RU2335116C1 - Flax agitator over and bundling device - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agricultural engineering and can be used for flax harvesting. Flax agitator over and bundling device comprises a central section and foldable side sections jointed to it by flapping hinge. Each section consists of a frame with carrying wheels and a pickup drum mounted on the frame and fitted with beater grate. Drums of each section are aligned coaxially and the drum shafts bear clusters of toothed discs set at the equal distance from each other. Each toothed disc cluster of each drum is further equipped with one additional identical toothed disc which is mounted on the drum shaft and can be rotated with following fixation by stopping device in the form of spring-loaded locking holder. Drive of the flax agitator over and bundling device is fitted with a mechanism for switching between operation modes to provide either continuous or discrete rotation of the pickup drums. The flax agitator over and bundling device ensures turning over and bundling flax stems along with improvement of its functionality.

EFFECT: improving functionality of flax agitator over and bundling device.

3 cl, 2 dwg

Description

The invention relates to agricultural machinery, in particular to machines for harvesting flax.

Known agitator of flax tapes (Tedder of flax tapes VL-3T. Operating Instructions. - Tver, 2002, p.3, 4, prototype), containing the middle and associated horizontal hinges with the possibility of folding the side sections and the drive. Each section includes a frame with support wheels and a pick-up drum mounted on it with a breaker grate, on the shaft of which sections of gear disks are mounted at an equal distance from each other. The drums of each section are aligned.

The machine is highly productive and cost-effective, but its potential has not been used by the same working bodies to select flax stalks from tapes spread by a flax harvester, with the formation of portions.

The problem solved by this invention is to expand the functionality of the agitator flax ribbons.

The problem stated in the invention is solved in that in a flax billet tedder, comprising middle and associated horizontal hinges with the possibility of folding side sections, each of which includes a frame with support wheels and a pick drum mounted on it with a baffle plate, on the shaft of which equal to each other, sections of the gear disks are mounted, and the drive, each section of the gear disks of each drum is additionally equipped with one more of the same gear disc mounted on the shaft of the drum ana with the possibility of turning it with subsequent fixing, and the drive is equipped with a mechanism for switching its operation mode with the ability to provide either continuous or intermittent rotation of the picking drums. In addition, the drive includes a gearbox with a single-turn camshaft clutch with a drive sprocket installed on its input shaft, a chain gear on the shaft of the middle pick-up drum with a driven sprocket, and a drive operation mode switching mechanism comprising a three-stage unit mounted on a splined shaft with the possibility of longitudinal movement, including a cylinder and two cams with one and two protrusions, as well as a spring-loaded lever on-off of a single-turn cam clutch and gear from the shaft p gearbox on the shaft of the mechanism for switching the operating mode. Each section of the gear discs is equipped with a locking device made in the form of a spring-loaded lock.

The installation on the shaft of each drum in each section of the gear disks additionally one more of the same gear disc with the possibility of rotation and its subsequent fixation on the shaft of the drum allows you to change the relative position of the gear disks in each section. When the picking fingers of the gear discs are offset, for example, by half an angle between them, the number of rows of picking fingers doubles, which allows the use of the claimed device in the tedding mode. In the mode of portion formation, on the contrary, a large number of rows of picking fingers will interfere with the formation of portions. Therefore, by installing on the drum shaft an additional gear disk in each section of the gear discs in such a way that the position of the picking fingers of all gear discs is the same, the claimed device can be used in the portioning mode.

To ensure the operation of the device in the mode of either tedding or portioning, it is necessary to provide either continuous or intermittent rotation, respectively, of its picking drums. The claimed drive design allows you to implement both modes of operation of the agitator-batching machine. Thus, it is possible to create a high-performance and cost-effective machine that allows the same working bodies to carry out the tedding process and the selection of flax stalks from tapes spread by the flax harvester, with the formation of portions.

The claimed invention is illustrated by drawings.

In Fig.1 shows a diagram of a tedder-batching machine in the unit with the tractor, side view of the middle drum; figure 2 is the same, a top view.

The batch agitator contains the middle I and associated horizontal hinges 1 with the possibility of folding the side sections II and III. Each section I, II and III includes a frame 2 with support wheels 3 and a pick-up drum 4 mounted on it with a breaker grill 5. The drums 4 of each section I, II and III are mounted coaxially on the shaft 6. The shaft 6 of the middle section I is equipped with cardan joints 7 to ensure the addition of side sections II and III. Due to the articulation of sections I and II and I and III by means of horizontal 1 and cardan 7 hinges, the drums 4 of the side sections II and III have the ability to copy the field topography, regardless of the drum 4 of the middle section I.

On the shaft 6 of the drum 4 of each section I, II, III, sections of the gear disks 8 are mounted at an equal distance from each other, each of which is additionally equipped with one more of the same gear disc 9 mounted on the shaft 6 with the possibility of rotation with its subsequent fixing by a locking mechanism made in the form of a spring-loaded lock 10. The relative position of the picking fingers 11, 12 of the gear discs 8, 9, respectively, depends on the operating mode of the claimed device. In the mode of portion formation, which does not require a large number of rows of picking fingers, which will interfere with the formation of portions, the position of picking fingers 11.12 of both disks 8, 9 is the same. In the tedding mode, on the contrary, to increase the number of rows of picking fingers, the gear disk 9 is mounted on the shaft 6 with an offset relative to the gear disc 8 by half the angle between the picking fingers 11,12 of both discs 8, 9 and fix it (disc 9) by a spring-loaded lock 10 on the shaft 6 in this position, thereby increasing the number of rows of picking fingers twice.

A frame agitator-batch generator from the tractor PTO shaft is mounted on frame 2 of the middle section I, comprising a gearbox 13 with a single-turn cam clutch 14 with a drive sprocket 15 mounted on its output shaft, a chain gear 16 to the driven sprocket 17 of the shaft 6, and a mechanism for switching the operating mode a drive controlling a single-turn cam clutch 14. The design of the cam clutch is well known and is used, for example, in sheaves knitting machines for flax harvesting machines (Lutsenko V.M. Knitting machines for flax harvesters classroom machines -. M., Rosselkhozizdat -. 1979 s.21-23). It consists of a cam hub fixedly connected to the shaft of the gearbox and freely rotating on the sprocket shaft 15 with a spring-loaded dog 18 and a roller (not shown). Under the action of the spring, the roller enters one of the recesses between the cams, and then the sprocket 15 through the cam hub receives communication with the shaft of the gearbox 13.

The drive operating mode switching mechanism comprises a spring-loaded lever 19 with a bent nose for turning on and off the clutch 14, as well as a three-stage block 21 mounted on a splined shaft 20 with the possibility of longitudinal movement, including a cylinder 22 and two cams 23, 24 with one and two protrusions, respectively. The shaft 20 is connected to the shaft of the gearbox 13 with a reduction, for example, gear 25, that is, the block 21 is constantly rotating.

The claimed agitator-batching agent operates as follows.

Preliminarily, depending on the operating mode of the inventive agitator-batching machine, the gear disks 9 of the drums 4 are mounted on the shaft 6 in such a way that the picking fingers 11, 12 of both disks 8, 9 either coincide (the batch formation mode) or are shifted by half the angle between them (tedding mode ) with subsequent fixation of the disks 9 by a spring-loaded clamp 10 on the shaft 6.

The machine is guided so that there is a complete capture of the three ribbons of flax.

The mode of operation of the agitator-batching agent is set by means of a mechanism for switching the operating mode of the drive.

In the portioning mode, by setting the disks 9 on the shaft 6 without a relative displacement of the picking fingers 11, 12, their intermittent operation is provided as follows. A three-stage unit 21 is installed under the lever 19 with a cam, either with one protrusion 23 to obtain large portions of flax, or with two protrusions 24 to obtain two times smaller portions. With the continuous rotation of the three-stage block 21, the spring-loaded lever 19 under the action of the cams 23, 24 oscillates up and down, turning on and off the clutch 14 with its nose through the dog 18, the drive sprocket 15 of which makes one revolution periodically. When the sprocket 15 is rotated through the chain drive 16 and the driven sprocket 17, the shaft 6, and with it the picking fingers 11, 12, are turned one step between them (in our case, a quarter of a turn). With such a periodic intermittent rotation of the fingers, the stalks are sequentially raked, the portions are formed and they are dumped using the fenders 5 in the field.

The size (mass) of servings of flax depends on its yield and speed of the unit. Therefore, when their values are small, a cam 23 with one protrusion is used in the mechanism of switching the operating mode of the drive, otherwise, a cam 24 with two protrusions, receiving optimal portions of flax.

In the tedding mode, the three-stage block 21 is moved along the shaft 20 so that its cylindrical part 22 becomes under the lever 19. This ensures the upper position of the lever (figure 1), the constant inclusion of the clutch 14 and the continuous rotation of the picking drums 4.

Due to the different linear speed of the picking fingers 11, 12 of the drum 4 and the linear speed of the unit (which is slightly less than the speed of the picking fingers), small portions of flax are captured. Then, due to the rotational movement and the resulting centrifugal force, a portion of flax stalks is pressed with fingers 11, 12 and moves up with them. The movement of the stems up occurs before contact with the lattice 5, which removes the stems from the fingers, returning them to the surface of the earth in a fluffy state. As a result of a continuous cycle, a loop of flax tape torn off the ground is formed behind the agitator-batch former.

This invention is industrially practicable. A prototype of a tedder-portioning agent of flax tapes was made and passed laboratory-field testing. Production of its prototype has begun.

Claims (3)

1. A flax batch agitator comprising lateral sections with a middle and associated horizontal hinges with the possibility of folding, each of which includes a frame with support wheels and a pick drum mounted on it with a baffle grill, on the shaft of which sections are mounted at equal distance from each other gear disks, moreover, the drums of each section are mounted coaxially, and a drive, characterized in that each section of the gear disks of each drum is additionally equipped with another same gear disk, is installed oval on the shaft of the drum with the possibility of rotation and its subsequent fixation, and the drive is equipped with a mechanism for switching its operation mode with the ability to provide either continuous or intermittent rotation of the picking drums. 2. A flax tedder-batching machine according to claim 1, characterized in that the drive comprises a gearbox with a single-turn camshaft clutch with a drive sprocket mounted on its input shaft, a chain gear on the shaft of the middle pick-up drum with a driven sprocket, and a drive operation mode switching mechanism comprising mounted on a splined shaft with the possibility of longitudinal movement of a three-stage block, including a cylinder and two cams with one and two protrusions, as well as a spring-loaded on-off lever th cam clutch and gear from the gearbox shaft to the shaft of the mechanism for switching the drive operation mode. 3. Flax tedder-batching machine according to claim 1, characterized in that each section of the gear discs is equipped with a locking device made in the form of a spring-loaded latch.

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