CN112602453A - Agricultural maize harvesting equipment - Google Patents

Abstract

The invention relates to the field of agriculture, in particular to corn harvesting equipment. Can realize two side blanking according to weight, can not the blanking under the weight does not reach the condition, to straw regrinding, make the kibbling more meticulous of straw, and can adapt to not equidimension maize stalk. Including cutting conveyer, material feeding unit, doffer, reducing mechanism, a chassis, the housing, starter motor A, utilize the slope piece on the striker plate to make the maize pole slope, the cutter rotates, cut maize pole, starter motor B, coiling drum A, coiling drum B rotates, coiling drum B can follow the spring fixed axle and reciprocate, can adapt to the maize pole of different thicknesses, blank blade B reciprocates along the slide rail, smash maize pole, crushing shaft rotates, regrinding maize pole, the pushing chain piece reciprocates, smash not equidimension maize pole, the maize falls into flourishing flitch, the flitch promotes maize and removes, behind the maize blanking, gravity reduces, flourishing flitch shifts up, the flitch moves to the right side, the left and right sides blanking.

Description

Agricultural maize harvesting equipment

Technical Field

The invention relates to the field of agriculture, in particular to corn harvesting equipment.

Background

Corn harvesting equipment is a common agricultural machine, but the common agricultural corn harvesting equipment can only realize one-side blanking, and corn straws can only be crushed once, and the corn straws have requirements on the size of the corn straws.

Disclosure of Invention

The invention aims to provide agricultural corn harvesting equipment which can realize bilateral blanking according to weight, cannot realize blanking when the weight is not reached, can crush straws for the second time, enables the straws to be crushed more finely, and can adapt to corn straws of different sizes.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an agricultural maize harvesting equipment, includes cutting conveyer, material feeding unit, doffer, reducing mechanism, chassis, housing, the cutting conveyer is connected with material feeding unit, and material feeding unit is connected with the doffer, and the doffer is connected with reducing mechanism, and cutting conveyer, material feeding unit, doffer, reducing mechanism all are connected with the chassis, and cutting conveyer, reducing mechanism, chassis all are connected with the housing.

As a further optimization of the technical scheme, the agricultural corn harvesting equipment comprises a feeding belt, a rotating shaft fixing plate A, a rotating shaft fixing plate B, a gear A, a chain A, a rotating shaft fixing plate connecting shaft, a cutter gear A, a cutter gear B, a feeding belt rotating shaft A, a gear B, a striker plate, a material conveying belt rotating shaft A, a material conveying belt gear A, a material conveying belt chain, a material conveying belt rotating shaft B, a material conveying belt gear B, a rotating shaft fixing plate C, a gear B, a chain B, a conical tooth A, a bearing and a feeding belt rotating shaft B, wherein the cutter gear A is rotationally connected with the cutter, the cutter gear B is rotationally connected with the cutter, the cutter gear A and the cutter gear B are rotationally connected with the feeding belt rotating shaft A, the feeding belt rotating shaft A is rotationally connected with the rotating shaft fixing plate B, the feeding belt is rotationally connected with, the gear A is rotationally connected with a feeding belt rotating shaft A, the bearing is respectively and fixedly connected with a rotating shaft fixing plate A and a rotating shaft fixing plate B, the bearing is rotationally connected with the feeding belt rotating shaft A, a rotating shaft fixing plate connecting shaft is fixedly connected with a rotating shaft fixing plate B, the gear A is rotationally connected with the chain A, the feeding belt rotating shaft B is respectively and rotationally connected with the rotating shaft fixing plate A and the rotating shaft fixing plate B, the feeding belt is rotationally connected with the feeding belt rotating shaft B, the feeding belt rotating shaft B is rotationally connected with the bearing, the gear B is rotationally connected with the feeding belt rotating shaft B, the gear B and the gear B are both rotationally connected with the chain A, the rotating shaft fixing plate C is respectively and rotationally connected with the rotating shaft fixing plate A and the rotating shaft fixing plate B, the gear B is rotationally connected with the chain B, the feeding belt toothed wheel B is rotationally connected with the chain B, and the feeding belt, pass material area gear A and pass the material area chain and rotate and be connected, pass material area pivot B and pass material area gear B and rotate and be connected, pass material area pivot A and pass material area gear A and rotate and be connected, pass material area pivot A, pass material area pivot B all with pivot fixed plate C fixed connection, pass the material area respectively with pass material area pivot A, pass material area pivot B and rotate and be connected, awl tooth A and pass material area pivot A and rotate and be connected, striker plate and pivot fixed plate C welded connection.

As a further optimization of the technical scheme, the agricultural corn harvesting equipment comprises a feeding belt, a feeding fixing seat A, a gear fixing seat, a bevel gear B, a chain C, a gear C, a motor A, a chain D, a motor gear A, a feeding chain, a feeding gear, a feeding fixing seat B and a feeding roller, wherein the bevel gear A is rotatably connected with the bevel gear B, the bevel gear B is rotatably connected with the chain C, the gear C is rotatably connected with the chain D, the feeding gear is rotatably connected with the feeding chain, the feeding chain is rotatably connected with the motor gear A, the bevel gear B and the gear C are both fixedly connected with the gear fixing seat A, the gear fixing seat A is welded with the feeding fixing seat B, the feeding gear is rotatably connected with the feeding roller, and the feeding roller is respectively connected with the feeding fixing seat A, the feeding, Pay-off fixing base B fixed connection, pay-off fixing base A and pay-off fixing base B welded connection, the pay-off belt rotates with the feeding drum to be connected, and motor A rotates with motor gear A to be connected, motor A and pay-off fixing base B fixed connection.

As a further optimization of the technical scheme, the agricultural corn harvesting device comprises a gear D, a blanking mounting plate, a blanking fixing plate A, a blanking plate, conical teeth C, a reciprocating blanking gear, a blanking spring, a blanking fixing shaft, a material containing plate, a blanking fixing plate B, a gear E, a mounting plate, a chain E and a chain F, wherein the feeding fixing seat A and the feeding fixing seat B are welded with the blanking mounting plate, the gear D and the gear E are rotatably connected with the chain E, the gear D is rotatably connected with the chain F, the conical teeth C is rotatably connected with the chain F, the reciprocating blanking gear is linearly connected with the chain E, the blanking plate is fixedly connected with the reciprocating blanking gear, the blanking plate is linearly connected with the material containing plate, the blanking fixing shaft is fixedly connected with the material containing plate, and the blanking spring is fixedly connected with the fixing shaft, the blanking fixing shaft is respectively and fixedly connected with the blanking fixing plate A and the blanking fixing plate B, and the blanking fixing plate A and the blanking fixing plate B are both welded and connected with the blanking mounting plate.

As a further optimization of the technical scheme, the agricultural corn harvesting equipment comprises a motor chain, a double gear A, a motor gear B, a blanking frame, a gear F, a handle, the double gear B, a chain G, a spring A, a connecting block, a gear G, a regulating block, a chain pushing block, a gear fixing shaft, a chain H, a chain I, a bevel gear D, a coiling roller A, a cutting blade A, a coiling roller B, a baffle plate, a motor B, a sliding rail, a rotating shaft, a cutting blade B, a pushing rod A, a crushing shaft, a pushing rod B, a cutter sliding rod, a spring fixing shaft, a coiling roller fixing plate and a spring B, wherein the bevel gear C is fixedly connected with the gear fixing shaft, the bevel gear C is rotatably connected with the bevel gear D, the blanking mounting plate is welded with the blanking frame, the motor B is rotatably connected with the motor gear B, and the motor chain is rotatably connected with the motor chain, the double gear A is rotationally connected with a motor chain, the double gear A is rotationally connected with the chain I, the chain I is rotationally connected with a gear F and a bevel gear D respectively, the gear F is rotationally connected with a chain G, the double gear B is rotationally connected with the chain G, the double gear B is rotationally connected with a chain H, the gear G is rotationally connected with the chain H, a pushing chain block is fixedly connected with the chain H, an adjusting block is rotationally connected with the pushing chain block, a spring A is fixedly connected with the adjusting block, the connecting block is welded with a blanking frame, a gear fixing shaft is welded with the blanking frame, a handle is welded with the blanking frame, the motor B is fixedly connected with the blanking frame, the double gear B and the gear G are both rotationally connected with a grinding shaft, the gear F is rotationally connected with a rotating shaft, the double gear A is rotationally connected with a coiling roller B, the bevel gear D is rotationally connected with the coiling roller A, and the, the automatic feeding device comprises a coiling roller A, a coiling roller B, a rotating shaft, a blanking frame, a rotating shaft, a pushing rod B, a material cutting blade B, a pushing rod A, a material cutting blade B, a cutter sliding rod, a sliding rail, a cutter sliding rod, a spring fixing shaft and a coiling roller B.

As a further optimization of the technical scheme, the agricultural corn harvesting equipment comprises a base plate, a wheel and a wheel connecting shaft, wherein the base plate is fixedly connected with the wheel connecting shaft, the wheel is fixedly connected with the wheel connecting shaft, the base plate is welded with a baffle plate, the base plate is respectively welded with a feeding fixing seat A and a feeding fixing seat B, the base plate is welded with a blanking mounting plate, and the base plate is welded with a blanking frame.

As further optimization of the technical scheme, the agricultural corn harvesting equipment comprises a left cover shell and a right cover shell, wherein the left cover shell is welded with the right cover shell, a rotating shaft fixing plate connecting shaft is respectively welded with the left cover shell and the right cover shell, a blanking frame is respectively welded with the left cover shell and the right cover shell, and a wheel connecting shaft is respectively rotatably connected with the left cover shell and the right cover shell.

The agricultural corn harvesting equipment has the beneficial effects that:

the invention relates to agricultural corn harvesting equipment, wherein a motor A is started to drive a motor gear A to rotate, the motor gear A acts on a feeding chain, the feeding gear drives a gear C to rotate, a feeding roller drives a feeding belt to rotate, the gear C drives a bevel gear B to rotate through the chain C, the bevel gear A rotates to drive a material conveying belt rotating shaft A to rotate, a material conveying belt drives a material conveying belt rotating shaft B to rotate through a material conveying belt chain, the corn stalks are conveyed to the front of a feeding device, the corn stalks are inclined by utilizing an inclined block on a baffle plate, the material conveying belt rotating shaft B drives a material conveying belt gear B to rotate, the gear B rotates through the chain B, the gear A is driven to rotate through the chain A, the feeding belt rotating shaft A rotates, the cutter gear A and the cutter gear B rotate to drive a cutter to rotate, and the effect of cutting the corn stalks is achieved, simultaneously, a motor B is started to drive a motor gear B, so that a double gear A rotates to drive a gear F and a bevel gear D to rotate, a rolling material roller A and a rolling material roller B rotate to achieve the effect of rolling materials, meanwhile, the spring B enables the rolling material roller B to move up and down along a spring fixing shaft, so that the feeding port can adapt to corn stalks with different thicknesses, meanwhile, the rotation of the gear F enables a push rod B to drive a push rod A to move, so that a cutting blade B moves up and down along a sliding rail to achieve the effect of crushing the corn stalks, meanwhile, a chain G drives the double gear B to rotate to drive a gear G to rotate to drive a crushing shaft to rotate so as to achieve the effect of secondarily crushing the corn stalks, and meanwhile, the spring A can stretch, so that an adjusting block can drive a push chain block to move up and down to achieve the effect of adjusting the distance between the crushing shafts, so that the corn stalks with different sizes are crushed by the, make the maize on the maize pole cut away by the striker plate, the maize falls into flourishing flitch afterwards, along with the maize increases, gravity increases, flourishing flitch downstream, make the flitch drive reciprocal blanking gear move down, reciprocal blanking gear contacts chain E, simultaneously awl tooth C rotates because of awl tooth D, drive gear D and rotate, make chain E rotate, make the blanking board promote maize and move left, after the maize blanking afterwards, gravity reduces, flourishing flitch shifts up under the effect of blanking spring, afterwards, the blanking board drives reciprocal blanking gear and shifts up, make reciprocal blanking gear contact chain E, make the blanking board move right, with this both sides blanking that reaches.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of the cutting and transporting device of the present invention;

FIG. 4 is a schematic structural view of a second cutting and transporting device of the present invention;

FIG. 5 is a schematic view of the cutting conveyor of the present invention;

FIG. 6 is a fourth schematic view of the cutting transporter of the present invention;

FIG. 7 is a fifth schematic view of the cutting conveyor of the present invention;

FIG. 8 is a sixth schematic view of the cutting transporter of the present invention;

FIG. 9 is a seventh schematic view of the cutting transporter of the present invention;

FIG. 10 is a schematic view eight of the cutting transporter of the present invention;

FIG. 11 is a first schematic view of the feeding device of the present invention;

FIG. 12 is a second schematic view of the feeding device of the present invention;

FIG. 13 is a first schematic structural diagram of a blanking device of the present invention;

FIG. 14 is a schematic structural view of a blanking device of the present invention;

FIG. 15 is a third schematic structural view of a blanking device of the present invention;

FIG. 16 is a first schematic view of the crushing apparatus according to the present invention;

FIG. 17 is a second schematic structural view of the comminution apparatus of the present invention;

FIG. 18 is a third schematic structural view of the comminution device of the present invention;

FIG. 19 is a fourth schematic structural view of the comminution apparatus of the invention;

FIG. 20 is a fifth schematic view of the comminution apparatus according to the invention;

FIG. 21 is a sixth schematic view of the comminution apparatus according to the invention;

FIG. 22 is a seventh schematic structural view of the comminution apparatus according to the invention;

FIG. 23 is a structural schematic view eight of the comminution apparatus of the present invention;

FIG. 24 is a ninth schematic view of the comminution apparatus according to the invention;

FIG. 25 is a schematic view of the construction of the base pan of the present invention;

FIG. 26 is a first schematic view of the housing of the present invention;

FIG. 27 is a second schematic view of the housing construction of the present invention;

fig. 28 is a third schematic view of the housing structure of the present invention.

In the figure: cutting the transportation device 1; a feeding belt 1-1; a rotating shaft fixing plate A1-2; a rotating shaft fixing plate B1-3; gear A1-4; chain A1-5; the rotating shaft fixing plate is connected with a shaft 1-6; a cutter gear A1-7; 1-8 parts of a cutter; cutter gear B1-9; a feeding belt rotating shaft A1-10; gear B1-11; 1-12 parts of a striker plate; 1-13 of a conveyor belt; a transmission belt rotating shaft A1-14; a belt transmission gear A1-15; belt conveyor chains 1-16; a belt rotating shaft B1-17; a belt gear B1-18; a rotating shaft fixing plate C1-19; gear B1-20; chain B1-21; bevel teeth A1-22; bearings 1-23; a feeding belt rotating shaft B1-24 and a feeding device 2; a feeding belt 2-1; the feeding fixed seat A2-2; 2-3 of a gear fixing seat; bevel teeth B2-4; chain C2-5; gear C2-6; motor A2-7; chain D2-8; motor gear A2-9; 2-10 parts of a feeding chain; 2-11 parts of a feeding gear; a feeding fixed seat B2-12; the feeding rollers 2-13 and the blanking device 3; gear D3-1; a blanking mounting plate 3-2; a blanking fixing plate A3-3; 3-4 of blanking plates; bevel teeth C3-5; 3-6 parts of a reciprocating blanking gear; 3-7 parts of blanking springs; 3-8 of a blanking fixing shaft; 3-9 parts of a material containing plate; a blanking fixing plate B3-10; gear E3-11; mounting plates 3-12; chain E3-13; chain F3-14, crushing device 4; 4-1 of a motor chain; double gear a 4-2; motor gear B4-3; 4-4 of a blanking frame; gear F4-5; 4-6 of a handle; double gear B4-7; chain G4-8; spring A4-9; 4-10 parts of a connecting block; gear G4-11; 4-12 parts of a regulating block; 4-13 of a chain pushing block; gear fixing shafts 4-14; chain H4-15; chain I4-16; bevel teeth D4-17; a take-up roll A4-18; a cutting blade A4-19; a material rolling roller B4-20; 4-21 parts of a material baffle plate; motor B4-22; 4-23 of a slide rail; 4-24 parts of a rotating shaft; a cutting blade B4-25; push rod A4-26; 4-27 parts of a crushing shaft; push rods B4-28; 4-29 parts of a cutter sliding rod; 4-30 parts of a spring fixing shaft; 4-31 of a fixing plate of a winding roller; springs B4-32, a chassis 5; a bottom connecting plate 5-1; 5-2 parts of wheels; a wheel connecting shaft 5-3 and a housing 6; a left housing 6-1; and a right housing 6-2.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in this device indicates that fix through modes such as welding, thread tightening, combines different service environment, uses different fixed mode, the rotation connection indicate through drying by the fire the dress at epaxial with the bearing, be provided with the spring on axle or the shaft hole and keep off the ring groove, realize rotating through keeping off the axial fixity that the ring card realized the bearing in the ring inslot, sliding connection indicate to connect through the slip of slider in spout or guide rail, articulated indicate through carrying out the connected mode that moves about on connecting elements such as hinge, round pin axle and minor axis, required sealed department all realizes sealedly through sealing washer or O shape circle.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 28, and an agricultural corn harvesting device includes a cutting and transporting device 1, a feeding device 2, a blanking device 3, a crushing device 4, a chassis 5, and a housing 6, where the cutting and transporting device 1 is connected to the feeding device 2, the feeding device 2 is connected to the blanking device 3, the blanking device 3 is connected to the crushing device 4, the cutting and transporting device 1, the feeding device 2, the blanking device 3, and the crushing device 4 are all connected to the chassis 5, and the cutting and transporting device 1, the crushing device 4, and the chassis 5 are all connected to the housing 6.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 28, and the present embodiment further describes the first embodiment, where the cutting and transporting device 1 includes a feeding belt 1-1, a rotating shaft fixing plate a1-2, a rotating shaft fixing plate B1-3, a gear a1-4, a chain a1-5, a rotating shaft fixing plate connecting shaft 1-6, a cutter gear a1-7, a cutter 1-8, a cutter gear B1-9, a feeding belt rotating shaft a1-10, a gear B1-11, a striker plate 1-12, a material conveying belt 1-13, a material conveying belt rotating shaft a1-14, a material conveying belt gear a1-15, a material conveying belt chain 1-16, a material conveying belt rotating shaft B1-17, a material conveying belt gear B1-18, a rotating shaft fixing plate C1-19, a gear B1-20, a chain B1-21, a conical tooth a1-22, a conical tooth B, Bearings 1-23, a feeding belt rotating shaft B1-24, a cutter gear A1-7 is rotatably connected with cutters 1-8, a cutter gear B1-9 is rotatably connected with the cutters 1-8, a cutter gear A1-7 and a cutter gear B1-9 are rotatably connected with a feeding belt rotating shaft A1-10, a feeding belt rotating shaft A1-10 is rotatably connected with a rotating shaft fixing plate A1-2, a feeding belt rotating shaft A1-10 is rotatably connected with a rotating shaft fixing plate B1-3, a feeding belt 1-1 is rotatably connected with a feeding belt rotating shaft A1-10, a gear A1-4 is rotatably connected with a feeding belt rotating shaft A1-10, bearings 1-23 are respectively fixedly connected with a rotating shaft fixing plate A1-2 and a rotating shaft fixing plate B1-3, bearings 1-23 are rotatably connected with a feeding belt rotating shaft A1-10, a rotating shaft fixing plate connecting shaft 1-6 is fixedly connected with a rotating shaft fixing plate B1-3, a gear A1-4 is rotatably connected with a chain A1-5, a feeding belt rotating shaft B1-24 is respectively rotatably connected with a rotating shaft fixing plate A1-2 and a rotating shaft fixing plate B1-3, a feeding belt 1-1 is rotatably connected with a feeding belt rotating shaft B1-24, a feeding belt rotating shaft B1-24 is rotatably connected with a bearing 1-23, a gear B1-11 is rotatably connected with a feeding belt rotating shaft B1-24, a gear B1-20 is rotatably connected with a feeding belt rotating shaft B1-24, a gear B1-11 and a gear B1-20 are both rotatably connected with a chain A1-5, a rotating shaft fixing plate C1-19 is respectively welded with a rotating shaft fixing plate A1-2 and a rotating shaft fixing plate B1-3, a gear B1-20 is rotatably connected with a chain B1-21, a material conveying belt gear B1-18 is rotationally connected with a chain B1-21, a material conveying belt gear B1-18 is rotationally connected with a material conveying belt chain 1-16, a material conveying belt gear A1-15 is rotationally connected with a material conveying belt chain 1-16, a material conveying belt rotating shaft B1-17 is rotationally connected with a material conveying belt gear B1-18, a material conveying belt rotating shaft A1-14 is rotationally connected with a material conveying belt gear A1-15, a material conveying belt rotating shaft A1-14 and a material conveying belt rotating shaft B1-17 are fixedly connected with a rotating shaft fixing plate C1-19, a material conveying belt 1-13 is rotationally connected with a material conveying belt rotating shaft A1-14 and a material conveying belt rotating shaft B1-17 respectively, a cone tooth A1-22 is rotationally connected with a material conveying belt rotating shaft A1-14, a material baffle plate 1-12 is welded with a rotating shaft C1-19,

the bevel gear A1-22 is rotated, the material transfer belt rotating shaft A1-14 is rotated, the material transfer belt rotating shaft B1-17 is driven to rotate through the material transfer belt chain 1-16, the material transfer belt 1-13 is rotated, the corn stalks are conveyed to the front of the feeding device, the corn stalks are inclined by utilizing the inclined blocks on the material baffle plate 1-12, meanwhile, the material transfer belt rotating shaft B1-17 drives the material transfer belt gear B1-18 to rotate, the gear B1-20 is driven to rotate through the chain B1-21, meanwhile, the gear A1-4 is driven to rotate through the chain A1-5, the feeding belt rotating shaft A1-10 is driven to rotate, the cutter gear A1-7 and the cutter gear B1-9 are driven to rotate, and the cutters 1-8 are driven to rotate, and therefore the corn stalk cutting effect is achieved.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 28, and the embodiment further describes a first embodiment, where the feeding device 2 includes a feeding belt 2-1, a feeding fixing seat a2-2, a gear fixing seat 2-3, a bevel gear B2-4, a chain C2-5, a gear C2-6, a motor a2-7, a chain D2-8, a motor gear a2-9, a feeding chain 2-10, a feeding gear 2-11, a feeding fixing seat B2-12, and a feeding roller 2-13, the bevel gear a1-22 is rotatably connected with the bevel gear B2-4, the bevel gear B2-4 is rotatably connected with the chain C2-5, the gear C2-6 is rotatably connected with the chain C2-5, the gear C2-6 is rotatably connected with the chain D2-8, the feeding gear 2-11 is rotatably connected with the chain D2-8, a feeding gear 2-11 is rotationally connected with a feeding chain 2-10, the feeding chain 2-10 is rotationally connected with a motor gear A2-9, a bevel gear B2-4 and a gear C2-6 are fixedly connected with a gear fixing seat A2-3, the gear fixing seat A2-3 is welded with a feeding fixing seat B2-12, the feeding gear 2-11 is rotationally connected with a feeding roller 2-13, the feeding roller 2-13 is respectively fixedly connected with a feeding fixing seat A2-2 and a feeding fixing seat B2-12, the feeding fixing seat A2-2 is welded with a feeding fixing seat B2-12, a feeding belt 2-1 is rotationally connected with the feeding roller 2-13, a motor A2-7 is rotationally connected with a motor gear A2-9, a motor A2-7 is fixedly connected with a feeding fixing seat B2-12,

the motor A2-7 is started to drive the motor gear A2-9 to rotate, and the motor gear A acts on the feeding chain 2-10, so that the feeding gear 2-11 drives the gear C2-6 to rotate, meanwhile, the feeding roller 2-13 drives the feeding belt 2-1 to rotate, and the gear C2-6 drives the bevel gear B2-4 to rotate through the chain C2-5.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-28, and the embodiment further describes the first embodiment, where the blanking device 3 includes a gear D3-1, a blanking mounting plate 3-2, a blanking fixing plate A3-3, a blanking plate 3-4, a bevel gear C3-5, a reciprocating blanking gear 3-6, a blanking spring 3-7, a blanking fixing shaft 3-8, a material containing plate 3-9, a blanking fixing plate B3-10, a gear E3-11, a mounting plate 3-12, a chain E3-13, a chain F3-14, a feeding fixing seat a2-2 and a feeding fixing seat B2-12 are all welded to the blanking mounting plate 3-2, a gear D3-1 and a gear E3-11 are both rotationally connected to the mounting plate 3-12, a gear D3-1 and a gear E3-11 are both rotationally connected to the chain E3-13, the gear D3-1 is rotationally connected with the chain F3-14, the conical tooth C3-5 is rotationally connected with the chain F3-14, the reciprocating blanking gear 3-6 is linearly connected with the chain E3-13, the blanking plate 3-4 is fixedly connected with the reciprocating blanking gear 3-6, the blanking plate 3-4 is linearly connected with the material containing plate 3-9, the blanking fixing shaft 3-8 is fixedly connected with the material containing plate 3-9, the blanking spring 3-7 is fixedly connected with the blanking fixing shaft 3-8, the blanking fixing shaft 3-8 is respectively fixedly connected with the blanking fixing plate A3-3 and the blanking fixing plate B3-10, the blanking fixing plate A3-3 and the blanking fixing plate B3-10 are both welded with the blanking mounting plate 3-2,

the corns fall onto the material containing plates 3-9, the gravity is increased along with the increase of the corns, the material containing plates 3-9 move downwards, so that the blanking plate 3-4 drives the reciprocating blanking gear 3-6 to move downwards, the reciprocating blanking gear 3-6 contacts the chain E3-13, meanwhile, the bevel gear C3-5 drives the gear D3-1 to rotate due to the rotation of the bevel gear D4-17, the chain E3-13 is rotated, the blanking plate 3-4 pushes the corn to move leftwards, and after the corn is blanked, the gravity is reduced, the material containing plate 3-9 moves upwards under the action of the blanking spring 3-7, then the blanking plate 3-4 drives the reciprocating blanking gear 3-6 to move upwards, the reciprocating blanking gears 3-6 are contacted with the chain E3-13, so that the blanking plate 3-4 moves rightwards, and blanking on the left side and the right side is achieved.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 28, and the embodiment will be further described, wherein the crushing device 4 comprises a motor chain 4-1, a double gear a4-2, a motor gear B4-3, a blanking frame 4-4, a gear F4-5, a handle 4-6, a double gear B4-7, a chain G4-8, a spring a4-9, a connecting block 4-10, a gear G4-11, an adjusting block 4-12, a pushing chain block 4-13, a gear fixing shaft 4-14, a chain H4-15, a chain I4-16, a conical tooth D4-17, a rolling material roller a4-18, a cutting blade a4-19, a rolling material roller B4-20, a material baffle 4-21, a motor B4-22, a sliding rail 4-23, a rotating shaft 4-24, a material baffle 4-22, a motor B4, a sliding rail, a motor B369, a, A material cutting blade B4-25, a push rod A4-26, a crushing shaft 4-27, a push rod B4-28, a cutter slide bar 4-29, a spring fixing shaft 4-30, a coiling roller fixing plate 4-31, a spring B4-32, a bevel gear C3-5 fixedly connected with a gear fixing shaft 4-14, a bevel gear C3-5 rotatably connected with a bevel gear D4-17, a blanking mounting plate 3-2 rotatably connected with a blanking frame 4-4, a mounting plate 3-12 rotatably connected with a blanking frame 4-4, a motor B4-22 rotatably connected with a motor gear B4-3, a motor gear B4-3 rotatably connected with a motor chain 4-1, a double gear A4-2 rotatably connected with a motor chain 4-1, a double gear A4-2 rotatably connected with a chain I4-16, the chain I4-16 is respectively rotationally connected with a gear F4-5 and a bevel gear D4-17, the gear F4-5 is rotationally connected with a chain G4-8, the double gear B4-7 is rotationally connected with a chain G4-8, the double gear B4-7 is rotationally connected with a chain H4-15, the gear G4-11 is rotationally connected with a chain H4-15, the push chain block 4-13 is fixedly connected with a chain H4-15, the adjusting block 4-12 is rotationally connected with the push chain block 4-13, the spring A4-9 is fixedly connected with the adjusting block 4-12, the connecting block 4-10 is welded with the blanking frame 4-4, the gear fixing shaft 4-14 is welded with the blanking frame 4-4, the handle 4-6 is welded with the blanking frame 4-4, the motor B4-22 is fixedly connected with the blanking frame 4-4, the double gear B4-7 and the gear G4-11 are rotatably connected with the crushing shaft 4-27, the gear F4-5 is rotatably connected with the rotating shaft 4-24, the double gear A4-2 is rotatably connected with the coiling roller B4-20, the bevel gear D4-17 is rotatably connected with the coiling roller A4-18, the crushing shaft 4-27 is fixedly connected with the blanking frame 4-4, the coiling roller A4-18 and the coiling roller B4-20 are fixedly connected with the blanking frame 4-4, the rotating shaft 4-24 is fixedly connected with the push rod B4-28, the push rod B4-28 is fixedly connected with the push rod A4, the material cutting blade B4-25 is fixedly connected with the push rod A4-26, the cutting blade B4-25 is welded with the cutter slide bar 4-29, the cutting blade A4-19 is welded with the slide rail 4-23, the cutter slide bar 4-29 is linearly connected with the slide rail 4-23, the slide rail 4-23 is welded with the fixing plate 4-31 of the coiling roller, the material baffle plate 4-21 is respectively fixed with the coiling roller A4-18 and the coiling roller B4-20, the coiling roller A4-18 and the coiling roller B4-20 are both fixed with the fixing plate 4-31 of the coiling roller, the spring B4-32 is fixed with the fixing shaft 4-30 of the spring, the fixing shaft 4-30 of the spring is fixed with the coiling roller B4-20, the fixing shaft 4-30 of the spring is fixed with the fixing plate 4-31 of the coiling roller,

the motor B4-22 is started to drive the motor gear B4-3, so that the double gear A4-2 rotates to drive the gear F4-5, the bevel gear D4-17 to rotate, the material rolling roller A4-18 and the material rolling roller B4-20 to rotate to achieve the effect of rolling materials, the spring B4-32 enables the material rolling roller B4-20 to move up and down along the spring fixing shaft 4-30 to achieve the effect that a feeding hole can adapt to corn stalks with different thicknesses, the rotation of the gear F4-5 enables the push rod B4-28 to drive the push rod A4-26 to move, the material cutting blade B4-25 moves up and down along the slide rail 4-23 to achieve the effect of crushing the corn stalks, the chain G4-8 drives the double gear B4-7 to rotate to drive the gear G4-11 to rotate to drive the crushing shaft 4-27 to rotate, the corn stalks are crushed for the second time, meanwhile, the spring A4-9 is telescopic, so that the adjusting block 4-12 can drive the pushing chain block 4-13 to move up and down, the function of adjusting the distance between the crushing shafts 4-27 is achieved, the corn stalks with different sizes are crushed, and the corns on the corn stalks are cut off by the baffle plates 4-21 under the action of the rolling roller A4-18 and the rolling roller B4-20.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 28, and the embodiment further describes the first embodiment, where the chassis 5 includes a bottom connecting plate 5-1, a wheel 5-2, and a wheel connecting shaft 5-3, the bottom connecting plate 5-1 is fixedly connected to the wheel connecting shaft 5-3, the wheel 5-2 is fixedly connected to the wheel connecting shaft 5-3, the bottom connecting plate 5-1 is welded to a striker plate 1-12, the bottom connecting plate 5-1 is welded to a feeding fixing seat a2-2 and a feeding fixing seat B2-12, the bottom connecting plate 5-1 is welded to a blanking mounting plate 3-2, and the bottom connecting plate 5-1 is welded to a blanking frame 4-4.

The seventh embodiment:

the following description is provided with reference to the accompanying drawings, which further describe the first embodiment, where the housing 6 includes a left housing 6-1 and a right housing 6-2, the left housing 6-1 is welded to the right housing 6-2, the shaft-fixing plate connecting shaft 1-6 is welded to the left housing 6-1 and the right housing 6-2, the blanking frame 4-4 is welded to the left housing 6-1 and the right housing 6-2, and the wheel connecting shaft 5-3 is rotatably connected to the left housing 6-1 and the right housing 6-2, respectively.

The invention relates to agricultural corn harvesting equipment, which has the working principle that: starting a motor A2-7, driving a motor gear A2-9 to rotate, acting on a feeding chain 2-10, enabling a feeding gear 2-11 to drive a gear C2-6 to rotate, enabling a feeding roller 2-13 to drive a feeding belt 2-1 to rotate, enabling a gear C2-6 to drive a bevel gear B2-4 to rotate through a chain C2-5, enabling a bevel gear A1-22 to rotate, enabling a material transfer belt rotating shaft A1-14 to rotate, driving a material transfer belt rotating shaft B1-17 to rotate through a material transfer belt chain 1-16, enabling a material transfer belt 1-13 to rotate, enabling corn stalks to be conveyed to the front of a feeding device, enabling the corn stalks to incline through inclined blocks on a material baffle plate 1-12, simultaneously enabling a material transfer belt rotating shaft B1-17 to drive a material transfer belt gear B1-18 to rotate, enabling a gear B1-20 to rotate through a chain B1-21, meanwhile, a chain A1-5 drives a gear A1-4 to rotate to drive a feeding belt rotating shaft A1-10 to rotate, so that a cutter gear A1-7 and a cutter gear B1-9 rotate to drive a cutter 1-8 to rotate, thereby achieving the effect of cutting corn stalks, a motor B4-22 is started to drive a motor gear B4-3 to rotate a double gear A4-2, a gear F4-5 and a bevel gear D4-17 are driven to rotate, a coiling roller A4-18 and a coiling roller B4-20 rotate to achieve the effect of coiling, a spring B4-32 enables a coiling roller B4-20 to move up and down along a spring fixing shaft 4-30, thereby achieving the effect that a feeding hole can adapt to corn stalks with different thicknesses, and a pushing rod B4-28 drives a pushing rod A4-26 to move due to the rotation of the gear F4-5, the corn stalk crushing device has the advantages that the material cutting blades B4-25 move up and down along the slide rails 4-23 to achieve the effect of crushing corn stalks, meanwhile, the chains G4-8 drive the double gears B4-7 to rotate to drive the gears G4-11 to rotate to drive the crushing shafts 4-27 to rotate to achieve the effect of crushing corn stalks for the second time, and meanwhile, the springs A4-9 can stretch, so that the adjusting blocks 4-12 can drive the chain pushing blocks 4-13 to move up and down to achieve the effect of adjusting the space between the crushing shafts 4-27 to crush corn stalks with different sizes, the corn stalks on the corn stalks are cut off by the material baffle plates 4-21 under the action of the material rolling rollers A4-18 and the material rolling rollers B4-20, then the corn stalks fall onto the material containing plates 3-9, the gravity increases along with the increase of the corn, the material containing plates 3-9 move downwards, so that the material falling plates 3-4 drive, the reciprocating blanking gear 3-6 is contacted with the chain E3-13, meanwhile, the conical tooth C3-5 drives the gear D3-1 to rotate due to the rotation of the conical tooth D4-17, so that the chain E3-13 rotates, the blanking plate 3-4 pushes the corn to move leftwards, then after the corn is blanked, the gravity is reduced, the material containing plate 3-9 moves upwards under the action of the blanking spring 3-7, then the blanking plate 3-4 drives the reciprocating blanking gear 3-6 to move upwards, the reciprocating blanking gear 3-6 is contacted with the chain E3-13, and the blanking plate 3-4 moves rightwards, so that blanking on the left side and the right side is achieved.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (7)

1. An agricultural maize harvesting equipment which characterized in that: including cutting conveyer (1), material feeding unit (2), doffer (3), reducing mechanism (4), chassis (5), housing (6), cutting conveyer (1) is connected with material feeding unit (2), and material feeding unit (2) are connected with doffer (3), and doffer (3) are connected with reducing mechanism (4), and cutting conveyer (1), material feeding unit (2), doffer (3), reducing mechanism (4) all are connected with chassis (5), and cutting conveyer (1), reducing mechanism (4), chassis (5) all are connected with housing (6).

2. An agricultural corn harvesting apparatus according to claim 1, wherein: the cutting and conveying device (1) comprises a feeding belt (1-1), a rotating shaft fixing plate A (1-2), a rotating shaft fixing plate B (1-3), a gear A (1-4), a chain A (1-5), a rotating shaft fixing plate connecting shaft (1-6), a cutter gear A (1-7), a cutter (1-8), a cutter gear B (1-9), a feeding belt rotating shaft A (1-10), a gear B (1-11), a material baffle plate (1-12), a material conveying belt (1-13), a material conveying belt rotating shaft A (1-14), a material conveying belt gear A (1-15), a material conveying belt chain (1-16), a material conveying belt rotating shaft B (1-17), a material conveying belt B (1-18), a rotating shaft fixing plate C (1-19), a gear B (1-20), A chain B (1-21), a bevel gear A (1-22), a bearing (1-23) and a feeding belt rotating shaft B (1-24), wherein a cutter gear A (1-7) is rotationally connected with a cutter (1-8), a cutter gear B (1-9) is rotationally connected with the cutter (1-8), the cutter gear A (1-7) and the cutter gear B (1-9) are rotationally connected with the feeding belt rotating shaft A (1-10), the feeding belt rotating shaft A (1-10) is rotationally connected with a rotating shaft fixing plate A (1-2), the feeding belt rotating shaft A (1-10) is rotationally connected with a rotating shaft fixing plate B (1-3), the feeding belt (1-1) is rotationally connected with the feeding belt rotating shaft A (1-10), the gear A (1-4) is rotationally connected with the feeding belt rotating shaft A (1-10), bearings (1-23) are respectively fixedly connected with a rotating shaft fixing plate A (1-2) and a rotating shaft fixing plate B (1-3), the bearings (1-23) are rotatably connected with a feeding belt rotating shaft A (1-10), a rotating shaft fixing plate connecting shaft (1-6) is fixedly connected with a rotating shaft fixing plate B (1-3), a gear A (1-4) is rotatably connected with a chain A (1-5), a feeding belt rotating shaft B (1-24) is respectively rotatably connected with a rotating shaft fixing plate A (1-2) and a rotating shaft fixing plate B (1-3), a feeding belt (1-1) is rotatably connected with a feeding belt rotating shaft B (1-24), a feeding belt rotating shaft B (1-24) is rotatably connected with bearings (1-23), and a gear B (1-11) is rotatably connected with a feeding belt rotating shaft B (1-24), the gear B (1-20) is rotationally connected with the feeding belt rotating shaft B (1-24), the gear B (1-11) and the gear B (1-20) are rotationally connected with the chain A (1-5), the rotating shaft fixing plate C (1-19) is respectively welded with the rotating shaft fixing plate A (1-2) and the rotating shaft fixing plate B (1-3), the gear B (1-20) is rotationally connected with the chain B (1-21), the material transmission belt gear B (1-18) is rotationally connected with the material transmission belt chain (1-16), the material transmission belt gear A (1-15) is rotationally connected with the material transmission belt chain (1-16), the material transmission belt rotating shaft B (1-17) is rotationally connected with the material transmission belt gear B (1-18), the material conveying belt rotating shafts A (1-14) are rotatably connected with the material conveying belt gears A (1-15), the material conveying belt rotating shafts A (1-14) and the material conveying belt rotating shafts B (1-17) are fixedly connected with the rotating shaft fixing plates C (1-19), the material conveying belts (1-13) are rotatably connected with the material conveying belt rotating shafts A (1-14) and the material conveying belt rotating shafts B (1-17) respectively, the conical teeth A (1-22) are rotatably connected with the material conveying belt rotating shafts A (1-14), and the material baffle plates (1-12) are welded with the rotating shaft fixing plates C (1-19).

3. An agricultural corn harvesting apparatus according to claim 1, wherein: the feeding device (2) comprises a feeding belt (2-1), a feeding fixing seat A (2-2), a gear fixing seat (2-3), bevel teeth B (2-4), a chain C (2-5), a gear C (2-6), a motor A (2-7), a chain D (2-8), a motor gear A (2-9), a feeding chain (2-10), a feeding gear (2-11), a feeding fixing seat B (2-12) and a feeding roller (2-13), wherein the bevel teeth A (1-22) are rotationally connected with the bevel teeth B (2-4), the bevel teeth B (2-4) are rotationally connected with the chain C (2-5), the gear C (2-6) is rotationally connected with the chain C (2-5), and the gear C (2-6) is rotationally connected with the chain D (2-8), the feeding gears (2-11) are rotationally connected with the chain D (2-8), the feeding gears (2-11) are rotationally connected with the feeding chain (2-10), the feeding chain (2-10) is rotationally connected with the motor gear A (2-9), the bevel teeth B (2-4) and the gear C (2-6) are fixedly connected with the gear fixing seat A (2-3), the gear fixing seat A (2-3) is welded with the feeding fixing seat B (2-12), the feeding gears (2-11) are rotationally connected with the feeding rollers (2-13), the feeding rollers (2-13) are respectively fixedly connected with the feeding fixing seat A (2-2) and the feeding fixing seat B (2-12), the feeding fixing seat A (2-2) is welded with the feeding fixing seat B (2-12), the feeding belt (2-1) is rotationally connected with the feeding roller (2-13), the motor A (2-7) is rotationally connected with the motor gear A (2-9), and the motor A (2-7) is fixedly connected with the feeding fixing seat B (2-12).

4. An agricultural corn harvesting apparatus according to claim 1, wherein: the blanking device (3) comprises a gear D (3-1), a blanking mounting plate (3-2), a blanking fixing plate A (3-3), a blanking plate (3-4), bevel teeth C (3-5), a reciprocating blanking gear (3-6), a blanking spring (3-7), a blanking fixing shaft (3-8), a material containing plate (3-9), a blanking fixing plate B (3-10), a gear E (3-11), a mounting plate (3-12), a chain E (3-13) and a chain F (3-14), wherein the feeding fixing seat A (2-2) and the feeding fixing seat B (2-12) are all welded with the blanking mounting plate (3-2), the gear D (3-1) and the gear E (3-11) are all rotationally connected with the mounting plate (3-12), the gear D (3-1) and the gear E (3-11) are rotationally connected with the chain E (3-13), the gear D (3-1) is rotationally connected with the chain F (3-14), the bevel gear C (3-5) is rotationally connected with the chain F (3-14), the reciprocating blanking gear (3-6) is linearly connected with the chain E (3-13), the blanking plate (3-4) is fixedly connected with the reciprocating blanking gear (3-6), the blanking plate (3-4) is linearly connected with the material containing plate (3-9), the blanking fixing shaft (3-8) is fixedly connected with the material containing plate (3-9), the blanking spring (3-7) is fixedly connected with the blanking fixing shaft (3-8), and the blanking fixing shaft (3-8) is respectively connected with the blanking fixing plate A (3-3), The blanking fixing plate B (3-10) is fixedly connected, and the blanking fixing plate A (3-3) and the blanking fixing plate B (3-10) are both welded with the blanking mounting plate (3-2).

5. An agricultural corn harvesting apparatus according to claim 1, wherein: the crushing device (4) comprises a motor chain (4-1), a double gear A (4-2), a motor gear B (4-3), a blanking frame (4-4), a gear F (4-5), a handle (4-6), a double gear B (4-7), a chain G (4-8), a spring A (4-9), a connecting block (4-10), a gear G (4-11), an adjusting block (4-12), a chain pushing block (4-13), a gear fixing shaft (4-14), a chain H (4-15), a chain I (4-16), a bevel gear D (4-17), a coiling roller A (4-18), a cutting blade A (4-19), a coiling roller B (4-20), a material baffle plate (4-21), a motor B (4-22), A sliding rail (4-23), a rotating shaft (4-24), a cutting blade B (4-25), a push rod A (4-26), a crushing shaft (4-27), a push rod B (4-28), a cutter sliding rod (4-29), a spring fixing shaft (4-30), a coiling roller fixing plate (4-31) and a spring B (4-32), wherein a bevel gear C (3-5) is fixedly connected with a gear fixing shaft (4-14), a bevel gear C (3-5) is rotatably connected with a bevel gear D (4-17), a blanking mounting plate (3-2) is welded with a blanking frame (4-4), a mounting plate (3-12) is welded with the blanking frame (4-4), a motor B (4-22) is rotatably connected with a motor gear B (4-3), and the motor gear B (4-3) is rotatably connected with a motor chain (4-1), the double gear A (4-2) is rotationally connected with a motor chain (4-1), the double gear A (4-2) is rotationally connected with a chain I (4-16), the chain I (4-16) is rotationally connected with a gear F (4-5) and a bevel gear D (4-17) respectively, the gear F (4-5) is rotationally connected with a chain G (4-8), the double gear B (4-7) is rotationally connected with a chain H (4-15), the gear G (4-11) is rotationally connected with the chain H (4-15), the push chain block (4-13) is fixedly connected with the chain H (4-15), the adjusting block (4-12) is rotationally connected with the push chain block (4-13), the spring A (4-9) is fixedly connected with the adjusting block (4-12), the connecting blocks (4-10) are fixedly connected with the adjusting blocks (4-12), the connecting blocks (4-10) are welded with the blanking frame (4-4), the gear fixing shafts (4-14) are welded with the blanking frame (4-4), the handles (4-6) are welded with the blanking frame (4-4), the motors B (4-22) are fixedly connected with the blanking frame (4-4), the double gears B (4-7) and the gears G (4-11) are rotationally connected with the crushing shafts (4-27), the gears F (4-5) are rotationally connected with the rotating shafts (4-24), the double gears A (4-2) are rotationally connected with the rolling material rollers B (4-20), the conical gears D (4-17) are rotationally connected with the rolling material rollers A (4-18), the crushing shafts (4-27) are fixedly connected with the blanking frame (4-4), the coiling roller A (4-18) and the coiling roller B (4-20) are fixedly connected with a blanking frame (4-4), the rotating shaft (4-24) is fixedly connected with the blanking frame (4-4), the rotating shaft (4-24) is fixedly connected with a push rod B (4-28), the push rod B (4-28) is fixedly connected with a push rod A (4-26), a blanking blade B (4-25) is fixedly connected with the push rod A (4-26), the blanking blade B (4-25) is welded with a cutter sliding rod (4-29), the blanking blade A (4-19) is welded with a sliding rail (4-23), the cutter sliding rod (4-29) is linearly connected with the sliding rail (4-23), the sliding rail (4-23) is welded with a coiling roller fixing plate (4-31), the material baffle plates (4-21) are respectively fixedly connected with the material rolling roller A (4-18) and the material rolling roller B (4-20), the material rolling roller A (4-18) and the material rolling roller B (4-20) are respectively fixedly connected with the material rolling roller fixing plates (4-31), the springs B (4-32) are fixedly connected with the spring fixing shafts (4-30), the spring fixing shafts (4-30) are fixedly connected with the material rolling roller B (4-20), and the spring fixing shafts (4-30) are fixedly connected with the material rolling roller fixing plates (4-31).

6. An agricultural corn harvesting apparatus according to claim 1, wherein: the chassis (5) comprises a bottom connecting plate (5-1), wheels (5-2) and wheel connecting shafts (5-3), the bottom connecting plate (5-1) is fixedly connected with the wheel connecting shafts (5-3), the wheels (5-2) are fixedly connected with the wheel connecting shafts (5-3), the bottom connecting plate (5-1) is welded with the material blocking plates (1-12), the bottom connecting plate (5-1) is respectively welded with the feeding fixing seats A (2-2) and the feeding fixing seats B (2-12), the bottom connecting plate (5-1) is welded with the blanking mounting plate (3-2), and the bottom connecting plate (5-1) is welded with the blanking frame (4-4).

7. An agricultural corn harvesting apparatus according to claim 1, wherein: the shell (6) comprises a left shell (6-1) and a right shell (6-2), the left shell (6-1) is connected with the right shell (6-2) in a welding mode, a rotating shaft fixing plate connecting shaft (1-6) is respectively connected with the left shell (6-1) and the right shell (6-2) in a welding mode, a blanking frame (4-4) is respectively connected with the left shell (6-1) and the right shell (6-2) in a welding mode, and a wheel connecting shaft (5-3) is respectively connected with the left shell (6-1) and the right shell (6-2) in a rotating mode.

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