CN217397880U - Fresh leaf green-keeping machine - Google Patents

Abstract

The utility model discloses a bright leaf machine of storing green, including feeding subassembly, ejection of compact subassembly, storage subassembly and control module, storage subassembly includes storage silo and a plurality of fan, and ejection of compact subassembly includes blanking machine and driving lever, and feeding subassembly includes one-level material loading machine, second grade material loading machine, removes frame, tertiary material loading machine, two level four material loading machines and height detection sensor. Compared with the prior art, the utility model has the advantages that the control module controls the on-off work of the feeding component, the discharging component and the material storing component, so that the fresh leaf green-keeping machine has three different working states of input, storage and output, and the volume in the material storing bin is increased by the arrangement of the movable frame; and the control module controls the height detection sensor, so that the storage height of the fresh leaves is controllable, the automation degree is high, the labor force can be effectively reduced, and the working state of the fresh leaf green keeping machine can be remotely controlled through a terminal.

Description

Fresh leaf green-keeping machine

Technical Field

The utility model relates to the technical field of green tea storage machines, in particular to a fresh tea storage machine.

Background

The green-keeping machine is used as equipment for fresh-keeping and storing processes of fresh leaves, the input device and the storage device of part of the green-keeping machine are independently arranged, more labor force is sometimes consumed to connect the input device and the storage device, the working state is single, the control linkage among the devices is weak, and the automation degree is low.

Some patents, such as patent publication No. CN104522199A, provide a fresh leaf green-keeping and tedding chamber, in which fresh leaves are input from a feed inlet at the front side of the fresh leaf green-keeping and tedding chamber to a green-spreading chain net in the fresh leaf green-keeping and tedding chamber, the height of stacking and storing the fresh leaves on the green-spreading chain net is limited and uncontrollable due to the problem of the arrangement of the feed inlet, and the volume of storing the fresh leaves is small.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the problem that current green keeping machine storage height is uncontrollable, the volume is less, operating condition is single and each device control linkage nature is weak, the utility model aims to solve the technical problem that a fresh leaf green keeping machine that storage height is controllable, the volume is great, three kinds of different operating condition and degree of automation are high is provided.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the fresh leaf green-keeping machine comprises a feeding component, a discharging component, a material storing component and a control module;

the discharging assembly is arranged in the material storage assembly, and the feeding assembly is arranged on one side and above the material storage assembly;

the storage assembly comprises a storage bin and a plurality of fans, and the storage bin is provided with an upper feeding hole and a rear discharging hole;

the discharging assembly comprises a blanking machine arranged in the storage bin and a deflector rod arranged at the rear discharging port, the fans are arranged below the blanking machine, and the fans can convey air flow into the storage bin above the blanking machine;

the feeding assembly comprises a primary feeding machine, a secondary feeding machine, a moving frame, a tertiary feeding machine and two quaternary feeding machines, wherein the moving frame can be arranged above a feeding port on the storage bin in a sliding manner from front to back, the tertiary feeding machine is arranged on the moving frame, the two quaternary feeding machines are arranged on the moving frame in a sliding manner from left to right, the two quaternary feeding machines are distributed below the front end and the rear end of the tertiary feeding machine, and a height detection sensor is arranged on the moving frame;

inputting a state: the control module controls the blanking machine and the deflector rod to be powered off, the control module controls the primary feeding machine, the secondary feeding machine, the moving frame, the tertiary feeding machine, one of the four-stage feeding machine and the height detection sensor to start working, and fresh leaves are conveyed to the blanking machine from the upper feeding port sequentially through the primary feeding machine, the secondary feeding machine, the tertiary feeding machine and the four-stage feeding machine;

and (4) storage state: the control module controls the feeding assembly and the discharging assembly to be powered off, and controls the fans to start to work;

and (3) outputting the state: the control module controls the feeding assembly to be powered off, the control module controls the blanking machine to convey fresh leaves to be output from the rear discharge port, and the driving lever rotates and can control the fresh leaves to be output uniformly.

The utility model discloses further preferred scheme does: the control module controls the movable frame to slide through signals transmitted by the height detection sensor.

The utility model discloses further preferred scheme does: the bin walls of the left side and the right side of the storage bin are provided with a travel switch I, and the control module controls the sliding direction of the moving frame, the conveying direction of the three-stage feeding machine and the conveying work of one of the four-stage feeding machines through the travel switch I.

The utility model discloses further preferred scheme does: the first travel switch is arranged at the center above the bin wall and divides the storage bin into a front half area and a rear half area.

The utility model discloses further preferred scheme does: the movable frame is provided with a trigger roller in a contact mode, the trigger roller can trigger a travel switch I in two different directions, and the travel switch I transmits a 'yes' or 'no' signal to the control module.

The utility model discloses further preferred scheme does: the trigger roller is positioned in the rear half area, the third-stage feeding machine can convey fresh leaves backwards, and the fourth-stage feeding machine positioned below the rear end of the third-stage feeding machine works;

the trigger roller is positioned in the front half area, the three-stage feeding machine can convey fresh leaves forward, and the four-stage feeding machine positioned below the front end of the three-stage feeding machine works.

The movable rack is provided with two sets of slide rails, the four-stage feeding machine is provided with a plurality of pulleys, and the pulleys can drive the four-stage feeding machine to slide left and right on the slide rails.

The utility model discloses further preferred scheme does: two travel switches II are respectively arranged on the two groups of slide rails, and the control module controls the conveying direction and the sliding direction of the matched four-stage feeding machine through the travel switches II.

The utility model discloses further preferred scheme does: one two travel switches on the slide rail are distributed left and right, a four-stage feeding machine which is arranged on the slide rail and is slidably mounted is provided with a plurality of pulleys, and the four-stage feeding machine is slidably mounted on the slide rail left and right through the pulleys.

The utility model discloses further preferred scheme does: and the pulleys are divided into two groups which are distributed left and right, and when one group of pulleys triggers a travel switch II positioned on the same side, the four-stage feeding machine reversely slides and outputs.

Compared with the prior art, the utility model has the advantages that the control module controls the on-off work of the feeding component, the discharging component and the material storing component, so that the fresh leaf green-keeping machine has three different working states of input, storage and output, and the volume in the material storing bin is increased by the arrangement of the movable frame; and the control module controls the height detection sensor, so that the storage height of the fresh leaves is controllable, the automation degree is high, the labor force can be effectively reduced, and the working state of the fresh leaf green-keeping machine can be remotely controlled through a terminal.

Drawings

The present invention will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of illustrating the preferred embodiments and therefore should not be taken as limiting the scope of the invention, and further that, unless otherwise indicated, the drawings are only schematic in conceptually illustrating the composition or construction of the objects described and may contain exaggerated displays, and that the drawings are not necessarily drawn to scale.

FIG. 1 is a schematic view of a structure of a green keeping machine according to a preferred embodiment of the present invention;

FIG. 2 is a second schematic view of the structure of the green keeping machine according to the preferred embodiment of the present invention;

FIG. 3 is a partial cross-sectional view of the preferred embodiment of the present invention between the material storage assembly and the material discharge assembly;

FIG. 4 is a schematic structural view of a shift lever according to a preferred embodiment of the present invention;

FIG. 5 is a schematic structural view of the feeding assembly connected to the storage bin according to the preferred embodiment of the present invention;

FIG. 6 is a schematic diagram illustrating the state of the control module electrically connecting the accessories during the feeding of the first half of the preferred embodiment of the present invention;

fig. 7 is a schematic diagram illustrating the state of the control module being electrically connected to the accessories during the feeding of the rear-front half of the preferred embodiment of the present invention;

FIG. 8 is a schematic diagram illustrating the state of the control module being electrically connected to the accessories during storing according to the preferred embodiment of the present invention;

fig. 9 is a schematic diagram of the state of the control module being connected to each accessory in power-on state during discharging in the preferred embodiment of the present invention.

In the figure: 1. 1-1, feeding a material bin; 2. a control module; 01. a feeding assembly: 3. a first-level feeding machine 3-1 and a baffle plate; 4. a secondary feeding machine; 5. 5-1 parts of a moving frame, 5-2 parts of a trigger roller, 5-3 parts of a front sliding rail and a rear sliding rail; 6. a third-stage feeding machine; 7a, a front four-stage feeding machine, 7b, a rear four-stage feeding machine, 7-1 and pulleys; 8. a travel switch I; 9a, a second left travel switch, 9b and a second right travel switch; 10. a height detection sensor; 02. a discharging component: 11. a blanking machine; 12. the device comprises a deflector rod 12-1, a rotating shaft 12-2, a deflector part 12-2a, a connecting section 12-2b and a deflector section; 03. the material storage component comprises: 13. a storage bin 13-1, an air cavity 13-2, an upper feeding port 13-3 and a rear discharging port; 14. a fan.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, and those skilled in the art will appreciate that these descriptions are illustrative only, exemplary and should not be construed as limiting the scope of the present invention.

It should be noted that: like reference numerals refer to like items in the following figures, and thus, once an item is defined in one figure, it may not be further defined and explained in subsequent figures.

The embodiment mainly explains the fresh leaf green-keeping machine with controllable storage height, large volume, three different working states and high automation degree as follows:

as shown in fig. 1-9, fresh leaf ensiling machine, including feeding subassembly 01, ejection of compact subassembly 02, storage component 03 and control module 2, control module 2 control feeding subassembly 01, ejection of compact subassembly 02 and storage component 03 power-on and power-off work, and storage component 03 includes storage silo 13 and a plurality of fan 14, and ejection of compact subassembly 02 locates in the storage silo 13, and in this embodiment, feeding subassembly 01 locates the right side and the top of storage silo 13.

Preferably, the control module 2 can be a PLC controller.

The discharging assembly 02 comprises a discharging machine 11 and two shifting rods 12, a rear discharging port 13-3 is arranged below the rear of a storage bin 13, the discharging machine 11 is arranged in the storage bin 13, the two shifting rods 12 are rotatably arranged at the rear discharging port 13-3 and are distributed up and down, the shifting rods 12 above the two shifting rods are slightly arranged in front of the storage bin 13, the storage bin 13 below the discharging machine 11 forms an air cavity 13-1, a plurality of fans 14 are communicated with the air cavity 13-1, and the fans 14 can convey air flow to pass through the discharging machine 11 to the storage bin 13 above the discharging machine 11.

Preferably, the blanking machine 11 can be a mesh chain conveyor or a chain scraper conveyor with a plurality of vent holes.

The deflector rod 12 is provided with a rotating shaft 12-1 and a plurality of poking parts 12-2 arranged on the radial wall surface of the rotating shaft 12-1, the poking parts 12-2 are divided into four groups, the poking parts 12-2 in each group are distributed along the axial direction of the shaft center of the rotating shaft 12-1, and the deflector rod 12 is arranged at the rear discharge port 13-3 of the storage bin 13 through the rotating shaft 12-1 in a rotating way.

The poking part 12-2 is provided with a connecting section 12-2a and a poking section 12-2b which are connected, one end of the connecting section 12-2a is connected with the radial wall surface of the rotating shaft 12-1, the other end of the connecting section 12-2a is connected with the poking section 12-2b, the poking section 12-2b is arranged along the axial direction of the rotating shaft 12-1, the poking part 12-2 is in an L-shaped structure, an arc section is arranged between the connecting section 12-2a and the poking section 12-2b for connection, the included angle between the connecting section 12-2a and the poking section 12-2b is an obtuse angle, and preferably, the poking sections 12-2b on two adjacent groups of poking parts 12-2 are opposite in direction.

Feeding component 01 includes one-level material loading machine 3, second grade material loading machine 4, removal frame 5, tertiary material loading machine 6 and two level four material loading machines, storage silo 13 top is equipped with feed inlet 13-2, one-level material loading machine 3 locates storage silo 13 right side, and second grade material loading machine 4 couples with one-level material loading machine 3 and is located feed inlet 13-2 top, one-level material loading machine 3 can carry bright leaf to second grade material loading machine 4 on, preferentially, one-level material loading machine 3, second grade material loading machine 4, tertiary material loading machine 6 and two level four material loading machines can select for use band conveyer or drag chain conveyor.

In order to ensure that the primary feeding machine 3 can stably convey fresh leaves to the secondary feeding machine 4, a plurality of baffles 3-1 are arranged on the conveying belt of the primary feeding machine 3, the baffles 3-1 are perpendicular to the conveying belt, and the length of the baffles 3-1 can be consistent with the width of the conveying belt of the primary feeding machine 3.

The movable frame 5 can be installed above the feeding port 13-2 on the storage bin 13 in a front-back sliding mode, the three-level feeding machine 6 is fixedly installed on the movable frame 5, the two four-level feeding machines can be installed on the movable frame 5 in a left-right sliding mode, the moving member is provided with a front sliding rail 5-2 and a rear sliding rail 5-3, the two four-level feeding machines are respectively located at the front end and the rear end of the three-level feeding machine 6, the four-level feeding machine located at the front end is a front four-level feeding machine 7a, the front four-level feeding machine 7a is installed on the front sliding rail 5-2 in a left-right sliding mode, the four-level feeding machine located at the rear end is a rear four-level feeding machine 7b, and the rear four-level feeding machine 7b is installed on the rear sliding rail 5-3 in a left-right sliding mode.

Preferably, the fresh leaves can sequentially pass through the primary feeding machine 3, the secondary feeding machine 4, the tertiary feeding machine 6 and the front four-stage feeding machine 7 a/the rear four-stage feeding machine 7b and fall onto the discharging machine in the storage bin 13 from the feeding port.

In this embodiment, the one-level feeding machine 3 is arranged obliquely upward, the ground 1 is provided with the sunken feeding bin 1-1, the lower end of the one-level feeding machine 3 is positioned in the feeding bin 1-1, the upper end of the one-level feeding machine 3 is positioned above the second-level feeding machine 4, the one-level feeding machine 3 can convey fresh leaves in the rear-upper direction, the conveying direction of the second-level feeding machine 4 faces left, the third-level feeding machine 6 can convey the fresh leaves forward or backward, and preferably, the fresh leaves can be conveyed into the feeding bin 1-1 by a vehicle or a conveyor.

When the third-stage feeding machine 6 conveys the fresh leaves forwards, the front fourth-stage feeding machine 7a slides left and right and works;

when the third-stage feeder 6 conveys the fresh leaves toward the rear, the rear-stage feeder 7b slides left and right and works.

In order to control the front-back sliding of the movable frame 5, the conveying direction of the three-level feeding machine 6 and the operation of the front-level feeding machine 7a or the rear-level feeding machine 7b, the wall of the left side and the right side of the storage bin 13 is provided with a first travel switch 8, the first travel switch 8 is arranged at the central position above the wall of the bin, the first travel switch 8 divides the storage bin 13 into a front half area and a rear half area, the control module 2 controls the movable frame 5, the three-level feeding machine 6, the front-level feeding machine 7a or the rear-level feeding machine 7b to operate through the first travel switch 8, preferably, the rear discharge port 13-3 of the storage bin 13 is arranged in the rear half area, and when the movable frame 5 is controlled to move forwards or backwards by the control module 2, the first-level feeding machine 3, the second-level feeding machine 4, the three-level feeding machine 6 and the front-level feeding machine 7 a/rear-level feeding machine 7b stop conveying operation.

The movable frame 5 is provided with a trigger roller 5-1 capable of triggering a travel switch I8, the trigger roller 5-1 can trigger the travel switch I8 in two different directions, the travel switch I8 transmits a 'yes' or 'no' signal to the control module 2, preferably, the 'yes' signal transmitted from the travel switch I8 to the control module 2 is a closing signal, the 'no' signal transmitted from the travel switch I8 to the control module 2 is an opening signal, and preferably, the travel switch I8 can adopt a toggle switch.

In this embodiment, the trigger roller 5-1 is located in the rear half area or the trigger roller 5-1 slides from the front half area to the rear half area and triggers the first travel switch 8, and at this time, the signal transmitted to the control module 2 by the first travel switch 8 is "yes"; and the trigger roller 5-1 is positioned in the front half area or the trigger roller 5-1 slides from the rear half area to the front half area and triggers the travel switch I8, and the signal transmitted to the control module 2 by the travel switch I8 is NO.

When the feeding assembly 01 works, the primary feeding machine 3 conveys the fresh leaves in the feed bin 1-1 to the secondary feeding machine 4, and the secondary feeding machine 4 conveys the fresh leaves to the tertiary feeding machine 6;

when the signal transmitted to the control module 2 by the first travel switch 8 is 'yes', the third-stage feeding machine 6 transmits the fresh leaves backwards to the rear fourth-stage feeding machine 7 b;

when the signal transmitted to the control module 2 by the first travel switch 8 is 'no', the third-stage feeder 6 forwards transmits the fresh leaves to the fourth-stage feeder 7 a.

In order to ensure that the fresh leaves can be uniformly input to the discharging machine when the rear four-stage feeding machine 7b or the front four-stage feeding machine 7a slides left and right, two travel switches II which are distributed left and right are respectively arranged on the front sliding rail 5-2 and the rear sliding rail 5-3, wherein the second travel switch on the left side is a second left travel switch 9a, and the second travel switch on the right side is a second right travel switch 9b, the front four-stage feeding machine 7a and the rear four-stage feeding machine 7b are respectively provided with a pulley 7-1, the front four-stage feeding machine 7 a/the rear four-stage feeding machine 7b are slidably mounted through the pulleys 7-1 and the front sliding rail 5-2/the rear sliding rail 5-3, preferably, the left stroke switch II 9a and the right stroke switch II 9b can adopt point contact type stroke switches, the pulleys 7-1 are provided with four pulleys, two pulleys are a group, and the two groups of pulleys 7-1 are distributed in the left-right direction.

Preferably, the control system controls the sliding and conveying direction of the front four-stage feeder 7a (rear four-stage feeder 7b) through a left travel switch II 9a and a right travel switch II 9b on the front slide rail 5-2 (rear slide rail 5-3), and the conveying direction and the sliding direction of the front four-stage feeder 7a or the rear four-stage feeder 7b are arranged in the same direction.

A group of pulleys 7-1 on the left side of a front four-stage feeding machine 7a (a rear four-stage feeding machine 7b) triggers a left travel switch II 9a on a front slide rail 5-2 (a rear slide rail 5-3), the left travel switch II 9a sends a trigger signal to a control module 2, and the control module 2 controls the front four-stage feeding machine 7a (the rear four-stage feeding machine 7b) to move right and convey fresh leaves towards the right;

a group of pulleys 7-1 on the right side of the front four-stage feeding machine 7a (the rear four-stage feeding machine 7b) triggers a right travel switch II 9b on the front sliding rail 5-2 (the rear sliding rail 5-3), the right travel switch II 9b sends a trigger signal to the control module 2, and the control module 2 controls the front four-stage feeding machine 7a (the rear four-stage feeding machine 7b) to move left and convey fresh leaves towards the left.

In order to ensure that the height of the fresh leaves stacked in the storage bin 13 is adjustable, the height detection sensor 10 is arranged on the movable frame 5, and the control system controls the height of the fresh leaves stacked on the feeding machine through the height detection sensor 10, in this embodiment, two height detection sensors 10 are arranged and are respectively arranged below the front sliding rail 5-2 and the rear sliding rail 5-3, and preferably, the distance of the control system controlling the movable frame 5 to move through the signal of the height detection sensor 10 is generally the conveying width size of the front-stage feeding machine 7a or the rear-stage feeding machine 7 b.

Through control module 2 control, the utility model discloses operating condition that has three kinds of differences.

Fresh leaf input state: the control module 2 controls the blanking machine 11 and the deflector rod 12 to be powered off and not work, the control module 2 controls the first-level feeding machine 3, the second-level feeding machine 4, the third-level feeding machine 6 and the front four-level feeding machine 7a or the rear four-level feeding machine 7b to convey fresh leaves to enter from a feeding port above the storage bin 13 and to be stacked on the discharging machine, the control system judges whether the stacking height of the fresh leaves on the feeding machine reaches a required height or not through a signal provided by the height detection sensor 10 and controls the moving frame 5 to move forwards or backwards above the storage bin 13, preferably, the two deflector rods 12 can locally limit the fresh leaves to fall from the discharging port of the storage bin 13 through the connecting section 12-2a and the shifting section 12-2 b.

Storage state of fresh leaves: the control module 2 controls the feeding assembly 01 and the discharging assembly 02 to be powered off and not work, and the control module 2 controls the plurality of fans 14 to start, so that the fresh leaves are kept in a ventilation state when stacked and stored, and the fresh leaves are prevented from being subjected to sultry inactivation due to stacking.

Fresh leaf output state: the control module 2 controls the feeding assembly 01 to be powered off and not work, the control module 2 controls the feeding machine 11 to convey and the shifting lever 12 to rotate, the feeding machine 11 conveys fresh leaves to be output from the rear discharge hole 13-3, the shifting lever 12 rotates, and the shifting section 12-2b on the shifting lever 12 shifts the fresh leaves to enable the fresh leaves to uniformly fall from the rear discharge hole 13-3 to be output.

Preferably, the control system can control the fans 14 to blow air in the fresh leaf input state and the fresh leaf output state.

Can drop from each material loading machine direction of delivery side when avoiding bright leaf input, the baffle is all installed to each material loading machine direction of delivery's both sides, and the baffle restriction drops from material loading machine direction of delivery side when bright leaf is carried.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which the products of the present invention are usually placed in when they are used, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the components or elements to be referred must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The above has been introduced in detail the fresh leaves green-keeping machine provided by the present invention, and the specific embodiments applied herein are right the principle and the implementation of the present invention have been explained, and the explanation of the above embodiments is only used to help understand the present invention and the core idea, it should be pointed out, for the ordinary technicians in this technical field, without departing from the present invention, the present invention can also be right the present invention has a plurality of improvements and modifications, and these improvements and modifications also fall into the protection scope of the claims of the present invention.

Claims (10)

1. The fresh leaf green-keeping machine comprises a feeding component, a discharging component, a material storage component and a control module;

the discharging assembly is arranged in the material storage assembly, and the feeding assembly is arranged on one side and above the material storage assembly;

the storage assembly is characterized by comprising a storage bin and a plurality of fans, wherein the storage bin is provided with an upper feeding hole and a rear discharging hole;

the discharging assembly comprises a blanking machine arranged in the storage bin and a deflector rod arranged at the rear discharging port, the fans are arranged below the blanking machine and can convey air flow to the storage bin above the blanking machine;

the feeding assembly comprises a primary feeding machine, a secondary feeding machine, a moving frame, a tertiary feeding machine and two quaternary feeding machines, wherein the moving frame can be arranged above a feeding port on the storage bin in a sliding manner from front to back, the tertiary feeding machine is arranged on the moving frame, the two quaternary feeding machines are arranged on the moving frame in a sliding manner from left to right, the two quaternary feeding machines are distributed below the front end and the rear end of the tertiary feeding machine, and a height detection sensor is arranged on the moving frame;

inputting a state: the control module controls the blanking machine and the shifting lever to be powered off, the control module controls the primary feeding machine, the secondary feeding machine, the moving frame, the tertiary feeding machine, one of the four-stage feeding machines and the height detection sensor to start, and the fresh leaves are conveyed to the blanking machine from the upper feeding port sequentially through the primary feeding machine, the secondary feeding machine, the tertiary feeding machine and the four-stage feeding machine;

storage state: the control module controls the feeding assembly and the discharging assembly to be powered off, and controls the fans to start to work;

and (3) outputting the state: the control module controls the feeding assembly to be powered off, the control module controls the blanking machine to convey fresh leaves to be output from the rear discharge hole, and the driving lever rotates and can control the fresh leaves to be output uniformly.

2. The fresh-leaf green keeping machine as claimed in claim 1, wherein the control module controls the moving frame to slide by a signal transmitted by the height detection sensor.

3. The fresh-leaf green-keeping machine according to claim 1, wherein the walls of the left and right sides of the storage bin are provided with a first travel switch, and the control module controls the sliding direction of the moving frame, the conveying direction of the third-level material loading machine and the conveying operation of one of the fourth-level material loading machines through the first travel switch.

4. The fresh-leaf green-keeping machine according to claim 3, wherein the first travel switch is arranged at a central position above the bin wall, and the first travel switch divides the storage bin into a front half area and a rear half area.

5. The fresh-leaf green-keeping machine according to claim 4, characterized in that the movable frame is provided with a trigger roller which can trigger a travel switch I in two different directions, and the travel switch I transmits a 'yes' or 'no' signal to the control module.

6. The fresh-leaf green-keeping machine according to claim 5, wherein the trigger roller is located in the rear half area, a tertiary feeder can convey fresh leaves toward the rear, and a quaternary feeder located below the rear end of the tertiary feeder operates;

the trigger roller is positioned in the front half area, the three-stage feeding machine can convey fresh leaves forward, and the four-stage feeding machine positioned below the front end of the three-stage feeding machine works.

7. The fresh-leaf green-keeping machine according to claim 1, wherein two sets of slide rails are arranged on the moving frame, and a plurality of pulleys are arranged on the four-stage feeding machine, and can drive the four-stage feeding machine to slide left and right on the slide rails.

8. The fresh-leaf green-keeping machine according to claim 7, wherein two travel switches II are respectively arranged on the two groups of slide rails, and the control module controls the conveying direction and the sliding direction of the matched four-stage feeding machine through the travel switches II.

9. The fresh-leaf green-keeping machine according to claim 8, wherein two travel switches are distributed on the left and right of one slide rail, a four-stage feeding machine which is arranged on the slide rail and is slidably mounted on the slide rail is provided with a plurality of pulleys, and the four-stage feeding machine is slidably mounted on the slide rail through the pulleys in the left and right direction.

10. The fresh-leaf green-keeping machine according to claim 9, wherein the pulleys are divided into two groups distributed from left to right, and when one group of pulleys triggers the second travel switch located at the same side, the four-stage feeding machine slides and outputs reversely.

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