BR202016000413U2 - CONSTRUCTIVE DISPOSITION IN MECHANICAL SYSTEM CONVEYOR OF SEEDS THROUGH TALISED BELT APPLIED IN SEMIADORA - Google Patents

Abstract

Constructive disposition in mechanical conveyor system of seeds through taliscada belt applied in seeder. A constructive arrangement in a mechanical seed conveyor system is described in a seeder belt comprising a taliscus belt (40) provided with specific triangular or rectangular shaped angles and spacings which is coupled to a mechanical disc seed dispenser (20). ) driven by drive crown (30), allowing seeds to be driven from the selector system to the soil sowing line, limiting the acceleration of gravity in the seed and preventing their immediate and uneven deposition on the sowing line. Furthermore, the taliscus belt 40 ensures good flexibility without damaging the seeds.

Description

CONSTRUCTIVE ARRANGEMENT IN MECHANICAL SEED CARRIER SYSTEM THROUGH SEALER APPLIED 01 The present utility model refers to a constructive arrangement in mechanical seed conveyor system using a taliscus belt applied to a seeder. More specifically it comprises a taliscus belt provided with specific triangular or rectangular shaped angles and spacings which is coupled to a mechanical disk seed dispenser, allowing the seeds to be driven from the selector system to the soil sowing line, limiting the acceleration of the seed. gravity in the seed and preventing its immediate and uneven deposition in the sowing line. In addition, the belt ensures good flexibility without damaging the seeds. 02 In seed planting, it is known that the quality and distribution of seeds in the soil are fundamental for good performance, it is estimated that for each percentage of failure in planting (pit without seed) or for each percentage of “double” in the soil. planting (two seeds per pit) yields a loss of 3.3% in yield. Normally, sowing machines for planting comprise a seed conduit tube from the selector system to the sowing furrow. The seed is transported from the conductive tube into the system, falling in free fall from an average height of seven hundred millimeters to the sowing groove, this system besides generating a distribution unevenness and the high coefficient of variation due to the disordered fall of the seed, has no regulating device to control seed deposition and may also have sensors in the center of the conductive tube that prevent the seed from sliding straight into the sowing groove, disuniting its deposition. The prior art discloses some patent documents describing seed conveyor systems utilizing belts which enable the seed to be ordered in an orderly and spaced manner, as we can analyze in detail: Patent document US6681706 describes an apparatus provided by a method of controlled seed delivery, from an agricultural planter's seed meter to an open seeder furrow. The seeds are received individually and then directed to the ground through one or more conveyor belts at a controlled speed that allows the seed to be gently released into the soil. The document cited describes a seed conducting system that describes one or more belts having predetermined spacings that direct the seeds to the soil in an orderly manner. However, this system has several drawbacks because the simple conveyor belt has a very high predetermined spacing which hinders accuracy and has a very high clearance between the deposition of seeds next to the taliscas. 07 Thus, the system mentioned in the state of the art does not solve the problem of the orderly deposition of the planting, since it presents a great change in the coefficient of variation at the moment of the seed deposition next to the soil, due to the distance and inclination of the belt taliscas which generates great inaccuracy of seed deposition in the soil. 08 US20140230705 describes a seed supply apparatus for providing a seed surface for planting provided with a seed meter configured to drag and drop seed from a disc at a seed launching location, a seed conveyor. seeds arranged to receive and release the seed next to a belt having predetermined spaces that direct the seeds to the ground and a loading wheel arranged adjacent to said seed release site, the system being provided with a set of sensors which enable the control of seed deposition near the soil. The cited patent document discloses a seed conveyor system through a belt having predetermined spacings together with the control of seed deposition through sensors that control the rotation of the equipment. However, this document has some drawbacks because the configuration of the belt used to promote the movement of seeds presents large spacing, making it difficult to deposit the seeds next to the belt and, consequently, damaging the deposition next to the soil. Thus, the documents described in the prior art cite the use of belts with spacing for seed transport, where the differentiation between the systems is in the new configurations and in the seed deposition systems on the belts, seeking to limit the acceleration of the gravity in the seed and prevent its immediate and uneven deposition in the sowing line, aiming to reduce the coefficient of variation and increase the yield. For this reason, the present utility model features a taliscus belt having specific triangular or rectangular shaped angles and spacings that is coupled to a mechanical disc seed dispenser, allowing the seeds to be conveyed from the selector system to the line. sowing in the soil, limiting the acceleration of gravity in the seed and preventing its immediate and uneven deposition in the sowing line. In addition, the belt ensures good flexibility without damaging the seeds. 012 These characteristics promote the highest precision and the lowest seed clearance between the taliscal spaces when compared to equipment described in the state of the art. It is characteristic of the utility model a constructive arrangement in a mechanical seed conveyor system by a seeding belt applied to a seeder which provides a conveyor structure provided with a taliscus belt and a gear assembly. 014 The utility model is characterized by a constructive arrangement in a mechanical seed conveyor system by a taliscus belt applied to a seeder which provides a taliscus belt having a triangular or rectangular shape. It is characteristic of the utility model a constructive arrangement in a mechanical seed conveyor system by a taliscus belt applied to a seeder which provides a taliscus belt that has a spacing between 10 and 20mm. 016 The characteristic of the utility model is a constructive arrangement in a mechanical seed conveyor system by a seeding belt applied to a seeder which provides a seeding belt having a width of between 10 and 20 mm between each one. 017 The characteristic of the utility model is a constructive arrangement in a mechanical seed conveyor system by a taliscus belt applied to a seeder which provides a mechanically driven seed feeder system driven by a pinion shaft. 018 The utility model is characterized by a constructive arrangement in a mechanical seed conveyor system by a seeding belt applied to a seeder which provides an adjustable release ramp that allows adjustment according to belt speed. It is characteristic of the utility model a constructive arrangement in a mechanical seed conveyor system through a seeding belt that provides the use of a conveyor system provided with a taliscus belt and gears in any type of planter drive system. 020 In order to better describe the technical characteristics of the mechanical seed conveyor arrangement through a seeding belt applied to the seeder, the following related figures are shown: 021 Figure 1 shows the perspective view of the mounted conveyor and doser system. 022 Figure 2 shows the front view of the mounted disc conveyor and mechanical dosing system. 023 Figure 3 shows the top view of the mounted disc conveyor and mechanical dosing system. Figure 4 shows the side view of the conveyor and dosing system demonstrating the taliscated belt in mechanical disc dosing system. Figure 5 shows the side view of the taliscus belt demonstrating its configuration and dimensions. Figure 6 shows the perspective view of the belt drive system in a mechanical disk metering system. Figure 7 shows the perspective view of the taliscus belt drive system provided with the mechanical seed seed dispenser and Figure 7A shows the detail of the conveyor structure. Figure 8 shows the exploded view of the seed conveyor system. 029 Figure 9 shows the perspective view of the conveyor system with the option of adapting another belt and pulley drive system to the mechanical disc system. 030 Figure 10 shows the perspective view on a conveyor system with the option of adapting another drive system through a set of toothed gears. 031 The constructive arrangement in a mechanical seed conveyor system by a seeding belt applied to the present utility model comprises a conveyor structure (10) provided with a lid (11) disposed next to a seed dispenser assembly provided with a disk. seed (20) and drive crown (30) attached to a seeder (100). The conveyor structure (10) has spacings for securing the taliscus belt (40) through a gear (12) having a shaft (121) disposed in the upper portion and a gear (13) disposed in the lower portion provided with a tensioner (14). ), coil spring (15) and guide (16) that keep the belt (40) taut, allowing the belt (40) to move within the conveyor frame (10). 033 The shaft (121) has at the opposite end to the gear (12) a pulley (122) which is interconnected next to a drive pulley (50) through a belt (51), said belt (51) which is adjusted by the tensioner ( 52). The drive pulley (50) has a shaft (53) interconnecting the pulley (50) next to a drive pinion (54). In the upper portion of the frame (10) there is described a slant (17) spacing which allows the seed from the disc (20) to be deposited next to the belt (40). 036 The dosing assembly is provided with a seed disc (20) superimposed on a drive crown (30), said seed disc (20) which has spacings (21) for seed deposition, allowing direction and release over the structure (10) provided with belt (40). 037 The seed disc (20) is disposed below the seed deposit (60) which has in its lower portion a seed scraper and ejector box (61) of the disc (20), allowing to direct the seeds to the structure (10). ) and belt (40). 038 The belt (40) has a belt (41) positioned at an angle of 90 ° to its toothed base, and the belt (41) is triangular or rectangular in shape allowing good flexibility without damaging the seeds. 039 The belt (40) has a distance between the taliscas (41) of 10 to 20mm (42), said taliscas (41) which have a height between 10 to 15mm (43) which ensures a better deposition of seeds close to the ground. . 040 The seed conveyor system provided with a taliscus belt (40) and a dosing assembly provided with a seed disk (20) is attached to the seeder (100), where it transmits motion through the drive shaft (70) which rotates a pinion (71) interconnected next to the drive crown (30) promoting the rotation of the crown (30) and consequently the rotation of the seed disc (20). 041 The seeds are selected through the lower level of the seed deposit (60) by the disc (20), and the seeds are accommodated and ejected out of the disc (20) through the scraping box (61). After being ejected from the disc (20), the seeds fall onto the taliscus belt (40) and are transported to an adjustable ramp (80) until they are deposited near the planting furrow. 042 The taliscal belt (40) receives the rotational movement through the crown (30) which when rotated by the shaft (70) with pinion (71), rotates the pinion (54) which transmits its movement to the drive pulley (50). ) through the shaft (53). The drive pulley (50) when rotated transmits movement to the pulley (122) through the belt (51), being adjusted by the tensioner (52), promoting the rotation of the shaft (121) and, consequently, the movement of the gear ( 12) moving the taliscan belt (40). 043 The pinion (71) when driven by the shaft (70) rotates counterclockwise at a 90 ° degree angle to the crown (30) which is coupled to the clockwise rotating seed disc (20). The crown (30) rotates the pinion (54) counterclockwise by 90 degrees, rotating the drive pulley (50) and driven pulley (122) in the same direction. The gear (12) of the taliscus belt (40) is rotated by the pulley (122) moved counterclockwise by the shaft (121), moving the taliscal belt (40) and gear (13) in the same direction. 044 In the lower portion of the frame (10) next to the gear (13) and taliscus belt (40) is the adjustable ramp (80) which allows the adjustment of the seed release angle to the planting furrow as required by the seed line. planter. 045 Adjustable ramp (80) allows different angles of release of the seeds carried by the taliscus belt (40) to ground level, so that the ramp (80) can be adjusted to the speed of the belt (40) so that the angle seed loosening is higher at low speed and smaller at higher speed, obtaining better control of seed spacing. 046 Optionally, the drive system of the crown (30) and belt (40) through the shaft (70) and pinion (71) can be replaced by the drive by means of chain (200) provided with side pulley (201) of the equipped planters. with this configuration, either by hydraulic or electric motors, the pulley (201) being fixed next to the pulley (50), according to figure 9. 047 Optionally, the pulley (50) can be changed as well as the moved pulley (122). the belt rotation speed (40) can be adjusted according to the need for seed distance and planting speed. In addition, this drive assembly may be replaced by chains in place of belt (51) and gears in place of drive pulley (50) and driven pulley (122). 048 Optionally, hydraulic motors, cables or electric motors coupled to the shaft (121) may be used to vary the speed of the taliscus belt (40) as required. 049 Optionally, a mechanical disc feeder drive system may be used through a toothed gear assembly where the gear (130) rotates counterclockwise, rotating the twin gear (132) clockwise and it rotates the gear (131) counterclockwise. This set allows gear rotations (131) to be varied by exchanging gears (130 and 132) for varying sizes, thereby achieving proper adjustment of the planting speed as shown in figure 10. CLAIMS:

Claims (12)

1. MECHANICAL SYSTEM CONSTRUCTIVE ARRANGEMENT OF SEED-SEALED THREADED SEED CARRIER SYSTEM comprising a conveyor structure (10) provided with a cover (11) arranged next to a seed seeder assembly (100), characterized in that it has a structure conveyor (10) describing spacings for securing the taliscus belt (40) by means of a gear (12) having a shaft (121) disposed at the upper portion and a gear (13) disposed at the lower portion provided with a tensioner (14), spiral spring (15) and guide (16), said gear (12) provided with shaft (121) has at the opposite end a pulley (122) interconnected next to a drive pulley (50) by a belt (51) adjusted by a turnbuckle (52), said drive pulley (50) provided with an axle (53) interconnected to the drive pinion (54), driven by the drive crown (30) attached to the seed disc (20) provided with spacings (21) said seed disk s (20) which is disposed below the seed container (60) which describes in its lower portion a seed scraper and ejector box (61), said drive ring (30) which receives the transmission of motion through the spindle. drive (70) that rotates a pinion (71), promoting the rotation of the crown (30), seed disc (20) and taliscus belt (40), directing the seed to the adjustable ramp (80). 2. CONSTRUCTIVE ARRANGEMENT OF A MECHANICAL SEED CARRIER SYSTEM THROUGH SEALED BELT according to claim 1, characterized in that the conveyor structure (10) has an inclination (17) which allows the seed to be directed to the ground. disc (20). 3. CONSTRUCTIVE MECHANICAL SYSTEM ARRANGEMENT OF SEED APPLIED SEALING STRAP CARRIER according to claim 1, characterized in that the taliscus belt (40) has slings (41) positioned at an angle of 90 ° to its base. notched, the taliscas (41) having a triangular or rectangular shape. CONSTRUCTIVE MECHANICAL SYSTEM CONSTRUCTION ARRANGEMENT OF SEED APPLIED SEALING BELT according to claim 1, characterized in that the taliscus belt (40) has a distance between the taliscas (41) of 10 to 20mm (42) and a height between 10 and 15mm (43). CONSTRUCTIVE ARRANGEMENT MECHANICAL SYSTEM TRANSMISSION OF SEEDLESS THREADED BELT according to claim 1, characterized in that the pinion (71) is driven by the shaft (70) which rotates counterclockwise at an angle of 90 °. ° degrees the crown (30) which is coupled to the clockwise rotating seed disc (20). 6. CONSTRUCTIVE MECHANICAL SYSTEM ARRANGEMENT OF SEED-THROUGH SEED APPLIED SEALS according to claim 1, characterized in that the drive ring (30) rotates the pinion (54) counterclockwise 90 ° by rotating the drive pulley (50) and driven pulley (122) in the same direction. CONSTRUCTIVE MECHANICAL SYSTEM CONSTRUCTION ARRANGEMENT WITH SEALING TALISED BELT according to Claim 1, characterized in that the gear (12) of the taliscal belt (40) is rotated by the driven pulley (122) provided with the shaft (121). ) counterclockwise by moving the taliscus belt (40) and gear (13) in the same direction. CONSTRUCTIVE MECHANICAL SYSTEM ARRANGEMENT SEED THROUGH SEALING BELT according to claim 1, characterized in that the adjustable ramp (80) permits different angles of release of the seeds carried by the taliscus belt (40) in relation to the It is possible to adjust the ramp (80) according to the speed of the belt (40), so that the angle of seed release is higher at low speed and smaller at higher speed, obtaining better control of the distance between seeds. . CONSTRUCTIVE MECHANICAL SYSTEM ARRANGEMENT SEED-THROUGH SEED CARRIER SYSTEM according to claim 1, characterized in that the crown (30) and belt (40) drive optionally via the shaft (70) and pinion (71) be replaced by the chain drive (200) provided with the side pulley (201) of planters equipped with this configuration, or by hydraulic or electric motors, the pulley (201) being fixed next to the pulley (50). CONSTRUCTIVE MECHANICAL SYSTEM ARRANGEMENT OF SEED SEALING THREADED BELT according to claim 1, characterized in that optionally the pulley (50) can be changed as well as the moved pulley (122). belt rotation (40) according to the need for seed spacing and planting speed, this transmission set can be replaced by chains in place of belt (51) and gears in place of drive pulley (50) and driven pulley (122) . MECHANICAL SYSTEM CONSTRUCTION ARRANGEMENT OF SEED APPLIED THREADED SEED CARRIER according to claim 1, characterized in that hydraulic motors, cables or electric motors coupled to the shaft (121) are optionally used to vary the speed of the taliscus belt. (40) as required. CONSTRUCTIVE MECHANICAL SYSTEM ARRANGEMENT SEEDED THREADED SEED CARRIER SYSTEM according to claim 1, characterized in that a mechanical disc feeder drive system is optionally used via a set of toothed gears where the gear ( 130) rotates counterclockwise by rotating the twin gear (132) clockwise and it rotates the gear (131) counterclockwise.