CN114532059A

CN114532059A - Wisdom agricultural green corn processing treatment facility

Info

Publication number: CN114532059A
Application number: CN202210326921.1A
Authority: CN
Inventors: 杜建萍
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-30
Filing date: 2022-03-30
Publication date: 2022-05-27

Abstract

An intelligent agricultural green corn processing equipment, includes: the device comprises a shell part, a harvesting part, a dewatering and drying part and a bagging part; wheels are arranged at the lower end of the shell part and can be moved to a designated place as required; the harvesting part is arranged on the shell part and is responsible for harvesting green corns and carrying out primary cutting treatment on the green corns; the dehydrating and drying part and the bagging part are arranged in the shell part, the dehydrating and drying part is positioned above the bagging part, the dehydrating and drying part is responsible for collecting the green corn sections cut by the harvesting part and performing dehydrating and drying treatment, and the bagging part is responsible for bagging the treated green corn sections; the invention provides an intelligent agricultural green corn processing and treating device which is used for harvesting green corns, dewatering and drying the green corns, directly bagging the green corns, saving manpower and material resources, providing working efficiency, ensuring that the green corns are not damped and damaged when being stored for a long time, providing guarantee for the health of livestock eating the green corns and improving economic benefits.

Description

Wisdom agricultural green corn processing treatment facility

Technical Field

The invention relates to the technical field of agricultural machinery, in particular to intelligent agricultural green corn processing equipment.

Background

With the rapid development of livestock breeding in China, livestock breeding has entered an intensive and micronized era, and how to reduce cost and improve competitiveness becomes the subject faced by each enterprise. High-quality pasture grass is increasingly favored by people due to high nutritional value and low cost, and as a main link, green corn becomes an indispensable feed, the traditional green corn harvesting mode mostly adopts manual harvesting, wastes time and labor, is extremely easy to moisten when being stored, and is fed to livestock after being moistened, so that the health of the livestock is influenced to a certain extent, the livestock dies seriously, and serious economic loss is brought to farmers; therefore, need an wisdom agricultural green corn processing treatment facility, when reaping for green corn, carry out dehydration drying process, the back directly goes on the bagging-off, uses manpower and materials sparingly, when providing work efficiency, guarantees that green corn stores for a long time and can not wet the corruption, provides the guarantee for the health of the livestock of eating green corn, improves economic benefits.

Disclosure of Invention

Aiming at the technical problems, the invention provides the processing equipment for the green corns in the intelligent agriculture, which is used for harvesting the green corns, dewatering and drying the green corns, directly bagging the green corns, saving manpower and material resources, providing the working efficiency, ensuring that the green corns are not damped and damaged when being stored for a long time, providing the guarantee for the health of livestock eating the green corns and improving the economic benefit.

The technical scheme adopted by the invention is as follows: an wisdom agricultural green corn processing equipment includes: the device comprises a shell part, a harvesting part, a dehydrating and drying part and a bagging part; the lower end of the shell part is provided with a wheel; the harvesting part is arranged on the shell part; the dehydrating and drying part and the bagging part are arranged in the shell part, and the dehydrating and drying part is positioned above the bagging part;

the housing portion includes: the shell, the top plate and the fixing plate; the shell can walk on the ground; the top plate is fixedly arranged above the shell; the fixed plate is arranged on the side surface of the shell;

the harvesting section comprises: the device comprises a conveying mechanism, a transition box, an electric cylinder A, a knife switch, a round rod A, a screw rod sliding block group A, a motor B, U-shaped control rod and a harvesting mechanism; the conveying mechanism is arranged on the shell part; the transition box is fixedly arranged on the side surface of the conveying mechanism; the fixed end of the electric cylinder A is arranged on the lower end face of the top plate, and the piston rod end of the electric cylinder A is provided with a long rod; the round rod A is rotatably arranged in a round hole of the side panel of the conveying mechanism, a cam is arranged on the round rod A, and one end of the round rod A is fixedly connected with a shaft of a motor fixedly arranged on the side of the conveying mechanism; the knife switch is slidably arranged in a groove on a plate on the side surface of the conveying mechanism, a spring is arranged at the end part of the knife switch, and the other end of the spring is connected with the plate on the side surface of the conveying mechanism; the two screw rod sliding block groups A are arranged on two sides of the conveying mechanism, and one ends of screw rods in the two screw rod sliding block groups A are connected through a synchronous belt; the motor B is fixedly arranged on the side surface of the top plate, and a motor shaft of the motor B is connected with a synchronous belt which is connected with the lead screws in the two lead screw sliding block groups A; the two U-shaped control rods are respectively and rotatably arranged on the sliding blocks on the two lead screw sliding block groups A; the harvesting mechanism is arranged at the front end of the shell;

the dehydration drying part comprises: a dehydration mechanism and a drying mechanism; the dehydration mechanism is arranged in the shell part and is positioned at the lower end of the conveying mechanism; the drying mechanism is arranged below the dehydration mechanism;

the bagging section includes: the filling mechanism, the woven bag processing mechanism and the opening sealing mechanism; the filling mechanism is arranged in the shell part and is positioned at the lower end of the drying mechanism; the woven bag processing mechanisms are arranged on one side of the filling mechanism; the opening seals the mechanism and has two sets ofly, and every group opening seals the mechanism and installs respectively in two exits of collecting the box side, just, every group opening seals the mechanism and is located two sets of braided bag processing mechanism's side respectively.

Preferably, the harvesting mechanism comprises: the telescopic rod, the motor C, the round rod B, the tool bit and the special-shaped cam; the fixed end of the telescopic rod is fixedly arranged at the front end of the shell part, and the piston rod end of the telescopic rod is provided with a rack; the motor C is fixedly arranged on the side surface of the telescopic rod, a motor shaft of the motor C is fixedly connected with one end of the round rod B, and the round rod B is provided with two gears which are respectively meshed with the racks at the end of the piston rod of the telescopic rod; the upper tool bit is fixedly connected with the piston rod end of the telescopic rod, and the lower tool bit is slidably mounted at the lower end of the upper tool bit; the special-shaped cam is rotatably arranged in a round hole in the middle of the upper tool bit, the special-shaped cam is in intermittent contact with small rods at two ends of a groove of the lower tool bit, and the upper end of the special-shaped cam is fixedly connected with a shaft of a motor fixedly arranged on the upper tool bit.

Preferably, the dewatering mechanism comprises: the device comprises a support plate A, a screw rod sliding block group B, an annular frame, a spin dryer tube, an electric cylinder B, a motor D and a gear A; the supporting plate A is fixedly arranged in the shell part, and a round hole is formed in the supporting plate A; the screw rod sliding block group B is arranged on the upper end surface of the supporting plate A, and a screw rod in the screw rod sliding block group B is fixedly connected with a shaft of a motor fixedly arranged in the shell part; the annular frame is fixedly arranged on a slide block in the lead screw slide block group B; the spin dryer tube is slidably arranged on the annular frame, and a circle of gear teeth are arranged around the spin dryer tube; the support rod on the cylinder body part of the electric cylinder B is fixedly connected with the support plates at the two ends of the conveying mechanism; the motor D is fixedly arranged on the side surface of the lead screw sliding block group B, a motor shaft of the motor D is fixedly connected with the gear A, and the gear A is meshed with gear teeth on the spin dryer tube when the spin dryer tube moves to the position right below the electric cylinder B.

Preferably, the piston rod end of the electric cylinder B is provided with a circular plate.

Preferably, the drying mechanism includes: the drying device comprises a sliding chute, a motor A, a motor E, a round rod C, a drying barrel and an annular cover; the two sliding chutes are respectively arranged on two sides of the interior of the shell part, and racks are arranged on the inner sides of the sliding chutes; the motor E is fixedly arranged at the lower end of the supporting plate A, and a motor shaft of the motor E is fixedly connected with one end of the round rod C; the round rod C is rotatably arranged in a round hole of the lower single plate of the supporting plate A, and two gears are arranged on the round rod C; the drying barrel is rotatably arranged on the inner side of the sliding chute, gears are arranged at two ends of the drying barrel, and the gears are meshed with racks on the inner side of the sliding chute; the motor A is slidably arranged in the groove on the sliding chute, and a motor shaft of the motor A is fixedly connected with a gear at one end of the drying barrel; the annular cover rotates and installs on the drying barrel, and the both ends of annular cover are equipped with the teeth of a cogwheel, the teeth of a cogwheel when the drying barrel receives green corn with be close to the gear intermeshing on the round bar C who reaps the part, the teeth of a cogwheel with keep away from the gear intermeshing on the round bar C who reaps the part when green corn is emitted to the drying barrel.

Preferably, the filling mechanism includes: the collecting box, the screw rod sliding block group C, the motor F and the push plate; the collecting box is fixedly arranged in the shell part and is positioned at the lower end of the drying mechanism; the lead screw sliding block group C is arranged on the collecting box; the motor F is arranged on the side surface of the collecting box, and a motor shaft of the motor F is fixedly connected with one end of a screw rod in the screw rod sliding block group C; the push plate is slidably mounted in the collection box and is fixedly connected with the sliding block in the lead screw sliding block group C.

Preferably, the woven bag processing mechanism comprises: the device comprises a bracket, a scroll, a screw rod sliding block group D, a motor G, a supporting plate, a clamp A and an electric cylinder C; the bracket is arranged at the lower end of the conveying mechanism; the scroll is arranged on the bracket, and woven bags connected end to end are wound on the scroll; the lead screw sliding block groups D are arranged on the side surfaces of the supports, and one ends of lead screws in the lead screw sliding block groups D are connected through synchronous belts; the motor G is fixedly arranged in the shell part, and a motor shaft of the motor G is fixedly connected with a lead screw in a lead screw sliding block group D; the supporting plate is fixedly arranged at the lower end of the lead screw sliding block group D; the clamp A is fixedly arranged on a slide block in the screw rod slide block group D; the cylinder body part of the electric cylinder C is fixedly arranged at the lower end of the sliding groove, and a cutter is arranged at the piston rod end of the electric cylinder C.

Preferably, the opening and closing mechanism includes: a long rod A, an electric cylinder D, a clamp B and a sealing device; the two long rods A are arranged, the lower long rod A is fixedly arranged at an opening on the side surface of the collecting box, the upper long rod A is slidably arranged on the side surface of the collecting box, and the two long rods A are connected through a connecting rod; the cylinder body part of the electric cylinder D is fixedly arranged at the lower end of a plate on the side surface of the collecting box, and the piston rod end of the electric cylinder D is fixedly connected with the long rod A on the piston rod end; the number of the clips B is four, two of the clips B are arranged on the upper long rod A, and the other two clips B are arranged on the lower long rod A; the sealing device has two parts, one part is arranged on the upper long rod A, and the other part is arranged on the lower long rod A.

Compared with the prior art, the invention has the beneficial effects that:

1. at first, the motor C is started to drive the round rod B to rotate, the round rod B drives the piston rod end of the telescopic rod to move up and down, the special-shaped cam is in intermittent contact with the small rods at two ends of the groove of the lower tool bit, the lower tool bit is driven to move left and right at the lower end of the upper tool bit, and therefore corn harvesting is conducted, and labor is saved.

2. After the green corn sections are placed in the spin dryer tube, the motor installed in the shell is started to drive the lead screw sliding block set B to work, the spin dryer tube is driven to move to be aligned with the round hole in the supporting plate A, at the moment, the green corn in the spin dryer tube falls into the drying tube along the round hole in the supporting plate A, preliminary dehydration is completed, and the working efficiency is improved.

3. After the green maize after the dehydration falls into drying barrel, motor E on the left side starts, drives round bar C and rotates, and round bar C drives the annular lid and rotates on drying barrel, and the opening part on drying barrel is opened to the annular lid, and the opening part of drying barrel this moment is located the lower extreme, and like this, the green maize that drying barrel dried just falls in collecting box 401, guarantees that the green maize is complete dry, prevents that it from rotten because of long-time preservation.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 and 3 are schematic internal structural views of the overall structure of the present invention.

Fig. 4 is a schematic structural diagram of a housing part of the present invention.

Fig. 5 and 6 are schematic views of the structure of the harvesting part of the invention.

Fig. 7 is a schematic view of a harvesting mechanism in the harvesting portion of the present invention.

FIG. 8 is a schematic view of the structure of the dewatering and drying section of the present invention.

FIG. 9 is a schematic view of a dewatering mechanism in the dewatering dryer section of the present invention.

FIG. 10 is a schematic view of a drying mechanism in the dehydration drying section of the present invention.

Fig. 11 is a schematic structural view of a bagging part of the invention.

Fig. 12 is a schematic view of a filling mechanism and a woven bag processing mechanism in the bagging section of the invention.

Fig. 13 is a schematic view of an opening sealing mechanism in the bagging section of the present invention.

Reference numerals

1-a housing portion; 2-a harvesting part; 3-a dehydration drying part; 4-bagging part; 101-a housing; 102-a top plate; 103-a fixed plate; 201-a transport mechanism; 202-a transition box; 203-electric cylinder A; 204-a knife switch; 205-round bar a; 206-lead screw slider group a; 207-Motor B; 208-U-shaped control rod; 209-telescopic rod; 210-Motor C; 211-round bar B; 212-a cutter head; 213-a shaped cam; 301-support plate a; 302-lead screw slider group B; 303-an annular frame; 304-a spin dryer tube; 305-electric cylinder B; 306-motor D; 307-gear a; 308-a chute; 309-Motor A; 310-motor E; 311-round bar C; 312-drying barrel; 313-an annular cover; 401-a collection cassette; 402-lead screw slider group C; 403-motor F; 404-a push plate; 405-a scaffold; 406-a reel; 407-screw slider group D; 408-Motor G; 409-a supporting plate; 410-clip a; 411-electric cylinder C; 412-long rod A; 413-electric cylinder D; 414-clip B; 415-sealer.

Detailed Description

In the following description of the present invention, it is to be noted that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the following description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

The invention will be further described with reference to the drawings and illustrative embodiments, which are provided herein for the purpose of illustrating the invention by way of illustration and description, and not for the purpose of limiting the same. In addition, if a detailed description of the known art is not necessary to show the features of the present invention, it is omitted.

Referring to fig. 1-13, an intelligent agricultural green corn processing apparatus includes: a shell part 1, a harvesting part 2, a dehydration drying part 3 and a bagging part 4; the lower end of the shell part 1 is provided with wheels which can be moved to a designated place according to the requirement; the harvesting part 2 is arranged on the shell part 1, and the harvesting part 2 is used for harvesting green corns and performing primary cutting treatment on the green corns; the dehydrating and drying part 3 and the bagging part 4 are arranged in the shell part 1, the dehydrating and drying part 3 is positioned above the bagging part 4, the dehydrating and drying part 3 is responsible for collecting the green corn sections cut by the harvesting part 2 and performing dehydrating and drying treatment, and the bagging part 4 is responsible for bagging the treated green corn sections;

the housing portion 1 shown in fig. 4 includes: a housing 101, a top plate 102, and a fixing plate 103; the shell 101 can walk on the ground; the top plate 102 is fixedly mounted above the housing 101; the fixing plate 103 is mounted on the side of the housing 101;

the harvesting portion 2 as shown in fig. 5-7 comprises: the device comprises a transmission mechanism 201, a transition box 202, an electric cylinder A203, a knife switch 204, a round rod A205, a lead screw slider group A206, a motor B207, a U-shaped control rod 208 and a harvesting mechanism; the conveying mechanism 201 is arranged on the shell part 1, and the conveying mechanism 201 can convey the cut green corns; the transition box 202 is fixedly arranged on the side surface of the conveying mechanism 201, and the cut green corns can fall into the dehydration drying part 3 through the transition box 202; the fixed end of the electric cylinder A203 is arranged on the lower end surface of the top plate 102, and the piston rod end of the electric cylinder A203 is provided with a long rod which can press the corn which is not cut into sections so as to be convenient for cutting into sections; the round rod A205 is rotatably arranged in a round hole of a side panel of the conveying mechanism 201, a cam is arranged on the round rod A205, and one end of the round rod A205 is fixedly connected with a shaft of a motor fixedly arranged on the side of the conveying mechanism 201; the knife switch 204 is slidably arranged in a groove on a plate on the side surface of the conveying mechanism 201, a spring is arranged at the end part of the knife switch 204, and the other end of the spring is connected with the plate on the side surface of the conveying mechanism 201; specifically, a motor on the side surface of the conveying mechanism 201 is started to drive a round rod A205 to rotate, a cam on the round rod A205 pushes a switch blade 204 to move up and down, and the switch blade 204 cuts green corns passing through the lower end of the switch blade into segments; two lead screw sliding block groups A206 are arranged, the two lead screw sliding block groups A206 are arranged at two sides of the conveying mechanism 201, and one ends of lead screws in the two lead screw sliding block groups A206 are connected through a synchronous belt; the motor B207 is fixedly arranged on the side surface of the top plate 102, and the motor shaft of the motor B is connected with a synchronous belt which is connected with the lead screws in the two lead screw sliding block groups A206; two U-shaped control rods 208 are provided, and the two U-shaped control rods 208 are respectively and rotatably arranged on the sliders of the two lead screw slider groups A206; when the two U-shaped control rods 208 are used for harvesting green corns, firstly, a row of green corns are clamped, so that the green corns are toppled over the conveying mechanism 201 after being cut; the harvesting mechanism is arranged at the front end of the shell 101 and is responsible for cutting the green corns in rows;

the dehydration drying part 3 as shown in fig. 8 to 10 includes: a dehydration mechanism and a drying mechanism; the dehydration mechanism is arranged in the shell part 1 and positioned at the lower end of the conveying mechanism 201, and is responsible for dehydrating the green corns after being cut into sections; the drying mechanism is arranged below the dehydrating mechanism and is responsible for drying the dehydrated green corns;

the bagging section 4 shown in fig. 11 to 13 includes: the filling mechanism, the woven bag processing mechanism and the opening sealing mechanism; the filling mechanism is arranged in the shell part 1 and is positioned at the lower end of the drying mechanism; the filling mechanism is responsible for bagging the dried green corns; the woven bag processing mechanisms are arranged on one side of the filling mechanism, and carry out the bag taking work of the woven bags; the opening and sealing mechanisms are divided into two groups, each group of opening and sealing mechanisms is respectively arranged at two outlets on the side surface of the collecting box 401, and each group of opening and sealing mechanisms is respectively positioned on the side surfaces of the two groups of woven bag processing mechanisms; the opening sealing mechanism opens the opening of the woven bag when bagging is carried out, and sealing work is carried out after the bagging is finished.

As shown in fig. 7, the fixed end of the telescopic rod 209 is fixedly arranged at the front end of the shell part 1, and the piston rod end of the telescopic rod 209 is provided with a rack; the motor C210 is fixedly arranged on the side surface of the telescopic rod 209, a motor shaft of the motor C is fixedly connected with one end of a round rod B211, two gears are arranged on the round rod B211, and the two gears are respectively meshed with racks at the piston rod end of the telescopic rod 209; specifically, when harvesting green corns, firstly, the motor C210 is started to drive the round rod B211 to rotate, and the round rod B211 drives the piston rod end of the telescopic rod 209 to move up and down, so as to adjust the height of the harvested corns; the number of the cutter heads 212 is two, the upper cutter head 212 is fixedly connected with the piston rod end of the telescopic rod 209, and the lower cutter head 212 is slidably arranged at the lower end of the upper cutter head 212; the special-shaped cam 213 is rotatably arranged in a round hole in the middle of the upper tool bit 212, the special-shaped cam 213 is in intermittent contact with small rods at two ends of a groove of the lower tool bit 212, and the upper end of the special-shaped cam 213 is fixedly connected with a shaft of a motor fixedly arranged on the upper tool bit 212; specifically, the motor on the cutter head 212 is started to drive the special-shaped cam 213 to rotate, the special-shaped cam 213 is in intermittent contact with the small rods at two ends of the groove of the lower cutter head 212, and the lower cutter head 212 is driven to move left and right at the lower end of the upper cutter head 212, so that corn harvesting is performed.

As shown in fig. 9, the dewatering mechanism has a supporting plate a301 fixedly installed in the housing portion 1, and the supporting plate a301 is provided with a circular hole; a lead screw slider group B302 is arranged on the upper end surface of the support plate A301, and a lead screw in the lead screw slider group B302 is fixedly connected with a shaft of a motor fixedly arranged in the shell part 1; the annular frame 303 is fixedly arranged on a slide block in the lead screw slide block group B302; the spin dryer tube 304 is slidably mounted on the annular frame 303, and a ring of gear teeth are arranged around the spin dryer tube 304; the support rod on the cylinder body part of the electric cylinder B305 is fixedly connected with the support plates at the two ends of the conveying mechanism 201; specifically, after green corn sections are placed in the spin dryer tube 304, a motor installed in the shell part 1 is started to drive a lead screw slider group B302 to work, the lead screw slider group B302 drives an annular frame 303 to move, the annular frame 303 drives the spin dryer tube 304 to move, when the spin dryer tube 304 moves to a position right below an electric cylinder B305, the electric cylinder B305 works, a circular plate at the lower end of the electric cylinder B305 compacts the green corn in the spin dryer tube 304, and water in the green corn is squeezed out; the motor D306 is fixedly arranged on the side surface of the lead screw slider group B302, the motor shaft of the motor D is fixedly connected with the gear A307, and the gear A307 is meshed with the gear teeth on the spin dryer tube 304 when the spin dryer tube 304 moves to the position right below the electric cylinder B305; specifically, at this time, the gear a307 is engaged with the gear teeth on the spin dryer tube 304, the motor D306 is started to drive the gear a307 to rotate, the gear a307 drives the spin dryer tube 304 to rotate, the spin dryer tube 304 rotates at a high speed to perform centrifugal dehydration on the green corn, then the screw rod slider group B302 continues to operate to drive the spin dryer tube 304 to move to be aligned with the circular hole on the support plate a301, and at this time, the green corn in the spin dryer tube 304 falls into the drying tub 312 along the circular hole on the support plate a 301.

The piston rod end of the electric cylinder B305 shown in fig. 9 is provided with a circular plate which compacts the green corn in the spin dryer tube 304 and squeezes out the water in the green corn.

As shown in fig. 10, in the drying mechanism, there are two sliding slots 308, the two sliding slots 308 are respectively installed at two sides of the inside of the casing portion 1, and a rack is provided at the inner side of the sliding slot 308; the motor E310 is fixedly arranged at the lower end of the supporting plate A301, and the motor shaft of the motor E is fixedly connected with one end of the round rod C311; the round bar C311 is rotatably arranged in a round hole of the lower single plate of the support plate A301, and two gears are arranged on the round bar C311; specifically, the motor E310 drives the round bar C311 to rotate; the drying barrel 312 is rotatably installed at the inner side of the chute 308, gears are arranged at two ends of the drying barrel 312, and the gears are meshed with racks at the inner side of the chute 308; the motor A309 is slidably arranged in a groove on the chute 308, and a motor shaft of the motor A is fixedly connected with a gear at one end of the drying barrel 312; the annular cover 313 is rotatably arranged on the drying barrel 312, two ends of the annular cover 313 are provided with gear teeth, the gear teeth are meshed with the gear on the round rod C311 close to the harvesting part 2 when the drying barrel 312 receives green corns, and the gear teeth are meshed with the gear on the round rod C311 far away from the harvesting part 2 when the drying barrel 312 discharges the green corns; specifically, the drying barrel 312 is located at the lower end of the circular hole of the support plate a301 at the initial position, at this time, the gear teeth on the annular cover 313 are meshed with the gear on the round rod C311 on the left, after the dewatered green corn falls into the drying barrel 312, the motor E310 on the left is started to drive the round rod C311 to rotate, and the round rod C311 drives the annular cover 313 to rotate on the drying barrel 312, so that the annular cover 313 closes the opening on the drying barrel 312; then, motor a309 is started to drive the gear on the side of drying bucket 312 to rotate, at this time, drying bucket 312 rolls on the inner side of chute 308, and rotates to dry, when drying bucket 312 moves to the right, the gear teeth on annular cover 313 are meshed with the gear on round bar C311 on the right, at this time, motor E310 is started to drive annular cover 313 to rotate, annular cover 313 opens the opening on drying bucket 312, and at this time, the opening of drying bucket 312 is located at the lower end, so that the green corn dried by drying bucket 312 falls into collecting box 401.

As shown in fig. 11, the cartridge 401 is fixedly mounted in the housing portion 1 at the lower end of the drying mechanism; the lead screw slider group C402 is arranged on the collection box 401; the motor F403 is arranged on the side surface of the collecting box 401, and the motor shaft of the motor F is fixedly connected with one end of a lead screw in the lead screw sliding block group C402; the push plate 404 is slidably mounted in the collection box 401, and the push plate 404 is fixedly connected with a slide block in the lead screw slide block group C402; specifically, when bagging, motor F403 starts to drive screw slider group C402 to work, screw slider group C402 drives push plate 404 to move, and push plate 404 pushes the green corns treated in collection box 401 into the woven bag at the outlet on the side of collection box 401 for bagging.

As shown in the woven bag processing mechanism of fig. 12, a bracket 405 is installed at the lower end of the conveying mechanism 201; the reel 406 is arranged on the bracket 405, and woven bags connected end to end are wound on the reel 406; the lead screw sliding block groups D407 are arranged on the side surface of the bracket 405, and one ends of lead screws in the lead screw sliding block groups D407 are connected through a synchronous belt; the motor G408 is fixedly arranged in the shell part 1, and a motor shaft of the motor G is fixedly connected with a lead screw in a lead screw sliding block group D407; the supporting plate 409 is fixedly arranged at the lower end of the lead screw sliding block group D407, and the supporting plate 409 plays a role in supporting a woven bag on the reel 406; the clamp A410 is fixedly arranged on a sliding block in the screw rod sliding block group D407, and one end of the woven bag can be clamped by the clamp A410 and pulled to the opening and sealing mechanism; the cylinder body part of the electric cylinder C411 is fixedly arranged at the lower end of the sliding chute 308, and the piston rod end of the electric cylinder C411 is provided with a cutter which can cut off the end-to-end connection part of the woven bag; specifically, the motor G408 is started to drive the lead screw slider group D407 to work, the lead screw slider group D407 drives the clamp A410 to move, the clamp A410 clamps the opening of the woven bag at first and moves to the clamp B414, the upper electric cylinder C411 and the lower electric cylinder C411 respectively clamp the upper edge and the lower edge of the opening of the woven bag, then the clamp A410 moves back after being loosened, the next woven belt is clamped again, after the previous woven bag is assembled and sealed, the electric cylinder C411 works, and the end-to-end connection of the two woven bags is cut off.

As shown in the opening sealing mechanism of fig. 13, there are two long rods a412, the lower long rod a412 is fixedly installed at the opening on the side of the collecting box 401, the upper long rod a412 is slidably installed on the side of the collecting box 401, and the two long rods a412 are connected through a connecting rod; the cylinder body part of the electric cylinder D413 is fixedly arranged at the lower end of a plate on the side surface of the collecting box 401, and the piston rod end of the electric cylinder D413 is fixedly connected with the upper long rod A412; specifically, the electric cylinder works to drive the long rod A412 on the electric cylinder to move up and down; four clips B414 are provided, wherein two clips B414 are arranged on the upper long rod A412, and the other two clips B414 are arranged on the lower long rod A412; the sealing device 415 has two parts, one part is arranged on the upper long rod A412, the other part is arranged on the lower long rod A412, and the two parts of the sealing device 415 are combined and electrified to be capable of sealing the woven bag; specifically, when the opening operation is carried out, the four clamps B414 clamp the opening at the upper position and the lower position of the woven bag, then the electric cylinder D413 works, the electric cylinder D413 contracts to drive the long rod A412 on the electric cylinder to move upwards, and at this time, the woven bag is opened; when the sealing work is carried out, the electric cylinder D413 extends, the upper long rod A412 moves downwards, the two-part sealing device 415 is closed, and a woven bag is arranged in the middle of the sealing device 415, so that the sealing device 415 is electrified to seal the opening of the woven bag.

The working principle is as follows: when green corn processing is carried out, the shell part 1 is moved into a green corn field, a row of green corns are clamped by the two U-shaped control rods 208, then the motor C210 is started to drive the round rod B211 to rotate, the round rod B211 drives the piston rod end of the telescopic rod 209 to move up and down, and the height of the harvested corns is adjusted; then a motor on the cutter head 212 is started to drive a special-shaped cam 213 to rotate, the special-shaped cam 213 is in intermittent contact with small rods at two ends of a groove of the lower cutter head 212 to drive the lower cutter head 212 to move left and right at the lower end of the upper cutter head 212 to harvest corns, then a motor B207 is started to drive two lead screw slider groups A206 to work, the lead screw slider groups A206 drive two U-shaped control rods 208 to move towards a direction close to a round rod A205, so that the row of green corns are cut off and poured onto a conveying mechanism 201, then an electric cylinder A203 works, a long rod at the lower end of the electric cylinder A203 presses the corn rods to facilitate cutting, then the conveying mechanism 201 works to move and transport the corns on the conveying mechanism 201, when the corn rods move to the lower end of a gate knife 204, the motor on the side surface of the conveying mechanism 201 is started to drive the round rod A205 to rotate, a cam on the round rod A205 pushes the gate knife 204 to move up and down, the knife switch 204 cuts the green corns passing through the lower end of the knife switch into segments, the conveying mechanism 201 continues to work, and the green corns which are cut into segments fall into the spin dryer tube 304 along the transition box 202;

after green corn sections are placed in the spin dryer tube 304, a motor arranged in the shell part 1 is started to drive the lead screw slider group B302 to work, the lead screw slider group B302 drives the annular frame 303 to move, the annular frame 303 drives the spin dryer tube 304 to move, when the spin dryer tube 304 moves to a position right below the electric cylinder B305, the electric cylinder B305 works, and a circular plate at the lower end of the electric cylinder B305 compacts the green corn in the spin dryer tube 304 to extrude water in the green corn; at the moment, the gear A307 is meshed with gear teeth on the spin dryer tube 304, the motor D306 is started to drive the gear A307 to rotate, the gear A307 drives the spin dryer tube 304 to rotate, the spin dryer tube 304 rotates at a high speed to carry out centrifugal dehydration on green corns, then the lead screw slider group B302 continues to work to drive the spin dryer tube 304 to move to be aligned with the round hole in the support plate A301, and at the moment, the green corns in the spin dryer tube 304 fall into the drying tube 312 along the round hole in the support plate A301;

the drying barrel 312 at the initial position is located at the lower end of the round hole of the support plate A301, at this time, gear teeth on the annular cover 313 are meshed with gears on the round rod C311 on the left side, after the dewatered green corns fall into the drying barrel 312, the motor E310 on the left side is started to drive the round rod C311 to rotate, and the round rod C311 drives the annular cover 313 to rotate on the drying barrel 312, so that the annular cover 313 closes the opening on the drying barrel 312; then, the motor a309 is started to drive the gear on the side surface of the drying barrel 312 to rotate, at this time, the drying barrel 312 rolls on the inner side edge of the chute 308, and rotates to perform drying work, when the drying barrel 312 moves to the right, the gear teeth on the annular cover 313 are meshed with the gear on the round bar C311 on the right, at this time, the motor E310 is started to drive the annular cover 313 to rotate, the annular cover 313 opens the opening on the drying barrel 312, and at this time, the opening of the drying barrel 312 is positioned at the lower end, so that the green corn dried by the drying barrel 312 falls into the collecting box 401;

when bagging is carried out, the motor G408 is started to drive the lead screw slider group D407 to work, the lead screw slider group D407 drives the clamp A410 to move, firstly, the clamp A410 clamps the opening of a woven bag and moves to the clamp B414, the upper electric cylinder C411 and the lower electric cylinder C411 respectively clamp the upper edge and the lower edge of the opening of the woven bag, then the clamp A410 moves back after being loosened and clamps the next woven belt again, the four clamps B414 clamp the openings of the upper position and the lower position of the woven bag, the electric cylinder D413 works, the electric cylinder D413 contracts and drives the upper long rod A412 to move upwards, and at the moment, the woven bag is opened; the motor F403 is started to drive the lead screw slider group C402 to work, the lead screw slider group C402 drives the push plate 404 to move, the push plate 404 pushes the green corns processed in the collection box 401 into a woven bag at an outlet on the side face of the collection box 401 for bagging, after bagging is finished, the electric cylinder D413 extends, the upper long rod A412 moves downwards, the two part sealing devices 415 are closed, and a woven bag is arranged in the middle of each sealing device 415, so that the sealing devices 415 are electrified to seal the opening of the woven bag, and finally the electric cylinder C411 works to cut off the joint of the head and the tail of the two woven bags; thus completing the work from harvesting to processing and then bagging of the green corn.

Claims

1. An wisdom agricultural green corn processing equipment includes: a shell part (1), a harvesting part (2), a dehydrating and drying part (3) and a bagging part (4); the bicycle is characterized in that wheels are mounted at the lower end of the shell part (1); the harvesting part (2) is arranged on the shell part (1); the dehydrating and drying part (3) and the bagging part (4) are arranged in the shell part (1), and the dehydrating and drying part (3) is positioned above the bagging part (4);

the housing portion (1) comprises: a housing (101), a top plate (102), and a fixing plate (103); the shell (101) can walk on the ground; the top plate (102) is fixedly arranged above the shell (11); the fixing plate (103) is arranged on the side surface of the shell (101);

the harvesting section (2) comprises: the device comprises a transmission mechanism (201), a transition box (202), an electric cylinder A (203), a knife switch (204), a round bar A (205), a screw rod sliding block group A (206), a motor B (207), a U-shaped control rod (208) and a harvesting mechanism; the conveying mechanism (201) is arranged on the shell part (1); the transition box (202) is fixedly arranged on the side surface of the conveying mechanism (201); the fixed end of the electric cylinder A (203) is arranged on the lower end surface of the top plate (12), and the piston rod end of the electric cylinder A (203) is provided with a long rod; the round rod A (205) is rotatably arranged in a round hole of a side panel of the conveying mechanism (201), a cam is arranged on the round rod A (205), and one end of the round rod A (205) is fixedly connected with a shaft of a motor fixedly arranged on the side of the conveying mechanism (201); the switch blade (204) is slidably arranged in a groove on a plate on the side surface of the conveying mechanism (201), a spring is arranged at the end part of the switch blade (204), and the other end of the spring is connected with the plate on the side surface of the conveying mechanism (201); two lead screw sliding block groups A (206) are arranged, the two lead screw sliding block groups A (206) are arranged at two sides of the conveying mechanism (201), and one ends of lead screws in the two lead screw sliding block groups A (206) are connected through a synchronous belt; the motor B (207) is fixedly arranged on the side surface of the top plate (102), and the motor shaft of the motor B is connected with a synchronous belt which is connected with the lead screws in the two lead screw sliding block groups A (206); two U-shaped control rods (208) are arranged, and the two U-shaped control rods (208) are respectively and rotatably arranged on the sliding blocks on the two lead screw sliding block groups A (206); the harvesting mechanism is arranged at the front end of the shell (101);

the dehydration drying part (3) comprises: a dehydration mechanism and a drying mechanism; the dehydration mechanism is arranged in the shell part (1) and is positioned at the lower end of the conveying mechanism (201); the drying mechanism is arranged below the dehydration mechanism;

the bagging section (4) comprises: the filling mechanism, the woven bag processing mechanism and the opening sealing mechanism; the filling mechanism is arranged in the shell part (1) and is positioned at the lower end of the drying mechanism; the woven bag processing mechanisms are arranged on one side of the filling mechanism; the opening seals the mechanism and has two sets ofly, and every group opening seals the mechanism and installs two exits in collecting box (401) side respectively, and, every group opening seals the mechanism and is located two sets of braided bag processing mechanism's side respectively.

2. The intelligent agricultural green corn processing device as claimed in claim 1, wherein the harvesting mechanism comprises: the device comprises a telescopic rod (209), a motor C (210), a round rod B (211), a tool bit (212) and a special-shaped cam (213); the fixed end of the telescopic rod (209) is fixedly arranged at the front end of the shell part (1), and the piston rod end of the telescopic rod (209) is provided with a rack; the motor C (210) is fixedly arranged on the side surface of the telescopic rod (209), a motor shaft of the motor C is fixedly connected with one end of the round rod B (211), two gears are arranged on the round rod B (211), and the two gears are respectively meshed with racks at the piston rod end of the telescopic rod (209); the number of the cutter heads (212) is two, the upper cutter head (212) is fixedly connected with the piston rod end of the telescopic rod (209), and the lower cutter head (212) is arranged at the lower end of the upper cutter head (212) in a sliding manner; the special-shaped cam (213) is rotatably arranged in a round hole in the middle of the upper tool bit (212), the special-shaped cam (213) is in intermittent contact with small rods at two ends of a groove of the lower tool bit (212), and the upper end of the special-shaped cam (213) is fixedly connected with a shaft of a motor fixedly arranged on the upper tool bit (212).

3. The intelligent agricultural green corn processing and processing device as claimed in claim 1, wherein the dewatering mechanism comprises: a support plate A (301), a lead screw slider group B (302), an annular frame (303), a spin dryer tube (304), an electric cylinder B (305), a motor D (306) and a gear A (307); the supporting plate A (301) is fixedly arranged in the shell part (1), and a round hole is formed in the supporting plate A (301); a lead screw sliding block group B (302) is arranged on the upper end surface of the support plate A (301), and a lead screw in the lead screw sliding block group B (302) is fixedly connected with a shaft of a motor fixedly arranged in the shell part (1); the annular frame (303) is fixedly arranged on a slide block in the lead screw slide block group B (302); the spin dryer tube (304) is slidably mounted on the annular frame (303), and a ring of gear teeth are arranged around the spin dryer tube (304); a support rod on the cylinder body part of the electric cylinder B (305) is fixedly connected with support plates at two ends of the conveying mechanism (201); the motor D (306) is fixedly arranged on the side surface of the lead screw sliding block group B (302), the motor shaft of the motor D is fixedly connected with the gear A (307), and the gear A (307) is meshed with the gear teeth on the spin-drying barrel (304) when the spin-drying barrel (304) moves to the position right below the electric cylinder B (305).

4. The intelligent agricultural green corn processing and processing device as claimed in claim 3, wherein the piston rod end of the electric cylinder B (305) is provided with a circular plate.

5. The intelligent agricultural green corn processing device as claimed in claim 1, wherein the drying mechanism comprises: the drying machine comprises a chute (308), a motor A (309), a motor E (310), a round bar C (311), a drying barrel (312) and an annular cover (313); the number of the sliding grooves (308) is two, the two sliding grooves (308) are respectively arranged on two sides of the interior of the shell part (1), and racks are arranged on the inner sides of the sliding grooves (308); the motor E (310) is fixedly arranged at the lower end of the supporting plate A (301), and a motor shaft of the motor E is fixedly connected with one end of the round rod C (311); the round bar C (311) is rotatably arranged in a round hole of the lower veneer of the support plate A (301), and two gears are arranged on the round bar C (311); the drying barrel (312) is rotatably arranged at the inner side of the sliding chute (308), gears are arranged at two ends of the drying barrel (312), and the gears are meshed with racks at the inner side of the sliding chute (308); the motor A (309) is slidably arranged in a groove on the chute (308), and a motor shaft of the motor A is fixedly connected with a gear at one end of the drying barrel (312); the annular cover (313) is rotatably arranged on the drying barrel (312), gear teeth are arranged at two ends of the annular cover (313), the gear teeth are meshed with a gear on the round rod C (311) close to the harvesting part (2) when the drying barrel (312) receives green corns, and the gear teeth are meshed with a gear on the round rod C (311) far away from the harvesting part (2) when the drying barrel (312) discharges the green corns.

6. The intelligent agricultural green corn processing and processing device as claimed in claim 1, wherein the filling mechanism comprises: the device comprises a collecting box (401), a lead screw slider group C (402), a motor F (403) and a push plate (404); the collecting box (401) is fixedly arranged in the shell part (1) and is positioned at the lower end of the drying mechanism; the lead screw slider group C (402) is arranged on the collection box (401); the motor F (403) is arranged on the side surface of the collecting box (401), and the motor shaft of the motor F is fixedly connected with one end of a lead screw in the lead screw sliding block group C (402); the push plate (404) is slidably mounted in the collection box (401), and the push plate (404) is fixedly connected with a slide block in the lead screw slide block group C (402).

7. The intelligent agricultural green corn processing and processing device as claimed in claim 1, wherein the woven bag processing mechanism comprises: the device comprises a bracket (405), a reel (406), a lead screw slider group D (407), a motor G (408), a supporting plate (409), a clamp A (410) and an electric cylinder C (411); the bracket (405) is arranged at the lower end of the conveying mechanism (201); the reel (406) is arranged on the bracket (405), and woven bags connected end to end are wound on the reel (406); the lead screw sliding block groups D (407) are mounted on the side face of the support (405), and one ends of lead screws in the lead screw sliding block groups D (407) are connected through a synchronous belt; the motor G (408) is fixedly arranged in the shell part (1), and a motor shaft of the motor G is fixedly connected with a lead screw in a lead screw sliding block group D (407); the supporting plate (409) is fixedly arranged at the lower end of the lead screw sliding block group D (407); the clamp A (410) is fixedly arranged on a slide block in the screw rod slide block group D (407); the cylinder body part of the electric cylinder C (411) is fixedly arranged at the lower end of the sliding groove (308), and a cutting knife is arranged at the piston rod end of the electric cylinder C (411).

8. The intelligent agricultural green corn processing and processing device as claimed in claim 1, wherein the opening sealing mechanism comprises: a long rod A (412), an electric cylinder D (413), a clamp B (414) and a sealing device (415); the number of the long rods A (412) is two, the lower long rod A (412) is fixedly arranged at an opening on the side surface of the collecting box (401), the upper long rod A (412) is slidably arranged on the side surface of the collecting box (401), and the two long rods A (412) are connected through a connecting rod; the cylinder body part of the electric cylinder D (413) is fixedly arranged at the lower end of a plate on the side surface of the collecting box (401), and the piston rod end of the electric cylinder D (413) is fixedly connected with the upper long rod A (412); the number of the clips B (414) is four, wherein two clips B (414) are arranged on the upper long rod A (412), and the other two clips B (414) are arranged on the lower long rod A (412); the sealer 415 has two parts, one part is mounted on the upper long rod A412, and the other part is mounted on the lower long rod A412.