TWIN ROW SEED DISTRIBUTOR SYSTEM

TWIN ROW SEED DISTRIBUTOR SYSTEM TECHNICAL FIELD

The invention relates to a twin row planter distributor body that enables sowing on two different sowing rows at the same time with a single seed distributor system by using pneumatic sowing machines (precision planter) utilized in agricultural industry for planting on fields.

The invention particularly enables sowing on two different rows at the same time in a completely synchronized manner and with a much narrower row distance by using the developed twin seed distributor. Thus, it relates to the enhancement of plant development and yield by increasing seed population per unit area as desired and by more precise distance between crops with conventional harvesting and row crop cultivators without modification.

BACKGROUND OF THE INVENTION

Pneumatic precision planters performing twin sowing in the state of the art include the production of two separate seed distributor bodies and two separate sowing unit frame that provide the connection of the distributor with the machine. These row unit frames are available in agricultural machinery industry as;

1 - Two row units perform independently of each other

2- Two row units perform dependently of each other Due to the structural impossibilities of these row units that are manufactured dependent or independent of each other and distributor bodies; row units and distributors can be positioned at least 20 cm or further apart from each other and they cannot be manufactured in narrower dimensions. This distance between rows in sowing process is extremely important during harvesting and cultivation processes. Since harvesting and cultivation machines available in the market are manufactured for sowing in single rows, they can't be fully operational in twin sowing with 20 cm or higher distances. Although the distance G in Figure 6 is desired to be wider in the cultivation process, it being narrower for such machines performing twin sowing results in cultivation components and also the wheels of the tractor moving much more closer to the plant. Therefore, these factors harm the plant (trampling the plant) from time to time with the slightest steering maneuver of the tractor driver and result in yield loss. Machine manufacturers, who want to prevent this, have to expand the row distance of twin sowing - designated by distance E in Figure 6 - in their machines in order to increase the distance G. This results in a decrease in the number of sown products per unit area.

Distance A shown in Figure 6 is at least 20 cm or more in state of the art sowing. However, harvester headers are formed according to single row sowing methods. The distance G in Figure 6 is preferred to be wider during cultivation process whereas, on the contrary the distance A in Figure 6 is preferred to be narrower due to the fact that the structural properties of harvesting machines are suitable for single row harvesting. During sowing with a twin sowing machine, the distance A being 20 cm or more leads to incomplete harvesting of the crops by the harvesting machine. This causes product waste and reduces the yield. In state of the art, seed distributor bodies of twin sowing machines are either individually driven by separate motion mechanisms or the bodies are connected to each other using various methods and then tried to be synchronized; thus cross sowing is performed on two different rows. This results in problems for synchronized operation of seed distributor bodies and increases errors in seeding per unit area as shown in Figure 7.

Longitudinal seed distance that has to be as the distances B and C in Figure 6 results in faulty sowing in state of the art. Due to the longitudinal seed distance being too close from time to time as shown in Figure 7, plants and roots cannot have enough growing room therefore yield is decreased. Another disadvantage of existing systems that are tried to be synchronized afterwards is the increased machine costs and also increased possibility of malfunction and it becoming harder for the system to run in synchronism due to the used extra parts and motion mechanisms. Moreover, tractors with higher horse power are required because these extra parts increase the weight of machines.

Patent research in the state of art revealed the European Patent Application EP 1920647 B1 , which is described as "A twin row planter comprises a drive and a pair of planter units powered by the drive. The planter units include seed metering wheels that are synchronized to discharge seeds in a predetermined staggered pattern along a harvesting row. One of the planter units is adjustable relative to the drive so as to achieve the desired pattern. In particular, the adjustable planter unit includes a connector that is configurable into a plurality of discrete indexing positions. The connector positions determine the relative angular offset between the metering wheels and, thereby, control the spacing of seed within the pattern".

Consequently, twin row seed distributor bodies are being improved and therefore novel embodiments to eliminate the abovementioned disadvantages and to provide solutions for the existing systems are needed.

OBJECT OF THE INVENTION

Present invention relates to twin row seed distributor body that compensate the abovementioned needs, eliminates all disadvantages and provides some additional advantages.

An object of the invention is to meet the demand in seed sowing by rendering the distance between two rows, shown as distance A in Figure 6, minimum 10 cm or wider.

Another object of the invention is to enable sowing by not disrupting the bed lines formed on the field on which bed planting will be performed by minimizing the distance A shown in Figure 6. Another object of the invention is to minimize the risk of tractor's rear wheels damaging (trampling) the plant with the slightest steering maneuver of the tractor driver by increasing distance G through minimizing spacing A without the need to expand the distance E in Figure 6 during plant row crop cultivation process.

Another object of the invention is to eliminate the need the change inter-row spacing of mowing mechanisms (header) in harvesting machines due to the suitable twin sowing inter-row spacing for harvesting machines obtained by minimizing the distance A without changing the distance E in Figure 6.

Another object of the invention is to enable easy harvesting and minimize yield loss during harvest by taking the plant completely in between the stem-picking openings of the harvest machine and directing it entirely to the picking unit during harvesting of cotton and similar plants by using the twin row distributor body that will enable narrow row planting due to distance A in Figure 6.

Another object of the invention is to render the machine more lightweight and reduce the required tractor horse power by using one twin row distributor body, single seed hopper and single motion mechanism.

Another object of the invention is to enable simple and more precise twin sowing by running in synchronism by taking the seed to seed distributor discs and leaving it on the soil at the same time thus enabling synchronized seeding with the mechanism that provides motion to one twin row seed distributor body.

Another object of the invention is to reduce production costs by decreasing the number of seed hopper and motion providing equipment of the sowing system, which has one twin row seed distributor body, to one. Another object of the invention is to provide ease of use and save time by enabling easy change of seeding discs on twin row seed distributor bodies in case of seed change and to provide fast mounting of the seeding discs suitable for the new seed. Present invention that is mentioned above and designed to provide all advantages as will be understood from the detailed description below; is a twin seeding system with one body that is designed to be used in twin sowing method in the agricultural industry and that enables completely synchronized sowing on two different sowing rows (double row) wherein, · It contains twin seed distributor body that enables two different seeding discs to plant seeds on two different sowing rows (double row) within a single body,

• It contains motion transmission shafts and bearing bushels that enable seeding discs on both sides to be connected to the body and main body inner bearing cover that enables easily mounting the gear systems inside the body,

• It contains shaft bearing for transmission shafts that can simultaneously provide motion the seeding discs on the mentioned twin row seed distributor body,

• It contains hinged seed discharge gate on the mentioned twin row seed distributor body,

• It contains seed spreading disc motion shaft that provides the simultaneous motion of seeding disc on both sides of the mentioned twin row seed distributor body,

• The twin row seed distributor body can be used in any kind of vacuum pneumatic sowing machine without considering the sowing mechanisms.

The structural and characteristic features and all advantages of the invention will be more clearly understood by the figures given below and detailed written description addressed to the figures. Therefore, evaluation should be done by taking into account these figures and the detailed description.

BRIEF DESCRIPTION OF THE FIGURES

In order to optimally understand the structure and the advantages of the present invention with additional components, it has to be evaluated in conjunction with the figures explained below.

Figure 1 ; View of the assembled twin row seed distributor body group (1 ) and seed hopper and seed hopper cover (8) from different angles.

Figure 2 ; Disassembled view of the twin row seed distributor body (10), row unit body inner bearing cover (18) that enables connecting the seeding discs (4.a-4.b) on both sides to the twin row seed distributor body (10), disc vacuum body gates (7.a-7.b), inner and outer seed singulators (3.a-3.b - 5.a-5.b), seeding discs (4.a-4.b), seeding disc motion shaft group (15), hinged seed window (20), rear window covers (6), upper window sides (2.a-2.b), gears (13-17), bearing bushels (12-16), shaft bearing group (1 1 ) and seed hopper and seed hopper cover (8).

Figure 3 ; Perspective view of the disassembled twin row seed distributor body group (1 ).

Figure 4 ; Perspective view of the twin row seed distributor body (10) from different angles.

Figure 5 ; Detailed perspective view of the hinged seed window (20) of the twin row seed distributor body.

Figure 6 ; View of the dimensions that are taken as the basis in the sowing process performed by twin (double row) sowing seed distributor body. Figure 7 ; View of the irregular sowing mistakes that might be faced while working with seed distributor row units with two different bodies used in the current system that used by other manufacturers. REFERENCE NUMBERS

1. Twin Row Seed Distributor Body Group

2. a Upper Window Right Side

2. b. Upper Window Left Side

3.a. Inner Seed Singulator Right

3. b. Inner Seed Singulator Left

4. a. Seeding Disc Right

4. b. Seeding Disc Left

5. a. Outer Seed Singulator Right

5.b. Outer Seed Singulator Left

6. Rear Window Covers (Right - Left)

7. a. Disc Vacuum Body Gate (Right)

7. b. Disc Vacuum Body Gate (Left)

8. Seed Hopper and Seed Hopper Cover 10. Twin Row Seed Distributor Body

11. Shaft Bearing Assembly

11.1. Shaft Bearing Body

11.2. Motion Transmission Shaft

11.3. Bearing

11.4. Seal

11.5. Shim

11.6. Retaining Ring

1 1 .7. Bolt

12. Motion Transmission Shaft Bearing Bushel 13. Disc Shaft Motion Gear 14. Split Pin

15. Seeding Disc Motion Shaft Group

15.1. Seeding Disc Motion Shaft

15.2. Seeding Disc Motion Hexagon Shaft

15.3. Shim

15.4. Bolt

15.5. Wedge

15.6. Gear Fixing Nut

16. Disc Shaft Bearing Bushel

17. Disc Motion Gear

18. Row Unit Body Inner Bearing Cover

19. Bolt

20. Hinged Seed Window

DETAILED DESCRIPTION OF THE INVENTION

In this detailed description, preferred embodiments of the twin row seed distributor body group (1 ) of the invention developed for twin (double row) sowing are described only for the better understanding of the subject in a manner not to pose any limiting effects.

Present invention relates to a novelty in seed distributor body groups (1 ) on the sowing unit of vacuum precision pneumatic twin sowing machines used in planting on fields in the agricultural industry. 3D assembled and disassembled view of the twin row seed distributor body group (1 ) - developed to be used in pneumatic twin sowing machines - of the invention and seed hopper and seed hopper cover (8) are shown in Figures 1 and 2.

Disassembled view in Figure 2 shows the shaft bearing assembly (1 1 ), motion transmission shaft bearing bushel (12), disc shaft motion gear (13), split pin (14), seeding disc motion shaft group (15), disc shaft bearing bushel (16), disc motion gear (17), row unit body inner bearing cover (18), hinged seed window (20), upper window (right-left) sides (2.a-2.b), inner seed singulator (right-left) (3.a-3.b), seeding discs (right-left) (4.a-4.b), outer seed singulator (right-left) (5.a-5.b), rear window covers (right-left) (6), disc vacuum body gates (right-left) (7.a-7.b), seed hopper and seed hopper cover (8) provided on the twin row seed distributor body (10).

Figure 3 shows one twin row seed distributor body group (1 ) of the invention, the twin row seed distributor body (10) that enables synchronized sowing on two different sowing rows (double row) at the same time and other mechanism components belonging to the twin row seed distributor body (10) more clearly.

Accordingly, assembly of the twin row seed distributor body group (1 ); · Consists of mounting the motion transmission shaft (1 1 .2) of the shaft bearing group (1 1 ) enabling the motion of seeding discs (4.a-4.b) on the twin row seed distributor body (10) into the shaft bearing body (1 1 .1 ) by means of bearings (1 1 .3), seal (1 1 .4), shim (1 1 .5) and retaining ring (1 1 .6). · Mentioned shaft bearing group (1 1 ) is again supported by the shaft bearing bushel (12) and connected with the twin row seed distributor body (10) by means of bolts (1 1 .7).

• After the mentioned shaft bearing group (1 1 ) is connected to the twin row seed distributor body (10), disc shaft motion gear (13) is connected to the part of the motion shaft (1 1 .2) that remains inside the body by means of the split pin (14).

• Seeding disc motion shaft (15.1 ) enabling the synchronized movement of seeding discs is connected to the twin row seed distributor body (10) by means of row unit body inner bearing cover (18)1 cover connection bolts (19) and disc shaft bearing bushels (16). • Disc motion gear (17) is connected on seeding disc motion shaft (15.1 ) by means of the wedge (15.5) and gear fixing nut (15.6).

• Furthermore, the mentioned seeding disc motion shaft (15.1 ) is fixed to the twin row seed distributor body (10) by connecting with the disc motion hexagon shaft (15.2), shim (15.3) and the bolt (15.4).

• Hinged seed window (20) is used to easily discharge the seed remaining inside the mentioned seed distributor body (10).

Operating principle of the twin row seed distributor body group (1 ) of the invention is as follows:

Basic operation of sowing bodies in pneumatic sowing machines is as follows:

Vacuum created by an air suction fan of the sowing machine is transferred into one vacuum body cover positioned on the body by means of air suction hoses and air suction vacuum is created for the seed distributor body from one direction. Seeds coming from the seed hopper by this air suction vacuum formed in the seed distributor body adhere to the holes on the seeding disc - provided only one for each body - that operates together with the vacuum body cover. Thus, sowing is performed by enabling seeds to remain on the seeding disc until they reach the sowing components.

Twin seed distributor body group (1 ) of the invention is provided with two disc vacuum body gates (7.a-7.b) unlike standard sowing bodies and these covers are simultaneously connected to the cover connection housings on the right and left sides of the seed distributor body (10). Vacuum created by the air suction fan of the sowing machine is respectively transferred to each cover by two different air hoses. Therefore, air suction vacuum inside the twin row seed distributor body (10) required for the twin sowing method is created on both sides of the body simultaneously. Due to the air suction vacuum formed on both sides of the body, seeds going from the seed hopper (8) to the twin row seed distributor body (10) divide into two inside the body, adhere to the holes on two separate seeding discs (4.a-4.b) and remain on these discs (4.a-4.b) until seeds reach the sowing components. In twin sowing performed by state of the art seed distributor bodies, seeding discs (4.a-4.b) receive motion from two different motion mechanisms or they receive motion from a single motion mechanism and try to transfer this motion to the other body by means of various systems.

Unlike its counterparts, in twin row seed distributor body group (1 ) of the invention, shaft bearing group (1 1 ) enabling the movement of seeding discs (4.a-4.b) positioned on one twin row seed distributor body (10) transmits the motion it receives from the motion mechanism to the seeding disc motion shaft (15.1 ) on which wedge (15.5), gear fixing nut (15.6) and disc motion gear (17) is connected. Disc motion shaft provides motion to two different seeding discs (4.a-4.b) and enables seeding discs (4.a-4.b) to run in synchronism without any extra connection components in between. Essential components of the mechanism that enables twin seed sowing by one seed distributor body of the twin row seed distributor body group (1 ) are; one twin row seed distributor body (10) and shaft bearing group (1 1 ) connected on this body (10) by means of bolts, gears transmitting motion (13-17), disc motion shaft group (15) from which seed spreading disc receives motion, bushels (12-16) that enable bearing the motion transmission shaft (1 1 .2) and disc motion shaft group (15) and row unit body inner bearing cover (18). Gates (7.a-7.b) manufactured in the form of a disc are mounted on side surfaces of the twin row seed distributor body (10) in a folding (can be opened and closed) manner. Seeding discs (4.a-4.b) are mounted on both sides of the body (10) in a detachable manner. In a preferred embodiment of the invention, spacing between two discs (distance A in Figure 6) of twin row seed distributor body (10) can be adjusted to any desired distance and automatically controlled by a button by changing the dimensions of twin row seed distributor body (10) to a telescopic mechanism. In a preferred embodiment of the invention, spacing (distance A in Figure 6) between two seeding discs (4.a-4.b) can be adjusted by a spring mechanism.

In a preferred embodiment of the invention, twin row seed distributor body (10) can be manufactured in two pieces and combined by means of various fasteners in order to obtain one seed distributor body. In a preferred embodiment of the invention, shaft bearing group (1 1 ) can be supported by bushes without using bearing (1 1 .3).

In a preferred embodiment of the invention, seeding disc motion shaft group (15) can be manufactured in one piece.

In a preferred embodiment of the invention, besides air suction vacuum formed on both sides of the body, due to the air blowing system also formed on both sides of the body, seeds going from the seed hopper to the seed distributor body divide into two inside the body, adhere to the holes on two separate seeding disc and remain on these discs (4.a-4.b) until seeds reach the sowing components.