RU2086088C1 - Drilling mechanism - Google Patents

Abstract

FIELD: agricultural engineering; drills. SUBSTANCE: drilling mechanism has hopper 2 secured on frame 1 with drilling device 4 connected to lower portion of hopper. Central part of bottom of drilling device is made in form of cone and peripheral part is provided with holes. Device has seed distributor placed above bottom under which seed tubes 21 are installed. Housing of drilling device 4 of cylindrical shape is connected to hopper 2 by means of flexible ties 3. Several elongated holes are made above peripheral part of bottom and in ring. Ring is pressed to peripheral part of bottom by means of spring-loaded screw connections placed in some longitudinal holes, while actuating member of adjuster are placed in other longitudinal holes. Seed drilling holes are also made elongated. Device for turning the ring is mounted under bottom. EFFECT: enhanced reliability of operation. 2 cl, 5 dwg

Description

 The invention relates to agricultural machinery, in particular to seeders.

 Known sowing apparatus containing a hopper for seeds and sowing device connected to a vibrator (1).

 The disadvantages of this apparatus are the difficulty in setting the seeder when sowing seeds of various crops and a change in the seeding rate, as well as uneven seeding due to jamming of seeds above the outlet of the sowing device.

 Closest to the proposed one is a sowing apparatus containing a hopper mounted on the lower frame, to the lower part of which a sowing device is attached, the central part of the bottom of which has a conical shape, and the peripheral part is made with holes, and a seed distributor located under the bottom under which the seed tubes are placed ( 2).

 The purpose of the invention is to simplify the design of the all-inclusive apparatus and increase the reliability of the process of its operation, regardless of the topography of the sown field.

 This goal is achieved by the fact that the sowing device is equipped with an adjusting device, the case of the sowing device is made of cylindrical shape and attached to the hopper by means of flexible connections, and a ring is installed under the peripheral part of the bottom, while several circumferential oblong holes are made in the peripheral part of the bottom and in the ring moreover, the ring is tightened to the peripheral part by means of spring-loaded screw connections located in one of the elongated holes, and in others are placed spolnitelnye elements of the adjusting device, in addition to the seeding holes are also oblong, and is mounted under the bottom of the ring rotation device.

 In FIG. 1 shows a metering apparatus, rear view; figure 2 metering device without a hopper and frame, top view; figure 3 section aa in figure 2; in FIG. 4 section BB in figure 2; figure 5 is a bottom view in figure 2, without the tips of the vas deferens.

 The sowing apparatus of the seeder is made vibrating and contains a frame 1, on which a hopper 2 is placed, a sowing device 4 and a drive 5 to it mounted below from flexible connections 3.

The seeder frame is a square hollow beam on which the hopper (s) is mounted 2. The hopper 2 is mounted to the frame 1 by means of quick-detachable brackets 6, mounted on the frame 1 through the plates 7 and bolted joints 8. In turn, the hopper 2 is mounted on the brackets 6 with the help of plates 9, reinforced with scarves 10, and attached to the brackets with bolts. On the hopper 2 at an angle of 120 ^o along its horizontal perimeter, placed brackets 11 flexible connections of the sowing device 4 and brackets 12, limiting the possible rise with shakes. Inside the hopper 2 there are metering flaps 13, the position of which is fixed with screws 14.

The housing of the sowing device 4 has a cylindrical shape, on the horizontal surface of which and at an angle of 120 ^o there are placed brackets 15 of flexible connections 3 and a bracket 16 reinforced with a scarf for the connecting rod 18 of the drive 5. The connecting rod 19 of the drive 5 provides the transfer of oscillations in antiphase to the adjacent sowing device (not shown).

 The cylindrical housing of the sowing device 4 is reinforced at the points of attachment of the brackets 15 of the flexible connections 3 by the plates 20. The tips of the vas deferens 21 are placed below on the sowing device 4.

 The bottom 22 of the housing of the metering device 4 has a conical 23 in the central part and a flat annular part that forms the ring 24, the latter rigidly connecting the conical part 23 of the bottom 22 with the cylindrical housing of the metering device 4. The ring has a number of elongated holes 25 (sowing) located evenly around its circumference. In addition, the ring 24 has four oblong through holes, with two oblong holes 26 diametrically opposed and designed for screws 27, and two other same holes 28 for actuators made in the form of fingers 29.

 A second upper movable ring 30 is mounted on top of the ring 24. The ring 30, by analogy with the ring 24, has the same number of elongated holes 25 evenly spaced around the circle with the same radius (Fig. 2 shows the relative position of the rings 24 and 30 when their holes are fully coincide) and four round holes, two of which are made in accordance with the diameter of the screw 27, and two others in diameter to the pin 29. These holes, as shown in Fig. 2, coincide with the beginning of the holes, i.e. fingers 29 and screws 27 can rotate counterclockwise relative to ring 24 along these holes.

 Inside the cylindrical body of the metering device 4, a seed distributor 31 is installed.

 The fixation of the distributor 31 seeds relative to the housing of the sowing device 4 is carried out by screws 32.

 The upper movable ring 30 and the stationary ring 24 are interconnected by screws 27 through springs 33, washers 34 and nuts 35. This connection provides on one side a snug fit between the rings 24 and 30, and on the other the ability to rotate the upper ring 30 relative to the ring 24 on the size of the elongated grooves 26 and 28 when the metering device 4 is turned off or by a smaller value when adjusting the seed rate.

 The seed distributor 31 provides a set of identical in shape and size plates 36, worn on metal rods 37 and 38, made in the form of two concentric circles. Two adjacent plates 36 of the seed distributor 31 cover each oblong hole on both sides, forming a zone for seeds, from which they enter the tips of the vas deferens 21. This ensures the presence of seeds in each zone regardless of fluctuations in the machine frame and the topography of the sown field.

 A device for regulating the seed sowing rate is mounted on the outer side of the fixed ring 24 of the bottom 22 and includes two fingers 29, rigidly and flush mounted on the movable ring 30, which protrude through the shanks through the grooves 28 of the ring 24 beyond the latter. A stop 39 is attached to the shank of one of the fingers 29. An arm 40 is mounted on the ring 24, next to the finger 29, on which the stop 39 is fixed. The bracket 40 has a threaded hole into which an adjusting screw 41 with a locknut 42 is screwed. Adjusting screw 41 screwed into the bracket 40 is mounted on the fixed ring 30. Therefore, turning the adjusting screw 41 into the bracket 40, it acts on the pin 29 with a stop 39 and ultimately rotates the ring 30 relative to the ring 24. The length of the adjusting screw 41 should ensure full Opening the holes 25 of the ring 24.

 On the tail of the second finger 29, a plate 43 is mounted and fixed, with holes on both sides of it. One hole for connection with the spring 44, working in tension, and the other hole of the plate 43 with flexible thread 45 (cable). The spring 41 is connected at the other end to a bracket 46 rigidly mounted on the ring 24.

 When the adjusting screw 41 is screwed into the bracket 40, the spring 44 will be stretched simultaneously with the rotation of the ring 30. If this screw is unscrewed, the spring 44, compressing, will turn the ring 30 in the opposite direction, while the stop 39 of the finger shaft 29 is always pressed against the screw 41, providing the constancy of the cross section with this adjustment of all oblong (sowing) holes 25, and therefore, a sufficient uniformity of sowing seeds by the sowing device 4.

 The device for activating the sowing device 4 contains a hydraulic cylinder 47 mounted on an arm 48, the latter is mounted under the bottom 22 of the housing of the sowing device 4. The piston rod of the hydraulic cylinder 47 is connected through a flexible thread (cable) and block 49 to a plate 43 mounted on the tail of a finger 29.

 On the piston rod of the hydraulic cylinder 47, between the two washers 50, a spring 51 and a sleeve 52 are placed. The oil is supplied to the hydraulic cylinder 47 and drained by a hose 53.

 The sowing device 4 is turned off when the hydraulic cylinder 47 rod is retracted. The hydraulic cylinder 47 rod through a flexible thread (cable) 45 thrown through the block 49 acts on the movable ring 30 and rotates it relative to the stationary ring 24, turning off the sowing device 4. This process is accompanied by compression of the spring 44. The sufficiency of the stroke of the rod of the hydraulic cylinder 47 to completely turn off the sowing device 4 is determined by the length of the sleeve 52.

 To turn on the sowing device 4, it is necessary to connect the cavity of the hydraulic cylinder 47 with the drain line of the system, while under the action of 44 and 51 the movable ring 30 will turn relative to the stationary ring 24 and take the position determined by the adjusting screw 41, into which the stop 39 of the finger 29 will rest. At the same time the rod of the hydraulic cylinder 47 will come out of its cavity and the flexible thread (cable) 45 will not prevent the rotation of the ring 30. The stroke of the rod of the hydraulic cylinder 47, determined by the length of the sleeve 52, is always constant and corresponds to full opening and floor closing the oblong holes 25 of the ring 24. However, during operation of the sowing device 4, it becomes necessary to partially overlap the oblong holes 25 of the ring 24 by turning the ring 30 with the adjusting screw 41. When the ring 30 is turned with the adjusting screw 41 to partially overlap the oblong (sowing) holes 25 of the ring 24 flexible thread (cable) 45 is loosened. And if this screw completely overlap the oblong holes 25 of the rings 24, i.e. to turn off the sowing device 4 from work, the flexible thread 45 will give so much weakness that if you try to turn on the sowing device 4 with the rod of the hydraulic cylinder 47, its work will consist only in tensioning the flexible thread 45.

 The working process of the vibrating metering apparatus proceeds as follows.

 Before starting the sowing apparatus, preparatory operations must be performed.

 Firstly, check the stroke of the cylinder 47, which turns off the sowing device 4 and the corresponding length of the flexible thread (cable) 45.

 Secondly, according to the sowing rate of the material, the adjusting screw 41 sets the required cross section of the elongated (sowing) holes 25 of the ring 24 and fixes the screw with the lock nut 42. Thirdly, also according to the sowing rate of the material when the sowing device is turned off (the device is turned off by hydraulic cylinder 47), the position the metering flaps 13 of the hopper 2, fix them with screws 14.

 After this, the material is poured into the hopper and through the metering window in the hopper 2, controlled by the shutters 13, due to its flowability, it enters the metering device 4 and, thanks to the cone-shaped part 23 of the bottom 22, evenly fills all the zones above the metering holes 25 formed by two adjacent distributor plates 36 31 seeds. As these zones are filled with material, its spontaneous outflow from the hopper 2 stops and the sowing device 4 is ready for operation.

 Due to the vibration of the sowing device 4, the material through the oblong holes 25 of the ring 24 continuously flows into the tips of the seed tubes 21 and further to the coulters.

 At the same time, more and more portions of the material through the window into the hopper 2, regulated by the metering dampers 13, are constantly supplied to the metering device 4. Moreover, the dosage of material from the hopper 2 is determined by its flow rate by the metering device 4, i.e. there is a process of self-regulation of the flow of material from the hopper 2 into the sowing device 4, which ensures sufficient uniformity of sowing by all oblong holes 25 of the ring 24 regardless of the oscillations of the seeder and the topography of the sowing field.

Claims (2)

 1. The sowing apparatus comprising a hopper mounted on the frame, to the lower part of which a sowing device is attached, the central part of the bottom of which has a conical shape, and the peripheral part is made with holes, and a seed distributor located above the bottom, under which the seed tubes are located, characterized in that it is equipped with an adjusting device, the case of the sowing device is made of a cylindrical shape and attached to the bunker by means of flexible connections, and a ring is installed under the peripheral part of the bottom, while in the peripheral part of the bottom and in the ring are made several circumferentially oblong holes, the ring being pressed to the peripheral part of the bottom by means of spring-loaded screw connections located in one of the oblong holes, and actuators of the adjusting device are placed in other oblong holes, holes for sowing seeds are made also oblong, and under the bottom a device is mounted for turning the ring.  2. The apparatus according to claim 1, characterized in that the limiters of its lifting are fixed on the hopper under the metering device.

Images