RU2065677C1 - Planting unit - Google Patents

Abstract

FIELD: agricultural engineering, in particular, tomato seedling planting equipment. SUBSTANCE: planting unit has rubberized driving disk 1 positioned at an acute angle with respect to driven flexible block 3 in contact with it. Disk 1 has equally spaced circumferential members 2 for transmitting rotation to disk 1. Block 3 has openings 4 for receiving members 2 and driving mechanism. Each member 2 is shaped as truncated pyramid whose base is formed as equilateral trapezium and fixed on disk working part. Trapezium sides of members 2 are radially directed. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 2 dwg

Description

 The invention relates to agricultural machinery, in particular to planting apparatus for planting seedlings, for example tomato seedlings.

 Known landing apparatus made of two elastic disks mounted symmetrically with the same angles of attack to the direction of movement and the same angles of inclination to the horizon, having a common and the same arc of deformation (1). The disadvantage of this landing machine is the complexity of the drive disc, because the axis of the discs is located at an angle to the horizontal and not at right angles to the direction of movement of the apparatus, the design does not provide a constant step of planting.

 Closest to the proposed technical essence and the achieved result is a landing device containing a hard drive, an elastic driven drive, tapered fingers rigidly fixed to the plane of the drive, holes located on the plane of the driven drive. The drive disc is circumferentially rubberized by a ring and mounted in a vertical plane in the direction of travel. The driven disk is installed at an acute angle to the master (2 prototype). The disadvantage of this design is that it does not provide a constant (predetermined) landing step, which depends on the skill of the worker (planting worker), as well as inconvenience during work, because you must constantly hold the plant until it is clamped between the disks.

 Improving the quality of the landing is achieved by the fact that in the known landing apparatus, containing a contacting rubberized around the circumference of the hard drive disk mounted on its plane transmitting rotation elements and a driven disk with holes on its plane for these elements, elements that transmit rotation from the master disk to the driven made in the form of truncated pyramids and fixedly mounted around the circumference on the working part of the drive disk (the surface in contact with the driven disk). Moreover, the base of the pyramids are in the form of isosceles trapezoids, the sides of which are located radially.

 The implementation of the elements transmitting rotation from the leading to the driven disk in the form of truncated pyramids provides the claimed solution with the criterion of "novelty."

 Pyramids with bases made in the form of isosceles trapezoid with radially directed sides, and their circumferential arrangement on the working surface of the disk allows using the side surfaces of the pyramids as a bed for seedling stems and ensures a constant landing step, which increases its quality. These features ensure compliance with the criterion of "inventive step".

 The manufacture of experimental samples confirms the above advantages of the proposed solution and ensures compliance with its criterion of "industrial applicability". It is supposed to use the device in machines for planting seedlings of tomato, pepper, and eggplant.

 The invention is illustrated in the drawing, where in FIG. 1 shows a landing apparatus, side view; in FIG. 2, section AA in FIG. 1.

 The landing gear comprises a hard drive disk 1 with rotation transmitting elements 2 fixed on its plane and a driven elastic disk 3 with holes 4 on its plane. The working part of the drive disk 1 is rubberized around the circumference with a ring 5 of microporous rubber. The drive disk 1 is mounted vertically on the axis 6. The drive disk 3 is mounted at an acute angle to the drive on the axis 7, rotating in the bracket 8. Elements 2 transmitting rotation from the drive to the drive disk are made in the form of truncated pyramids fixedly mounted around the circumference of the working parts of the master disk. The base of the pyramids are in the form of equal-working trapeziums, the sides of which are located radially. The holes 4 on the driven disk 3 have the shape of a large base of the pyramids and are located around the circumference in the zone in contact with the leading disk 1, and with the same step as the pyramids on the leading disk.

 Landing gear operates as follows.

 The drive disk 1 is rotated by a chain drive from a common transfer shaft (not shown) and drives the driven disk 3 using the pyramids 2 included in the contact zone of the disks in the holes 4. The seedling stem is laid on the upper working face of each pyramid when it approaches to point A, the beginning of the pyramids entering the holes. With further rotation of the discs, seedlings are fixed in the area of their contacts and transported to the furrow prepared by the coulter. At the exit of the coulter, disk contact ceases (point B), seedlings are released and its root part is covered with soil. The soil in the seedling planting area is compacted by packer rollers.

 The use of rotational transmitting elements (pyramids) as an indicator of the moment of laying seedlings and places (beds) for its location before being captured by the disks always ensures a constant predetermined step of planting and greatly facilitates the work of the planter.

 Changing the landing pitch is done by changing the rotation speed of the leading disk of the landing gear.

Claims (1)

 The landing gear, comprising a rubberized drive disk mounted at an acute angle to each other with rotational transmission elements fixed uniformly around its circumference and a flexible elastic driven disk with holes for rotation transmission elements, and a drive mechanism, characterized in that each element to transmit the rotation of the drive disk, it has the shape of a truncated pyramid, the base of which is made in the form of an isosceles trapezoid and is fixed on the working part of the disk, and the sides olozheny radially.

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