CN117256311A

CN117256311A - Splash-proof silage harvester

Info

Publication number: CN117256311A
Application number: CN202311373944.9A
Authority: CN
Inventors: 王钧
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-10-23
Filing date: 2023-10-23
Publication date: 2023-12-22

Abstract

The invention relates to a harvester, in particular to a splash-proof silage harvester which comprises a storage bottom plate, a mounting plate, rotating shafts, spoke plates, outer tires, a mounting frame, a feeding channel, connecting blocks, mounting strips, a fixing frame, a power motor, a power rotating shaft, a linkage belt, a cutter harvesting plate, a storage assembly and a driving assembly. The invention achieves the effects of good adaptability of the splash-proof silage harvester to the harvesting environment, and sufficient effect of instant treatment and storage of the harvested silage and integral protective equipment.

Description

Splash-proof silage harvester

Technical Field

The invention relates to a harvester, in particular to a splash-proof silage harvester.

Background

Silage harvesting is the process of cutting whole crop in early crop growth stage, making into fodder bundle, compacting and sealing, fermenting and final storing. In the traditional silage harvesting process, when the cutter contacts plants, strong force and intense vibration are generated, so that a large amount of silage is sputtered into the surrounding environment. Such sputtering not only wastes feed resources, but can also cause injury to personnel and equipment. The silage harvester is used for replacing the traditional manual harvesting, so that the problem of sputtering in the traditional silage harvesting process can be effectively solved, and in the modern society, the silage harvester is gradually an important tool in the modern agricultural production, thereby bringing convenience and benefits to farmers.

Patent publication number is CN 208462419U's patent discloses a silage harvester header grass withdrawing device, and its structure includes high ejection of compact mouth, roller, material shovel, crushed aggregates chamber, removal foot, bracing piece, loading bin, rail guard, light barrier, driver's cabin, belt cleaning device, high ejection of compact mouth bottom is connected with crushed aggregates chamber left end inside, crushed aggregates chamber lower extreme is equipped with the roller that mows, material shovel fixed mounting is in crushed aggregates chamber's left and right sides both ends, the crushed aggregates chamber back of telling is through welding mode and cab front end gomphosis mutually, the driver's cabin left and right sides is equipped with the removal foot, the bracing piece is equipped with four, and the top is installed in loading bin bottom four corners respectively, the rail guard is equipped with one, and installs in loading bin left and right sides through the welding mode, belt cleaning device comprises water tank, operating panel, connecting rod, joint, water pipe, fan-shaped shower nozzle, the connecting rod top is connected with the operating panel bottom, water tank right-hand member surface is equipped with the joint, the water pipe is equipped with the middle part through running through the joint with the water pipe, runs through the water pipe inside the mode and inserts in the crushed aggregates chamber.

The above-mentioned patent provides a feasible silage harvester cutting scheme, come to reap the green fodder crop through the roller of mowing, utilize this kind of simple harvesting mode can not reach fine harvesting effect, lead to reaping apparatus's topography adaptability relatively poor, the silage that reaps in the device harvesting in-process transmits the loading silo through the spout, can lead to more silage losses to cause harvesting inefficiency, still be unfavorable for simultaneously simply packing the fodder that cuts, at last through the manual work under the condition that lacks sufficient protective equipment real-time operation machine, this causes little hidden danger to personal safety easily.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that a harvesting device of a silage harvester is difficult to adapt to various complex harvesting environments, the harvested fodder cannot be treated immediately, and safety risks are easy to cause due to lack of enough protection equipment.

(2) Technical proposal

In order to solve the technical problems, the invention provides a splash-proof silage harvester, which comprises a storage bottom plate, a mounting plate, rotating shafts, spoke plates, outer tires, a mounting frame, a feeding channel, a connecting block, mounting strips, a fixing frame, a power motor, a power rotating shaft, linkage belts, cutter harvesting plates, a storage component and a driving component, wherein the mounting plate is fixedly connected to the lower side of the storage bottom plate, the rotating shafts are respectively and rotatably connected to the front end and the rear end of the mounting plate, the spoke plates are respectively connected to the left end and the right end of each rotating shaft, the outer tires are respectively and fixedly connected to each spoke plate, the front end of the storage bottom plate is fixedly connected with the mounting frame, the front end of the mounting frame is fixedly connected with the feeding channel, the front end of the feeding channel is fixedly connected with a plurality of connecting blocks, the upper end of each connecting block is fixedly connected to the mounting strip, a plurality of uniformly distributed rotating openings are fixedly connected to the middle part of the mounting strip, the fixing frame is connected to the power motor corresponding to one rotating opening, the power rotating shafts are rotatably connected to the power rotating shafts through couplings, the power rotating shafts are rotatably connected to the other rotating openings on the mounting strips, the power rotating shafts are rotatably connected to the power rotating shafts, the power rotating shafts are respectively and rotatably connected to the power rotating shafts through the power rotating shafts, each power belt is fixedly connected to the power harvesting components, the power harvesting components are respectively and the power harvesting layers are connected to the lower and realize the power harvesting components, the power and realize the power storage and the effect, and the storage and the silage is effectively connected to realize the harvester.

Preferably, the storage component is including storing the curb plate, store the revolving plate, rotate the handle, store the back roof, store the front roof, fortune material curb plate, fortune material roof and feeding roof, both ends all are connected with and store the curb plate about storing the bottom plate, it all is provided with corresponding slide to store curb plate upper portion, it is connected with and stores the revolving plate to rotate between two storage curb plate rear ends, it has the rotation handle of being convenient for the pulling to store two rigid couplings about on the revolving plate, both upper ends that store the curb plate all rotate and sliding connection to store the back roof and store the front roof, both store the curb plate front end and all be connected with fortune material curb plate, fortune material curb plate lower extreme is connected to on the installing frame respectively, both upper ends that fortune material curb plate all are connected to fortune material roof realize the protection to the installing frame, fortune material roof front end is connected with the feeding roof, the feeding roof is still connected and is realized covering and protecting effect on the feeding way top.

Preferably, the driving assembly comprises a driving rotating shaft, compaction rollers, linkage wheel discs, driving wheel disc blocks, fixing blocks, driving rotating rods, belt pulleys, driving belts and driving gears, wherein a plurality of driving rotating shafts which are arranged up and down are connected between the material conveying side plates in a rotating mode, corresponding compaction rollers are connected to each driving rotating shaft, one end of each compaction roller is fixedly connected with the linkage wheel disc, the linkage wheel discs are mutually meshed to achieve driving of each other, the driving wheel disc blocks are fixedly connected in the upper linkage wheel discs, the driving wheel disc blocks are fixedly connected with mutually matched gear channel circular gear channels, one side of the driving wheel disc blocks are fixedly connected with the fixing blocks, the driving rotating rods are connected to the fixing blocks in a rotating mode, the belt pulleys are fixedly connected to the upper portions of the driving rotating rods, the driving belts are connected to the upper ends of one power rotating shaft, the driving gears are fixedly connected to the lower ends of the driving rotating rods, and the driving gears and the circular gear channels on the driving wheel disc blocks are mutually meshed to achieve power transmission and driving effects.

Preferably, the device further comprises a pushing assembly, the pushing assembly comprises a mounting rack, a volute disk, a volute rotating rod, a volute spring, a pull rope, an extrusion rod, a linkage rod and a pushing frame, wherein the mounting rack is fixedly connected to the upper portion of a storage side plate, the volute disk is connected to the mounting rack in a rotating mode, the volute rotating rod is connected to the storage side plate in a rotating mode, the other end of the volute rotating rod is connected to the mounting rack in a rotating mode, the volute spring in a stretching state is connected to the pull rope in a rotating mode, the extrusion rod is connected to the mounting rack in a sliding mode, the upper end of the extrusion rod is extruded to the volute disk to clamp the volute spring, the linkage rod is fixedly connected to the storage rotating plate, the front end of the linkage rod is extruded to the extrusion rod to be fixed, the pushing frame is connected to the slide way on the upper portion of the storage side plate in a sliding mode, and the two ends of the pushing frame are connected to the corresponding pull rope respectively to achieve the effect of being moved after being pulled.

Preferably, still including clamping the subassembly, block the subassembly including block, the stopper, block the strip, reset spring and linkage piece, the one end rigid coupling of pushing away the frame has block, wherein one stores curb plate upper portion rigid coupling and has the stopper, realize blocking the effect through the cooperation of block and stopper, sliding connection has the card to block the strip in the stopper, elastic connection has the reset spring that is in compression state between card to block the strip and the stopper, drive bull stick top rigid coupling has the linkage piece, the one end contact of block realizes driving the effect on the linkage piece.

Preferably, still including auxiliary assembly, auxiliary assembly is including fixed strip, handle pole, handle leather sheath, support frame, backup pad and running-board, and storage curb plate upper portion all rigid coupling has the fixed strip, all fixedly connected with handle pole on the fixed strip, has all cup jointed the handle leather sheath on the handle pole and has realized convenient user's grasp, and the rigid coupling has the support frame on the mounting panel both sides, all fixedly connected with the backup pad on the support frame, all fixedly connected with in the backup pad provides the running-board that the user stood.

Preferably, still including spacing subassembly, spacing subassembly is including spacing, spacing installation piece, erection column, installation pole and segmentation cone, and the installation strip front side is connected with spacing, is provided with a plurality of spacing bent bars on the spacing and realizes separating, all rotates on the connecting block and is connected with spacing installation piece, and spacing installation piece front end is connected with the erection column, and the erection column front end is connected with the installation pole, and the installation pole front end is connected and is cut apart the cone and realize the spacing effect of separating to harvesting silage raw materials.

Preferably, the storage side plate is also provided with a mud guard, the mud guard is connected with the storage side plate at the position corresponding to the outer tire, so that the mud guard can prevent mud carried by the outer tire from splashing on a user standing on the pedal plate when the outer tire rotates, and the use safety of the user is effectively protected.

(3) Advantageous effects

The invention achieves the effects of good adaptability of the splash-proof silage harvester to the harvesting environment, and sufficient effects of instantly processing and storing the silage and the whole protective equipment, and realizes the good adaptability and the service life of the device to various complex silage harvesting environments by the cooperation of the cutter harvesting disc and the limiting component; the functions of instant harvesting, processing and storing of silage by the device are realized through the cooperation of the storage component, the driving component and the pushing component; through the cooperation of fender, block subassembly and auxiliary assembly, both realized the guard action to the device and improved user's use convenience and operation security again.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a part of the components inside the present invention.

FIG. 3 is a diagram showing the connection relationship of the storage base plate, the mounting plate and the storage assembly according to the present invention.

FIG. 4 is a schematic perspective view of the components of the feed channel, storage assembly and drive assembly of the present invention.

Fig. 5 is an enlarged view at a in fig. 4.

FIG. 6 is a diagram showing the connection of the storage assembly, the drive assembly, the pushing assembly, and the like according to the present invention.

Fig. 7 is an enlarged view at B in fig. 6.

Fig. 8 is a schematic perspective view of a storage base, a storage assembly and a pushing assembly according to the present invention.

Fig. 9 is an enlarged view at C in fig. 8.

Fig. 10 is a schematic perspective view of the rotating shaft, spoke plate and auxiliary assembly of the present invention.

Fig. 11 is a schematic perspective view of the connection block, mounting bar and spacing assembly of the present invention.

The marks in the drawings are: 1-storage bottom plate, 2-mounting plate, 3-rotation shaft, 4-spoke disk, 5-outer tire, 6-mounting frame, 7-feeding channel, 8-connecting block, 9-mounting bar, 10-fixing frame, 11-power motor, 12-power rotation shaft, 13-linkage belt, 14-cutter harvesting disk, 15-storage component, 151-storage side plate, 152-storage rotation plate, 153-rotation handle, 154-storage rear top plate, 155-storage front top plate, 156-transportation side plate, 157-transportation top plate, 158-feeding top plate, 16-driving component, 161-driving rotation shaft, 162-compaction roller, 163-linkage wheel disk, 164-driving wheel disk block, 165-fixing block, 166-driving rotation rod, 167-pulley, 168-drive belt, 169-drive gear, 17-catch assembly, 171-catch block, 172-stopper, 173-catch bar, 174-return spring, 175-link block, 18-push assembly, 181-mount, 182-volute, 183-volute rod, 184-volute spring, 185-pull rope, 186-squeeze rod, 187-link rod, 188-push frame, 19-assist assembly, 191-fixing bar, 192-handle rod, 193-handle holster, 194-support frame, 195-support plate, 196-foot pedal, 20-limit assembly, 201-limit frame, 202-limit mounting block, 203-mounting post, 204-mounting rod, 205-split cone, 21-fender.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

A splash-proof silage harvester, as shown in figures 1 and 2, comprises a storage bottom plate 1, a mounting plate 2, a rotating shaft 3, spoke plates 4, an outer tire 5, a mounting frame 6, a feeding channel 7, a connecting block 8, mounting bars 9, a fixing frame 10, a power motor 11, a power rotating shaft 12, a linkage belt 13, a cutter harvesting plate 14, a storage component 15 and a driving component 16, wherein the mounting plate 2 is fixedly connected with the lower side of the storage bottom plate 1, the rotating shaft 3 is respectively connected with the front and rear portions of the mounting plate 2 in a rotating way, the left end and the right end of each rotating shaft 3 are respectively connected with the spoke plates 4, the outer tire 5 is fixedly connected with each spoke plate 4, the front end of the storage bottom plate 1 is fixedly connected with the mounting frame 6, the front end of the mounting frame 6 is fixedly connected with the feeding channel 7, a plurality of connecting blocks 8 are fixedly connected with the front end of the feeding channel 7, the upper end of each connecting block 8 is fixedly connected with the mounting bars 9, a plurality of uniformly distributed rotating openings are arranged in the middle of the mounting bars 9, the fixing frame 10 is fixedly connected with the power motor 11 corresponding to one of the rotating openings on the mounting bars 9, the power motor 11 is connected to the power rotating shaft 12 through a coupler, the rotating opening 12 is rotatably connected to the rotating shaft 9 in the rotating opening of the mounting bar 9, the other rotating openings on the mounting strip 9 are also connected with power rotating shafts 12 in a rotating way, the upper end of each power rotating shaft 12 is connected with a linkage belt 13, and realize the mutual drive between the power pivot 12 through the linkage belt 13, every power pivot 12 lower extreme all is connected with cutter harvesting dish 14, and cutter harvesting dish 14 divide into upper and lower two-layer high efficiency that realizes reaping, is connected with storage component 15 on the storage bottom plate 1 and realizes the temporary storage to reaping silage, is connected with drive assembly 16 between storage component 15 and the power pivot 12 and realizes the drive and the transmission effect of power.

As shown in fig. 1, 3 and 4, the storage assembly 15 includes a storage side plate 151, a storage rotating plate 152, a rotating handle 153, a storage rear top plate 154, a storage front top plate 155, a material transporting side plate 156, a material transporting top plate 157 and a feeding top plate 158, wherein the left and right ends of the storage bottom plate 1 are connected with the storage side plate 151, the upper parts of the storage side plates 151 are respectively provided with corresponding slide ways, the storage rotating plate 152 is rotatably connected between the rear ends of the two storage side plates 151, the rotating handle 153 which is convenient to pull is fixedly connected on the left and right parts of the storage rotating plate 152, the upper ends of the two storage side plates 151 are rotatably and slidably connected to the storage rear top plate 154 and the storage front top plate 155, the front ends of the two storage side plates 151 are respectively connected with the material transporting side plate 156, the lower ends of the material transporting side plates 156 are respectively connected to the mounting frame 6, the upper ends of the two material transporting side plates 156 are respectively connected with the material transporting top plate 157 to realize protection to the mounting frame 6, the front end of the material transporting top plate 157 is connected with the feeding top plate 158, and the feeding top plate 158 is also connected to the top end of the feeding channel 7 to realize covering and protection effect.

As shown in fig. 1, fig. 4 and fig. 5, the driving assembly 16 comprises a driving rotating shaft 161, compacting rollers 162, linkage wheel discs 163, driving wheel disc blocks 164, fixing blocks 165, driving rotary rods 166, belt pulleys 167, driving belts 168 and driving gears 169, a plurality of driving rotating shafts 161 which are arranged up and down are rotationally connected between the material conveying side plates 156, each driving rotating shaft 161 is connected with a corresponding compacting roller 162, one end of each compacting roller 162 is fixedly connected with a linkage wheel disc 163, the linkage wheel discs 163 are mutually meshed to realize driving, the driving wheel disc blocks 164 are fixedly connected in the linkage wheel discs 163 positioned at the upper part, the driving wheel disc blocks 164 are fixedly connected with mutually matched gear track circular gear tracks, one side of the material conveying side plates 156 is fixedly connected with the fixing blocks 165, the driving rotary rods 166 are rotationally connected with the fixing blocks 165, the upper parts of the driving rotary rods 166 are fixedly connected with the belt pulleys 167, the driving belts 168 are connected with the upper ends of one power rotating shaft 12, the lower ends of the driving rotary rods 166 are fixedly connected with the driving gears 169, and the circular gear tracks 169 and the driving wheel disc blocks 164 are mutually meshed to realize power transmission and driving effects.

When the splash-proof silage harvester is used, a user conveys the splash-proof silage harvester to a proper field for silage harvesting, after the silage harvester is ready for silage harvesting, the user starts a power motor 11, the power motor 11 is started and drives a starting power rotating shaft 12 to rotate through a coupler, the power rotating shaft 12 drives a linkage belt 13 to move after rotating, the rotation of the linkage belt 13 drives all the power rotating shafts 12 to rotate, the power rotating shafts 12 drive a cutter harvesting disc 14 to rotate after all the power rotating shafts 12 rotate, at the moment, the user drives a spoke disc 4 and an outer tire 5 to rotate under the rotation of a rotating shaft 3 by controlling the harvester to move, so that the silage harvester continuously and slowly moves forwards, and simultaneously the cutter harvesting disc 14 drives cutters on the power rotating shaft to continuously harvest and feed silage raw materials into a feeding channel 7, meanwhile, the rotation of the power rotating shaft 12 drives the driving belt 168 to move, the driving belt 168 drives the belt pulley 167 to rotate after moving, the belt pulley 167 rotates to drive the driving rotary rod 166 to rotate in the fixed block 165, the driving rotary rod 166 rotates to drive the driving gear 169 on the driving rotary rod 166 to start rotating, the driving gear 169 drives the driving rotary rod to rotate through the mutual meshing of the tooth path and the driving rotary plate block 164, the driving rotary plate block 164 drives the linkage rotary plate 163 to rotate, the linkage rotary plate 163 rotates through the mutual meshing of the tooth path, the linkage rotary plate 163 drives the driving rotary shaft 161 to rotate, the driving rotary shaft 161 drives the compacting rollers 162 on the driving rotary shaft 161 to continuously compact and send the harvested silage material to the storage bottom plate 1 along with the continuous rotation of the plurality of compacting rollers 162 when the cut silage material continuously enters the position of the mounting frame 6 from the feeding path 7, silage coming to the storage bottom plate 1 is temporarily stored under the limit of the storage side plates 151 and the storage rotating plate 152, in the process that the silage gradually reaches the storage bottom plate 1 from the feeding channel 7, due to the limiting effect of the material conveying side plates 156, the material conveying top plates 157 and the material conveying top plates 158, the phenomenon of splashing and waste in the process of conveying and processing the silage is avoided, the conveying effect of the silage after harvesting is ensured, after the harvesting of the silage is finished, the power motor 11 is closed, the device stops working, a user pulls the rotating handle 153 by hand to rotate the storage rotating plate 152 to open, meanwhile, the stored top plates 154 or the stored front top plates 155 can be selectively rotated according to the actual harvesting condition, corresponding checking and processing work is carried out on the silage temporarily stored in the silage, finally, the temporary silage after the processing is pushed out by the top plates 155 before the storing, and the silage is pushed out from the rearmost end of the harvester, so that the user can conveniently collect and process the silage afterwards.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 7 and 8, the device further comprises a clamping assembly 17, wherein the clamping assembly 17 comprises a clamping block 171, a limiting block 172, a clamping bar 173, a return spring 174 and a linkage block 175, one end of a pushing frame 188 is fixedly connected with the clamping block 171, the limiting block 172 is fixedly connected with the upper portion of one storage side plate 151, a clamping effect is achieved through the cooperation of the clamping block 171 and the limiting block 172, the clamping bar 173 is slidably connected in the limiting block 172, the return spring 174 in a compressed state is elastically connected between the clamping bar 173 and the limiting block 172, the linkage block 175 is fixedly connected with the top end of a driving rotating rod 166, and one end of the clamping bar 173 is contacted with the linkage block 175 to achieve a driving effect.

As shown in fig. 2, 8 and 9, the pushing assembly 18 further comprises a pushing assembly 18, the pushing assembly 18 comprises a mounting frame 181, a scroll plate 182, a scroll rotating rod 183, a scroll spring 184, a pulling rope 185, a squeezing rod 186, a linkage rod 187 and a pushing frame 188, wherein the mounting frame 181 is fixedly connected to the upper portion of the storage side plate 151, the scroll plate 182 is connected to the mounting frame 181, the scroll rotating rod 183 is connected to the storage side plate 182 in a rotating manner, one end of the scroll rotating rod 183 is connected to the storage side plate 151 in a rotating manner, the other end of the scroll rotating rod 183 is connected to the mounting frame 181 in a rotating manner, the scroll spring 184 is connected to the pulling rope 185, the squeezing rod 186 is connected to the mounting frame 181 in a sliding manner, the upper end of the squeezing rod 186 is squeezed to the scroll plate 182 to clamp the scroll spring 184, the linkage rod 187 is fixedly connected to the storage side plate 152 in a fixed manner, the pushing frame 188 is connected to the slide rails on the upper portion of the storage side plate 151 in a sliding manner, and the two ends of the pushing frame 188 are respectively connected to the corresponding pulling ropes 185 to achieve the effect of being moved after being pulled.

As shown in fig. 1 and 10, the utility model further comprises an auxiliary assembly 19, the auxiliary assembly 19 comprises a fixing strip 191, a handle bar 192, a handle leather sheath 193, a supporting frame 194, a supporting plate 195 and a pedal 196, wherein the upper part of the storage side plate 151 is fixedly connected with the fixing strip 191, the handle bar 192 is fixedly connected with the handle leather sheath 193 in a sleeved mode to facilitate the gripping of a user, the supporting frame 194 is fixedly connected with the two sides of the mounting plate 2, the supporting plate 195 is fixedly connected with the supporting plate 194, and the pedal 196 for providing the standing of the user is fixedly connected with the supporting plate 195.

As shown in fig. 1 and 3, the storage side plate 151 is provided with a mud guard 21 corresponding to the outer tire 5, and the mud guard 21 prevents mud carried by the outer tire 5 during rotation from splashing on a user standing on the pedal 196, so that the use safety of the user is effectively protected.

In the process of harvesting silage after the device is started, the linkage block 175 on the device is driven to rotate by the continuous rotation of the driving rotary rod 166, the linkage block 175 is contacted with the clamping strip 173 at any time, the clamping strip 173 is driven to move by friction force in the rotation process, the clamping strip 173 slides in the limiting block 172 against the elastic force of the reset spring 174 and finally contacts and clamps the clamping block 171, the clamping block 171 is limited by the clamping strip 173 to drive the pushing frame 188 to be clamped, so that the pushing frame 188 cannot move when the device is in operation, the operation safety and stability of the device are ensured when the silage harvesting operation is finished, after the silage harvesting operation is finished, a user opens the storage rotary plate 152, the storage rotary plate 152 rotates and drives the linkage rod 187 thereon to rotate, the extrusion rod 186 is not limited after the linkage rod 187 rotates, the extrusion rod 186 slides downwards on the mounting frame 181 after losing the limitation of the linkage rod 187, the scroll plate 182 is not blocked after the extrusion rod 186 slides downwards, the scroll plate 182 is not blocked, the scroll spring 184 is not limited after not being blocked, the scroll spring 184 is elastically rolled and reset under the elastic force of self-stretching state after losing the restraint, the scroll spring 184 drives the pull rope 185 to move and pulls the push frame 188 to move after rolling, at the moment, the device after one operation is finished stops running, the clamping strip 173 slides and resets in the limiting block 172 under the elastic force of the reset spring 174 after no longer being driven by the linkage block 175, the clamping block 171 is not limited by the push frame 188 again, the push frame 188 moves under the pull of the pull rope 185, when the pushing frame 188 moves, the storage rear top plate 154 and the storage front top plate 155 which are rotated down are driven to move, the storage front top plate 155 is driven to move, the pretreated silage temporarily stored on the storage bottom plate 1 is pushed out, the silage is automatically pushed out and comes out from the opening of the storage rotating plate 152 after being opened, so that silage can be collected and carried later, when the device is used for next silage harvesting, a tired user can hold the handle leather sheath 193 on the handle rod 192 by hands and put feet on the foot pedals 196, the user can be carried to a next harvesting place after the device is started, meanwhile, due to the design of the mud guard 21, the soil carried by the outer tyre 5 during rotation can be blocked, the convenience and usability of the device are effectively improved, the physical consumption of the user is reduced, and the use safety is improved.

Example 3

On the basis of embodiment 2, as shown in fig. 1 and 11, the harvester further comprises a limiting assembly 20, wherein the limiting assembly 20 comprises a limiting frame 201, a limiting mounting block 202, a mounting column 203, a mounting rod 204 and a dividing cone 205, the front side of each mounting strip 9 is connected with the limiting frame 201, a plurality of limiting curved strips are arranged on the limiting frame 201 to realize separation, each connecting block 8 is rotatably connected with the limiting mounting block 202, the front end of each limiting mounting block 202 is connected with the mounting column 203, the front end of each mounting column 203 is connected with the mounting rod 204, and the front end of each mounting rod 204 is connected with the dividing cone 205 to realize separation limiting effect on harvesting silage raw materials.

When the device is used for harvesting silage, the limiting frame 201 and the dividing cone 205 at the front end of the device are firstly contacted with the head part and the tail part of the silage respectively, the silage is effectively divided by limiting and separating designs such as the mounting posts 203 and the mounting rods 204 on the limiting frame and the dividing cone, the silage is scattered to come onto the subsequent cutter harvesting disc 14, and the more scattered silage is harvested by the plurality of double-layer cutter harvesting discs 14, so that the harvesting efficiency and the environmental adaptability of the device are greatly improved, and the device blocking condition caused by easy impurity accumulation during silage harvesting is effectively prevented.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The utility model provides a splashproof silage harvester, a serial communication port, including storing bottom plate (1), mounting panel (2), axis of rotation (3), spoke dish (4), outer tire (5), installing frame (6), feed channel (7), connecting block (8), installation strip (9), mount (10), power motor (11), power pivot (12), linkage belt (13), cutter harvesting dish (14), storage subassembly (15) and drive assembly (16), store bottom plate (1) rigid coupling mounting panel (2), mounting panel (2) are connected with axis of rotation (3), axis of rotation (3) all are connected with spoke dish (4), all rigid coupling has outer tire (5) on spoke dish (4), store bottom plate (1) rigid coupling installing frame (6), installing frame (6) rigid coupling has feed channel (7), feed channel (7) rigid coupling has connecting block (8), connecting block (8) all rigid coupling to installation strip (9), installation strip (9) rigid coupling has mount (10), mount (10) are connected to power motor (11), power motor (11) are connected to power (12), power pivot (12) are connected on installation strip (9), still be connected with other power pivot (12) on installing strip (9), power pivot (12) all are connected to linkage belt (13), and power pivot (12) all are connected with cutter harvesting dish (14), are connected with on storing bottom plate (1) and store subassembly (15), are connected with drive assembly (16) between storage subassembly (15) and power pivot (12).

2. The splash-proof silage harvester of claim 1, wherein the storage assembly (15) comprises a storage side plate (151), a storage rotating plate (152), a rotating handle (153), a storage rear top plate (154), a storage front top plate (155), a material conveying side plate (156), a material conveying top plate (157) and a material feeding top plate (158), the storage side plates (151) are connected with the storage bottom plate (1), the storage rotating plate (152) is connected between the storage side plates (151), the rotating handle (153) is fixedly connected to the storage rotating plate (152), the storage side plates (151) are connected to the storage rear top plate (154) and the storage front top plate (155), the storage side plates (151) are connected with material conveying side plates (156), the material conveying side plates (156) are further connected to the mounting frame (6), and the material conveying side plates (156) are connected to the material conveying top plate (157), and the material conveying top plates (157) are connected with the material feeding top plate (158).

3. The splash-proof silage harvester of claim 2, wherein the driving assembly (16) comprises a driving rotating shaft (161), a compacting roller (162), a linkage wheel disc (163), a driving wheel disc block (164), a fixing block (165), a driving rotary rod (166), a belt pulley (167), a driving belt (168) and a driving gear (169), the driving rotating shaft (161) is connected between the material conveying side plates (156), the compacting roller (162) is connected to the driving rotating shaft (161), the linkage wheel disc (163) is fixedly connected to the compacting roller (162), one of the linkage wheel discs (163) is fixedly connected with the driving wheel disc block (164), a fixing block (165) is fixedly connected to one side of the material conveying side plate (156), the driving rotary rod (166) is fixedly connected with the belt pulley (167), the driving belt (168) is connected to the driving rotary shaft (12), and the driving gear (169) is fixedly connected to the driving rotary rod (166).

4. A splash-proof silage harvester according to claim 3, further comprising a pushing component (18), wherein the pushing component (18) comprises a mounting frame (181), a scroll (182), a scroll rotating rod (183), a scroll spring (184), a pulling rope (185), a squeezing rod (186), a linkage rod (187) and a pushing frame (188), wherein the storage side plates (151) are fixedly connected with the mounting frame (181), the scroll (182) is connected with the mounting frame (181), the scroll rotating rod (183) is connected with the scroll spring (184), the scroll spring (184) is connected to the pulling rope (185), the squeezing rod (186) is connected with the mounting frame (181), the linkage rod (187) is fixedly connected with the storage rotating plate (152), and the storage side plates (151) are connected with the pushing frame (188).

5. The splashproof silage harvester of claim 4, further comprising a catch assembly (17), wherein the catch assembly (17) is provided on the pusher carriage (188).

6. The splash-proof silage harvester of claim 5, wherein the clamping assembly (17) comprises a clamping block (171), a limiting block (172), a clamping bar (173), a return spring (174) and a linkage block (175), the clamping block (171) is fixedly connected with the pushing frame (188), the limiting block (172) is fixedly connected with one storage side plate (151), the clamping bar (173) is connected in the limiting block (172), the return spring (174) is connected between the clamping bar (173) and the limiting block (172), and the linkage block (175) is fixedly connected with the driving rotary rod (166).

7. The splash-proof silage harvester of claim 6, further comprising an auxiliary assembly (19), wherein the storage side plates (151) on the left and right sides are each provided with the auxiliary assembly (19).

8. The splash-proof silage harvester of claim 7, wherein the auxiliary assembly (19) comprises fixing strips (191), handle bars (192), handle jackets (193), support frames (194), support plates (195) and foot pedals (196), wherein the storage side plates (151) are fixedly connected with the fixing strips (191), the handle bars (192) are fixedly connected with the fixing strips (191), the handle jackets (193) are sleeved on the handle bars (192), the support frames (194) are fixedly connected with the mounting plates (2), the support plates (194) are fixedly connected with the support plates (195), and the foot pedals (196) are fixedly connected with the support plates (195).

9. The splash-proof silage harvester of claim 8, further comprising a limiting assembly (20), wherein the limiting assembly (20) comprises a limiting frame (201), a limiting mounting block (202), a mounting column (203), a mounting rod (204) and a segmentation cone (205), the mounting bar (9) is connected with the limiting frame (201), the connecting blocks (8) are connected with the limiting mounting block (202), the limiting mounting block (202) is connected with the mounting column (203), the mounting column (203) is connected with the mounting rod (204), and the mounting rod (204) is connected with the segmentation cone (205).

10. The splash-proof silage harvester of claim 9, further comprising a fender (21), wherein the storage side plates (151) are each connected to the fender (21).