RU97236U1 - WORKING BODY OF A SOIL PROCESSING UNIT AND SPHERICAL DISK OF SUCH WORKING BODY - Google Patents

Abstract

 1. The working body of the soil cultivating unit, comprising a spherical disk mounted rotatably on a stand obliquely to a vertical plane, and a bearing assembly provided with a housing with a cover and including an axis of the bearing assembly and a sealing device, characterized in that the bearing assembly is located with an external (convex ) the sides of the spherical disk, and the bearing housing in the middle part has a disk-shaped flange, with which the housing is rigidly connected to the spherical disk so that the front part of the housing CA is “recessed” in the inner part of the spherical disk and is closed by a lid, while on the axis of the bearing assembly there is one angular contact double row ball bearing of the closed type, and the sealing device is located behind the ball bearing and contains a collar with a shoulder located on the axis of the bearing assembly, a double-spring cuff and a cup-shaped anther, which forms a labyrinth between the collar of the sleeve, the end of the housing and the outer part of the housing adjacent to the anther, while the rack in the upper part is provided with an axis with a lead for cr captured by the tillage unit and is detachable, for which the upper part of the post is rigidly fixed on the shaft with the carrier by means of fixing elements, and the lower part of the post is formed with an opening, which also via fasteners rigidly attached bearing assembly axis. ! 2. The spherical disk of the working body of the tillage unit, made in the form of a convex metal disk with a flat edge or with curly notches along the edge and with sharpening of the cutting edge, characterized in that the central part of the spherical

Description

The utility model relates to agricultural engineering, in particular to disk working bodies of tillage implements such as disk aggregates, harrows, tillering machines, etc., intended for post-harvest soil cultivation, for stubble cultivation, for primary cultivation of old arable lands and heavy soddy soils, for loosening the soil, destroying weeds and chopping crop residues, as well as for caring for meadows.

Known disk working body of a tillage machine according to the patent for invention RU 2297125, IPC АВВ 49/02; A01B 23/06; publication date 2007.20.04. The disk working body of this machine consists of a rack, a spherical disk and a unit for attaching the rack to the disk. The mounting unit of the rack to the spherical disk includes a bearing housing located on the concave side of the spherical disk, on which two brackets are rigidly fixed with a gap for placing the rack in it. The lower end of the strut abuts against the bearing housing and is rigidly fixed with fasteners to the brackets. Accurate and reliable installation of the bearing housing to the rack is ensured by milling planes, joints of the bearing housing, mounting brackets and racks (see FIG. 3 of the invention RU 2297125). This design of the mount of the rack to the spherical disk is difficult to manufacture, leads to an increase in the number of technological operations, requires additional equipment and devices, which, as a result, leads to an increase in the complexity of manufacturing the working body, reduces maintainability. Moreover, the location of the bearing unit in the working area (from the concave side) leads to a decrease in the reliability of the disk working body. In case of failure during operation of the parts of the working body, difficulties arise when they need to be quickly replaced, since in the conditions of repair and mechanical workshops they are complex and laborious to manufacture. All this leads to a downtime of the unit, and, therefore, reduces its reliability and ease of use.

Known working body of the disk harrow according to the certificate for utility model RU 75820, IPC АВВ 21/08; publication date 2008.27.08, selected as the closest analogue. The working body of the disk harrow contains a rack, a bearing assembly and a spherical disk having an angle of inclination to a vertical plane, while the vertical axis of the rack passes through the lower point of the diameter of the disk. The rack of the working body in the upper part is equipped with a sleeve with a leash, the sleeve is rigidly fixed to the rack by welding, made in the hole or in the holes of the sleeve in the form of a rivet. The bearing unit is equipped with a cylindrical housing rigidly connected to the rack. Inside the housing, on its stepped belts, angular contact bearings (roller conic, as seen from FIG. 1 of the description of the closest analogue of RU 75820) bearings, mounted on an axis with a flange that is rigidly connected to a spherical disk, are counter-mounted. A labyrinth is formed between the flange and the end of the housing. A sealing collar is installed in front of the bearing closest to the disk, while the other bearing is fixed on the axis with a washer and nut with a stopper, and the bearing assembly is closed with a threaded cover. The cover of the bearing assembly is screwed into the housing; the thread direction coincides with the direction of the working rotation of the disk. In this case, the bearing assembly is located on the inner (concave) side of the spherical disk.

This working body of a disk harrow has the following disadvantages:

Firstly, the bearing assembly is located on the inside, i.e. from the concave side of the spherical disk, and therefore in the working area with shock loads. This leads to a decrease in the reliability of the device.

Secondly, the stand is rigidly fixed to the housing of the bearing assembly using a pair of brackets, which, as in the previous analogue of RU 2297125, complicates the manufacture and repair of the bearing assembly. The design of the rack mount assembly is complex and time-consuming to manufacture, requires additional technological operations (milling), i.e. low-tech.

Thirdly, since the bearing assembly is completely in the working area, and due to the use of two open angular contact bearings, the overall dimensions of the assembly are increased, the free distance (clearance) between adjacent disks is reduced, which can lead to clogging of this clearance, winding crop residues and weeds on the part of the working body, while the disks rotate with stops (jamming), and also reduces the reliability and deteriorates the quality of the soil is deteriorating.

Fourth, inside the housing, on its stepped belts, two open angular contact (tapered roller) bearings are installed counter, due to which the overall dimensions of the assembly are increased, the use of bearings of this type requires precise adjustment and lubrication, which reduces the reliability of operation, ease of use and maintenance.

Fifth, a labyrinth with short channels is formed between the flange and the end of the body and a sealing cuff is installed. Such a sealing device does not effectively protect the bearing assembly from ingress of dirt and foreign bodies, which can lead to the rapid destruction of open bearings, and, consequently, the reliability of the bearing assembly.

Sixth, since the rack in the upper part is integral, since a sleeve with a lead is rigidly fixed on it by welding, fast replacement of the rack when it breaks is impossible, which reduces the ease of use.

Also known is a disk for a tillage implement according to the certificate for utility model RU 46620, IPC 7 АВВ 7/00, priority 2005.04.03, selected as the closest analogue. The disk for the tillage implement is made of metal sheet material curved around the sphere. The disk has a sharpening around the perimeter. The diameter of the disc is 560 mm. The disk is heat-treated over the entire surface to a hardness of HRC 48-52 units with a thickness of 6 mm or to a hardness of HRC 39-41 units with a thickness of 8 mm, while the radius R of the sphere is 635 mm and sharpening is made at an angle of 30 ° to the axis of rotation of the disk. The perimeter disk can be made either without cutouts, or with semicircular cutouts with a radius of 47.5 mm, as well as with six holes for mounting bolts located at an angle of 5 ° 30 '± 30' to the axis of rotation, while the holes are made along circles with a radius of 60 mm.

The disadvantage of this disk for a tillage implement is that the disk is curved over the entire surface of the sphere and does not have a flat area for attaching it to a support element, for example, a bearing assembly of the implement’s working body. This leads to the complexity and complexity of manufacturing parts of the supporting elements, in particular axes, flanges, etc. to mount the disk. Also, for drilling holes for mounting bolts in the disk and, accordingly, in the mating fastener at an angle of 5 ° 30 '± 30' to the axis of rotation, additional technological equipment and devices are needed. In general, all this leads to a decrease in the manufacturability of manufacturing and to an increase in the complexity of manufacturing a disc and a tillage implement as a whole. Moreover, the reliability of mounting the disk to the rack of the working body of the tillage implement is not high.

In addition, the use of small diameter discs of 560 mm and a sphere radius of 635 mm in tillage implements does not allow the soil to be processed at high speeds. And also when processing soil with an uneven surface, the depth of field processing in the final result will not be uniform, since the disk will bend around all the irregularities (it will not cut off the surface irregularities). All this reduces the quality of tillage.

Another drawback of such a disc is that during operation it will experience the soil resistance forces arising on the working (inner) surface and the cutting edge and will absorb large loads, and since there is no additional reinforcing layer along the edge of the cutting edge, wear will occur cutting edge on the inner working surface (on the reverse side of the sharpening), which reduces the reliability of the disk of the working body.

The objective of the proposed technical solution is to increase the reliability of the working body of the soil cultivating unit and the quality of soil cultivation, as well as to increase the convenience of its operation, maintenance and maintainability by increasing manufacturability and reducing the complexity of manufacturing the disk and the working body as a whole.

The essence of the utility model lies in the fact that in the working body of the tillage unit containing a spherical disk mounted on a rack inclined to a vertical plane and a bearing assembly provided with a housing including an axis of the bearing assembly and a sealing device,

it is proposed to arrange the bearing assembly on the outer (convex) side of the spherical disk and to make it so that the bearing housing in the middle part has a disk-shaped flange with which it is rigidly connected to the spherical disk so that the front part of the housing is “recessed” in the inner part of the spherical the disk and is closed by a cover, while on the axis of the bearing assembly one angular contact double row ball bearing of a closed type is installed,

it is proposed that the sealing device be arranged so that it is located behind the ball bearing and contains a collar with a collar located on the axis of the bearing assembly, a two-spring cuff and a cup-shaped anther that forms a labyrinth between the collar of the collar, the end of the housing and the outer part of the housing adjacent to the anther,

It is proposed for fastening to the tillage unit that the rack in the upper part be equipped with an axis with a leash and removable, for which the upper part of the rack is rigidly fixed to the axis with a leash using fasteners, and the lower part of the rack is made with a hole in which it is also rigidly fastened fixed axis of the bearing assembly.

The essence of the utility model also lies in the fact that in the spherical disk of the working body of the tillage unit, made in the form of a convex metal disk with a flat edge or with curly notches along the edge and with sharpening of the cutting edge, it is proposed that the disk be truncated in the central part to form a flat platform for fastening to the bearing assembly of the working body, while the spherical disk is made with an external diameter of 570 ÷ 630 mm, with a radius of curvature of the disk of 700 ± 5 mm and a diameter of a flat surface -discharge was 160 ÷ 190 mm.

A reinforcing layer, the hardness of which exceeds the hardness of the material from which the disk is made, can be made along the edge of the spherical disk of the working body of the tillage implement.

In the proposed working body of the tillage unit, the location of the bearing assembly on the outer (convex) side of the spherical disk, i.e. its removal from the working area with shock loads, provides increased reliability of the working body and wear resistance of the bearing assembly. In addition, the mounting of the bearing assembly in such a way that the front of the housing is "recessed" in the inner part of the spherical disk and is closed by the lid also increases the reliability. This occurs due to an increase in the clearance from the rack to the adjacent disk, which reduces the likelihood of clogging this gap, winding up plant debris and weeds on the part of the working body, and hence the likelihood of unintended unit stops for cleaning them. At the same time, spherical discs rotate freely without stops, therefore, the tillage will be uniform and uniform in width and depth, and, therefore, the quality of the tillage is improved.

The installation of an angular contact double-row ball bearing of the closed type on the axis of the bearing assembly increases the reliability of the working body, the convenience of its operation and maintenance, since the use of closed bearings does not require lubrication and precise adjustment, and this type of bearing has a double-sided tight seal for protection against dust water and mud.

The implementation of the sealing device behind the ball bearing in the form of a collar with a collar, a double spring cuff and a cup-shaped anther, forming a long labyrinth between the collar of the collar, the end of the housing and the outer part of the housing adjacent to the anther, completely protects the bearing assembly from dust, dirt and foreign bodies . This reduces maintenance costs, extends the life of bearings, and, consequently, increases the reliability of the node.

The implementation of the rack working body of a tillage implement removable increases the convenience of its operation, maintenance and maintainability. Due to the fact that in the upper part the rack is equipped with an axis with a leash and is rigidly fixed to it with the help of fasteners, for example bolts, nuts, etc., and the lower part of the rack is made with a hole in which also with fasteners (nut , bracket, etc.), the axis of the bearing assembly is rigidly fixed, it becomes possible to quickly replace a failed assembly or part. To do this, you only need to remove the fasteners and retainers (straps, brackets), i.e. produce a minimum of locksmith work.

In the proposed working body of the tillage unit, the spherical disk is made in such a way that the central part of the disk is truncated and forms a flat platform for attachment to the bearing assembly of the working body, which makes it possible to increase the level of manufacturability and fasteners by simplifying the manufacture of the fastening elements of the disk to the bearing assembly of the working body. All this helps to reduce the complexity of manufacturing a spherical disk and simplifies the design of the mating support elements of the bearing assembly (housing flange and cover). Also, the presence of a flat platform in the central part of the disk allows the disk to be mounted on the bearing element of the bearing assembly (housing flange) and the protective cover using standard fasteners (for example, bolts), the axes of which are parallel to the axis of rotation of the disk, which increases the reliability of the disk and, therefore, increases the reliability of the entire working body of the tillage unit.

The implementation of a spherical disk with an external diameter of 570 ÷ 630 mm, with a radius of curvature of the disk of 700 ± 5 mm and a diameter of a flat platform of 160 ÷ 190 mm, improves the manufacturability of the working body. The diameter of the flat platform, comprising 160 ÷ 190 mm, provides reliable fastening of the spherical disk to the bearing assembly of the working body due to the possibility of placing the optimal number of standard fasteners (bolts).

In addition, the use of these parameters in the tillage aggregate of disks (with a diameter of 570 ÷ 630 mm, a radius of curvature of the disk of 700 ± 5 mm) allows the soil to be processed at high speeds, which increases its productivity, while the degree of soil crumbling increases. Also, when processing a field with an uneven surface, such a disk will cut off the unevenness of the soil, the depth of field processing in the final result will be uniform over the entire width of the field, the surface of the field will be leveled, which improves the quality of soil treatment.

Performing along the edge of the spherical disk from the inside of the reinforcing layer, the hardness of which exceeds the hardness of the metal from which the disk is made, increases the wear resistance of the working cutting edge of the disk and thereby eliminates the possibility of its premature exit from the working state. All this increases the service life of the disk working body and improves the quality of processing.

Figure 1 shows the inventive working body of the tillage unit, side view. Figure 2 shows the bearing assembly of the working body of the tillage unit and the mounting axis of the bearing assembly to the bottom of the rack, section AA in figure 1. Figure 3 shows the fastening of the upper part of the rack of the working body of the tillage unit, section BB in figure 1. Figure 4 shows the spherical disk of the working body of the tillage unit. Figure 5 shows a section bb in figure 4. Figure 6 shows a fragment G of the cutting edge of the spherical disk in figure 5.

The working body of the soil cultivating unit shown in figures 1, 2 and 3 contains a spherical disk 1 mounted on a rack 2 inclined to the vertical plane and a bearing assembly 3 provided with a housing 4. The assembly 3 includes an axis 5 of the bearing assembly 3 and a sealing device 6 .

The bearing assembly 3 is located on the outer (convex) side of the spherical disk 1. The housing 4 of the bearing assembly 3 in the middle has a disk-shaped flange 7 with which it is rigidly connected to the spherical disk 1. The front of the housing 4 is “recessed” in the inner part of the spherical disk 1 and closed with a protective cover 8. In the housing 4 on the axis 5 of the bearing assembly 3 is installed one angular contact double row ball bearing 9 of the closed type. Behind the ball bearing 9 there is a sealing device 6. The sealing device 6 contains a sleeve with a shoulder 10 located on the axis 5 and fixing the ball bearing 9, a double spring cuff 11 and a cup-shaped anther 12, which forms a labyrinth 13 between the shoulder of the sleeve 10, the end of the housing 4 and the outer part housing 4 adjacent to the anther 12.

Stand 2 of the working body is removable. To do this, the upper part of the rack 2 is equipped with an axis 14 with a leash 15 for attachment to a tillage unit (not shown in the figures) and is rigidly fixed to the axis 14 with the help of fasteners - a retaining plate 16, bolts 17 and a nut 18 with a washer 19, and the lower part the strut 2 is made with a hole in which also with the help of fasteners - brackets 20 and washers 21 with nut 22 the axis 5 of the bearing assembly 3 is rigidly fixed.

The spherical disk of the working body of the tillage unit, shown in figures 4, 5, is a convex metal disk 23 with curly recesses 24 along the edge and sharpening 25 of the cutting edge 26.

The central part of the spherical disk is truncated and forms a flat platform 27 for attachment to the bearing unit of the working body (see figure 2)

The spherical disk 23 is made with an outer diameter of D = 570 ÷ 630 mm in the form of a truncated sphere with a radius of curvature R = 700 ± 5 mm and a diameter d of a flat platform 27 of 160 ÷ 190 mm.

The specific dimensions depend on the destination of the drive. For example, the use of a spherical disk with an outer diameter of D = 620 mm, a radius of curvature R = 700 ± 5 mm allows the soil to be processed at high speeds, while the degree of crumbling of the soil increases, the surface of the field is leveled, which improves the quality of soil treatment. Also, such a disk showed itself well in the treatment of old arable land and heavy soddy soils and as a tiller.

The use of a disc with an outer diameter of D = 570 mm and a radius of curvature R = 700 ± 5 mm allows post-harvest soil treatment.

To increase the wear resistance of the working cutting edge 26 along the edge from the inner side 28 of the disk 23 there is a reinforcing layer 29, as shown in Fig.6. The reinforcing layer 29 has a hardness above HRC 60 units, exceeding the hardness of the material from which the disk 23 is made, while the disk 23 is made of steel 65G and has a hardness of 48 to 52 units.

The working body of the tillage unit with a spherical disk works as follows.

The working body is pivotally mounted on the tillage implement (not shown in the figures) using the axis 14 with the lead 15. On the axis 14, the upper part of the rack 2 is rigidly fixed with bolts 17 with the retaining plate 16 and the nut 18 with the washer 19. The lower part struts 2 are rigidly fixed to the axis 5 of the bearing assembly 3 with the help of fasteners - brackets 20 and washers 21 with nut 22.

Quickly, firmly and reliably, which is ensured by the presence of a flat platform 27 (see Figs. 4, 5), they fix the spherical disk 1 to the disk-shaped flange 7 of the housing 4 of the bearing assembly 3 using fasteners, for example, bolts (not shown in the figures) located in the holes of the flat platform 27 and the flange 7, while the front of the housing 4 is “recessed” in the inner part of the spherical disk 1. At the same time, the front of the housing 4 of the bearing assembly 3 is closed on the inside of the spherical disk 1 by a cover 8, which protects the bearing vy assembly from ingress of dirt and dust casing. After that, the working body of the tillage unit is ready for work. Similarly, all working bodies are assembled and installed on a tillage implement.

Racks 2 of the working bodies due to the rigid fastening of the upper end to the axis 14 are mounted on the unit frame with the possibility of rotation, which allows you to set the optimal angle of attack of the spherical disks 1. Due to the curved shape of the rack 2, the spherical disk is mounted obliquely to the vertical plane. The spherical disk 1 rotates freely around the axis 5 of the bearing assembly 3.

As a rule, working bodies with spherical disks are mounted on the tillage unit in rows along the entire working width and with the same angle of attack in a row.

Before starting work, the angle of attack of the working body is established depending on the required depth of tillage, working conditions and type of soil. Adjusting the angle of attack by turning the axis 14 of the working body through a leash 15.

In the process of moving the tillage unit forward due to the fact that the working bodies are installed with an angle of attack and with an inclination to a vertical plane, for example 12 °, the spherical discs 1 move around the field, performing a rotational movement.

Due to the movement of the spherical disk 1 on the surface of the field under the influence of the mass of the tillage aggregate, it easily cuts into the soil (also thanks to sharpening 25). The cutting edge 26 of the disk 23 with the sharpening 25 provided with a reinforcing layer 29 effectively cuts and raises the soil layer, crumbles it, partially wraps it and takes it to the side, while there is active mixing, the required depth of loosening and the degree of crumbling is provided. Directly with a cutting edge 26, the disk 23 cuts the soil and crop and crop residues, experiencing resistance and stress when meeting with solid inclusions. Figured recesses 24 along the edge of the disk 23 improve the crushing of the earth, as well as cutting and throwing plant debris (roots, small stumps, etc.) onto the soil surface.

Making a complex rotational movement, the spherical disk 1 of the working body experiences the action of elementary soil resistance forces arising on the working surface 28 and the cutting edge 26, i.e. operates under load transmitted to the bearing assembly. The angular contact double row ball bearing 9 of the closed type copes well with these loads, as it has a double margin of safety. In the process, it is not necessary to lubricate the ball bearings 9 of the closed type and adjust, while the sealing device 6 and the cover 8 effectively protect the housing 4 of the bearing assembly 3 from ingress of dust, dirt and foreign bodies. All this increases the reliability of operation, ease of operation and maintenance. In the process, there is no clogging of gaps between adjacent disks, plant debris and weeds are not wound on parts of the working body, spherical disks 1 rotate without stops, which also increases the reliability of work and the quality of soil cultivation.

Thus, the claimed technical solution provides increased reliability of the working body of the tillage implement and the spherical disk of such a working body, as well as improving the quality of tillage and improving the usability, maintenance and maintainability of the tillage unit by increasing the manufacturability and reducing the complexity of manufacturing the disk and the working body in whole.

Claims (3)

1. The working body of the soil cultivating unit, comprising a spherical disk mounted rotatably on a stand obliquely to a vertical plane, and a bearing assembly provided with a housing with a cover and including an axis of the bearing assembly and a sealing device, characterized in that the bearing assembly is located with an external (convex ) the sides of the spherical disk, and the bearing housing in the middle part has a disk-shaped flange, with which the housing is rigidly connected to the spherical disk so that the front part of the housing CA is “recessed” in the inner part of the spherical disk and is closed by a lid, while on the axis of the bearing assembly there is one angular contact double row ball bearing of the closed type, and the sealing device is located behind the ball bearing and contains a collar with a shoulder located on the axis of the bearing assembly, a double-spring cuff and a cup-shaped anther, which forms a labyrinth between the collar of the sleeve, the end of the housing and the outer part of the housing adjacent to the anther, while the rack in the upper part is provided with an axis with a lead for cr captured by the tillage unit and is detachable, for which the upper part of the post is rigidly fixed on the shaft with the carrier by means of fixing elements, and the lower part of the post is formed with an opening, which also via fasteners rigidly attached bearing assembly axis. 2. The spherical disk of the working body of the tillage unit, made in the form of a convex metal disk with a flat edge or with curly notches along the edge and with sharpening of the cutting edge, characterized in that the central part of the spherical disk is truncated and forms a flat platform for attachment to the bearing assembly of the working body, while the spherical disk is made with an external diameter of 570 ÷ 630 mm, with a radius of curvature of the disk of 700 ± 5 mm, and a diameter of a flat area of 160 ÷ 190 mm. 3. The spherical disk of the working body of the tillage aggregate according to claim 2, characterized in that the edge of the inner side of the disk is equipped with a reinforcing wear-resistant layer.