CN113424688A

CN113424688A - Double-chamber constant-seed-supply double-grooved-wheel seed discharging device

Info

Publication number: CN113424688A
Application number: CN202110749089.1A
Authority: CN
Inventors: 张祥彩; 吕玉春; 王宪良; 魏忠彩; 周华; 姚艳春; 李润涛; 宋成友; 李永岗
Original assignee: Shandong University of Technology
Current assignee: Shandong University of Technology
Priority date: 2021-07-02
Filing date: 2021-07-02
Publication date: 2021-09-24
Anticipated expiration: 2041-07-02
Also published as: CN113424688B

Abstract

The invention belongs to the technical field of agricultural machinery, and relates to a double-chamber constant-seed-supply double-grooved wheel type seed discharging device which mainly comprises a seed box, a positioning adjusting mechanism, a seed filling mechanism, a belt seed supplying mechanism, an electric control mechanism and a seed discharging mechanism, and is characterized in that the seed box is divided into a seed filling cavity and a seed discharging cavity, a belt in a belt seed supplying assembly is pressed on the outer surface of an upper grooved wheel of the seed filling mechanism under the coordination of a belt shaft and a spring and rotates synchronously with the grooved wheel to form a seed protecting area, seeds in the seed filling cavity are conveyed into the seed discharging cavity at a certain speed under the action of the upper grooved wheel and the belt, the positioning adjusting mechanism can adjust the angle of the seeds initially entering the seed discharging cavity, the working state of the upper grooved wheel and the seed layer thickness in the seed discharging cavity can be controlled by the electric control mechanism and a sensor position, when the seed layer exceeds the mounting height of the sensor, the upper grooved wheel stops filling, when the seed layer is lower, the seed filling is started to ensure that the seed filling is stable in the seed discharging cavity, the seeds are discharged out of the device under the drive of the lower grooved wheel. The invention can effectively solve the problems of unstable seed supply, high seed damage rate and the like.

Description

Double-chamber constant-seed-supply double-grooved-wheel seed discharging device

Technical Field

The invention belongs to the technical field of agricultural machinery, and particularly relates to a double-chamber constant-seed-supply double-grooved-wheel seed sowing device.

Background

The seed metering device is a core component of the seeder, and the quality of the working quality of the seed metering device directly influences the seeding quality. At present, the most common drill seeding device has more grooved wheels, and the seeding device has the characteristics of simple structure, convenient use and adjustment, good universality, low price and the like. The outer grooved wheel seed sowing device mainly discharges seeds from the seed box through grooved wheels, and has the following defects: 1. along with the progress of the seeding process, the seed quantity in the seed box is continuously reduced, so that the seed filling capacity is sharply reduced, the seed supply quantity in the filling area is fluctuated, and the precision of constant seed supply is directly influenced. 2. The seed case is filled the district and is located directly over the seed metering wheel, leads to the seed to all directly pile up on the seed metering ware for the seed drives the layer thickly, has aggravated the friction between the seed, leads to the seed to be damaged easily, and the clear kind of the seed metering of seed metering ware and clear kind of mechanism simultaneously all can cause certain difficulty.

The baffle that "inside clear kind of type hole wheel type rice seed metering ware" that patent number is ZL200610035507.6 is close vertical installation in filling the room, divide into two cavities of main and vice with filling the room, and when the seed in the vice cavity was enough, the seed under the seed wheel brush can't reach vice cavity, caused the jam. Meanwhile, the extrusion can also influence the seed cleaning effect on the seed cleaning wheel.

In order to solve the problems of unstable supply amount, high seed damage rate and the like of the existing outer grooved wheel seed sowing device, a seed sowing device which is reasonable in structure, stable in constant seed supply and low in seed damage rate needs to be designed.

Disclosure of Invention

The invention aims to solve the problems of high seed damage rate and unstable seed supply amount of an outer grooved wheel seed sowing device in the background technology, achieve the effect of optimizing seed sowing, and provide a double-chamber constant-seed-supply double grooved wheel seed sowing device which is characterized in that the seed sowing device mainly comprises a seed box, a belt adjusting box, a positioning adjusting mechanism, a seed charging mechanism, an electric control mechanism, a belt seed supply mechanism and a seed sowing mechanism;

the seed box 1 is composed of a seed box front baffle 1001, a seed box rear baffle 1002, a seed box left baffle 1003, a seed box right baffle 1004, a seed box fixing plate 1005 and a partition 1006. The front baffle 1001, the back baffle 1002, the left baffle 1003 and the right baffle 1004 constitute a hollow casing. The baffle 1006 is located in the hollow shell, and the surface of the seed filling baffle 1006 intersects with the surfaces of the front baffle 1001, the back baffle 1002 and the right baffle 1004 of the seed box, so as to divide the seed box into two chambers. The box fixing plate 1005 is located at the bottom of the hollow housing, and 4 bolt holes 1007 are formed in the edge of the box fixing plate. The connecting plate 1008 is located at the edge of a contact plate surface of the seed box front baffle 1001, the seed box rear baffle 1002 and the seed box left baffle 1003, and a bolt hole 1009 is formed in the center of the connecting plate. A

sensor mounting hole

1010 and 4 sensor fixing plate mounting holes 1011 are formed in the lower center of the box front baffle 1001. The sensor mounting hole 1010 is positioned at the center of the 4 sensor fixing plate mounting holes 1011;

the belt adjusting box 2 is composed of a left box body 2001 and a right box body 2002, and the left box body 2001 and the right box body 2002 are symmetrical in structure. The left cartridge 2001 has a raised locating peg 2003 on the contact end face and the right cartridge 2002 has a locating hole 2004 on the corresponding contact end face. The positioning plug 2003 and the positioning hole 2004 are in interference fit, and the left box body 2001 and the right box body 2002 are connected together. The belt adjusting box 2 is provided with a bearing slide 2005 for pressing the belt shaft 5, a bearing hole 2006 for pressing the belt shaft 6 downwards, bearing holes 2007 for tensioning shafts 7 at 3 different positions, a bearing slide 2008 for positioning the shaft 8, and a threaded hole 2009 in the thin wall of the belt adjusting box parallel to the bearing slide 2008. The edge of the contact surface of the belt adjusting box 2 is provided with a connecting plate 2010 the same as that of the seed box 1, and the center of the connecting plate 2011 is provided with a bolt hole 2011 the same as that of the connecting plate 1008 in size. The bolt 23 fixedly connects the belt adjusting box 2 with the seed box 1 through the connecting plate 1008 and the connecting plate 2010;

the positioning adjusting mechanism consists of an adjusting hand wheel 3, a positioning slide block 4, a bearing 17 and a jackscrew 25. The bearing 17 is nested in the central hole 4001 of the positioning slide block 4. The adjusting hand wheel 3 is fixed in the threaded hole 4002 of the positioning slide block 4 through a spiral thread hole 2009 with the adjusting box 2. The upper and lower chutes 4003 of the positioning slide block 4 are clamped in the bearing slide 2008 and can freely slide in the bearing slide 2008. The side wall of the sliding groove 4003 of the positioning sliding block 4 is provided with a penetrating jackscrew hole 4004. The jackscrew 25 is installed in the jackscrew hole 4004, and the bottom of the jackscrew 25 coincides with the surfaces of the front baffle 1001 and the rear baffle 1002 of the seed box. The horizontal position of the slide block 4 on the bearing slideway 2008 can be changed and stabilized by rotating the adjusting hand wheel 3;

the seed supply mechanism consists of an upper grooved wheel 9, a grooved wheel retainer ring 10, a grooved wheel shaft 11 and a coupling 12. The upper grooved wheel 9 is arranged in a hollow cylinder formed by connecting the seed box 1 and the belt adjusting box 2, the upper grooved wheel 9 is concentric with the hollow cylinder, and two side surfaces of the upper grooved wheel 9 are parallel to a front baffle surface 1001 of the seed box and a rear baffle surface 1002 of the seed box. The bottom surface of the sheave retaining ring 10 is superposed with the front baffle surface 1001 of the seed box and the rear baffle surface 1002 of the seed box, and is concentric with the upper sheave 9 and the sheaves are meshed one by one, so that the sheave retaining ring and the upper sheave 9 synchronously rotate. A sheave shaft 11 is fixed in a sheave hole 9001 of the upper sheave 9 and is connected with a motor 13 through a coupler 12;

the electric control mechanism is composed of a motor 13, a light sensor 14, a light sensor fixing plate 15 and a processor 16. The optical line sensor 14 is positioned in the mounting hole 1502 of the optical line sensor fixing plate 15. The optical sensor fixing plate 15 is provided with bolt holes 1501 at the same positions as those of the seed tank front baffle 1001, and the optical sensor fixing frame 15 is attached to the seed tank front baffle 1001 by bolts 23. When the seed layer thickness in the seed sowing cavity is lower than the installation height of the optical sensor 14, the optical sensor 14 transfers the collected signals to the processor 16, the processor 16 starts the motor 13 to work, and when the seed layer thickness is higher than the installation height of the optical sensor 14, the processor 16 stops the motor 13 from rotating;

the belt seed supply mechanism is composed of an upper pressing belt shaft 5, a lower pressing belt shaft 6, a tensioning shaft 7, a positioning shaft 8, a bearing 17, a compression spring 18 and a belt 19. The tape seed supply mechanism is installed in the tape adjusting box 2. The belt 19 is pressed and covered on the upper grooved wheel 9 under the combined action of the upper pressing belt shaft 5, the lower pressing belt shaft 6, the tensioning shaft 7 and the positioning shaft 8, forms a seed protection area with the grooved wheel 9002, and is driven by the friction of the upper grooved wheel 9 to realize synchronous rotation. The upper pressing belt shaft 5 and the tensioning shaft 7 are processed into two small sections of concave circular rings at the same positions, and circular hooks at two ends of the compression spring 18 are sleeved in the concave circular rings. The hold-down strap shaft 5 is integral with the bearing 17 and is slidable within the bearing runner 2005. The positioning shaft 8 is arranged in a bearing of the positioning adjusting mechanism, and the horizontal position of the positioning shaft can be changed by rotating the adjusting hand wheel 3;

the seed sowing mechanism consists of a seed sowing cup 20, a lower grooved pulley 21, a grooved pulley retainer ring 10, a grooved pulley shaft 11 and a seed cleaning brush 22. The shape of the top of the seed cup 20 is the same as that of the bottom of the seed box fixing plate 1005, and the bolt 23 fixes the seed box 1 and the seed cup 20 through the bolt hole 1007 and the bolt hole 201. The lower grooved wheel 21 is concentric with the grooved wheel mounting hole 202, and two side surfaces are parallel to the front and rear cup surfaces of the seed cup 20. The sheave retaining ring 10 is concentric with the lower sheave 21, the bottom surface of the sheave retaining ring 10 is superposed with the front and back cup surfaces of the seeding cup 20 and meshed with the sheaves of the lower sheave 21 one by one, and synchronous rotation with the lower sheave 21 is realized. The sheave shaft 11 is fixed in the sheave hole 2101 of the lower sheave 21 and is connected with the land wheel through a chain. The seed cleaning brush 22 is positioned in the seed discharging cup 20, and the brush end part of the seed cleaning brush is intersected with the edge of the lower grooved wheel 21. Is fixed on the cup wall of the seed cup 20 through a bolt 23 and a nut 24;

the working principle of the invention is that the seed filling partition plate 1006 divides the seed box 1 into two chambers: a seed filling working cavity and a seed discharging working cavity. The seed filling partition 1006 forms an included angle with the horizontal ground, and the included angle is larger than the maximum repose angle of the seeds. When the seeds are located in the seed filling working area, the wheel grooves 9002 are filled with the seeds under the action of gravity and friction force, and the upper grooved wheels 9 convey the seeds in the wheel grooves 9002 to the belt seed supply assembly under the driving of the motor 13. The belt 19 in the belt seed supply assembly is tightly pressed on the upper grooved wheel 9 under the combined action of the upper pressing belt shaft 5, the lower pressing belt shaft 6, the tensioning shaft 7 and the positioning shaft 8, forms a seed protection area with the grooved wheel 9002 and synchronously rotates along with the upper grooved wheel 9. Seeds in the seed protection area are filled into the seeding working cavity at a certain angle and speed under the combined action of the upper grooved wheel 9 and the belt 19. In order to reduce the accumulation of seeds in the seeding working cavity and achieve the effect of active seed filling, the optical sensor 14 is arranged at the maximum height of the seeding driving layer of the seeding device, when the seed layer thickness of the seeding working cavity exceeds the installation position of the optical sensor 14, the processor 16 controls the upper grooved wheel 9 to stop seeding, and when the seed layer thickness is lower than the installation position of the optical sensor, the upper grooved wheel 9 starts to work, so that the seeds in the seeding working cavity are always in a constant active state. The seeds entering the seeding working cavity fall into the wheel groove 2102 under the action of gravity, the grooved wheel shaft 11 is connected with the land wheel through a chain to drive the lower grooved wheel 21 to rotate, the seed cleaning brush 22 cleans redundant seeds, and the seeding mechanism discharges the seeds out of the body to complete the operation.

According to the invention, the seed filling partition plate 1006 arranged in the seed box 1 divides the seed box 1 into a seed filling working chamber and a seed discharging working chamber, so that seeds are prevented from being directly accumulated on a seed discharging device, and the seeds are prevented from driving a layer to be too thick and have poor fluidity, and the friction among the seeds is aggravated; the belt adjusting box 2 is matched with the seed box 1 for use, so that the disassembly is convenient; the seed supply assembly can synchronously rotate with the upper grooved wheel 9, so that the seed supply assembly is prevented from rubbing with the seeds in the grooved wheel 9002, and the possibility of seed damage is reduced; the seed supply assembly is used for elastically protecting seeds in the wheel groove 9002, the bearing 17 can freely slide in the bearing slide 2005 through the bearing slide 2005 arranged in the adjusting box 2, the compression spring 18 is elastically matched with the upper pressing belt shaft 5, the seed damage condition of the seed card between the edge of the upper grooved wheel 9 and the fixed seed protecting plate when the seeds initially enter the seed protecting area is reduced, and the pulse phenomenon generated by the seed supply device 4 is reduced; the positioning adjusting mechanism changes the initial angle of the seeds when the seeds enter the seed sowing device 6 by rotating the adjusting hand wheel 11, and the seed supply assembly provides the initial speed of the seeds when the seeds enter the seed sowing device 6, so that the active population is reached, and the seed sowing speed is improved; the light sensor 14 is arranged at the maximum driving layer of the lower grooved wheel 21 of the seed sowing device, the processor 16 controls the motor 13 to start and stop by adopting time delay sensing, the seeds in the seed filling working cavity of the seed box 1 are stably and constantly conveyed to the seeds in the seed sowing working cavity, the height of the seed layer in the seed sowing working cavity is basically kept unchanged, the load influence of the seeds on the lower grooved wheel 21 is reduced, and meanwhile, the seed cleaning efficiency of the brush 22 can also be improved.

The invention has the beneficial effects that: 1. the invention divides the traditional seed box into areas and avoids the seeds from being totally accumulated right above the seed sowing device. 2. The upper grooved wheel provides stable seed flow, and the lower grooved wheel carries out seed metering operation, so that the seed metering mode of the traditional seed metering device is thoroughly changed. 3. The upper grooved wheel provides power through the motor, and the working state of the upper grooved wheel is determined by the height of the seed layer in the seed metering working cavity, so that the seed charging efficiency is greatly improved. 4. The seed supply assembly can synchronously rotate with the upper grooved wheel, so that rubbing with seeds in the grooved wheel is avoided, and the seed damage rate is reduced. 5. The belt seed supply assembly and the positioning and adjusting device can provide and change the initial speed and angle when seeds enter the seed metering device, realize that the seeds are actively charged into the wheel groove, and improve the working efficiency of the seed metering device. In conclusion, the seed sowing device is simple in structure and reasonable in design, and can effectively solve the problems of unstable seed feeding amount, high seed damage rate and low working efficiency of the traditional seed sowing device.

Drawings

FIG. 1A is a view showing the internal structure of a double-chamber constant-seed-supply double-grooved wheel seeding device, wherein a motor, a coupling and a processor are not shown in the drawing;

FIG. 1B is a side view of the seed metering device;

FIG. 2A is a schematic view of the internal structure of a seed box;

FIG. 2B is a side view of the seed box;

FIG. 3A is a front view of a tape cassette;

FIG. 3B is a schematic view of the assembly of the case with the regulating box;

FIG. 4 is a schematic view of the positioning adjustment mechanism assembly;

FIG. 5 is a front view of the adjustment handwheel;

FIG. 6 is a front view of the positioning slide;

figure 7 is an isometric view of an upper sheave and a lower sheave;

FIG. 8A is a front view of a sheave retainer ring;

FIG. 8B is a side view of a sheave retainer ring;

FIG. 9 is a schematic view of a belt seed supply assembly;

FIG. 10 is a front view of the upper hold down strap shaft and tensioning shaft;

FIG. 11A is a front view of the seed metering device;

FIG. 11B is a top view of the seed metering device;

FIG. 12 is a schematic view of the internal structure of the seed cup.

In the figure, 1-box, 1001-box front baffle, 1002-box rear baffle, 1003-box left baffle, 1004-box right baffle, 1005-box fixing plate, 1006-partition plate, 1007-bolt hole, 1008-connecting plate, 1009-connecting plate mounting hole, 1010-sensor mounting hole, 1011-sensor fixing plate mounting hole, 2-belt adjusting box, 2001-left box, 2002-right box, 2003-positioning plug, 2004-positioning hole, 2005-bearing slideway, 2006-bearing hole, 2007-bearing hole, 2008-bearing slideway, 2009-threaded hole, 2010-connecting plate, 2011-bolt hole, 3-adjusting hand wheel, 4-positioning slider, 5-upper pressing belt shaft, 6-lower pressing belt shaft, 7-tensioning shaft, 8-positioning shaft, 9-upper sheave, 10-sheave retaining ring, 11-sheave shaft, 12-coupler, 13-motor, 14-light sensor, 15-light sensor fixing frame, 16-processor, 17-bearing, 18-compression spring, 19-belt, 20-seed-metering cup, 21-lower grooved wheel, 22-seed-cleaning brush, 23-bolt, 24-nut and 25-jackscrew.

Detailed Description

The present invention will be described in further detail with reference to the following examples and the accompanying drawings. As shown in fig. 1A, which is a schematic view of the internal structure of a dual-chamber electrically-controlled constant-seed-supply dual-grooved wheel seeding device, and fig. 1B, which is a side view of the dual-chamber electrically-controlled constant-seed-supply dual-grooved wheel seeding device, the dual-chamber electrically-controlled constant-seed-supply dual-grooved wheel seeding device mainly comprises a seed box shown in fig. 2, a seed supply assembly shown in fig. 9, a seeding device shown in fig. 11 and an electric control device.

As shown in fig. 2A and 2B, the seed tank 1 includes a front tank baffle 1001, a rear tank baffle 1002, a left tank baffle 1003, a right tank baffle 1004, a tank fixing plate 1005, and a partition 1006. The front baffle 1001, the back baffle 1002, the left baffle 1003 and the right baffle 1004 constitute a hollow casing. The baffle 1006 is located in the hollow shell, and the surface of the seed filling baffle 1006 intersects with the surfaces of the front baffle 1001, the back baffle 1002 and the right baffle 1004 of the seed box, so as to divide the seed box into two chambers. The box fixing plate 1005 is located at the bottom of the hollow housing, and 4 bolt holes 1007 are formed in the edge of the box fixing plate. The connecting plate 1008 is located at the edge of a contact plate surface of the seed box front baffle 1001, the seed box rear baffle 1002 and the seed box left baffle 1003, and a bolt hole 1009 is formed in the center of the connecting plate. A

sensor mounting hole

1010 and 4 sensor fixing plate mounting holes 1011 are formed in the lower center of the box front baffle 1001. The sensor mounting hole 1010 is located at the center of the 4 sensor fixing plate mounting holes 1011.

As shown in fig. 3A and 3B, the tape adjusting box 2 is composed of a left box body 2001 and a right box body 2002, and the left box body 2001 and the right box body 2002 are symmetrical in structure. The left cartridge 2001 has a raised locating peg 2003 on the contact end face and the right cartridge 2002 has a locating hole 2004 on the corresponding contact end face. The positioning plug 2003 and the positioning hole 2004 are in interference fit, and the left box body 2001 and the right box body 2002 are connected together. The belt adjusting box 2 is provided with a bearing slide 2005 for pressing the belt shaft 5, a bearing hole 2006 for pressing the belt shaft 6 downwards, bearing holes 2007 for tensioning shafts 7 at 3 different positions, a bearing slide 2008 for positioning the shaft 8, and a threaded hole 2009 in the thin wall of the belt adjusting box parallel to the bearing slide 2008. The edge of the contact surface of the belt adjusting box 2 is provided with a connecting plate 2010 the same as that of the seed box 1, and the center of the connecting plate 2011 is provided with a bolt hole 2011 the same as that of the connecting plate 1008 in size. The bolt 23 fixedly connects the belt adjusting box 2 with the seed box 1 through the connecting plate 1008 and the connecting plate 2010.

The positioning and adjusting mechanism shown in fig. 4, 5 and 6 is composed of an adjusting hand wheel 3, a positioning slide block 4, a bearing 17 and a jackscrew 25. The bearing 17 is nested in the central hole 4001 of the positioning slide block 4. The adjusting hand wheel 3 is fixed in the threaded hole 4002 of the positioning slide block 4 through a spiral thread hole 2009 with the adjusting box 2. The upper and lower chutes 4003 of the positioning slide block 4 are clamped in the bearing slide 2008 and can freely slide in the bearing slide 2008. The side wall of the sliding groove 4003 of the positioning sliding block 4 is provided with a penetrating jackscrew hole 4004. The jackscrew 25 is installed in the jackscrew hole 4004, and the bottom of the jackscrew 25 coincides with the surfaces of the front baffle 1001 and the rear baffle 1002 of the seed box. The horizontal position of the positioning slide block 4 on the bearing slideway 2008 can be changed and stabilized by rotating the adjusting handwheel 3.

As shown in fig. 7, 8A and 8B, the seed supply mechanism is composed of an upper sheave 9, a sheave retainer ring 10, a sheave shaft 11 and a coupling 12. The upper grooved wheel 9 is arranged in a hollow cylinder formed by connecting the seed box 1 and the belt adjusting box 2, the upper grooved wheel 9 is concentric with the hollow cylinder, and two side surfaces of the upper grooved wheel 9 are parallel to a front baffle surface 1001 of the seed box and a rear baffle surface 1002 of the seed box. The bottom surface of the sheave retaining ring 10 is superposed with the front baffle surface 1001 of the seed box and the rear baffle surface 1002 of the seed box, and is concentric with the upper sheave 9 and the sheaves are meshed one by one, so that the sheave retaining ring and the upper sheave 9 synchronously rotate.

The belt seed supply mechanism shown in fig. 9 and 10 is composed of an upper pressing belt shaft 5, a lower pressing belt shaft 6, a tensioning shaft 7, a positioning shaft 8, a bearing 17, a compression spring 18 and a belt 19. The tape seed supply mechanism is installed in the tape adjusting box 2. The belt 19 is pressed and covered on the upper grooved wheel 9 under the combined action of the upper pressing belt shaft 5, the lower pressing belt shaft 6, the tensioning shaft 7 and the positioning shaft 8, forms a seed protection area with the grooved wheel 9002, and is driven by the friction of the upper grooved wheel 9 to realize synchronous rotation. The upper pressing belt shaft 5 and the tensioning shaft 7 are processed into two small sections of concave circular rings at the same positions, and circular hooks at two ends of the compression spring 18 are sleeved in the concave circular rings. The hold-down strap shaft 5 is integral with the bearing 17 and is slidable within the bearing runner 2005. The positioning shaft 8 is arranged in a bearing of the positioning adjusting mechanism, and the horizontal position of the positioning shaft can be changed by rotating the adjusting hand wheel 3.

As shown in fig. 11, 11 and 12, the seed discharging mechanism is composed of a seed discharging cup 20, a lower grooved wheel 21, a grooved wheel retainer ring 10, a grooved wheel shaft 11 and a seed cleaning brush 22. The shape of the top of the seed cup 20 is the same as that of the bottom of the seed box fixing plate 1005, and the bolt 23 fixes the seed box 1 and the seed cup 20 through the bolt hole 1007 and the bolt hole 201. The lower grooved wheel 21 is concentric with the grooved wheel mounting hole 202, and two side surfaces are parallel to the front and rear cup surfaces of the seed cup 20. The sheave retaining ring 10 is concentric with the lower sheave 21, the bottom surface of the sheave retaining ring 10 is superposed with the front and back cup surfaces of the seeding cup 20 and meshed with the sheaves of the lower sheave 21 one by one, and synchronous rotation with the lower sheave 21 is realized. The sheave shaft 11 is fixed in the sheave hole 2101 of the lower sheave 21 and is connected with the land wheel through a chain. The seed cleaning brush 22 is positioned in the seed discharging cup 20, and the brush end part of the seed cleaning brush is intersected with the edge of the lower grooved wheel 21. Is fixed on the cup wall of the seed cup 20 through a bolt 23 and a nut 24.

The invention is applied to traditional agricultural machines, where before the work, the box 1 is divided into two chambers by a partition 1006: a seed charging cavity and a seed discharging cavity. The seeds are poured into the seed box 1, the seeds fall onto the seed filling partition plate 1006 to fill the whole seed filling area, the wheel grooves 9002 are filled with the seeds under the action of gravity and extrusion force, and the upper grooved wheel 9 conveys the seeds in the wheel grooves 9002 to the seed feeding assembly under the drive of the motor 13. The belt 19 in the belt seed supply assembly is tightly pressed on the upper grooved wheel 9 under the combined action of the upper pressing belt shaft 5, the lower pressing belt shaft 6, the tensioning shaft 7 and the positioning shaft 8, forms a seed protection area with the grooved wheel 9002 and synchronously rotates along with the upper grooved wheel 9. Seeds in the seed protection area are filled into the seeding working cavity at a certain angle and speed under the combined action of the upper grooved wheel 9 and the belt 19. In order to reduce the accumulation of seeds in the seeding working cavity and achieve the effect of active seed filling, the optical sensor 14 is arranged at the maximum height of the seeding driving layer of the seeding device, when the seed layer thickness of the seeding working cavity exceeds the installation position of the optical sensor 14, the processor 16 controls the upper grooved wheel 9 to stop seeding, and when the seed layer thickness is lower than the installation position of the optical sensor, the upper grooved wheel 9 starts to work, so that the seeds in the seeding working cavity are always in a constant active state. The seeds entering the seeding working cavity fall into the wheel groove 2102 under the action of gravity, the grooved wheel shaft 11 is connected with the land wheel through a chain to drive the lower grooved wheel 21 to rotate, the seed cleaning brush 22 cleans redundant seeds, and the seeding mechanism discharges the seeds out of the body to complete the operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A double-chamber constant seed supply double-grooved wheel seed sowing device is characterized in that the seed sowing device mainly comprises a seed box (1), a belt adjusting box (2), a positioning adjusting mechanism, a seed filling mechanism, a belt seed supply mechanism, an electric control mechanism and a seed sowing mechanism, wherein the seed box (1) is divided into a seed filling cavity and a seed sowing cavity, the seed filling cavity is positioned above a partition plate (1006) and is a cavity enclosed by a shell of the seed box (1), the partition plate (1006), the belt adjusting box (2) and an upper grooved wheel (9), the seed sowing cavity is positioned below the partition plate (1006) and is a cavity enclosed by the shell of the seed box (1), the partition plate (1006), the belt adjusting box (2) and a seed sowing cup (20), the belt adjusting box (2), the seed box (1) and the belt adjusting box (2) are fixedly connected together, the upper grooved wheel (9) and a grooved wheel (10) of the seed supply mechanism are arranged in a hollow cylinder formed by fixedly connecting the seed box (1) and the belt adjusting box (2), the belt seed supply assembly consists of an upper pressing belt shaft (5), a lower pressing belt shaft (6), a tensioning shaft (7), a positioning shaft (8), a bearing (17), a compression spring (18) and a belt (19), and is arranged in the belt adjusting box (2); the seed feeding mechanism is characterized in that a belt (19) is pressed on the outer surface of an upper grooved wheel (9) of the seed feeding mechanism in a pressing mode under the matching of an upper pressing belt shaft (5), a lower pressing belt shaft (6), a tensioning shaft (7), a positioning shaft (8) and a spring (18), and synchronously rotates with the upper grooved wheel (9) to form a seed protecting area, the positioning adjusting mechanism is installed in a belt adjusting box (2) through a bearing slide way (2008) and a threaded hole (2009), the positioning adjusting mechanism can adjust the angle of a seed initially entering a seed feeding cavity, the working state of the upper grooved wheel (9) and the thickness of a seed layer in the seed feeding cavity are controlled by an electric control mechanism and a sensor (14) through positions, when the seed layer in the seed feeding cavity exceeds the installation height of the sensor (14), the upper grooved wheel (9) stops feeding the seed, and when the seed feeding is lower than the installation height of the upper grooved wheel (9), the seed feeding is started; seeds in the seed filling cavity are conveyed into the seed discharging cavity at a certain speed and angle under the protection of the upper grooved wheel (9) and the belt (19); the seed sowing mechanism is positioned at the bottom of the seed box (1) and the belt adjusting box (2), and seeds falling into the seed sowing cavity are driven by the lower grooved wheel (21) to be discharged out of the device.

2. The double-chamber constant seed supply double-grooved wheel seed sowing device according to claim 1, wherein the seed box (1) is structured such that a front baffle (1001) of the seed box, a rear baffle (1002) of the seed box, a left baffle (1003) of the seed box and a right baffle (1004) of the seed box are connected to form a hollow shell; a partition (1006) is located within the hollow housing, dividing the seed case into two working chambers: fill kind of a kind chamber and seed metering chamber, seed case fixed plate (1005) are located the bottom of cavity casing, the border portion is equipped with 4 bolt holes (1007), baffle (1001) before connecting plate (1008) are located seed case, seed case backplate (1002), seed case left baffle (1003) contact face edge, central point puts and is equipped with bolt hole (1009), baffle (1001) center is equipped with sensor mounting hole (1010) and 4 sensor fixed plate mounting hole (1011) by the lower position before the seed case, sensor mounting hole (1010) are located 4 sensor fixed plate mounting hole (1011) central point and put.

3. The double-chamber constant seed-supply double-sheave seed sowing device according to claim 1, wherein the belt adjusting box (2) is provided with a bearing slide way (2005) for compressing the belt shaft (5) at the upper part, a bearing hole (2006) for compressing the belt shaft (6) at the lower part, 3 bearing holes (2007) for tensioning shafts (7) at different positions, a bearing slide way (2008) for positioning a shaft (8), a thin wall of the belt adjusting box parallel to the bearing slide way (2008) is provided with a threaded hole (2009), the edge of the contact surface of the belt adjusting box (2) is provided with a connecting plate (2010) same as the seed box (1), and the central position of the connecting plate (2011) is provided with a bolt hole (2011) with the same size as the connecting plate (1008).

4. The double-chamber constant seed-supply double-grooved wheel seeding device according to claim 1 or 3, characterized in that the structure of the belt adjusting box (2) is composed of a left box body (2001) and a right box body (2002), the left box body (2001) and the right box body (2001) are structurally symmetrical, a convex positioning plug (2003) is arranged on the contact end surface of the left box body (2001), a positioning hole (2004) is arranged on the corresponding contact end surface of the right box body (2002), and the positioning plug (2003) is in interference fit with the positioning hole (2004) to connect the left box body (2001) and the right box body (2002) together.

5. The double-chamber constant seed-supply double-grooved wheel seed discharging device according to claim 1, wherein the positioning adjusting mechanism is composed of an adjusting hand wheel (3), a positioning slide block (4), a bearing (17) and a jackscrew (25); bearing (17) nestification is in location slider (4) centre bore (4001), adjusting handle (3) are fixed in screw hole (4002) of location slider (4) through the screw thread hole (2009) of taking adjusting box (2), spout (4003) card is in bearing slide (2008) about location slider (4), can freely slide at bearing slide (2008), be equipped with top wire hole (4004) that run through on location slider (4) spout (4003) lateral wall, jackscrew (25) are installed in top wire hole (4004), can change through rotatory adjusting handle (3) and stabilize the horizontal position of location slider (4) at bearing slide (2008), thereby the inclination of control area (19).

6. The double-chamber constant seed supply double-grooved wheel seed sowing device according to claim 1, wherein the seed supply mechanism is composed of an upper grooved wheel (9), a grooved wheel retainer ring (10), a grooved wheel shaft (11) and a coupler (12), the upper grooved wheel (9) is installed in a hollow cylinder formed by connecting the seed box (1) and the belt adjusting box (2), the bottom surface of the grooved wheel retainer ring (10) is overlapped with a front baffle surface (1001) of the seed box and a rear baffle surface (1002) of the seed box, and is meshed with the grooved wheels (9) one by one to realize synchronous rotation with the upper grooved wheel (9), and the grooved wheel shaft (11) is fixed in a grooved wheel hole (9001) of the upper grooved wheel (9) and is connected with a motor (13) through the coupler (12).

7. The double-chamber constant seed-supply double-grooved wheel seed sowing device according to claim 1, wherein the electric control mechanism is structured such that the light sensor (14) is mounted on the front baffle (1001) of the seed box through the light sensor fixing plate (15), the position of the light sensor is adjustable, the light sensor (14) transfers the collected signal to the processor (16) according to the thickness of the seed layer in the seed sowing cavity, and the processor (16) controls the operation of the motor (13) to drive the upper grooved wheel (9) to operate, thereby completing the seed filling operation.

8. The dual-chamber constant seed supply dual-grooved wheel seed metering device of claim 1, the seed supplying mechanism structure of the belt is that the belt (19) is pressed and covered on the upper grooved wheel (9) under the combined action of the upper pressing belt shaft (5), the lower pressing belt shaft (6), the tensioning shaft (7) and the positioning shaft (8) to form a seed protecting area with the grooved wheel (9002), the synchronous rotation is realized by the friction drive of the upper grooved wheel (9), the upper pressing belt shaft (5) and the tensioning shaft (7) are processed into two small sections of concave circular rings at the same position, the circular hooks at the two ends of the compression spring (18) are sleeved in the concave circular rings, the upper pressing belt shaft (5) and the bearing (17) are integrated, can slide in the bearing slideway (2005), the locating shaft (8) is installed in the locating adjusting mechanism, and the horizontal position of the locating shaft can be changed by rotating the adjusting hand wheel (3).

9. The double-chamber constant seed supply double-grooved wheel seed sowing device according to claim 1 or 8, characterized in that the compression spring (18) provides pressure to the upper pressing belt shaft (5) to press the belt (19) on the upper surface of the upper grooved wheel (9), the upper pressing belt shaft (5) is integrated with the bearing (17) and can slide in the bearing slideway (2005), when the seed is stuck between the grooved wheel edge and the belt in the initial seed protection area, the stressed spring (18) will drive the upper pressing belt shaft (5) to retract a certain distance in the bearing slideway (2005), thereby facilitating the entry of the seed and reducing the possibility of seed injury.