar 251 is welded with an arc-shaped plug 252, a movable groove is uniformly arranged in the trigger ball 25, a circular groove is arranged in the trigger ball 25, one end of the movable groove is communicated with the circular groove, and the side surface of the arc-shaped plug 252 is connected with the movable groove in a sliding manner; the trigger ball 25 pushes the blade to rotate and move simultaneously, the bactericide in the crescent cavity extrudes the arc-shaped plug 252, the arc-shaped plug 252 extrudes the hydraulic sleeve rod 251, the space formed by the movable groove and the arc-shaped plug 252 stores the bactericide, the bactericide is taken out to sterilize the blade along with the rotation of the trigger ball 25, when the trigger ball 25 is damaged, the viscosity of the joint of the trigger seat 24 and the trigger ball 25 is increased, the trigger ball 25 cannot rotate, the rotating cylinder rotates and moves downwards, the external arc-shaped plug 252 moves outwards, the liquid in the crescent cavity flows back to the expansion cavity after being saturated, when an aged healthy blade is encountered, the outer arc-shaped plug 252 is pushed back by the blade after moving outwards, the rotating cylinder pushes the inner arc-shaped plug 252 to move upwards, so that the liquid in the crescent cavity flows back to the expansion cavity in stages, the targeted smearing type sterilization is realized through the steps, the influence on the surrounding leaves with different maturity is avoided, and the aging, healthy and rotten states are judged and distinguished.

The two ends of the tension membrane 51 and the inner wall of the regulating valve 5 form a water control cavity, a baffle ring 52 is welded on one side of the regulating valve 5, the baffle ring 52 is provided with a plurality of matching plates which are connected end to end, a slide rod 53 is welded on the concave side of each matching plate, one end of each slide rod 53 is connected with a sleeve 54 in a sliding manner, a fixed rod is welded at the bottom end of each sleeve 54, and the two ends of each fixed rod are clamped with the side face of the regulating valve 5; when the double-end cylinder 511 drives the guide push plate to move downwards, water flow in the water control cavity flows clockwise, the stop ring 52 does not move, when the double-end cylinder 511 is stressed to move upwards at a constant speed, water in the water control cavity pushes the stop ring 52 anticlockwise, the matching plate pulls the slide rod 53 to slide and stretch in the sleeve 54, the stop ring 52 is opened, when the double-end cylinder 511 is stressed to move upwards quickly, the matching plate is stressed to rotate, the next matching plate is pushed to rotate, the stop ring 52 is tightly closed to rotate, and the double-end cylinder is opened to operate at a later stage according to backflow caused by aging and corrosion so as to provide power for the later stage.

The recovery device comprises a rail 31, the top of the rail 31 is connected with a cutting disc 32 in a sliding manner, an eccentric wheel 33 is arranged inside the cutting disc 32, U-shaped grooves are uniformly formed in the end face of the eccentric wheel 33, a circular blade 34 is connected to the side face of each U-shaped groove in a sliding manner, the side face of each circular blade 34 is in transition fit with the output end of the cutting disc 32, and the input end of the rail 31 is respectively connected with an elastic pipe 23 through a pipeline; the rebound hydraulic pressure of the elastic pipe 23 pushes the cutting disc 32 on the track 31 to move to the position of the blade to be processed, the water in the water control cavity pushes the eccentric wheel 33 to rotate, the circular blade 34 is moved to the output end of the cutting disc 32 by centrifugal force to cut the blade, the positioning cutting is realized through the steps to achieve targeted processing, the phenomenon that the aged and healthy blade absorbs nutrients to cause insufficient nutrition of the middle young blade is prevented in time, and the rotten and damaged blade is prevented in time from continuing to extend to reduce the yield.

A separation tank 35 is welded at the top end of the cutting disc 32, a filter plate 36 is clamped on the inner wall of the separation tank 35, a liquid control pipe is uniformly clamped on the inner wall of the separation tank 35, a solid ball 37 is welded at one end of the liquid control pipe, and the solid ball 37 is positioned above the filter plate 36; the blade of cutting gets into knockout drum 35, on arriving filter 36, the water in water accuse chamber gets into liquid accuse pipe, promote solid sphere 37 and remove, solid sphere 37 moves on the blade, rotten part is extrudeed and is reachd filter 36 below, reach cutting disc 32 output back through the pipeline, discharge near the vegetable root, the not rotten part makes solid sphere 37 obstructed the removal slow down, realize that rotten blade and undifferentiated blade are handled, distinguish the post processing of being convenient for through above-mentioned step, the rotten blade provides nutrition for vegetables as fertilizer.

The side surface of the separating tank 35 is hinged with a rake 38, the output end of the separating tank 35 is connected with the output end of the cutting disc 32 in series, the output end pipeline of the expansion cavity is connected with a one-way valve, the output end of the one-way valve is connected with a hydraulic control pipeline, and one end of the hydraulic control pipeline is connected with a pipeline at the hinged position of the rake 38; the hydraulic control pipe that slows down solid sphere 37 advances the articulated department of rake 38 with inside hydraulic pressure propelling movement, makes rake 38 rotatory collect the part that will not spoil and shift out, through above-mentioned step, guarantees to distinguish the degree maximize, and prevention rake 38 takes out most spoil blades and causes the post processing error, and inside timely clearance knockout drum 35 simultaneously, it is rotten partially to prevent not spoil in knockout drum 35.

The mixing mechanism 4 comprises a shell, a support is arranged in the shell, a side surface of the support is in bearing connection with a telescopic rod 41, the other end of the telescopic rod 41 is hinged with an extrusion wheel 42, a permeation bag 43 is arranged in the shell, the side surface of the extrusion wheel 42 is in contact with the permeation bag 43, the input end of the permeation bag 43 is in pipeline connection with the separation tank 35, and the output end of the shell is in pipeline connection with the volume adjusting tank 28; the undamaged leaves enter the permeation bag 43, the telescopic rod 41 is rotated to drive the extrusion wheel 42 to move, the chlorophyll is extruded out of the mesophyll by the extrusion wheel 42 and is attached to the wall of the permeation bag 43, the extrusion wheel 42 rotates continuously, the chlorophyll is extruded out of the permeation bag 43 by the extrusion permeation bag 43 and is mixed with the sterilization raw agent and then enters the metering tank 28, through the steps, the chlorophyll of the undamaged or aged healthy leaves is recovered, and the bactericide is combined through the bacteriocide in the chlorophyll, so that the bactericidal effect is enhanced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.