CN216451798U - All-in-one is put in area of sowing to rotary tillage fertilization of going out - Google Patents

Abstract

The utility model discloses a rotary tillage fertilization that puts out recommended is planted and is irrigated area and put all-in-one is put, including the rotary tillage device that puts out recommended, double-barrelled roof beam link assembly, the case of applying fertilizer at the bottom, the seeder assembly, drive arrangement, area roller bracket is irrigated to the ground, set up the end fertile case on the rotary tillage device that puts out recommended, double-barrelled roof beam link assembly is including double-barrelled roof beam structure, seeder link assembly, seeder link position adjustment mechanism, the fertilization hook, ground is irrigated area direction wheel carrier, furrow plough link and its position adjustment mechanism, the frame of rotary tillage device that puts out recommended is connected with double-barrelled roof beam structure fixed connection, set up the area roller bracket that irrigates to the ground on the seeder link, the body frame of seeder assembly is connected with the ground following connecting rod frame of seeder link rear end; the seeder connecting frame is provided with a ground following connecting rod frame lifting mechanism, and the driving device comprises a traveling wheel, a shaft frame rod, a bracket, a tension spring, a bevel gear transmission shaft assembly and a transmission shaft, which drive a base fertilizer box fertilizer distributor and a main transmission shaft of the seeder assembly to rotate.

Description

All-in-one is put in area of sowing to rotary tillage fertilization of going out

Technical Field

The utility model relates to an agricultural machine, in particular to a rotary tillage, fertilization, seeding and ground irrigation belt fertilization all-in-one machine for recommendation.

Background

The prior art particularly relates to agricultural machines for field operations such as corn and soybean cultivation, including a recommendation-eliminating rotary cultivator, a seeder, a rotary tillage fertilizing seeder, a recommendation-eliminating crushing fertilizing seeder and the like, and the prior art also comprises various irrigation belt applicators, namely single machines or combined machines for completing recommendation-eliminating, rotary tillage, fertilization, seeding and irrigation belt application work are various, and the structures of the machines are different and have different characteristics. Because the areas, the plots and the planting varieties are different and the operating ridge distances are different, no operating machine which can complete the operations of recommendation, rotary tillage, fertilization, seeding and land irrigation belt application in one machine at one time is available in the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a be convenient for make, structural good, convenient assembling, rotary tillage, fertilization, seeding, ground are recommended to kill that excellent in use effect irritates area and is put all-in-one.

The utility model discloses going out and recommend rotary tillage fertilization to sow area of irritating and put all-in-one, including going out and recommend rotary cultivator attachment, double-barrelled roof beam link assembly, end fertile case, seeder assembly, drive arrangement irritates area roller bracket with ground.

The recommendation-eliminating rotary tillage device comprises a rack, a portal frame fixedly arranged on the rack, a main transmission gear box fixedly arranged on the rack, and a recommendation-eliminating wheel and a rotary tillage wheel which are arranged at the lower end of the rack in a transmission connection manner.

And a bottom fertilizer box is fixedly arranged on a portal frame of the recommendation-extinguishing rotary tillage device through an installation support.

The double-pipe beam connecting frame assembly comprises a double-pipe beam frame, a seeder connecting frame position adjusting mechanism, a fertilizing hook, a ground irrigation belt guide wheel frame, a furrow plough connecting frame, a furrow plough and a furrow plough connecting frame position adjusting mechanism.

The double-pipe beam frame consists of an upper beam pipe, a lower beam pipe, a left connecting plate and a right connecting plate, wherein the left end and the right end of the upper beam pipe and the lower beam pipe are respectively fixedly connected with the left connecting plate and the right connecting plate; the left end and the right end of the upper beam pipe and the lower beam pipe are respectively and fixedly connected with a recommendation-eliminating rotary tillage device connecting plate.

The left and right ends of the frame of the recommendation-eliminating rotary tillage device are fixedly connected with the connection plates of the recommendation-eliminating rotary tillage device, which are fixedly connected with the left and right ends of the upper beam pipe and the lower beam pipe of the double-tube beam frame through bolts.

The upper beam pipe and the lower beam pipe of the double-tube beam frame are provided with a seeder connecting frame which is connected with the left seeder connecting frame and the right seeder connecting frame, and the seeder connecting frame is connected with the upper beam pipe and the lower beam pipe of the double-tube beam frame in a sliding fit manner through an upper shaft sleeve and a lower shaft sleeve which are arranged at the front end part of the seeder connecting frame.

The seeder link that corresponds left seeder link and right side is equipped with seeder link position adjustment mechanism, seeder link position adjustment mechanism comprises with left seeder link and the seeder link positive and negative screw-thread fit's on right side manual drive screw, manual drive screw rotates and drives left seeder link and the seeder link on right side and slide about on the upper beam pipe and the underbeam pipe of double-barrelled beam frame, adjusts left seeder link and the seeder link position and the interval on right side.

The front ends of an upper shaft sleeve and a lower shaft sleeve of the seeder connecting frame are fixedly connected with a fertilizing hook connecting frame, and a fertilizing hook is fixedly arranged on the fertilizing hook connecting frame through a bolt.

A belt filling roller bracket is fixedly connected to the seeder connecting frame; a belt filling guide wheel frame is fixedly connected to the seeder connecting frame at the rear side of the upper beam pipe and the lower beam pipe of the double-tube beam frame; the upper end of the ground irrigation belt guide wheel frame is provided with a guide sleeve, the lower end of the ground irrigation belt guide wheel frame is provided with a guide wheel, and the guide sleeve and the guide wheel are matched to guide the ground irrigation belt to be applied to the ground.

The upper beam tube and the lower beam tube of the double-tube beam frame are respectively provided with a left furrow plough connecting frame, a middle furrow plough connecting frame and a right furrow plough connecting frame, the furrow plough connecting frame consists of a frame plate and an upper end shaft sleeve and a lower end shaft sleeve which are fixedly connected on the frame plate, and the upper end shaft sleeve and the lower end shaft sleeve of the furrow plough connecting frame are connected with the upper beam tube and the lower beam tube of the double-tube beam frame in a sliding fit manner; the upper end shaft sleeve and the lower end shaft sleeve of the middle furrow plough connecting frame are fixed on the upper beam tube and the lower beam tube of the double-tube beam frame through locking screws; the share plough rod of the share plough is fixedly connected with the share plough connecting frame through a bolt.

The position adjusting mechanism of the furrow plough connecting frame is composed of manual transmission screw rods which are respectively arranged on a left connecting plate and a right connecting plate of the double-tube beam frame, the manual transmission screw rods rotate to drive the furrow plough connecting frame on the left side/the right side to slide left and right on an upper beam tube and a lower beam tube of the double-tube beam frame, and the position of the furrow plough connecting frame on the left side/the right side and the distance between the furrow plough connecting frame on the middle part are adjusted.

The rear end of the seeder connecting frame is provided with a ground following connecting rod frame, and the main frame of the seeder assembly is connected with the rear end of the ground following connecting rod frame.

The ground following connecting rod frame lifting mechanism is arranged on the connecting frame of the seeder and consists of a hydraulic cylinder bracket, a hydraulic cylinder and a lifting frame; the hydraulic cylinder support is fixedly installed at the rear upper end of the seeder connecting frame, the cylinder body of the hydraulic cylinder is hinged with the hydraulic cylinder support, the lower end of the lifting frame is hinged with the upper end rod of the ground following connecting rod frame, a sliding groove is formed in the lifting frame, a pin shaft is connected to the end head of the piston rod of the hydraulic cylinder, and the pin shaft arranged on the end head of the piston rod of the hydraulic cylinder is installed in a matched mode with the sliding groove formed in the lifting frame. When the seeder assembly does not work, the ground following connecting rod frame lifting mechanism lifts the ground following connecting rod frame to face upwards, and the seeder assembly connected to the rear part of the ground following connecting rod frame is lifted and suspended away from the ground.

The driving device consists of a travelling wheel, a shaft frame rod, a bracket, a tension spring, a bevel gear transmission shaft assembly, a transmission shaft, a base fertilizer box fertilizer distributor transmission chain wheel and a seeder transmission chain wheel; the transmission shaft is rotatably installed on the left seeder connecting frame and the right seeder connecting frame, the upper end of the shaft frame rod is rotatably installed in a matched manner with the transmission shaft, the lower end of the shaft frame rod is rotatably installed in a matched manner with a wheel shaft of the travelling wheel, the bevel gear transmission shaft assembly is an assembly consisting of a shaft sleeve, a shaft rod and bevel gears at two ends of the shaft rod, the lower end of the bevel gear transmission shaft assembly is installed in a matched manner with the wheel shaft of the travelling wheel, the upper end of the bevel gear transmission shaft assembly is installed in a matched manner with the transmission shaft, a bottom fertilizing box discharger transmission chain wheel and a seeder transmission chain wheel are installed on the transmission shaft, the bracket is fixedly installed at the rear end of the ploughshare connecting frame in the middle part, the bracket supports the shaft frame rod in a one-way manner, and an installation tension spring is arranged between the bracket and the shaft frame rod so as to ensure that the elastic pressure of the travelling wheel acts on the ground; when the machines operation is gone forward, the walking wheel of taking the ratchet rotates with the stable cooperation in field surface, and the walking wheel rotates and drives the transmission shaft through bevel gear transmission shaft subassembly and rotate, and the transmission shaft passes through the fertilizer distributor axle rotation of fertilizer distributor transmission sprocket drive end fertilization case lower part, and the transmission shaft passes through the main drive shaft rotation of seeder transmission sprocket drive seeder assembly.

The utility model discloses be convenient for make, structural good, convenient assembling, excellent in use effect.

Drawings

Fig. 1 and fig. 2 are schematic structural diagrams of the embodiment of the present invention.

FIG. 3 is a schematic structural view of the recommendation rotary tillage device 1.

Fig. 4 is a schematic structural view of the double pipe beam connecting frame assembly 2.

Fig. 5 is a schematic structural view of the driving device 4.

Fig. 6 is a schematic structural view of the seeder connecting frame 22, the ground following link frame 7, the ground following link frame lifting mechanism 8, the fertilizing hook 24, and the ground irrigation belt guide wheel frame 25.

Fig. 7 is a schematic structural view of the seeder assembly 5.

Detailed Description

The utility model discloses going out and recommend rotary tillage fertilization to broadcast ground and irrigate area and put all-in-one, including going out and recommend rotary cultivator attachment 1, double-barrelled roof beam link assembly 2, base fertilizer case 3, drive arrangement 4, seeder assembly 5 irritates area roller bracket 6 with ground.

The recommendation rotary tillage device 1 comprises a frame 11, a portal frame 12 fixedly installed on the frame 11, a main transmission gear box 13 fixedly installed on the frame 11, and recommendation wheels 14 and rotary tillage wheels 15 installed at the lower end of the frame in a transmission connection mode. The recommendation rotary cultivator device has a structure basically consistent with that of the prior art.

The bottom fertilizer box 3 is fixedly arranged on a portal frame 12 of the recommendation rotary tillage device 1 through a mounting bracket.

The double-pipe beam connecting frame assembly 2 comprises a double-pipe beam frame 21, a seeder connecting frame 22, a seeder connecting frame position adjusting mechanism 23, a fertilizing hook 24, a ground irrigation belt guide wheel frame 25, a furrow plough connecting frame 27, a furrow plough 277 and a furrow plough connecting frame position adjusting mechanism 28.

The double-pipe beam frame 21 is composed of an upper beam pipe 211, a lower beam pipe 212, a left connecting plate 213 and a right connecting plate 214, and the left end and the right end of the upper beam pipe 211 and the lower beam pipe 212 are respectively fixedly connected with the left connecting plate 213 and the right connecting plate 214; the left end and the right end of the upper beam pipe 211 and the lower beam pipe 212 are respectively fixedly connected with a recommendation-eliminating rotary tillage device connecting plate 215.

The left and right ends of the frame 11 of the recommendation rotary tillage device are fixedly connected with a recommendation rotary tillage device connecting plate 215 which is fixedly connected with the left and right ends of an upper beam pipe 211 and a lower beam pipe 212 of a double-tube beam frame 21 through bolts.

The upper beam tube 211 and the lower beam tube 212 of the double-tube beam frame 21 are provided with a seeder connecting frame 22a on the left side and a seeder connecting frame 22b on the right side, and the seeder connecting frame 22 is connected with the upper beam tube 211 and the lower beam tube 212 of the double-tube beam frame in a sliding fit manner through an upper shaft sleeve 221 and a lower shaft sleeve 222 which are arranged at the front end part of the seeder connecting frame.

The left side seeder connecting frame 22a and the right side seeder connecting frame 22b are correspondingly provided with a seeder connecting frame position adjusting mechanism 23, the seeder connecting frame position adjusting mechanism 23 is composed of a manual transmission screw 231 in positive and negative threaded fit with the left side seeder connecting frame 22a and the right side seeder connecting frame 22b, the manual transmission screw 231 rotates to drive the left side seeder connecting frame 22a and the right side seeder connecting frame 22b to slide left and right on an upper beam pipe 211 and a lower beam pipe 212 of a double-tube beam frame, and the positions and the intervals of the left side seeder connecting frame 22a and the right side seeder connecting frame 22b are adjusted.

A fertilizing hook connecting frame 241 is fixedly connected to the front ends of the upper shaft sleeve 221 and the lower shaft sleeve 222 of the seeder connecting frame 22, and the fertilizing hook 24 is fixedly mounted on the fertilizing hook connecting frame 241 by a bolt.

A belt filling roller bracket 6 is fixedly connected to the seeder connecting frame 22; a ground tape filling guide wheel frame 25 is fixedly connected to the seeder connecting frame 22 at the rear side of the upper beam tube 211 and the lower beam tube 212 of the double-tube beam frame; the upper end of the ground irrigation belt guide wheel frame 25 is provided with a guide sleeve 251, the lower end of the ground irrigation belt guide wheel frame 25 is provided with a guide wheel 252, and the guide sleeve 251 and the guide wheel 252 are matched to guide the ground irrigation belt to be applied to the ground.

The upper beam tube 211 and the lower beam tube 212 of the double-tube beam frame are respectively provided with a left furrow plough connecting frame 27a, a middle furrow plough connecting frame 27b and a right furrow plough connecting frame 27c, the furrow plough connecting frame 27 consists of a frame plate 271, an upper end shaft sleeve 272 and a lower end shaft sleeve 273, the upper end shaft sleeve 272 and the lower end shaft sleeve 273 are fixedly connected on the frame plate 271, and the upper end shaft sleeve 272 and the lower end shaft sleeve 273 of the furrow plough connecting frame 27 are connected with the upper beam tube 211 and the lower beam tube 212 of the double-tube beam frame in a sliding fit manner; the upper end shaft sleeve 272 and the lower end shaft sleeve 273 of the middle furrow plough connecting frame 27b are fixed on the upper beam tube 211 and the lower beam tube 212 of the double-tube beam frame through locking screws; the blade plow bar of the blade plow 277 is fixedly connected with the blade plow connecting frame 27 through a bolt.

The position adjusting mechanism 28 of the furrow plough link is respectively arranged corresponding to the furrow plough link 27a at the left side and the furrow plough link 27c at the right side, the position adjusting mechanism 28 of the furrow plough link is composed of a manual transmission screw 281 respectively arranged on a left connecting plate 213 and a right connecting plate 214 of the double-tube beam frame, the manual transmission screw 281 rotates to drive the furrow plough link at the left side/the right side to slide left and right on an upper beam tube 211 and a lower beam tube 212 of the double-tube beam frame, and the position of the furrow plough link 27c at the left side/the right side and the distance between the furrow plough link 27c and the middle furrow plough link 27b are adjusted.

A ground following link 7 is provided and connected to the rear end of the seeder attachment 22, and the main frame 51 of the seeder assembly 5 is connected to the rear end of the ground following link 7. The structure of the ground following link frame 7 is identical to the prior art. The seeder assembly 5 comprises a seeder device 54, a seed and fertilizer applicator device 55, a depth wheel device 56, a seeding and ditching disc device 57 and a vibrating and pressing wheel device 58, which are basically consistent with the prior art.

The seeder connecting frame 22 is provided with a ground following connecting rod frame lifting mechanism 8, and the ground following connecting rod frame lifting mechanism 8 consists of a hydraulic cylinder bracket 81, a hydraulic cylinder 82 and a lifting frame 83; the hydraulic cylinder bracket 81 is fixedly installed at the rear upper end of the seeder connecting frame 22, the cylinder body 821 of the hydraulic cylinder 82 is hinged with the hydraulic cylinder bracket 81, the lower end of the lifting frame 83 is hinged with the upper end rod of the ground following connecting rod frame 7, the lifting frame 83 is provided with a sliding groove 831, the end of the hydraulic cylinder piston rod 822 is connected with a pin shaft 823, and the pin shaft 823 at the end of the hydraulic cylinder piston rod is installed in a sliding fit manner with the sliding groove 831 arranged on the lifting frame 83.

The driving device 4 is composed of a walking wheel 40, a shaft bracket rod 41, a bracket 42, a tension spring 43, a bevel gear transmission shaft assembly 44, a transmission shaft 45, a bottom fertilization box row device transmission chain wheel 47 and a seeder transmission chain wheel 50.

The transmission shaft 45 is rotatably installed on the left seeder connecting frame 22a and the right seeder connecting frame 22b, the upper end of the shaft frame rod 41 is rotatably installed in a matched manner with the transmission shaft 45, the lower end of the shaft frame rod 41 is rotatably installed in a matched manner with a wheel shaft of the walking wheel 40, the bevel gear transmission shaft assembly 44 is an assembly consisting of a shaft sleeve, a shaft rod and bevel gears at two ends of the shaft rod, the lower end of the bevel gear transmission shaft assembly 44 is mounted in a matched manner with the wheel shaft of the walking wheel 40, the upper end of the bevel gear transmission shaft assembly 44 is mounted in a matched manner with the transmission shaft 45, a bottom fertilization box row device transmission chain wheel 47 and a seeder transmission chain wheel 50 are installed on the transmission shaft 45, the bracket 42 is fixedly installed at the rear end of the furrow plough connecting frame 27b in the middle part, the bracket 42 supports the shaft frame rod 41 in a single direction, and a tension spring 43 is installed between the bracket 42 and the shaft frame rod 41 to ensure that the elastic pressure of the walking wheel 40 acts on the ground; when the machine tool is operated to move forward, the walking wheel 40 with the ratchet teeth 40' is stably matched with the surface of a field to rotate, the walking wheel 40 rotates to drive the transmission shaft 45 to rotate through the bevel gear transmission shaft component 44, the transmission shaft 45 drives the fertilizer distributor shaft at the lower part of the bottom fertilizer box 3 to rotate through the bottom fertilizer box fertilizer distributor transmission chain wheel 47, and the transmission shaft 45 drives the main transmission shaft 53 of the seeder assembly to rotate through the seeder transmission chain wheel 50. The device does not need an electric or hydraulic motor driving and driving control device, does not need manual control, and has good operation reliability.

Claims (2)

1. The recommendation-killing rotary tillage, fertilization, sowing, irrigation and belt application all-in-one machine is characterized by comprising a recommendation-killing rotary tillage device, a double-pipe-beam connecting frame assembly, a bottom fertilizer box, a seeder assembly, a driving device and a ground irrigation belt roller bracket;

the recommendation-eliminating rotary tillage device comprises a rack, a portal frame fixedly arranged on the rack, a main transmission gear box fixedly arranged on the rack, and a recommendation-eliminating wheel and a rotary tillage wheel which are arranged at the lower end of the rack in a transmission connection manner;

a bottom fertilizer box is fixedly arranged on a portal frame of the recommendation-extinguishing rotary tillage device through an installation support;

the double-tube beam connecting frame assembly comprises a double-tube beam frame, a seeder connecting frame position adjusting mechanism, a fertilizing hook, a ground irrigation belt guide wheel frame, a furrow plough connecting frame, a furrow plough and a furrow plough connecting frame position adjusting mechanism;

the double-pipe beam frame consists of an upper beam pipe, a lower beam pipe, a left connecting plate and a right connecting plate, wherein the left end and the right end of the upper beam pipe and the lower beam pipe are respectively fixedly connected with the left connecting plate and the right connecting plate; the left end and the right end of the upper beam pipe and the lower beam pipe are respectively fixedly connected with a recommendation-eliminating rotary tillage device connecting plate;

the left and right ends of the frame of the recommendation rotary tillage device are fixedly connected with the recommendation rotary tillage device connecting plates which are fixedly connected with the left and right ends of the upper beam pipe and the lower beam pipe of the double-tube beam frame through bolts;

the upper beam pipe and the lower beam pipe of the double-tube beam frame are provided with a seeder connecting frame connected with the left side and the right side, and the seeder connecting frame is connected with the upper beam pipe and the lower beam pipe of the double-tube beam frame in a sliding fit manner through an upper shaft sleeve and a lower shaft sleeve which are arranged at the front end part of the seeder connecting frame;

the seeder connecting frame corresponding to the left side of the seeder connecting frame and the right side of the seeder connecting frame is provided with a seeder connecting frame position adjusting mechanism, the seeder connecting frame position adjusting mechanism consists of a manual transmission screw rod which is in positive and negative thread fit with the left side of the seeder connecting frame and the right side of the seeder connecting frame, the manual transmission screw rod rotates to drive the left side of the seeder connecting frame and the right side of the seeder connecting frame to slide left and right on an upper beam pipe and a lower beam pipe of a double-pipe beam frame, and the positions and the intervals of the left side of the seeder connecting frame and the right side of the seeder connecting frame are adjusted;

a fertilizing hook connecting frame is fixedly connected and arranged at the front ends of an upper shaft sleeve and a lower shaft sleeve of the seeder connecting frame, and a fertilizing hook is fixedly arranged on the fertilizing hook connecting frame through a bolt;

a belt filling roller bracket is fixedly connected to the seeder connecting frame; a belt filling guide wheel frame is fixedly connected to the seeder connecting frame at the rear side of the upper beam pipe and the lower beam pipe of the double-tube beam frame; the upper end of the ground irrigation belt guide wheel frame is provided with a guide sleeve, the lower end of the ground irrigation belt guide wheel frame is provided with a guide wheel, and the guide sleeve and the guide wheel are matched to guide the ground irrigation belt to be applied to the ground;

the upper beam tube and the lower beam tube of the double-tube beam frame are respectively provided with a left furrow plough connecting frame, a middle furrow plough connecting frame and a right furrow plough connecting frame, the furrow plough connecting frame consists of a frame plate and an upper end shaft sleeve and a lower end shaft sleeve which are fixedly connected on the frame plate, and the upper end shaft sleeve and the lower end shaft sleeve of the furrow plough connecting frame are connected with the upper beam tube and the lower beam tube of the double-tube beam frame in a sliding fit manner; the upper end shaft sleeve and the lower end shaft sleeve of the middle furrow plough connecting frame are fixed on the upper beam tube and the lower beam tube of the double-tube beam frame through locking screws; a furrow plough rod of the furrow plough is fixedly connected with the furrow plough connecting frame through a bolt;

the position adjusting mechanism of the furrow plough connecting frame is composed of manual transmission screw rods which are respectively arranged on a left connecting plate and a right connecting plate of a double-tube beam frame, the manual transmission screw rods rotate to drive the furrow plough connecting frame on the left side/the right side to slide left and right on an upper beam tube and a lower beam tube of the double-tube beam frame, and the positions of the furrow plough connecting frame on the left side/the right side and the space between the furrow plough connecting frame on the middle part are adjusted;

the rear end of the seeder connecting frame is provided with a ground following connecting rod frame, and the main frame of the seeder assembly is connected with the rear end of the ground following connecting rod frame;

the seeder connecting frame is provided with a ground following connecting rod frame lifting mechanism which consists of a hydraulic cylinder bracket, a hydraulic cylinder and a lifting frame; the hydraulic cylinder bracket is fixedly arranged at the rear upper end of the connecting frame of the seeder, the cylinder body of the hydraulic cylinder is hinged with the hydraulic cylinder bracket, the lower end of the lifting frame is hinged with the upper end rod of the ground following connecting rod frame, a chute is arranged on the lifting frame, a pin shaft is connected on the end head of the piston rod of the hydraulic cylinder, and the pin shaft arranged on the end head of the piston rod of the hydraulic cylinder is matched with the chute arranged on the lifting frame; when the seeder assembly does not work, the ground following connecting rod frame lifting mechanism lifts the ground following connecting rod frame to face upwards, and the seeder assembly connected to the rear part of the ground following connecting rod frame is lifted and suspended away from the ground.

2. The recommendation-killing rotary tillage, fertilization, sowing and irrigation belt application and release all-in-one machine according to claim 1, which is characterized in that:

the driving device consists of a travelling wheel, a shaft frame rod, a bracket, a tension spring, a bevel gear transmission shaft assembly, a transmission shaft, a base fertilizer box fertilizer distributor transmission chain wheel and a seeder transmission chain wheel; the transmission shaft is rotatably installed on the left seeder connecting frame and the right seeder connecting frame, the upper end of the shaft frame rod is rotatably installed in a matched manner with the transmission shaft, the lower end of the shaft frame rod is rotatably installed in a matched manner with a wheel shaft of the travelling wheel, the bevel gear transmission shaft assembly is an assembly consisting of a shaft sleeve, a shaft rod and bevel gears at two ends of the shaft rod, the lower end of the bevel gear transmission shaft assembly is installed in a matched manner with the wheel shaft of the travelling wheel, the upper end of the bevel gear transmission shaft assembly is installed in a matched manner with the transmission shaft, a bottom fertilizing box discharger transmission chain wheel and a seeder transmission chain wheel are installed on the transmission shaft, the bracket is fixedly installed at the rear end of the ploughshare connecting frame in the middle part, the bracket supports the shaft frame rod in a one-way manner, and an installation tension spring is arranged between the bracket and the shaft frame rod so as to ensure that the elastic pressure of the travelling wheel acts on the ground; when the machines operation is gone forward, the walking wheel of taking the ratchet rotates with the stable cooperation in field surface, and the walking wheel rotates and drives the transmission shaft through bevel gear transmission shaft subassembly and rotate, and the transmission shaft passes through the fertilizer distributor axle rotation of fertilizer distributor transmission sprocket drive end fertilization case lower part, and the transmission shaft passes through the main drive shaft rotation of seeder transmission sprocket drive seeder assembly.

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