RU2390120C2 - Knife drive mechanism - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention refers to agricultural machinery industry and can be used in the cutting devices. The drive mechanism contains the case where drive and driven eccentric shafts are located. Both shafts are installed on two bearings and have cogwheels of conic transfer. There is a toggle with a finger made in the form of one detail located on the drive shaft. The toggle has a pinion-ring gear of epicyclical train. Fixing of conic transfer is executed in the form of rigid fixing of each conic cogwheel from bilateral axial moving according to the case. The ring gears of conic wheels are located near to the basic bearings rigidly fixed in the case. There is a system with the compensatory channel that supplies greasing to mobile elements of the drive mechanism.

EFFECT: construction of knife drive mechanism provides high reliability of its work.

4 cl, 1 dwg

Description

The invention relates to agricultural machinery, specifically to the nodes and parts of the cutting apparatus of mowers, reapers, and in particular to mechanisms for driving knives, and can be used in the design and manufacture of nodes and parts of cutting apparatuses.

The knife drive mechanism is designed to convert the rotational motion of the driving pulley or shaft of a hydraulic or electric motor into a rectilinear reciprocating movement of the driven link of the mechanism.

Currently, there are various mechanisms for driving knives of cutting devices, and all of them have both their advantages and disadvantages.

For example, the simple design of the knife drive mechanism is known, which is a crank, which, through an additional crank, converts rotational movements into oscillatory ones.

Other designs use a swash plate mechanism that converts the rotational movement of the drive shaft into the oscillatory motion of the output shaft, on which the lever is fixed.

A common drawback is inherent in these designs - power transmission to the mower knife is not straightforward. The lever of the mechanism of this design moves along an arc of a circle relative to the center of rotation, while the longer the lever, the smaller the angle of rotation and the greater the torque, and therefore, the device must be more rigid and massive. This drive design was originally intended for a small stroke length of the cutting knife.

More perfect is the design of the drive using a planetary gear in which the crankshaft gear mounted in the eccentric shaft is run around the stationary gear ring of the wheel with internal teeth.

The radius of the initial circumference of the wheel with internal teeth is equal to the diameter of the initial circumference of the gear ring of the crank.

The radius of the initial circumference of the crank ring is equal to the radius of the crank pin relative to its axis.

When the eccentric shaft rotates, the crank finger performs a rectilinear reciprocating movement at each revolution, which exactly corresponds to the diameter of the initial circle of the wheel with internal teeth or the double diameter of the initial circumference of the gear ring of the crank, or the four radii of the location of the crank finger relative to its axis.

Such a transmission has established itself as a drive for reciprocating movement of the mowing knife, while the heavier the mowing knife, the larger the mass of the pulley acting as a flywheel should be to compensate for the variable load that is transmitted to the knife drive mechanism during operation.

Known drives mower knife described in German applications laid out (DE 3525576 A1, IPC ⁴ , A01D 34/32, publ. 01/22/1987 and DE 3615058 A1, IPC ⁴ , A01D 34/32, publ. 11/05/1987 ) containing a drive shaft, a planetary gear and a crank with a finger. Despite the simplicity of design, these drives cannot be used in a number of designs of mowers and reapers due to the horizontal location of the flywheel pulley, as while the drive belts from the engine to the drive pulley should be located in two planes - horizontal and vertical, which leads to increased wear and quick failure of the drive belts.

The closest in technical essence and the achieved technical result and selected as a prototype is the “Mower knife drive” (Gebr. Schumacher brochure), which includes a housing in which the drive shaft and bevel gear, an eccentric shaft with a crank and planetary gear are installed, with In this case, the drive shaft is mounted on two bearings, one of which is double row, and a pulley and the first bevel gear are located on it, and the eccentric shaft is mounted on two ball bearings, and on the second gear of the bevel gear and the crank with a finger are located on the camshaft shaft, while the crank is located on the needle and ball bearings and has a gear ring, which is a planetary gear satellite, a cylindrical gear wheel with internal teeth, which is mounted in the housing, while the crank finger is located the bearing, and the mechanism is equipped with a lubricant supply system for its moving elements, while the crank consists of three parts interconnected by screws.

The disadvantages of the prototype are:

- the implementation of the crank of three parts, which complicates the design of the mechanism, and the places of attachment of the parts to each other weaken the design of the crank, and it is in these places that the knife drive mechanism breaks down, operating under conditions of significant dynamic loads and impacts;

- lack of a channel for supplying lubricant to a needle bearing operating in difficult conditions;

- structurally irrational fixation of the bevel gear wheels, because however, the absence of axial play during operation of the mechanism is not guaranteed;

- structurally irrational fixation of the drive shaft, because during the operation of the mechanism, this unit is heated to a temperature of about 100 ° C, in connection with which the shaft lengthens, which results in axial movement of the elements of the drive shaft and, accordingly, the bevel gear mounted on this shaft;

- in turn, the presence of axial displacement of both gears of the conical pair is the reason for the rapid failure of this gear, because the transmission does not work in the optimal mode for which it was designed.

The objective of the present invention is to develop a new design of the drive mechanism of the knife with the achievement of the technical result - improving the reliability of the device.

The task is carried out by the fact that in the "Knife Drive Mechanism", which includes a housing in which a drive shaft is mounted on two bearings with a pulley and a drive gear of a bevel gear mounted on it and an eccentric driven shaft is mounted on two bearings with a bevel gear driven on it gears and a crank with a finger, and the crank is mounted on needle and ball bearings, and on it is made a gear ring of a planet gear of a planet gear, the gear wheel of which is mounted in the housing a mustache, while the bearing is mounted on the crank finger, and the device is equipped with a lubricant supply system for its moving elements, the bevel gear is fixed in the form of rigid fixation of each bevel gear from axial two-way movement relative to the housing, while the bevel gears are located next to the support bearings rigidly mounted in the housing, the crank with a finger is made in the form of one part, and in the eccentric driven shaft there is a channel for supplying grease to the needle bearing In this case, the lubricant supply system has a compensation channel, in addition, relative to the housing, rigid axial fixation of the bevel gear located on the drive shaft is provided by abutting the wheel hub through the hub into the thrust ring-shaped protrusion on the drive shaft and by stopping the wheel neck through the washer into the bearing of the drive shaft by tightening the nut, while rigidly fixing the outer ring of the bearing in the housing is provided by abutting against the protrusion of the housing and pressing the cover, and relatively rigid Axial fixing of the bevel gear located on the driven shaft in the axial direction is ensured by tightening and abutting the nut located on the driven shaft into the wheel hub and by stopping the neck of the wheel through the washer into the inner ring of the driven shaft bearing, while this bearing is rigidly fixed relative to the housing made by abutting the outer ring of the bearing into a flange on the housing on one side and a wedge-shaped ring mounted in a wedge-shaped groove, on the other hand, while the compensation channel is made with the ability to relieve excess pressure.

New in the claimed technical solution is to increase the reliability of the device due to the implementation of the crank in the form of one part, rigid fixation of both gears of the bevel gear, which eliminates their axial movement, and therefore, eliminates accelerated wear during operation, as well as by organizing the supply of lubricant to all mobile nodes and parts of the device.

The essential features of the claimed device that match the prototype are the following features:

- housing;

- a drive shaft with a bevel gear and an eccentric shaft with a crank and planetary gear are installed in the housing;

- the drive shaft is mounted on two bearings;

- a pulley and a first bevel gear are located on the drive shaft;

- the eccentric driven shaft is mounted on two bearings;

- on the eccentric driven shaft are the driven gear of the bevel gear and a crank with a finger;

- the crank is mounted on needle and ball bearings;

- on the crank is made of a gear ring gear planetary gear of a planetary gear;

- the gear of the planetary gear is fixed in the housing;

- a bearing is mounted on the crank pin;

- the device is equipped with a system for supplying lubricant to its moving elements.

Distinctive from the prototype of the essential features of the claimed device are the following features:

- fixation of the bevel gear is made in the form of rigid fixation of each bevel gear from bilateral axial movement relative to the housing;

- the gear rims of the bevel wheels are located next to the thrust bearings, rigidly fixed in the housing;

- the crank with a finger is made in the form of one part;

- in the eccentric driven shaft, a channel is made for supplying lubricant to the needle bearing;

- The lubrication system has a compensation channel.

Private distinctive from the prototype of the essential features of the claimed device are the following features:

- relative to the housing, the axial rigid fixation of the bevel gear located on the drive shaft is provided by abutting the wheel hub against the ring located in the drive shaft groove by tightening the nut, while the outer bearing ring in the housing is rigidly fixed by abutting the protrusion case and pressing cover;

- relative to the housing, rigid fixation in the axial direction of the bevel gear located on the driven shaft is ensured by tightening and abutting the nut located on the driven shaft into the wheel hub and by stopping the neck of the wheel through the washer into the inner ring of the bearing of the driven shaft, while rigidly fixing this the bearing relative to the housing is made by abutting the outer ring of the bearing into a flange on the housing on one side and a wedge-shaped ring mounted in a wedge-shaped groove on the other hand;

- the compensation channel is configured to discharge excess pressure.

Between the essential features of the claimed utility model and the achieved technical result, there is the following causal relationship.

Indeed, increasing the reliability of the device is achieved by performing a crank in the form of a single part, rigid fixation of both gears of the bevel gear, which eliminates their axial movement, and therefore, eliminates accelerated wear during operation, as well as by organizing the supply of lubricant to all moving nodes and device details.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, with the identification of sources containing information about analogues of the claimed technical solution, allows us to establish that the applicant has not identified analogues that are identical to the claimed device.

Therefore, it can be argued that the claimed invention meets the eligibility condition by the criterion of "novelty."

This technical solution has an inventive step, because in the aggregate of all the essential features specified in the claims, they do not explicitly follow from the prior art for a specialist.

In addition, the invention is industrially applicable, since the claimed technical solution allows it to be used in the design and manufacture of components and parts of drives of cutting apparatuses.

The possibility of carrying out the claimed invention is confirmed by the following description of its practical implementation and is illustrated by the drawing, which shows a section of the claimed device.

The knife drive mechanism includes a housing 1, in which a drive shaft 2 is mounted on two bearings 3 and 4.

On the drive shaft 2, the pulley 5 and the drive gear 6 of the bevel gear 7 are strengthened.

In the housing 1 is installed an eccentric driven shaft 8 on two bearings 9 and 10.

On the driven shaft 8, the driven gear 11 of the bevel gear 7 and the crank 12 with the finger 13 are installed.

The crank 12 is mounted on a needle 14 and ball 15 bearings and a gear ring 16 of a planet gear gear 17 of the planetary gear 18 is made on it.

The gear wheel 19 of the planetary gear 18 is mounted in the housing 1.

A bearing 20 is mounted on the finger 13 of the crank 12.

The device is equipped with a lubricant supply system 21 to its movable elements.

In the claimed device, the fixation of the bevel gear 7 is made in the form of a rigid fixation of each bevel gear 6 and 11 from two-sided axial movement relative to the housing 1.

The gear rims 22 and 23 of the bevel gears 6 and 11, respectively, are located next to the thrust bearings, 3 and 9, respectively, rigidly fixed in the housing 1.

The crank 12 with the finger 13 is made in the form of one part, and in the eccentric driven shaft 8 there is a channel 24 for supplying lubricant to the needle bearing 14, while the lubricant supply system 21 has a compensation channel 25, which is configured to relieve excess pressure.

Relative to the housing 1, the axial rigid fixation of the bevel gear 6 located on the drive shaft 2 is provided by abutting the hub 26 of the wheel 6 into the ring 27 located in the groove 28 of the drive shaft 2 by tightening the nut 29, while the outer ring is rigidly fixed bearing 3 in the housing 1 is provided by abutting against the protrusion of the housing 1 and pressing the cover 30.

Relative to the housing 1, a rigid axial fixation of the bevel gear 11 located on the driven shaft 8 is provided by tightening and abutting the nut 31 located on the driven shaft 8 into the hub 32 of the wheel 11 and by stopping the journal 33 of the wheel 11 through the washer 34 into the inner ring bearing 9 of the driven shaft 8, wherein the rigid fixation of this bearing 9 relative to the housing 1 is made by abutting the outer ring of the bearing 9 into a flange on the housing 1 on one side and a wedge-shaped ring 35 installed in the wedge-shaped groove 36 of the housing 1, s nother side.

The supply of lubricant to the channels of the lubrication system 21 is carried out through a grease nipple 37.

Based on the foregoing, we can conclude that the task set in the present invention, the development of a new design of the knife drive mechanism, is achieved with the achievement of a technical result - improving the reliability of the device.

Claims (4)

1. The drive mechanism of the knife, including a housing in which the drive shaft is mounted on two bearings with a pulley and a bevel gear mounted thereon and an eccentric driven shaft on two bearings with a bevel gear driven on it and a crank with a finger, the crank is mounted on needle and ball bearings, and on it is made a gear ring of the planetary gear-satellite gear, the gear wheel of which is fixed in the housing, while the crank pin is mounted bearing, and the device is equipped with a lubricant supply system for its movable elements, characterized in that the bevel gear fixation is made in the form of rigid fixation of each bevel gear from axial bilateral movement relative to the housing, while the bevel gears are located next to the thrust bearings, rigidly fixed in the housing, the crank with the finger is made in the form of one part, and in the eccentric driven shaft there is a channel for supplying lubricant to the needle bearing, while the system lubricant supply has a compensation channel. 2. The knife drive mechanism according to claim 1, characterized in that relative to the housing, rigid axial fixing of the bevel gear located on the drive shaft is provided by abutting the wheel hub in the ring located in the drive shaft groove by tightening the nut, this rigid fixation of the outer ring of the bearing in the housing is provided by abutting in the protrusion of the housing and pressing the cover. 3. The knife drive mechanism according to claim 1, characterized in that relative to the housing, rigid axial fixing of the bevel gear located on the driven shaft is ensured by tightening and abutting the nut located on the driven shaft into the wheel hub and stop the wheel journal through a washer into the inner ring of the bearing of the driven shaft, while rigidly fixing this bearing relative to the housing by abutting the outer ring of the bearing into a flange on the housing on one side and a wedge-shaped ring mounted in the wedge prominent groove on the other side. 4. The knife drive mechanism according to claim 1, characterized in that the compensation channel is configured to discharge excess pressure.

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